MNM-10646-01-B ENG, Miura Service Manual Rev B [PDF]

I.S.E. – Sistemi Intelligenti Elettronici Miura Miura 200 Random Access Analyser Service Manual I.S.E. S.r.l. – Italy

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I.S.E. – Sistemi Intelligenti Elettronici

Miura Miura 200 Random Access Analyser

Service Manual

I.S.E. S.r.l. – Italy Roma

MNM-10646-01-B Rev.B ENG

MIURA & MIURA 200 – Service manual

Section i

INTRODUCTION

i.1

Identification Data

Section i INTRODUCTION

This document is the Service Manual of the instruments named MIURA and MIURA 200. Both of them are random access automatic analysers. This document must be considered a guide for maintenance and for service operations carried out on instrument MIURA and MIURA 200 by authorized and qualified technical personnel trained by the Producer or by entitled dealer. Service engineers and maintenance technicians must read carefully every section of this manual before to undertake any operation. This manual wants to be only a reference aid as technicians need to join training held by authorized personnel. The producer doesn’t take on any responsibility about partial and unauthorized copies of this document. This manual has been written and produced with the utmost care; however errors cannot be fully excluded. The producer doesn’t take on any responsibility or due about every kind of incidents that may occur from mistakes in the manual. The service must contact the distributor or the producer in case of doubts or necessity.

i.1.1  

Document code: Document revision:

MNM-10646-01-B B



Revision date:

April 30, 2010

i.1.2  

i.1.3 

i.2

Document

Instruments MIURA: MIURA 200:

p/n 10001-xx-A p/n 10674-xx-A (xx=version)

Producer I.S.E. S.r.l. Via delle Driadi, 45 00133 Roma – Italy Phone: +39 06 20610289 Fax: +39 06 2018131 E-mail: [email protected] WEB: www.logotech-ise.com

Copyright

The content of this document, the pictures, the tables and the graphics included, is intellectual property of I.S.E. S.r.l. Unauthorized copies, total or partial, could cause legal actions in order to preserve owner’s interests.

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Section i INTRODUCTION

International and European Prescriptions

The MIURA and MIURA 200 instruments complies the following directive:  Directive IVD 98/79/CE - In-Vitro Diagnostic Medical Devices

i.4

Purpose of This Document

This document is the service manual of the automatic “random access” analysers MIURA and MIURA 200. It is addressed to service engineers and qualified technicians trained by the Producer or by authorized personnel (in the following named as “operator”) to carry on service operations on instruments MIURA and MIURA 200. For instrument calibration and service software description refer to I.S.E. S.r.l. special document code MNM10800-01-A ENG, MiuraServer SW Manual for Calibration – last revision. NOTE: information included in this manual allows a correct service of the instrument just in the case the operator has attended a specific training course held by the Producer.

i.5

Use of This Manual

The producer recommends the operators to read carefully all sections of this manual taking into particular consideration notes, used for specifying or deepening a concept discussed before, and warnings, used to highlight possible risks or dangers. It is also required a good knowledge of the MIURA User Manual and MIURA 200 User Manual. Notes and warnings have been written in bold character. NOTE: any information regarding Theory of Operation, Functions, Performances, Operating Procedures and User Interface Software Menu Descriptions, refer to the MIURA User Manual – last revision or to MIURA 200 User Manual – last revision.

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Section i INTRODUCTION

List of Contents

Section i INTRODUCTION......................................................................................................................................2 i.1 Identification Data.................................................................................................................................................2 i.1.1 Document.....................................................................................................................................................2 i.1.2 Instruments...................................................................................................................................................2 i.1.3 Producer.......................................................................................................................................................2 i.2 Copyright...............................................................................................................................................................2 i.3 International and European Prescriptions.............................................................................................................3 i.4 Purpose of This Document....................................................................................................................................3 i.5 Use of This Manual...............................................................................................................................................3 i.6 List of Contents.....................................................................................................................................................4 i.7 List of Figures........................................................................................................................................................9 Section 1 SAFETY....................................................................................................................................................12 1. Safety Prescriptions.............................................................................................................................................12 1.1. General Instructions...................................................................................................................................12 1.2. Labelling....................................................................................................................................................12 1.3. Safety Precautions......................................................................................................................................16 1.3.1. Installation........................................................................................................................................16 1.3.2. Transport and Storage......................................................................................................................16 1.4. Risks During Use.......................................................................................................................................16 1.4.1. Risks for the Operator......................................................................................................................16 1.4.2. Safety Information for the Operator................................................................................................16 1.4.3. Information on Liquids and Infected Parts......................................................................................16 1.4.3.1. Treatment.....................................................................................................................................17 1.4.3.2. Waste Materials...........................................................................................................................17 Section 2 INSTALLATION.....................................................................................................................................18 2. Description of the Instrument..............................................................................................................................18 2.1. Supplied Parts.............................................................................................................................................20 2.2. Installation Requirements..........................................................................................................................20 2.2.1. Software............................................................................................................................................20 2.3. Storing the Instrument...............................................................................................................................20 2.4. Unpacking the System...............................................................................................................................21 2.4.1. Unpacking the Instrument................................................................................................................21 2.4.2. Removal of Sampling ARMs’ Clamps (for MIURA only).............................................................23 2.4.3. Unpacking MIURA Floor-stand (Option)........................................................................................23 2.4.4. Electrical Connections.....................................................................................................................24 2.4.5. Main Steps to Follow During Instrument Installation.....................................................................24 2.4.6. Electrical Connections and Stabilizer..............................................................................................28 2.4.7. External Fuses..................................................................................................................................28 2.4.8. Fittings and Consumables................................................................................................................28 2.4.8.1. Liquid Solutions for MIURA......................................................................................................28 2.4.8.2. Liquid Tanks................................................................................................................................29 2.5. Software and Firmware Installation or Upgrade.......................................................................................31 2.5.1. General Description..........................................................................................................................31 2.5.2. Procedure for Software First Installation.........................................................................................31 2.5.3. Instrument Parameters......................................................................................................................32 2.5.3.1. Recover Instrument Parameters..................................................................................................32 2.5.4. Procedure for Automatic Software Upgrade...................................................................................32 2.5.5. Procedure for Manual Firmware Upgrade.......................................................................................34 2.5.6. User Data..........................................................................................................................................34 2.5.6.1. Manual Managing of User Data..................................................................................................34 2.6. 4-channel ISE Module (option).................................................................................................................35 2.6.1. ISE Module Installation...................................................................................................................35 2.6.1.1. Connections.................................................................................................................................36 2.6.2. ISE Module Solutions and Consumables.........................................................................................36

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Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS..............................................................38 3. The MIURA System............................................................................................................................................38 3.1. MIURA Unit P/N 10034-01-E...................................................................................................................42 3.2. Schematics and Part Lists for MIURA Unit Sub-assemblies and Wirings..............................................55 3.2.1. OPP Power Supply Assembly P/N 10369-00-A..............................................................................55 3.2.1.1. OPP MAINPS Wiring, P/N 10057-00-A.....................................................................................58 3.2.2. OPP Controller Assembly P/N 10016-00-C....................................................................................60 3.2.2.1. OPP Controller Mother Board P/N 10030-00-C.........................................................................65 3.2.2.2. CNT Power Supply P/N 10028-01-A Ver.01..............................................................................66 3.2.2.3. MAIN Controller Ver.01 P/N 10012-01-D.................................................................................67 3.2.2.4. RW Controller P/N 10012-04-C..................................................................................................69 3.2.2.5. ARM1 Controller P/N 10012-02-C.............................................................................................71 3.2.2.6. ARM2 Controller P/N 10012-03-C.............................................................................................73 3.2.3. Step Motor Driver – 2X1.5A, All Versions, P/N 10002-xx-A........................................................75 3.2.4. LHP Power Board, P/N 10762-00-A................................................................................................78 3.2.5. OPP S&R Assembly, P/N 10220-00-B............................................................................................80 3.2.5.1. Opto Sensor Ver.00 P/N 10045-00-A.........................................................................................83 3.2.5.2. 1.75NM 1.8 Motor Assy P/N 10039-00-A..................................................................................84 3.2.5.3. LM35 Temp Sensor Ver.01, P/N 10050-01-B............................................................................85 3.2.5.4. OPP 100M3 MGND Jumper P/N 10410-00-A...........................................................................86 3.2.5.5. OPP MGND Brush P/N 10413-00-A..........................................................................................87 3.2.5.6. BarCode Reader...........................................................................................................................88 3.2.6. OPP ARM1 Assembly, P/N 10198-00-A.........................................................................................89 3.2.6.1. 0.48NM 1.8 Motor Assy P/N 10041-00-A..................................................................................91 3.2.6.2. 0.43NM 1.8 Motor Assy P/N 10252-00-A..................................................................................92 3.2.6.3. Opto Sensor, All Versions P/N 10045-xx-A...............................................................................93 3.2.6.4. OPP ARM Module P/N 10205-01-C...........................................................................................94 3.2.7. OPP ARM2 Assembly, P/N 10200-00-A.........................................................................................95 3.2.7.1. 0.48NM 1.8 Motor Assy P/N 10041-00-A..................................................................................97 3.2.7.2. 0.43NM 1.8 Motor Assy P/N 10252-00-A..................................................................................98 3.2.7.3. Opto Sensor, All Versions P/N 10045-xx-A...............................................................................99 3.2.7.4. OPP ARM Module P/N 10205-01-C.........................................................................................100 3.2.8. OPP R&W Assembly Ver.01, P/N 10208-01-A............................................................................101 3.2.8.1. OPP Cuvette Assembly, P/N 10210-01-A................................................................................104 3.2.8.1.1. 1.17NM 1.8 MOTOR ASSY P/N 10040-00-A..................................................................107 3.2.8.1.2. Opto Sensor, All Versions P/N 10045-00-A......................................................................108 3.2.8.1.3. LM35 Temp Sensor Ver.01 P/N 10050-02-A....................................................................109 3.2.8.1.4. Incubation Heater Strip Assy P/N 10043-00-A.................................................................110 3.2.8.1.5. 12-BIT Miura Encoder P/N 10747-00-A...........................................................................111 3.2.8.1.6. Photodiode Module P/N 10011-00-B.................................................................................112 3.2.8.2. OPP Optical Group Ver.01, P/N 10212-01-A...........................................................................114 3.2.8.2.1. 20W Halogen Lamp Assy, P/N 10749-00-A.....................................................................117 3.2.8.2.2. 1.17NM 0.9 MOTOR ASSY, P/N 10042-00-A.................................................................119 3.2.8.2.3. Opto Sensor Ver.00 P/N, 10045-00-A...............................................................................120 3.2.8.2.4. Interferential Filters............................................................................................................121 3.2.8.3. OPP Washing Station, P/N 10211-00-A...................................................................................122 3.2.8.3.1. 0.20NM 1.8 MOTOR ASSY, P/N 10055-00-A.................................................................127 3.2.8.3.2. Opto Sensor Ver.00 P/N, 10045-00-A...............................................................................128 3.2.8.4. OPP 100M3 MGND Jumper P/N 10410-00-A and OPP 100M4 MGND Jumper...................129 3.2.9. OPP Pumps & Drivers, P/N 10217-00-E.......................................................................................130 3.2.9.1. Power Driver Module - 9x1A, P/N 10006-00-C.......................................................................134 3.2.9.2. SR10_30 Pump Assy Ver.01, P/N 10060-01-A........................................................................135 3.2.9.3. 38ML SR10_30 Pump Assy, P/N 10638-00-A.........................................................................136 3.2.9.4. NF10 Pump Assy, P/N 10059-00-A..........................................................................................137 3.2.9.5. APN20 Pump Assy, P/N 10947-00-A.......................................................................................138 3.2.9.6. Buzzer Assy, P/N 10058-00-A..................................................................................................139

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3.2.9.7. OPP Pumps & Drivers Wiring, P/N 10514-00-A.....................................................................140 3.2.10. ARM Diluter Assembly Ver.00 (ARM1), P/N 10358-00-C..........................................................142 3.2.11. ARM Diluter Assembly Ver.01 (ARM2), P/N 10358-01-C..........................................................144 3.2.12. ISE Module Assembly, P/N 10726-00-A (Option)........................................................................145 3.2.13. 24V Fan Assy, P/N 10110-00-A....................................................................................................148 3.2.14. 12V Fan Assy, P/N 10111-00-A....................................................................................................149 3.2.15. 12V 60x60 Fan Assy, P/N 10112-00-A.........................................................................................150 3.2.16. Cover Reed Sensor, P/N 10570-00-A............................................................................................151 3.2.17. ZRP Aspiration Pump Ver.00, P/N 10938-00-A and ZRP Aspiration Pump Ver.01, P/N 1093801-A 152 3.2.18. OPP ON-OFF Breaker Ver.00, P/N 10368-00-A..........................................................................153 3.2.19. OPP ON-OFF Breaker Ver.01, P/N 10368-01-A..........................................................................154 3.2.20. Wirings of the Unit.........................................................................................................................155 3.2.20.1. OPP VDCPS-TB Wiring, P/N 10159-00-A.............................................................................155 3.2.20.2. Cooler Fans Wiring, P/N 10113-00-A.....................................................................................157 3.2.20.3. OPP 24VDC AND AUXPS Wiring, P/N 10161-00-C............................................................159 3.2.20.4. OPP ARM Ver.00 Wiring, P/N 10204-00-B...........................................................................163 3.2.20.5. RS232 FS9F Cable Assy, P/N 10162-00-A.............................................................................165 3.2.20.6. OPP Photodiode Wiring, P/N 10148-00-B..............................................................................167 3.2.20.7. 10X-FLAT Ver.00 Wiring, P/N 10145-00-A..........................................................................169 3.2.20.8. 10X-FLAT Ver.01 Wiring, P/N 10145-01-A..........................................................................171 3.2.20.9. 10X-FLAT Ver.02 Wiring, P/N 10145-02-A..........................................................................173 3.2.20.10. OPP ISE Module Wiring, P/N 10165-00-A (Option)............................................................175 3.2.20.11. OPP MOTDRV Wiring, P/N 10146-00-A.............................................................................177 3.2.20.12. OPP Sensor Wiring, P/N 10153-00-B....................................................................................179 3.2.20.13. LHP Power Wiring, P/N 10940-00-A....................................................................................182 Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS.....................................................185 4. The MIURA 200 System...................................................................................................................................185 4.1. MIURA 200 Unit P/N 10706-01-E..........................................................................................................189 4.2. Schematics and Part Lists for MIURA Unit Sub-assemblies and Wirings............................................202 4.2.1. OPP Controller Assembly P/N 10016-01-C..................................................................................202 4.2.2. OPP Pumps & Drivers Ver.01, P/N 10217-01-E...........................................................................208 Section 5 MAINTENANCE...................................................................................................................................212 5. Generalities........................................................................................................................................................212 5.1. General Rules...........................................................................................................................................212 5.1.1. Cleaning..........................................................................................................................................212 5.1.2. Disinfection....................................................................................................................................212 5.1.2.1. Instrument Disinfection.............................................................................................................213 5.1.2.2. Metallic Probes Disinfection.....................................................................................................213 5.1.2.3. Waste Tubing Disinfection........................................................................................................213 5.1.2.4. Charge Tubing Disinfection......................................................................................................213 5.1.2.5. Washing Station Needles Disinfection.....................................................................................213 5.1.2.6. Waste Tank Disinfection...........................................................................................................213 5.1.2.7. Systemic Solution Tank Cleaning.............................................................................................213 5.1.2.8. Cleaner Solution Tank Cleaning...............................................................................................214 5.2. Safety Precautions....................................................................................................................................214 5.3. Periodic Maintenance Plan......................................................................................................................215 5.3.1. Daily Maintenance Scheduling......................................................................................................215 5.3.2. Weekly Maintenance Scheduling..................................................................................................215 5.3.3. Cuvette Rotor Maintenance Scheduling........................................................................................215 5.3.4. Two Months Maintenance Scheduling..........................................................................................216 5.3.5. Six Months Maintenance Scheduling............................................................................................216 5.3.6. One Year Maintenance Scheduling...............................................................................................216 5.4. ISE Module Maintenance Scheduling.....................................................................................................217 5.4.1. Scheduling for LOW VOLUME Users..........................................................................................217 5.4.1.1. Daily Maintenance Scheduling.................................................................................................217

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5.4.1.2. One Months Maintenance Scheduling......................................................................................217 5.4.1.3. Six Months Maintenance Scheduling........................................................................................218 5.4.1.4. One Year Maintenance Scheduling...........................................................................................218 5.4.2. Scheduling for HIGH VOLUME Users.........................................................................................218 5.4.2.1. Daily Maintenance Scheduling.................................................................................................218 5.4.2.2. One Months Maintenance Scheduling......................................................................................218 5.4.2.3. Six Months Maintenance Scheduling........................................................................................219 5.4.2.4. At 3,000 samples Maintenance Scheduling..............................................................................219 5.4.2.5. At 10,000 samples Maintenance Scheduling............................................................................219 5.4.2.6. One Year Maintenance Scheduling...........................................................................................219 5.5. Maintenance Procedures..........................................................................................................................220 5.5.1. Generalities.....................................................................................................................................220 5.5.2. Reading Cuvettes Replacement.....................................................................................................220 5.5.2.1. Single Cuvette Replacement.....................................................................................................221 5.5.3. Peristaltic Pump Heads Replacement............................................................................................222 5.5.4. Photometer Lamp Replacement.....................................................................................................224 5.5.5. Sampling Probes Replacement.......................................................................................................225 5.5.6. Interchangeability of Diluters in Older Systems...........................................................................226 5.5.6.1. Replacing OLD Diluter(s) in OLD Systems running OLD Software Version.........................226 5.5.6.2. Replacing OLD Diluter(s) in OLD Systems Running NEW Software Version......................227 5.5.6.3. Replacing NEW Diluter(s) in an NEW Systems......................................................................228 5.5.6.4. Modifications of Characteristic Parameters in case of OLD Diluter(s) Replacement............228 5.5.7. Aspiration and Tip Pumps: Interchangeability..............................................................................232 5.5.8. Washing Sink Aspiration Pump: Interchangeability.....................................................................234 5.5.9. ISE Module Maintenance Procedure.............................................................................................235 5.5.10. Reagent Pack Replacement............................................................................................................235 5.5.11. Electrodes Replacement.................................................................................................................237 5.5.12. Electrodes Storage..........................................................................................................................238 5.5.12.1. Troubleshooting Low Slope, Noise and Drift Error or Other ISE Module Issues..................239 5.5.13. Optical Group – Main Steps for Filters Calibration......................................................................241 Section 6 TESTING PERFORMANCE...............................................................................................................246 6. General...............................................................................................................................................................246 6.1. Formulas...................................................................................................................................................246 6.2. Test of the Photometer: Accuracy and Imprecision................................................................................248 6.3. Test of Pipetting: Accuracy & Imprecision............................................................................................250 6.4. Test of the Incubation Temperature........................................................................................................252 Section 7 PROBLEM SOLVING..........................................................................................................................254 7. Introduction........................................................................................................................................................254 7.1. Auto-diagnosis System............................................................................................................................254 7.2. Main Failures and Corrective Actions.....................................................................................................254 7.3. Performance Messages.............................................................................................................................259 7.3.1. Error Messages and Actions Required...........................................................................................260 Section 8 ADDITIONAL INFORMATION.........................................................................................................271 8. Parts for Maintenance and Service....................................................................................................................271 8.1. Spare Parts and Consumables..................................................................................................................271 8.2. Technical Assistance Kits for Service.....................................................................................................275

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Section i INTRODUCTION

List of Figures

Figure 1: Instruments’ Label........................................................................................................................................12 Figure 2: Electrical Risk Label....................................................................................................................................13 Figure 3: Electrical Risk Icons....................................................................................................................................13 Figure 4: Laser Light Risk Label.................................................................................................................................13 Figure 5: Laser risk Icon..............................................................................................................................................13 Figure 6: Moving Part Risk Label...............................................................................................................................14 Figure 7: Potentially Infected Area Label...................................................................................................................14 Figure 8: Biological Risk Icon.....................................................................................................................................14 Figure 9: Generic Risk Icon.........................................................................................................................................15 Figure 10: Potentially Infected Tank Label................................................................................................................15 Figure 11: MIURA, floor-standing version.................................................................................................................18 Figure 12: MIURA 200................................................................................................................................................19 Figure 13: MIURA, ARMs’ Clamp.............................................................................................................................23 Figure 14: Power Block and Main Line Protection Fuses..........................................................................................28 Figure 15: Charging and Waste Tanks........................................................................................................................30 Figure 16: Charging/Waste Tanks Connections..........................................................................................................30 Figure 17: Beginning of Auto FW Upgrade................................................................................................................33 Figure 18: Auto FW Upgrade Alert.............................................................................................................................33 Figure 19: Auto FW Upgrade Conclusion...................................................................................................................33 Figure 20: ISE Module, location into the instrument (behind the front panel)..........................................................35 Figure 21: ISE Module, Reagent Pack connection.....................................................................................................36 Figure 22: Side Panel and Internal Fuses....................................................................................................................42 Figure 23: Main Switch Block.....................................................................................................................................55 Figure 24: OPP Power Supply Assembly....................................................................................................................56 Figure 25: OPP MAINPS Wiring, P/N 10057-00-A...................................................................................................58 Figure 26: OPP Controller Assembly - Front View....................................................................................................60 Figure 27: OPP Controller Assembly - Back View, Connectors to Unit Wirings.....................................................61 Figure 28: OPP Controller Mother Board - Front View.............................................................................................65 Figure 29: CNT Power Supply....................................................................................................................................66 Figure 30: MAIN Controller Board.............................................................................................................................68 Figure 31: Read&Wash Controller..............................................................................................................................70 Figure 32: ARM1 Controller.......................................................................................................................................72 Figure 33: ARM2 Controller.......................................................................................................................................74 Figure 34: Step Motor Driver......................................................................................................................................75 Figure 35: Step Motor Drivers, Fixing Points.............................................................................................................76 Figure 36: Step Motor Drivers Array..........................................................................................................................77 Figure 37: LPH Power board.......................................................................................................................................78 Figure 38: LHP Power Board......................................................................................................................................79 Figure 39: S&R Assembly, top view...........................................................................................................................80 Figure 40: S&R Assembly, bottom left side view......................................................................................................80 Figure 41: S&R Assembly, bottom rear view.............................................................................................................81 Figure 42: Opto Sensor................................................................................................................................................83 Figure 43: Sample Wheel home sensor.......................................................................................................................83 Figure 44: Reagent Wheel home sensor......................................................................................................................83 Figure 45: 1.75NM 1.8 Motor Assy............................................................................................................................84 Figure 46: Sample Wheel Motor Assy, Fixing...........................................................................................................84 Figure 47: Reagent Wheel Motor Assy, Fixing..........................................................................................................84 Figure 48: Reagent Tray Temperature Sensor............................................................................................................85 Figure 49: OPP 100M3 MGND Jumper and its location...........................................................................................86 Figure 50: OPP MGND Brush and its location..........................................................................................................87 Figure 51: BarCode Reader.........................................................................................................................................88 Figure 52: BarCode Reader LEDs, Top View............................................................................................................88 Figure 53: ARM1 Assembly........................................................................................................................................89

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Figure 54: 0.48NM 1.8 Motor Assy............................................................................................................................91 Figure 55: ARM1 X-axis Motor Assy.........................................................................................................................91 Figure 56: 0.48NM 1.8 Motor Assy............................................................................................................................92 Figure 57: ARM1 Y-axis Motor Assy.........................................................................................................................92 Figure 58: Opto Sensor................................................................................................................................................93 Figure 59: ARM1 Home Sensors.................................................................................................................................93 Figure 60: OPP ARM Module.....................................................................................................................................94 Figure 61: ARM2 Assembly........................................................................................................................................95 Figure 62: 0.48NM 1.8 Motor Assy............................................................................................................................97 Figure 63: ARM2 X-axis Motor Assy.........................................................................................................................97 Figure 64: 0.48NM 1.8 Motor Assy............................................................................................................................98 Figure 65: ARM2 Y-axis Motor Assy.........................................................................................................................98 Figure 66: Opto Sensor................................................................................................................................................99 Figure 67: ARM2 Home Sensors.................................................................................................................................99 Figure 68: Optical Measurement Functional Diagram.............................................................................................101 Figure 69: R&W Assembly, shown without cuvettes during calibration................................................................102 Figure 70: R&W Assembly, front side view.............................................................................................................102 Figure 71: Cuvette Assembly, Top, Side & Bottom Views – Without cover..........................................................104 Figure 72: 1.17NM 1.8 Motor Assy..........................................................................................................................107 Figure 73: Cuvette Motor Assy.................................................................................................................................107 Figure 74: Opto Sensor..............................................................................................................................................108 Figure 75: Cuvette Wheel Home Sensors.................................................................................................................108 Figure 76: LM35 Temp Sensor Ver.02.....................................................................................................................109 Figure 77: Cuvette Wheel temperature sensor and Thermostat...............................................................................109 Figure 78: Incubation Heater Strip............................................................................................................................110 Figure 79: Heater Strip..............................................................................................................................................110 Figure 80: 12-BIT Encoder........................................................................................................................................111 Figure 81: 12-BIT Miura Encoder.............................................................................................................................111 Figure 82: Photodiode Module..................................................................................................................................112 Figure 83: Photodiode Module Replacing Procedure...............................................................................................113 Figure 84: Photometer................................................................................................................................................114 Figure 85: OPP Optical Group, back view................................................................................................................114 Figure 86: 20W Halogen Lamp Assy........................................................................................................................117 Figure 87: 20W Halogen Lamp.................................................................................................................................117 Figure 88: 1.17NM 0.9 Motor Assy..........................................................................................................................119 Figure 89: Filter Wheel Stepping Motor...................................................................................................................119 Figure 90: Opto Sensor..............................................................................................................................................120 Figure 91: Sample Wheel home sensor.....................................................................................................................120 Figure 92: Washing Station.......................................................................................................................................122 Figure 93: Washing Station, Needles Configuration................................................................................................122 Figure 94: Washing Station Peristaltic Pumps (Included in OPP Pumps & Drivers)..............................................123 Figure 95: Washing Station Diaphragm Pumps (Aspiration + Drying)...................................................................123 Figure 96: 0.20NM 1.8 Motor Assy..........................................................................................................................127 Figure 97: Washing Station Stepping Motor.............................................................................................................127 Figure 98: Opto Sensor..............................................................................................................................................128 Figure 99: Washing Station Stepping Motor.............................................................................................................128 Figure 100: OPP 100M3 MGND Jumper..................................................................................................................129 Figure 101: 100M4 MGND Jumper..........................................................................................................................129 Figure 102: OPP Pumps & Drivers, “Connectors to Loads” Correspondence.........................................................130 Figure 103: Power Driver Module – 9x1A................................................................................................................134 Figure 104: SR10_30 Pump Assy Ver.01 and Ver.03..............................................................................................135 Figure 105: 38ML SR10_30 Pump Assy...................................................................................................................136 Figure 106: NF10 Pump Assy....................................................................................................................................137 Figure 107: APN20 Pump Assy.................................................................................................................................138 Figure 108: APN20 PumpAssy – Washing Sink Pump...........................................................................................138 Figure 109: Buzzer Assy............................................................................................................................................139

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Figure 110: ARM Diluter Assembly Ver.00 (ARM1)..............................................................................................142 Figure 111: ARM Diluter Assembly Ver.01 (ARM2)..............................................................................................144 Figure 112: ISE Module.............................................................................................................................................145 Figure 113: 24V Fan Assy, on the instrument base..................................................................................................148 Figure 114: 24V Fan Assy, on the power channel....................................................................................................148 Figure 115: 12V Fan Assy, under the LHP Power Board.........................................................................................149 Figure 116: 12V60x60 Fan Assy, under the Reagent tray........................................................................................150 Figure 117: Cover sensor, magnet on the cover........................................................................................................151 Figure 118: ZRPAspiration Pumps............................................................................................................................152 Figure 119: OPP ON-OFF Breaker Ver.00 and Ver.01............................................................................................153 Figure 120: OPP VDCPS-TB Wiring, P/N 10159-00-A...........................................................................................155 Figure 121: Cooler Fans Wiring, P/N 10113-00-A...................................................................................................157 Figure 122: OPP 24VDC AND AUXPS Wiring, P/N 10161-00-C..........................................................................160 Figure 123: OPP ARM Ver.00 Wiring, P/N 10204-00-B.........................................................................................163 Figure 123:.................................................................................................................................................................164 Figure 124: RS232 FS9F Cable assy, P/N 10162-00-A............................................................................................165 Figure 125: OPP Photodiode Wiring, P/N 10148-00-B............................................................................................167 Figure 126: 10X-Flat Ver.00 Wiring, P/N 10145-00-A............................................................................................169 Figure 127: OPP ISE Module Wiring, P/N 10165-00-A...........................................................................................175 Figure 128: OPP MOTDRV Wiring, P/N 10146-00-A.............................................................................................177 Figure 129: OPP Sensor Wiring, P/N 10153-00-B (two parts).................................................................................180 Figure 130: LHP Power Wiring, P/N 10940-00-A....................................................................................................183 Figure 131: Side Panel and Internal Fuses................................................................................................................189 Figure 132: OPP Controller Assembly Ver.01 - Front View....................................................................................202 Figure 133: OPP Controller Assembly Ver.01 - Back View, Connectors to Unit Wirings.....................................204 Figure 134: OPP Pumps & Drivers Ver.01, “Connectors to Loads” Correspondence.............................................208 Figure 135: Cuvette Replacement.............................................................................................................................220 Figure 136: Peristaltic Pump Heads Placement........................................................................................................222 Figure 137: Pumps and Loads Connection to Power Boards (back-view)...............................................................223 Figure 138: Photometer Lamp Replacement.............................................................................................................224 Figure 139: Sampling Probe Replacement................................................................................................................225 Figure 140: ISE Module, Outline..............................................................................................................................235 Figure 141: ISE Module, Reagent Pack replacement...............................................................................................236

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Section 1

SAFETY

1.

Safety Prescriptions

Section 1 SAFETY

The operator must strictly observe all prescriptions included in the Section 1 – Safety of the MIURA or MIURA 200 – User Manual when using the instrument and its consumable/ disposable materials and servicing on it. ISE s.r.l. is not liable for any Warranty obligations should any modifications (on hardware and software) have been made to the product without ISE S.r.l.’s express written consent.

1.1.

General Instructions

Every note and warning included in this manual, highlighted in bolt and/or underlined characters, must be read carefully. During service the qualified technician must follow every precautions referring to good laboratory practice (GLP).

1.2.

Labelling

Marking of instrument The following label is placed on the right-rear part of the instrument, close to main-switch, and shows: the producer’s name, the instrument type, the instrument part number, the instrument serial number, the supply and consumption specifications, the type of protection fuses and the year of production. Moreover the label informs the operator that the fuses must be replaced by other ones of the same type and value in order to protect the instrument and avoid risk of fire. The symbol CE indicates the conformity of the instrument, and of the parts where it is applied, to the essential safety requirements according to the corresponding European directives.

Figure 1: Instruments’ Label Electrical Hazard The following label is placed on the instrument. a) two of the following label are placed on the instrument, one on the removable back panel and the other one on the removable right side panel; they inform the operator about the potential electrical risk associated with opening the panels.

Figure 2: Electrical Risk Label

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b)

Section 1 SAFETY

the following label (icons) are placed inside the instrument, on the AC/DC power supplies area, to inform the qualified technician about the potential electrical risk.

Figure 3: Electrical Risk Icons Laser Light Hazard The following labels are placed on the instrument. a) This label is placed inside the instrument, on the barcode reader, to warn and advise the qualified technician about the laser source characteristics.

Figure 4: Laser Light Risk Label b)

This label (icon) is placed near the sampling ARM of the instrument and informs the user or the qualified technician about the presence of a laser source below, inside the instrument.

Figure 5: Laser risk Icon Moving Parts Hazard The label is placed on the front part of the instrument and it informs the user about the risk associated with certain moving parts within the working area of the instrument: sampling probe and washing station.

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Figure 6: Moving Part Risk Label Bio-hazard Area This label is placed on the working area. It informs the user of the potential risk of biological contamination from infected liquids in the area.

Figure 7: Potentially Infected Area Label Bio-hazard liquids Four of these labels (icons) are placed on the instrument: one is near the waste outlet of the instrument, one on the washing station cover and two on each of the sampling ARMs. The label informs the user of the possible contamination from infected liquids or probe.

Figure 8: Biological Risk Icon Generic Hazard Two similar symbols (icon) are placed on the instrument: one on the protection cover and one on the plexiglass protection of the step motor driver. It informs the user of the potential risk associated with opening the protection and with residual probe movements. This icon informs that there is a risk associated to the operation, that the user is going to execute and, consequently, it is necessary to carefully follow the proper instructions mentioned in this manual.

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Figure 9: Generic Risk Icon Potentially infected tank label This label is placed on the external waste tank. It informs the user of the possible biological contamination related to the waste tank.

Figure 10: Potentially Infected Tank Label

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1.3.

Section 1 SAFETY

Safety Precautions

The instrument must be always and permanently grounded; it is provided with a three conductor sheated cable to be connected to single-phase sockets from 100Vac to 240Vac with frequency range from 47Hz to 63Hz. WARNING When possible and applicable maintenance operations must be carried out with the instrument OFF and with the power supply cable disconnect from the socket.

1.3.1.

Installation

For installation refer to the next section.

1.3.2.

Transport and Storage

To transport the instrument use always the original packing. For preserving the instrument read carefully the paragraph 10.6 – Storage Environment Requirements of the MIURA or MIURA 200 User Manual.

1.4.

Risks During Use

The producer reminds the operator that the use of the instrument doesn’t exclude the exposure to contamination risk, so it must be always considered as potentially infected. The producer assumes that all precautions and recommendations, normally used in a laboratory, are followed. NOTE: To avoid risks during operation, don’t modify the instrument or any part of the system itself.

1.4.1.

Risks for the Operator

The operator must observe the following prescriptions to avoid risks:  Don’t eat, drink or smoke near the instrument.  Wear the gown, especially when close to the instrument.  Wear protection glasses and gloves to handle samples, reagents and potentially contaminated parts of the instrument.

1.4.2.

Safety Information for the Operator

The manufacturer declares that all internal parts of the instrument are designed and made so as to prevent all possible risks for the operator, in accordance with established legislation and according to the rule EN 61010-1. It is essential, for the safety of the operator, to install an emergency switch not beyond than 1m from the instrument.

1.4.3.

Information on Liquids and Infected Parts

The use of the instrument doesn’t assure the absence of exposures to biological risk. The producer informs the operator that each of the parts of the instrument that can get in touch with blood, serum or other biological liquids, controls and/or reagents included, must be always treated like potentially infected materials. WARNING The instrument must be always considered like potentially infected.

1.4.3.1.

Treatment

Biological samples (serum, plasma, urine,…) and reagents or controls, if not explicitly declared by their manufacturers, must be always considered potentially infected; consequently, in order to avoid any contact, the operator must treat them wearing the following protections:

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 Gown.  Mono-use Latex Gloves.  Safety glasses. The operator must be particularly careful when treating the following parts of the instrument:  Washing station.  Sampling probes.  All needles and the tip of the washing station.  Waste tank.  Cuvettes wheel.  Washing sink for the sampling probes. These parts are in contact with biological liquids and can be contaminated. Refer to section 8 of the User Manual for correct disinfection procedure. Every tool and instrument used for the technical service must be disinfected after use and before packing away.

1.4.3.2.

Waste Materials

Every waste material, both liquid and solid, must be disposed off according to the local laws and rules. WARNING Every waste material must be always considered potentially infected. Parts of the instrument that have been replaced must be treated like potentially infected. Parts of the instrument out of order must be treated like potentially infected. WARNING Discharges and replaced instrument’s materials, that could be contaminated, must be sterilized, first to go out from the customer laboratory. The dispose off of the instrument must be executed in conformity with the national rules, with reference to the local environment authority, considering that it is built with materials not dangerous for the environment.

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Section 2

INSTALLATION

2.

Description of the Instrument

Section 2 INSTALLATION

MIURA and MIURA 200 are random access auto-analyzers designed to operate in safety mode and with the maximum productivity in accordance with the latest manufacturing standard and in conformity with the actual international normative. MIURA is available in two base versions: for bench-top installation and floor-standing. The second version provides the installation of the instrument on a specific pedestal (option); it contains the tanks for charging liquids, used by the machine for the normally operation, and for the waste. It also accommodates the management PC and to the A4format printer.

Figure 11: MIURA, floor-standing version MIURA 200 is available in bench-top version only. MIURA and MIURA 200 differ for the number of sampling ARMs and also for the throughput:  MIURA is equipped with two sampling ARMs.  MIURA 200 adopts only one sampling ARM (the throughput is one half of the Miura’s) The MIURA/MIURA 200 software application must be installed on an external PC, provided of LCD monitor, mouse and keyboard; it allows the complete control of the instrument through a RS-232 serial link. The instrument working area is protected by a protection cover. It includes the samples and the reagents tray and the sampling ARMs; the reaction cuvettes wheel is on the right. Cuvette wheel temperature is constantly maintained at 37°C. Reagents can be refrigerated at about 13°C ±2°C. On the instrument cabinet, right frontal side, are placed two switches, one for the electronic control of the instrument (green colour) and the other for the refrigeration unit (blue colour). The ON/OFF status of the refrigerator is completely separated and independent from the ON/OFF status of the electronic and from the ON/OFF status of the PC. A built-in barcode reader (option) allows the positive identification of reagent bottles and of sample tubes, when barcoded. The software controls also marginal events in order to operate in safety conditions within the working area.

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Figure 12: MIURA 200 NOTE: In the following of this Manual it will be mentioned only MIURA standing for both MIURA and MIURA 200. Conclusions will be valid for both systems unless otherwise stated or advised.

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2.1.

Section 2 INSTALLATION

Supplied Parts

Refer to the User Manual of the instrument.

2.2.

Installation Requirements

To achieve a correct installation of the instrument the operator must observe and respect each of the mechanical and environment constrains listed in the following of this document; only in this case the correct operation of the system is assured. Mechanical Constrains MIURA must be exclusively used indoor and not outdoor. MIURA must be installed on a horizontal flat surface not subject to vibrations (i.e.: centrifuges,…). The workbench (min. 150cm long and 80 cm deep) must be stable to avoid unwanted oscillations and auto-vibrations, indeed it must accept 100kg on its surface. MIURA floor-standing version must be installed on a horizontal flat floor not subject to vibrations, as for bench-top version, and far away from vibration sources. Environment Constrains The room where the instrument is installed should have air conditioning system to obtain constant temperature and constant relative humidity. Avoid to place the instrument to the direct sunlight. The operating environment temperature is included in the range +18°C ÷ +32°C. The maximum operating relative humidity is 80% at +31°C with linear fall to 65% at 32°C. The instrument must be located far away from electromagnetic wave sources (such as big electric motors, lifts, therapeutic equipment, X-Ray machines). The instrument can be situated next a wall, not closer than 15cm so to have enough free space at back to allow the correct fan cooling operation and the opening of the cover. In order to allow easy operations around the bench-top version, the operator must provide enough space for the monitor, the keyboard and the mouse and an underlying flat plane for the management PC. The instrument should be placed to help the handling of 25lt waste tank to the discharge point. Note: before to unpack the instrument for installation, all of the mechanical and environment constrains must be verified.

2.2.1.

Software

The MIURA software is an application developed expressly for this instrument in order to run it under Windows XP® operating system. This application must be used only for monitoring and control the MIURA instrument. A special section of the software is available to the service operator only for service purposes (mechanical calibrations, controls, motion commands, etc.); it can be accessed using a special and “confidential” user ID and password. Those should be never told to the final user and must be carefully saved by the technical personnel belonging on service department.

2.3.

Storing the Instrument

The instrument must be stored solely in its original packing box and in a dry environment.

2.4.

Unpacking the System

Before proceeding to unpack the instrument, all of the mechanical and environment constrains must be verified. The instrument MIURA is generally sent closed in a wooden box to give the maximum protection during transportation in normal conditions. In case the instrument must be moved or re-delivered always use the original package. The management PC is packed separately from instrument and together with the MIURA accessories in another wooden box. MIURA double-door floor-stand, when part of the supply, is delivered in a separate wooden box.

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2.4.1.

Section 2 INSTALLATION

Unpacking the Instrument

A minimum of two people are required to unpack and to take out the instrument from the box.



Remove all screws that fix the clips of the box top cover by using a manual or an automatic phillips screwdriver. Remove that clips and save them for re-use.



Remove the box top cover.



Unscrew all screws (if any) fixing the clips of the box walls to the box base. Remove the clips and save them for re-use.

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Carefully lift up and remove the side walls of the box.

 

Take out the protective film from the instrument. Loosen up the four nuts locking the clamps on the wooden base by using a couple of metric spanner keys #17; then completely unscrew the four big hexagon socket screws (one at each angle of the base) fixing the instrument to the clamps by using the proper Allen key.



Extract the four hidden shifting handles, integrated in the base of the instrument, lift it up and place it on the working bench (if bench-top version) or on its stand (if floor-standing version).



Place monitor, keyboard and mouse of the PC on the workbench and the CPU close to the instrument (if bench-top version). Or (if floor-version), place monitor, keyboard and mouse of the PC on the console-tables of the stand and the CPU, and eventually the printer, inside the stand itself.

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 

Section 2 INSTALLATION

Control that all parts listed in the packing list are there. Control that the instrument serial number is the same reported ”on the packing list”; if different, write a note about the problem.

NOTE: Store the original box in case you want to store or to move the instrument.

2.4.2.

Removal of Sampling ARMs’ Clamps (for MIURA only)

Open the instrument cover and remove the clamps fixing the two sampler arms by using a nut driver (7mm, for M4 nut) and a phillips screwdriver. NOTE: Store the elements in case you will further pack or move the instrument again.

Figure 13: MIURA, ARMs’ Clamp

2.4.3.

Unpacking MIURA Floor-stand (Option)

A minimum of two people are required to unpack and to take out the MIURA double-door floor-stand from the box.

   

Remove all screws that fix the clips of the box top cover by using a manual or an automatic phillips screwdriver. Remove that clips and save them for re-use (refer to MIURA instrument unpacking). Remove the box top cover. Unscrew all screws that fix the clips of the box walls to the base. Remove that clips and save them for re-use (refer to MIURA instrument unpacking). Remove the foam side protection. Carefully lift up and remove the side walls of the box.

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Take out the protective film enveloping the floor-stand.



Cut and take away the strapping that fix the floor-stand on the base of the box.



Provide box assembling on a flat floor.

2.4.4.

Section 2 INSTALLATION

Electrical Connections

According to the safety prescriptions listed at the beginning of this manual, in order to reduce the electrical shock risk, the instrument must be grounded. The instrument is provided with a 3-conductor sheated power cable suitable for connection to 110Vac/230Vac supply inlets; selection of the operating voltage or frequency is not requested on the instrument; check only PC voltage selector for the correct setting. Plug one end of the power cable in the inlet placed in the rear side of the instrument, and the other end to 110/230Vac @ 50/60Hz wall socket equipped with ground connection. NOTE: MIURA cannot manage temporary power supply gaps. Consequently it is recommended to install an UPS, able to supply 1.0kW, to power both the instrument and the personal computer (PC).

2.4.5.

Main Steps to Follow During Instrument Installation

After having unpacked the instrument and prepared the work bench follow the steps below; some of them have been detailed in the following paragraphs:  Check instrument and accessories integrity.  Place the instrument on the work bench or on the floor-stand.  Remove protections.  Unpack the Personal Computer and its accessories; check and eventually set the PC Power Supply voltage selector to be compliant to the main line specification (110Vac or 220Vac).  Place the LCD monitor, the keyboard and the mouse of the PC on the workbench and the CPU close to the instrument for workbench installations

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Section 2 INSTALLATION

or Place the LCD monitor, the keyboard and the mouse of the PC on the consols and the CPU into the floorstand on the right side; on the left side place the tanks.

SYSTEMIC SOLUTION TANK

CLEANER TANK

WAST E TANK  

Connect the PC parts: CPU, monitor, keyboard, mouse and printer. Connect the PC to the MIURA instrument through the RS-232 serial cable.

Serial Cable    

Fill the Systemic tank, the 20-litres green one, with the Systemic Solution (actually composed by one 50ml vial of concentrated Systemic solution diluted into 20 litres of distilled water). Connect the tank to the MIURA instrument. Fill the Cleaner tank; the 5-litres blue one, with the Cleaner Solution (actually composed by 2-litres of Multiclean solution diluted into 3-litres of distilled water). Connect the tank to the MIURA instrument. Empty the Waste tank, the 25-litres red one, and connect it to the MIURA instrument. Install both the PC and the MIURA Instrument to the main line through a 1kW active-power UPS; check the ground connections and use the power cord supplied with the instrument (it has been tested at factory). Functional task

Type of connection

Serial Link Instrument/PC (not crossed)

RS-232, SUBD-9pin standard connectors

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        

Section 2 INSTALLATION

Functional task

Type of connection

Instrument power supply

3-poles IEC Socket 2-poles+ground Schuko Plug

Power Cord Power on the instrument. Power on the Personal Computer and wait for the Operating System running. Disable instrument Warming Up procedure following the instruction given during the training classes (in Opportunity.ini file). Power On the instrument and run only the MiuraServer program. Check the calibration of the positions for ARMx and cuvette wheel. Run a Refill cycle and an Optical Gain Calibration (verify and save the gains). Restore instrument Warming Up procedure by re-enabling it (in Opportunity.ini file). Run the MIURA software: the instrument will perform a complete hardware reset and it will enter the warming-up time only if the off time will be beyond 2 minutes. Wait for the end of the Warming Up (about 20 minutes) and check that the system will pass in the IDLE status waiting for commands.

The following Check List describes the actions that the technician must carry on in order to correctly install any Miura instrument. The following table can be used as a helping guide during common installation steps. We suggest to print it in more copies to be filled by the operator; a copy for each instrument installed must be issued and saved by the distributor after any installation.

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MIURAS/N:

Operator:

Site:

Date:

Action 1- Check instrument and accessories integrity 2- Place the instrument on the work bench or on the floor-stand. 3- Check the proper power supply voltage selection on the switch of the personal computer 4- Disable instrument Warming Up procedure following the instruction given during the training classes 5- Power On the instrument and run only the MiuraServer program 6- In each ARMx Position Panel verify “Wait”, “Empty”, “Washing” ARM positions. 7- In each ARMx Position Panel verify “Cuvette Wheel” ARM positions. 8- In each ARMx Position Panel verify samples (16x100, 12x75, sample cup coordinates) and reagents ARM positions. 9- In Reading Test panel verify the correct position of cuvette #1 under the optical path (middle) 10- Start a Refill Cycle (from the Cycle Control Panel) 11- Verify leaks or bubbles in the hydraulic circuit and the absence of washing station crashes 12- Run a “Start Read Cycle (Calibration)” (from the Cycle Control Panel) 13- Verify Autozero in the Untitled Window 14- Verify filter Gains and store them (“View Gains” + “Save Gains” in Reading Test Panel) 15- Close MiuraServer program from the Untitled Window (after eventual download of new coordinates) 16- Restore instrument Warming Up procedure, re-enabling it

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Status

□ done □ done □ 110Vac □ 230Vac □ done □ done □ done - □ modified □ done - □ modified □ done - □ modified □ done - □ modified □ done □ done - □ modified □ done □ done - □ rerun □ done - □ rerun □ done □ done

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2.4.6.

Section 2 INSTALLATION

Electrical Connections and Stabilizer

According to the safety prescriptions listed at the beginning of this manual the instrument must be grounded in order to reduce the electrical shock risk for the operator. Not only, overall performance of the MIURA System are assured only in case of proper ground connection. The instrument is provided with a 3-conductor sheated power cable suitable for connection to 110Vac/230Vac supply inlets; selection of the operating voltage or frequency is not requested nor necessary on the instrument, it is required only on the PC. Plug one end of the power cable in the inlet placed in the rear side of the instrument, and the other end to 110/230Vac @ 50/60Hz wall socket equipped with safety ground connection. NOTE: MIURA cannot manage temporary power supply gaps. Consequently it is strongly recommended to install an UPS, able to supply 1.0kW (active power), to power both the instrument and the personal computer (PC).

2.4.7.

External Fuses

Into the power supply block, placed in the left side of the instrument, there are two standard protection fuses 5x20mm, 10A/250V T-type (delayed). In case of power failure, it is possible to replace them by pulling out the 2-pole fuse-drawer. In that case disconnect first the power cord.

Figure 14: Power Block and Main Line Protection Fuses

2.4.8.

Fittings and Consumables

The standard accessories of the instrument are essential parts for a proper operation. The instrument must be connected to the three provided external tanks:  20lt tank: for the systemic solution needed to fill up the hydraulic circuits devoted to cuvettes washing (washing station) and to probe rinsing;  5lt tank: for the multi-cleaner solution used from the first needle of the washing station for the washing of cuvettes;  25lt tank: for the waste liquids. The connection between tanks and instrument will be discussed in the following paragraph. The cuvette tray (for reactions and readings) must be always provided with all of the 80 cuvettes in optical plastic (Bionex®); no position must be ever left without its own cuvette.

2.4.8.1.

Liquid Solutions for MIURA

MIURA systems need the following solution for normal and reliable operation: filled into the 20 litres tank (“green” colour).  Systemic Solution: filled into the 5 litres tank (“blue” colour).  Multi-Cleaner Solution: filled into 50ml reagent bottle type 1.  Rinse solution EW Cvt

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(for Cuvette Extra-washing): filled into 20ml reagent bottle type 2. Rinse solution EW Prb (for Probe Extra-washing): The Systemic Solution is supplied as concentrated solution into kits of 6 x 50ml vials each. Each 50ml vial content must be actually mixed and diluted with 20 litres of distilled water (the dilution ratio is then 1:400) in order to prepare the new 20 litres Systemic Solution to be poured into the apposite 20 litres tank (Green connections). The Systemic Solution must be purchased by I.S.E. S.r.l. Avoid the contact with the skin and with eyes; in case of contact with skin, wash immediately with plenty of water. Handle vials and pour into tanks by using gloves for hand protection and glasses for eyes protection. Note: refer to Systemic Solution Safety Data Sheet for correct handling and detailed complete information. 

The Cleaner Solution is supplied into 2-litres or 5-litres containers.  The 5-litres tank is ready to be used.  The 2-litres kit must be poured into the apposite 5 litres tank (Blue connections) together with 3-litres of bidistilled water. The Cleaner Solution must be purchased by I.S.E. S.r.l. The kit contains sodium hydroxide at 3,7%, it’s corrosive, and causes burnings. Use the solution for diagnostic only on MIURA System. Avoid the contact with the skin and with eyes; in case of contact with skin, wash immediately with plenty of water. Handle vials and pour into tanks by using gloves for hand protection and glasses for eyes protection. Note: refer to Cleaner Solution Safety Data Sheet for correct handling and detailed complete information. The Rinse solution EW Cvt is a special solution supplied into 6x50ml vials kit. It is ready to be used and it must be placed on the reagent tray. It is used by the system for the routine cuvette extra washing and, on-line, to avoid contaminations in case methods restrictions have been set. Avoid the contact with the skin and with eyes; in case of contact with skin, wash immediately with plenty of water. Handle vials and pour into tanks by using gloves for hand protection and glasses for eyes protection. Note: refer to Rinse solution EW Cvt Safety Data Sheet for correct handling and detailed complete information. The Rinse solution EW Prb is a special solution supplied into 6x20ml vials kit. It is ready to be used and it must be placed on the reagent tray. It is used on-line by the system for probe extra washing procedure to avoid contaminations in case methods restrictions have been set. Avoid the contact with the skin and with eyes; in case of contact with skin, wash immediately with plenty of water. Handle vials and pour into tanks by using gloves for hand protection and glasses for eyes protection. Note: refer to Rinse solution EW Prb Safety Data Sheet for correct handling and detailed complete information.

2.4.8.2.

Liquid Tanks

The MIURA needs the charge/waste tanks close to it; it is then possible to put them under the workbench (or into the floor-stand) on the left side.

20lt Systemic Solution Tank

5 lt Cleaner Solution Tank Figure 15: Charging and Waste Tanks

25lt Waste Tank

The following table shows the electrical connections between instrument and tanks:

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Tanks wiring Instrument Low level sensor of 20lt Systemic tank,  to be plugged into left green panel green male floating connector socket connector (Systemic) Low level sensor of 5lt Cleaner tank,  to be plugged into centre blue panel blue male floating connector socket connector (Cleaner) High level sensor of 25lt waste tank,  to be plugged into right red panel red male floating connector socket connector (Waste) The following table shows the hydraulic connections between instrument and tanks: Tanks wiring Instrument 20lt Systemic solution tank,  to be plugged into left panel fitting, (Systemic) green floating fitting 5lt Cleaner tank,  to be plugged into centre panel fitting, (Cleaner) blue floating fitting 25lt Waste tank,  to be plugged into right panel fitting, (Waste) red floating fitting

Figure 16: Charging/Waste Tanks Connections In the floor-standing version, tanks are accessible by opening the right door. Each tank is connected with the instrument. Wirings have been marked with different colours to facilitate connections; then, according to the picture above:  Red colour: for Waste tank, electric connector and hydraulic fitting;  Green colour: for Systemic solution tank, electric connector and hydraulic fitting;  Blue colour: for Cleaner solution tank, electric connector and hydraulic fitting.

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Software and Firmware Installation or Upgrade

For any software installation or upgrading and for any firmware upgrading, the operator must follow the instructions given in the last revision of the I.S.E. s.r.l. document code RPT-10654-00-x, “MIURA firmware and software upgrade procedure & Software first installation procedure” last revision. In the following sub-paragraphs part of this document, in the actual release, has been shown for user convenience.

2.5.1.

General Description

Firmware (FW) Instrument firmware is composed by a dedicated file (.bin) for each single controller board (i.e.: 4 Controller Boards for Mura and 3 for Miura 200). The upgrade is carried out through a special program called MSTool.exe. The collection of the firmware versions is stored in the main program path (usually c:\program files\Miura\Comunication\Firmwares, as described in the document RPT-10979-01-x, last revision. With “firmware” it is hereafter intended the code software of the instrument stored into the microcontroller boards (one for each board). Miura software (SW) Miura software upgrade or first installation can be performed through:  the program Miuraxxx.msi, that is the complete install package; or  the program MiuraUpdateVx.x.x.x.msi, that is an upgrading patch. Depending on the particular case, the producer will send one of the files above. Original files, used in the first installation at factory, are memorized in the cd-rom accompanying the instrument and in a backup folder under Windows® “Shared Documents”. With “software” it is hereafter intended the softwares of the system running on the personal computer (User Interface, Service/managing program, L.I.S. manager, …). For software and firmware installation and upgrade refer anyway to our document code “RPT-10654-01-x, Miura Aggiornamento FWSW” – Last revision.

2.5.2.

Procedure for Software First Installation

In order to install the Software of the instrument MIURA for the first time on a new PC, it is necessary to follow the procedure below: Install the software 1. Start the PC with the Miura instrument in Power OFF. 2. Disable any ScreenSaver and Power Management on Windows® Desktop Properties. 3. Start the Miuraxxx.msi and follow the instructions on the screen to install it up to the end. 4. At the end of installation click with the right mouse button on START and select Explore. 5. Check if the CD contains Miura software upgrades called MiuraUpdateVx.x.x.x.msi. (see chap. 6) 6. Begin to run the file with older version. Run all files one by one following the version order. 7. Restart the pc. The software is then ready to run but only “common” standard system parameters have been installed. To restore the proper mechanical system parameters (including calibration coordinates – of that particular instrument), see the following paragraph named “Instrument parameters”.

2.5.3.

Instrument Parameters

Note: The original copy of the instrument parameters has been memorized in the cd-rom accompanying the instrument and in a backup folder under Windows® “Shared Documents” into the PC. Miura and Miura 200 instrument parameters are memorized in several files, included in the folder Exe.

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Those files are:  arm1Config.dat  arm2Config.dat  content.fls  mConfig.dat  rwConfig.dat

2.5.3.1.

Recover Instrument Parameters

In case of need to recover system parameters, you must copy them from the cd-rom accompanying the instrument (or from a previous backup) the .dat and .fls files and paste them in their original folder (Exe), overwriting the existing files. Overwriting operations must be executed with instrument in power OFF and with the system software closed (not running). Storing and recovering of system parameters can be done by using the program MSTool.exe; refer to its guide “MNU-10936-00-c, MSTool Guide.pdf” – last revision.

2.5.4.

Procedure for Automatic Software Upgrade

In order to upgrade the instrument software, the service personnel must run the file named MiuraUpdateVxx.xx.xx.xxx.msi. This file includes all software upgrades, it creates the new workarea reference for firmware in the folder named Firmwares (refer to RPT-10979-01) and it also provides the automatic update of the instrument controller boards (if required by the particular update). Note that with the name “workarea” it is intended a folder including the firmware programs, one for each controller board, located in special sub-directories. Double clicking on .msi file, the update procedure starts and guides the user along the entire process. When the software installation completes, the procedure asks for starting the automatic firmware upgrade, as shown in the following picture. To begin this procedure, you need to follow the instructions as also shown in the pics below. Pay attention that the instrument is connected to the main line under a stable power supply (UPS). NOTE: During the software upgrade, the .msi installation file executes MDBSync.exe process in order to synchronize the old database with new one. This procedure can spent several minutes (up to 5 min.), depending on the user database actual size.

Figure 17: Beginning of Auto FW Upgrade

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Figure 18: Auto FW Upgrade Alert

Figure 19: Auto FW Upgrade Conclusion

2.5.5.

Procedure for Manual Firmware Upgrade

Manual firmware upgrade requires attending of service training sessions. Guidelines have been given into a special Manual and needs the MSTool software: please refer to the paragraph 6.1 “Firmware Management” of the document code MNU-10936-00-xx, MSTool guide.

2.5.6.

User Data

Instrument user data, such as methods, profiles, patient archive, are stored into a database file named “OppLocal.mdb”, memorized in the folder “Data” and its format is strictly related to software version. An easy way to save and restore user data is the Backup procedure available from Miura Client software. It allows saving the database through “Backup Instrument data” command letting you memorize the copy in an external folder. “Restore instrument data “, on he other hand, allows the operator to restore all user data previously saved.

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Section 2 INSTALLATION

Manual Managing of User Data

It is NOT recommended the manual management of user data and it must be performed only in case of extreme need. Exchanging “OppLocal.mdb” among different instruments can cause dangerous and unpredictable behaviours if made without following the correct procedure. The only file that must be saved, copied or pasted is OppLocal.mdb. After a copying operation, the service personnel must run the following programs, in the exact sequence shown below: 1. Mdbsync.exe (located in Comunication folder) 2. IMFS.exe (located in Exe folder)

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Section 2 INSTALLATION

4-channel ISE Module (option)

The ISE Module, when included in configuration as option, requires some operations for the proper start-up and initialization. It can be supplied with different configuration depending on the number of electrodes installed (from 1 to 4). The 4-channel ISE Module is assembled at factory and it is located on the front right side of the instrument, behind the front panel. It is composed by:  in its full configuration the ISE Module includes 4 measurement electrodes (Li+, Na+, K+, and Cl-), one reference electrode, one bubble detector and the conditioning electronics (if some electrodes hasn’t been requested in its position must be used a special “Spacer electrode” to maintain the sample flow path);  the ISE Module pump assembly with 3 peristaltic stepper pumps (Cal A, Cal B and Waste);  the ISE Module electrical wiring (flat cable from ISE Module to pumps assembly, reagent pack connector and mother-board);  the ISE Module reagent pack (containing Calibrant A, Calibrant B and Waste);  the ISE Module reagent pack connector;  ISE Module hydraulic tubing and fittings. Electrodes must be installed before powering the instrument on and before to use the ISE Module. If some electrodes have not been requested, replace the position with a special dummy electrode called “spacer electrode”.

ISE MODULE PUMP ASSEMBLY Figure 20: ISE Module, location into the instrument (behind the front panel)

ISE MODULE

Note: Electrodes, Reagent pack (Cal A + Cal B + Waste), Cleaning Solution and Urine Diluent are not included in the standard shipping; they are consumables to be order apart.

2.6.1.

ISE Module Installation

The ISE Module has been previously installed into the instrument at factory by the producer. The user must only install the electrodes before installation and use. After having installed electrodes, they can be enabled or disabled by software (ISE Module Config menu).

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Section 2 INSTALLATION

Connections

Following the picture below, the user has only to connect the Reagent Pack Connector on the Reagent Pack itself: press the yellow button and at the same time place it on the Reagent Pack, then release the yellow button. The instrument doesn’t require the user to carry out any electrical connections, just check that the internal side walls of the peristaltic pump tubings are not glued together to obstruct the flow. Hydraulic connections have been installed into the instrument by the Producer at factory. The user doesn’t need to install any additional tubing.

Reagent Pack Connector

Reagent Pack

Reagent Pack Connector

Reagent Pack Figure 21: ISE Module, Reagent Pack connection NOTE: the user must properly connect and fix the Reagent Pack Connector on the Reagent Pack taking particular care in not bending tubes.

2.6.2.

ISE Module Solutions and Consumables

The ISE Module proper operation requires the following solutions: 1. Reagent Pack, containing:  Calibrant A. It is used in both the two-point and single-point calibrations for sample analysis. It is contained into the Reagent Pack together with Calibrant B and Waste.  Calibrant B. It is used in two-point and single-point calibrations for urine sample analysis. It is contained into the Reagent Pack together with Calibrant A and Waste. No preparation is required. Store reagent pack at 4°C÷25°C until expiration date on labels. When install new reagent pack: record the exact date. WARNING Biohazard Waste: waste material must be always considered potentially infected. Dispose off according to local laws and rules. 2.

Cleaning solution. It is used once a day to prevent protein build-up. It must be used more frequently if the ISE Module performs greater than 50 samples per day. It is composed by mixing the Pepsin powder and by the Cleaner Diluent. Pepsin/HCl cleaning solution must be prepared once per week and stored at 4°C. When ISE

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Module is in use, cleaning solution must be dropped into a 20ml reagent vial and placed in the proper position of the instrument reagent tray; that position is chosen by the User in the Reagents menu. Store unprepared components at 18÷25°C until expiration date on labels. Preparation  Add daily cleaner diluent into top of pepsin bottle and shake well.  Record date.  Spill the solution into a clean 20ml vial and place on the proper reagent tray position.  Refrigerate at 2÷8°C when not in use.  Discard 4 weeks after mixing. WARNING IRRITANT! This solution is irritating to eyes and skin. Avoid contact with skin and eyes. In case of contact with eyes, rinse immediately with plenty of water and seek medical advise. Contains ammonium bifluoride. 3.

Urine Diluent. Urine samples are diluted to perform urine measurement: 1 part urine sample to 9 parts urine diluent. When the ISE Module is in use, the user has to fill with urine diluent a 20ml reagent vial and must place it in the proper position of the instrument reagent tray; that position is chosen by the User in the Reagents menu. No preparation is required. Store at 5°C÷25°C until expiration date marked on labels.

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Section 3

MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.

The MIURA System

The system called MIURA, in its basic configuration, is composed by:  the instrument itself - MIURA Unit  the external Personal Computer, managing and controlling the instrument, complete with keyboard, mouse, monitor and A4 printer  the external tanks (for charging and wasting processing liquids)  their mutual electrical and hydraulic connections. AC line

AC line

MIURA p/n 10001-00-A

Systemic Solution Tank

Cleaner Solution Tank

RS-232

Waste Tank

AC line

Personal Computer

Tastiera

Monitor

Mouse

The hierarchical diagram is given in the following picture.

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= 1 s tl e v e l = 2 n dl e v e l = 3 r d l e v e l = 4 th l e v e l = 5 th l e v e l

M I U R A P /N 1 0 0 0 1 0 0 A H I E R A R C H I C A L D I A G R A M

M I U R A P /N 1 0 0 0 1 0 0 A

7

1 2 V F A N A S S Y P /N 1 0 1 1 1 0 0 A

O P P V D C P S T B W I R I N G P /N 1 0 1 5 9 0 0 A 1 0 X F L A T V E R .0 1 W I R I N G P /N 1 0 1 4 5 0 1 A

Z R P A S P I R A T I O N P U M P V E R .0 0 P /N 1 0 9 3 8 0 0 A

C O V E R R E E D S E N S O R P /N 1 0 5 7 0 0 0 A

1 0 X F L A T V E R .0 0 W I R I N G P /N 1 0 1 4 5 0 0 A

S T E P M O T O R D R I V E R V E R .0 0 P /N 1 0 0 0 2 0 0 A

5 0 0 U L D I L U T E R V E R .0 0 P /N 1 0 9 1 1 0 0 C

A R M 2 D I L U T E R A S S E M B L Y V E R .0 1 P /N 1 0 3 5 8 0 1 C

L H P P O W E R B O A R D P /N 1 0 7 6 2 0 0 A

5 0 0 U L D I L U T E R V E R .0 0 P /N 1 0 9 1 1 0 0 C

A R M 1 D I L U T E R A S S E M B L Y V E R .0 0 P /N 1 0 3 5 8 0 0 C

P W R D R I V E R M O D U L E -9 X 1 A P /N 1 0 0 0 6 0 0 C

O P P 1 0 0 M 3 M G N D J U M P E R P /N 1 0 4 1 0 0 0 A

2

O P P W A S H I N G S T A T I O N P /N 1 0 2 1 1 0 0 A

O P P P U M P S A N D D R I V E R S P /N 1 0 2 1 7 0 0 D

0 .2 0 N B 1 .8 M O T O R A S S Y P /N 1 0 0 5 5 0 0 A

O P P O P T I C A L G R O U P P /N 1 0 2 1 2 0 1 A

O P P R & W A S S E M B L Y P /N 1 0 2 0 8 0 1 A

W A S T E T A N K P /N 1 0 4 0 7 0 0 B

W A S T E T A N K W I R I N G P /N 1 0 6 4 9 0 0 B

A S S Y P /N 1 0 7 4 9 0 0 A

1 .1 7 N B 1 .8 M O T O R A S S Y P /N 1 0 0 4 0 0 0 A

O P P C U V E T T E A S S E M B L Y P /N 1 0 2 1 0 0 1 A

L I Q U I D 2 T A N K W I R I N G P /N 1 0 6 4 8 0 0 B

O P P A R M M O D U L E P /N 1 0 2 0 5 0 1 C

1 0 X F L A T V E R .0 2 W I R I N G P /N 1 0 1 4 5 0 2 A

1 2 V 6 0 x 6 0 F A N A S S Y P /N 1 0 1 1 2 0 0 A

Z R P A S P I R A T I O N P U M P V E R .0 1 P /N 1 0 9 3 8 0 1 A

S T E P M O T O R D R I V E R V E R .0 1 P /N 1 0 0 0 2 0 1 A

2 W A Y E V A S S Y P /N 1 0 0 5 1 0 0 B

2 W A Y E V A S S Y P /N 1 0 0 5 1 0 0 B

S R 1 0 _ 3 0 P U M P A S S Y V E R .0 1 P /N 1 0 0 6 0 0 1 A

O P P 1 0 0 M 4 M G N D J U M P E R P /N 1 0 4 1 1 0 0 A

2 0 W H A L O G E N L A M P

O P T O S E N S O R V E R .0 0 P /N 1 0 0 4 5 0 0 A

0 .4 8 N B 1 .8 M O T O R A S S Y P /N 1 0 0 4 1 0 0 A

0 .4 8 N B 1 .8 M O T O R A S S Y P /N 1 0 0 4 1 0 0 A

O P P A R M 2 A S S E M B L Y P /N 1 0 2 0 0 0 0 A

O P P A R M M O D U L E P /N 1 0 2 0 5 0 1 C

O P P A R M 1 A S S E M B L Y P /N 1 0 1 9 8 0 0 A

O P T O S E N S O R V E R .0 0 P /N 1 0 0 4 5 0 0 A

M A I N C O N T R O L L E R V E R .0 1 P /N 1 0 0 1 2 0 1 D

L I Q U I D 2 T A N K P /N 1 0 4 0 6 0 0 B

2

L I Q U I D 1 T A N K W I R I N G P /N 1 0 6 4 7 0 0 B

1 .7 5 N B 1 .8 M O T O R A S S Y P /N 1 0 0 3 9 0 0 A

O P P S & R A S S E M B L Y P /N 1 0 2 2 0 0 0 B

C N T P O W E R S U P P L Y V E R .0 1 P /N 1 0 0 2 8 0 1 A

O P P M A I N P S W I R I N G P /N 1 0 0 5 7 0 0 A

L I Q U I D 1 T A N K P /N 1 0 4 0 5 0 0 B

P O W E R S U P P L Y A S S E M B L Y P /N 1 0 3 6 9 0 0 A

O P P C O N T R O L L E R A S S E M B L Y P /N 1 0 0 1 6 0 0 C

M I U R A U N I T P /N 1 0 0 3 4 0 1 E

O P P P E R S O N A L C O M P U T E R

5

2

A R M 1 C O N T R O L L E R P /N 1 0 0 1 2 0 2 C

O P P M O T D R V W I R I N G P /N 1 0 1 4 6 0 0 A

O P P 2 4 V D C A N D A U X P S W I R I N G P /N 1 0 1 6 1 0 0 C

O P P O N O F F B R E A K E R V E R .0 0 P /N 1 0 3 6 8 0 0 A

S T E P M O T O R D R I V E R V E R .0 2 P /N 1 0 0 0 2 0 2 A

3 8 M L S R 1 0 _ 3 0 P U M P A S S Y P /N 1 0 6 3 8 0 0 A

O P T O S E N S O R V E R .0 0 P /N 1 0 0 4 5 0 0 A

1 .1 7 N B 0 .9 M O T O R A S S Y P /N 1 0 0 4 2 0 0 A

L M 3 5 T E M P S E N S O R V E R .0 2 P /N 1 0 0 5 0 0 2 B

0 .4 3 N B 1 .8 M O T O R A S S Y P /N 1 0 2 5 2 0 0 A

0 .4 3 N B 1 .8 M O T O R A S S Y P /N 1 0 2 5 2 0 0 A

L M 3 5 T E M P S E N S O R V E R .0 1 P /N 1 0 0 5 0 0 1 B

2

2

A R M 2 C O N T R O L L E R P /N 1 0 0 1 2 0 3 C

O P P S E N S O R W I R I N G P /N 1 0 1 5 3 0 0 B

C O O L E R F A N S W I R I N G P /N 1 0 1 1 3 0 0 A

O P P O N O F F B R E A K E R V E R .0 1 P /N 1 0 3 6 8 0 1 A

S T E P M O T O R D R I V E R V E R .0 3 P /N 1 0 0 0 2 0 3 A

N F 1 0 P U M P A S S Y P /N 1 0 0 5 9 0 0 A

O P T O S E N S O R V E R .0 0 P /N 1 0 0 4 5 0 0 A

I N C U B A T I O N H E A T E R S T R I P P /N 1 0 0 4 3 0 0 A

O P T O S E N S O R V E R .0 0 P /N 1 0 0 4 5 0 0 A

O P T O S E N S O R V E R .0 0 P /N 1 0 0 4 5 0 0 A

O P P 1 0 0 M 3 M G N D J U M P E R P /N 1 0 4 1 0 0 0 A

2

O P P A R M 1 V E R .0 0 W I R I N G P /N 1 0 2 0 4 0 0 B

R S 2 3 2 F S 9 F C A B L E A S S Y P /N 1 0 0 6 2 0 0 A

I S E M O D U L E A S S Y 4 C H A N N E L S ( O P T .) P /N 1 0 7 2 6 0 0 A

S T E P M O T O R D R I V E R V E R .0 4 P /N 1 0 0 0 2 0 4 A

A P N 2 0 P U M P A S S Y P /N 1 0 9 4 7 0 0 A

P H O T O D I O D E M O D U L E P /N 1 0 0 1 1 0 0 B

O P T O S E N S O R V E R .0 1 P /N 1 0 0 4 5 0 1 A

O P T O S E N S O R V E R .0 2 P /N 1 0 0 4 5 0 2 A

O P P M G N D B R U S H P /N 1 0 4 1 3 0 0 A

R W C O N T R O L L E R P /N 1 0 0 1 2 0 4 C

2

L H P P O W E R W I R I N G P /N 1 0 9 4 0 0 0 A

O P P P H O T O D I O D E W I R I N G P /N 1 0 1 4 8 0 0 B

I S E M O D U L E P U M P A S S Y P /N 1 0 7 8 4 0 0 A

L M 3 5 T E M P S E N S O R V E R .0 2 P /N 1 0 0 5 0 0 2 B

B U Z Z E R A S S Y P /N 1 0 0 5 8 0 0 A

1 2 B I T M I U R A E N C O D E R P /N 1 0 7 4 7 0 0 A

O P P C O N T R O L L E R M O T H E R B O A R D P /N 1 0 0 3 0 0 0 C

M 3 M 4 M G N D J U M P E R P /N 1 0 9 7 2 0 0 A

O P P I S E M O D U L E W I R I N G ( O P T .) P /N 1 0 1 6 5 0 0 A

I S E M O D U L E R E A G E N T B U T T O N P /N 1 0 7 8 5 0 0 A

2 4 V F A N A S S Y P /N 1 0 1 1 0 0 0 A

O P P P U M P S & D R I V E R S W I R I N G P /N 1 0 5 1 4 0 0 A

2

37 MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

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Schematics and part lists of the main assemblies of the instrument are given in this section into hierarchical format. Part List Pos.

P/N: 10001-00-A

Q.ty

UoM

Description

Value

Rating

Toler.

1 2

A1 A2

1 1

PCS PCS

   

   

   

10034-01-E P3140000097

3 4 5 6

A3 A4 A5 W1

1 1 1 1

PCS PCS PCS PCS

       

       

       

10405-00-B 10407-00-B 10406-00-B GJ033020

7

W2

1

PCS

 

 

 

EG003330

8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28

W3 W4                    

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

PCS PCS PCS PCS PCS PCS PCS KIT KIT KIT KIT KIT KIT KIT KIT PZ PCS KIT PCS PCS KIT

                                     

                                     

                                     

 

 

 

10647-00-A 10649-00-B 10648-00-B M2ASA TBD-06_08_02-49 10749-00-A P3140000020 P3140000019 P3140000003 P3140000002 P3140000102 P3140000114 P3140000113 P3140000115 P3140000079 MNU-10563-00-X GRS-10644-00-X P3140000100 166K SPT 20296-00-0

1

KIT

MIURA UNIT PERSONAL COMPUTER, COMPLETE WITH KEYBOARD, MONITOR, MOUSE AND USB PRINTER LIQUID 1 TANK (SYSTEMIC) WASTE TANK LIQUID 2 TANK (CLEANER SOLUTION) INSTRUMENT POWER CABLE, SCHUKO PLUG, IEC SOCKET, PVC EN60320 3X1mmq, 10A@250Vac, LENGHT=2m RS-232C STANDARD SERIAL CABLE, SUBD-9PIN F, SUBD-9PIN M, RX/TX E RTS/CTS NOT CROSSED, LENGHT=1,8m LIQUID 1 TANK WIRING (SYSTEMIC) WASTE TANK WIRING LIQUID 2 TANK WIRING (CLEANER SOLUTION) CUVETTE’S EXTRACTION TOOL MIURA OPERATING PROGRAM SOFTWARE ON CD-ROM 20W HALOGEN LAMP ASSY REAGENT BOTTLE 20ml, KIT 30 PCS REAGENT BOTTLE 50ml, KIT 50 PCS DILUTION AND PAEDIATRIC CUPS, KIT 250 PCS READING CUVETTES, KIT 5 PCS SYSTEMIC SOLUTION, KIT 6x50ml MULTICLEAN SOLUTION (CLEANER), KIT 2LT RINSE SOLUTION EWCVT, KIT 6X50ml RINSE SOLUTION EWPRB, KIT 6X20ml CAPS FOR REAGENT BOTTLES, KIT 80 PCS USER MANUAL – MIURA (LAST REVISION) QUICK START GUIDE – MIURA (LAST REVISION) PRIMARY TUBES 12mm X 86mm, KIT 1000 PCS FUNNEL, FOR SYSTEMIC TANK REFILLING CAP FOR WASTE TANK ADAPTER FOR TUBES, EXT. DIAM. 16,7, ALUMINIUM, FOR CUPS TYPE HITACHI 3ml, KIT 50 PCS CUPS TYPE HITACHI 3ml, KIT 1000 PCS

 

 

 

P3140000001

29

Ref. Designator

Title: Miura System

           

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

10001-00-A

Page 1 of 1

37

A1

W2

PO W ER S U PPL Y CABL E

RS 2 32 C O NN EC TI O N HM 7 W 18- J 1 8 HM 6 W 18- J 1 7 HM 5 W 18- J 1 6 HM 1

P1 G REEN

P1 HM 1 BL U E

P1 RED

W3

W5

W4

A3

A5

A4

P/ N 10405- 0 0- B P/ N 10406- 0 0- B P/ N 10407- 0 0- B L I Q UI D 1 L I Q UI D 2 W A S TE TA N K CHARG E CHARG E TA N K TA N K S Y S TE M I C S O L U TI O N

CL E ANER S O L U TI O N

A2 O PP PERS O NA L CO M PUTE R

W A S TE

S M ART C ARD READER/ W RI TE R

O PTI O NAL

Title:

P=650W m ax

W1

TO PC PO W ER S U PPL Y

Electrical drawing

110- 2 20Vac 50- 6 0Hz

MIURA System

VA C L I N E

P/N:

O PPO RTU NI TY U NI T P/ N 10034- 0 1- E

VAC L I N E 110- 2 20V a c 50- 6 0Hz P=300W t y p

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.1.

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3.2.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

MIURA Unit P/N 10034-01-E

This paragraph shows electrical drawings and part list of Miura Unit P/N 10034-01-C. Part list shows only components/parts available for servicing. Two DC voltages are generated by the main power supply (OPP Power Supply Assembly); they can be switched ON/OFF independently from each other:  +24Vdc for electronic operation (with the exception of the reagent cooler section); enabled by the front green switch.  +12Vdc for the cooler section and its electronic only; enabled by the front blue switch. This two DC lines are linked to the terminal blocs (TB) through the OPP VDCPS TB Wiring. The internal +24Vdc line is split into 5 lines by the OPP VDCPS TB Wiring, each one is protected by a specific fuse placed inside of the instrument, on a support behind the right side panel. The internal +12Vdc line is directly linked to the Cooler Section through the LHP Power Wiring. SIDE PANEL Access to Electronics and internal protection fuses

F8

F7

F6

F5

F4

F3

FUSEHOLDE RS AND FUSES

Figure 22: Side Panel and Internal Fuses The fuse panel includes the following 6 fuses:  Fuse F3: case 6.3mmX32mm, 15A/250Vac, T-Type (delayed). Protects the +12VDC line powering the LHP Power Board – Cooler Section.  Fuse F4: case 5mmX20mm, 6.3A/250Vac, T-Type (delayed). It protects the following lines: +24VDC-4: it powers the Stepping Motor Driver A12 for ARM2-X and ARM2-Y motors. +24VDC-5: it powers the Stepping Motor Driver A13 for Cuvette and Filter Wheel motors. +24VDC-6: it powers the Stepping Motor Driver A14 for Washing Station motor.  Fuse F5: case 5mmX20mm, 6.3A/250Vac, T-Type (delayed). It protects the following lines: +24VDC-1: it powers the Stepping Motor Driver A15 for ARM1 and ARM2 diluters’ motors. +24VDC-2: it powers the Stepping Motor Driver A10 for Sample and Reagent motors. +24VDC-3: it powers the Stepping Motor Driver A11 for ARM1-X and ARM1-Y motors.  Fuse F6: case 5mmX20mm, 2A/250Vac, T-Type (delayed). It protects the +24V_C line; it powers the OPP Controller Assembly.  Fuse F7: case 5mmX20mm, 1A/250Vac, T-Type (delayed). It protects the +24V_2F line; it powers the two fans of the unit and the front switches’ LEDs (green and blue).  Fuse F8: case 5mmX20mm, 6.3A/250Vac, T-Type (delayed). It protects the following lines: +24VDC-7: it powers the Power Driver Module A1 for Buzzer, ARM1 Coil Heater, ARM1 Electrovalve, ARM1 Washing Pump, ARM2 Coil Heater, ARM2 Electrovalve, ARM2 Washing Pump, and Washing Sink Pump. +24VDC-8: it powers the Power Driver Module A2 for Washing Station dispensing and aspirating Pumps. +24VDC-9: it powers the LHP Power Board A8 for Halogen Lamp and Heater Strip sections.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

The unit can be considered as organized into different functional blocks mentioned as sub-assemblies in the following part list (reference designator Axx). Each of them has its own part list following the standard nested way for the parts there included. Part List Pos.

Ref. Designator

Title: Miura Unit

P/N: 10034-01-E

Q.ty

UoM

Description

Value

Rating

Toler.

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19

A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11, A12 A13 A14 A15 A16 A17 A20 A21  

1 1 1 1 1 1 1 1 1 1 2 1 1 1 1 1 1 1 1

PCS PCS PCS PCS PCS PCS PCS PCS PCS PCS PCS PCS PCS PCS PCS PCS PCS PCS PCS

                                     

                                     

                                     

10369-00-A 10016-00-C 10220-00-B 10198-00-A 10200-00-A 10208-01-A 10217-00-E 10762-00-A   10002-00-A 10002-02-A 10002-03-A 10002-04-A 10002-01-A 10358-00-C 10358-01-C 10050-02-B 10570-00-A MMPSM

20 21

A22, A23  

2 3

PCS PCS

   

   

   

10110-00-A 92439-2-2929

22 23 24 25

A24 A25 A26 A27-A30

1 1 1 4

PCS PCS PZ PZ

       

       

       

10938-00-A 10938-01-A 10726-00-A CP1.4-71-045L-RTV

26 27

A31-A34  

4 4

PZ PZ

   

   

   

10112-00-A W60-30W

28 29 30 31 32 33

A35 F3 F4, F5, F8 F7 F6  

1 1 3 1 1 1

PZ PCS PCS PCS PCS PZ

  15A 6,3A 1A 2A  

  250Vac 250Vac 250Vac 250Vac  

           

10111-00-A CT632316 ST520263 ST520210 ST520220 0031.1631

1

PZ

OPP POWER SUPPLY ASSEMBLY OPP CONTROLLER ASSEMBLY OPP S&R ASSEMBLY OPP ARM1 ASSEMBLY OPP ARM2 ASSEMBLY OPP R&W ASSEMBLY OPP PUMPS & DRIVERS LHP POWER BOARD NOT USED STEP MOTOR DRIVE - 2X1.5A VER.00 STEP MOTOR DRIVE - 2X1.5A VER.02 STEP MOTOR DRIVE - 2X1.5A VER.03 STEP MOTOR DRIVE - 2X1.5A VER.04 STEP MOTOR DRIVE - 2X1.5A VER.01 ARM DILUTOR ASSEMBLY VER.00 ARM DILUTOR ASSEMBLY VER.01 LM35 TEMP SENSOR VER.02 COVER REED SENSOR MAGNET, MINIATURE, ENCAPSULATED, FOR PROSSIMITY SENSOR, REED SWITCH, FROM -25°C TO +85°C, NYLON 66 24V FAN ASSY GRID SAVE-FINGER, PROTECTION FOR 92x92mm FAN, EN294, WITH INSERT FOR HOLE 4,3mm, TYPE LZ23-3 EBM-PAPST ZRP ASPIRATION PUMP VER.00 (FOR ASPIRAT. NEEDLES) ZRP ASPIRATION PUMP VER.01 (FOR TIP) ISE MODULE ASSEMBLY - 4 CHANNELS (OPTION) THERMOELECTRIC MODULE, PELTIER CELL, Qmax=38,5W, Imax=8,5A, Vmax=8,6V, DTmax=65°C, 30x30x3,3mm, tipo lappato (FLAT CERAMIC SURFACE), RTV SEALING PROTECTION, AWG18 WIRES 12V 60x60 FAN ASSY HEATSINK, HIGH EFFICIENCY, BASE 60x60mm, HEIGHT 30mm, PARALLEL FINS 12V FAN ASSY FUSE, 6.3x32mm, GLASS BODY, TYPE T (DELAYED) FUSE, 5x20mm, GLASS BODY, TYPE T (DELAYED) FUSE, 5x20mm, GLASS BODY, TYPE T (DELAYED) FUSE, 5x20mm, GLASS BODY, TYPE T (DELAYED) FUSEHOLDER, NO CAP, PANEL MOUNTING WITH NUT, 6.3x32mm, 4W/20A @ 250Vac, TERMINALS 6.3X0.8mm, PC2 CATEGORY, FEC SERIES SLOTTED CAP, FOR 6.3x32mm FUSEHOLDER, SCHURTER FEC SERIES FUSEHOLDER, WITH CAP, PANEL MOUNTING WITH NUT, 5x20mm, 2.5W/10A @ 250Vac, TERMINALS QUICK-CONNECT 4.8X0.5mm, PC2 CATEGORY, FPG1 SERIES OPP ON-OFF BREAKER VER.00 OPP ON-OFF BREAKER VER.01 TERMINAL BLOCK, COMPOSABLE, FOR GROUND CONDUCTOR, MINIATURE, DIN RAIL EN 50045 (TYPE TS15), 4mm2, YELLOW/GREEN, TYPE AKE4 TERMINAL BLOCK, COMPOSABLE, MINIATURE, DIN RAIL EN 50045 (TYPE TS15), 400V, 32A, 4mm2, BLUE, TYPE AKZ4 TERMINAL BLOCK, COMPOSABLE, MINIATURE, DIN RAIL EN 50045 (TYPE TS15), 400V, 32A, 4mm2, GREY, TYPE AKZ4 JUMPER, FOR TERMINAL BLOCK TYPE AKZ4, 2 POSITIONS, TYPE Q2 JUMPER, FOR TERMINAL BLOCK TYPE AKZ4, 4 POSITIONS, TYPE Q4 INSULATED JUMPER, FOR TERMINAL BLOCK, PITCH 6mm, 2 POLES, STRAIGHT, TYPE QB2 DIN RAIL EN 50045, 15mm, GALVANIZED STEEL, WITH HOLES, LENGHT=1m, TYPE TS15 M3-M4 MGND JUMPER OPP VDCPS-TB WIRING OPP ARM WIRING NOT USED COOLER FANS WIRING OPP 24VDC AND AUXPS WIRING

 

 

 

0031.1613

 

 

 

3101.0210

     

     

     

10368-00-A 10368-01-A 0380260000

 

 

 

0294380000

 

 

 

0294360000

 

 

 

0336400000

 

 

 

0336600000

 

 

 

0482700000

 

 

 

0117510000

           

           

           

10972-00-A 10159-00-A 10204-00-B   10113-00-A 10161-00-C

34 35

 

5

PZ

36 37 38

SW2 SW3 TB1-TB3, TB17, TB22

1 1 5

PCS PCS PCS

39

8

PCS

9

PCS

41

TB4-TB9, TB18, TB19 TB10-TB16, TB20, TB21  

4

PCS

42

 

1

PCS

43

 

3

PCS

44

 

0,15

M

45 46 47 48 49 50

W02 W03 W04, W05   W06 W07

1 1 2   1 1

PZ PZ PZ   PZ PZ

40

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N

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37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Part List Pos.

Ref. Designator

Title: Miura Unit

P/N: 10034-01-E

Q.ty

UoM

Description

Value

Rating

Toler.

51 52 53 54 55 56 57 58 59 60 61 62

W08 W09 W10 W11 W12 W13 W14, W19-W23 W15 W16 W18 W17, W24 HM1, HM2

1 1 1 1 1 1 6 1 1 1 2 2

PZ PZ PZ PZ PZ PZ PZ PZ PZ PZ PZ PCS

                       

                       

                       

10940-00-A   10062-00-A 10148-00-B   10165-00-A 10145-00-A 10145-01-A 10146-00-A 10153-00-B 10145-02-A 10558-00-A

63 64 65

HM3 HM4 HM6, HM7

1 1 2

PCS PCS PCS

     

     

     

20046-00-B 20254-00-A PMCD160212

66

HM5

1

PCS

 

 

 

PMC160212

67

HM8-HM21

14

PCS

 

 

 

20281-00-A

68

 

14

PCS

 

 

 

P-300x

69

 

1

PZ

 

 

 

Y230-6

70

HT1, HT6, HT8

2,4

M

 

 

 

AAC00004

71

HT2-HT5, HT7, HT9

3,9

M

 

 

 

AAC00007

72

HT10-HT17

11

M

 

 

 

562-3019-X2

73

HT18

0,32

M

LHP POWER WIRING NOT USED RS232 FS9F CABLE ASSY OPP PHOTODIODE WIRING NOT USED OPP ISE MODULE WIRING (OPTION) 10X-FLAT VER.00 WIRING 10X-FLAT VER.01 WIRING OPP MOTDRV WIRING OPP SENSORS WIRING 10X-FLAT VER.02 WIRING SAMPLING PROBE, SWAGGED, OUTER DIAM.=1,2mm, INNER DIAM.=0,8mm/0,6mm WASHING SINK OUTPUT MANIFOLD COUPLING FOR PLASTIC TUBING, QUICK, FEMALE, PANEL MOUNTING, POLYPROPYLENE, O-RING EPDM SEAL, WITH LOCK, 1/2-24UNS THREAD, FOR 1/8" ID (3.2mm ID) TUBING, FINNED, WITH VALVE, PMC12 SERIES COUPLING FOR PLASTIC TUBING, QUICK, FEMALE, PANEL MOUNTING, POLYPROPYLENE, GUARNIZIONE O-RING EPDM, O-RING EPDM SEAL, WITH LOCK, 1/2-24UNS THREAD, FOR 1/8" ID (3.2mm ID) TUBING, FINNED, WITHOUT VALVE, PMC12 SERIES FINGERTIGHT FITTINGS NUT, PVC, 1/4-28UNF THREAD, FOR FERULE, FOR PTFE TUBING OUTER DIAM.=1/8" FERULE, FOR 1/8" PTFE TUBING, FLANGELESS, FOR FLATBOTTOM PORTS, ETFE, YELLOW FITTING, Y, BARBED, POLIPROPILEN, FOR FLEXIBLE TUBING ID=1/8" FLEXIBLE TUBING, TYGON,INNER DIAM.=3/32" (2,4mm), OUTER DIAM.=5/32" (4mm), WALL=1/32" (0,8mm), TYPE TYGON R3603 FLEXIBLE TUBING, TYGON, INNER DIAM.=1/8" (3,17mm), OUTER DIAM.=1/4" (6,35mm), WALL=1/16" (1,58mm), TYPE TYGON R3603 FLEXIBLE TUBING, PTFE (TEFLON), INNER DIAM.=1,6mm, OUTER DIAM.=3,2mm, WALL=0,8mm TUBING, RIGID, CHEMICAL RESISTANT, CYAN OR BLACK, INNER DIAM=5,5mm, OUTER DIAM.=8mm

 

 

 

TPE-E 5,5x8

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N

44/382

2 1

+24V_2F-RTN +24V_2F

PA RTO F W 07 AW G 18

2 1

+ 5 V _ A U X -R TN + 5 V _ A U X -R TN

A W G 18

W 0 7 -P 1 3

2 x FU SE S = 1 0 A D LY ( T-TY P E ) A N TISU R G E G LA SS

G /V

TB 2 E 2

+ 24V @ 18A m a x ( N O TE # 1 )

G /V

L' E 1 L

TB 3 E 3

+ 24V

B LU E

N

L'

TB 4 E 1 2

B LU E

TB 5 E 1 3

B LU E

TB 6 E 4

B LU E

TB 7 E 5

B LU E

TB 8 E 6

B LU E

TB 9 E 7

10 9 8 7 6 5 4 3 2 1

L

LA M B D A P / N V 6 0 7 B 3 D

+12V O U T

E3

INH +Ve -V_SNS INH -Ve SHARE UNUSED SHARE GOOD-C +V_SNS GOOD_E UNUSED

D ET# 1

F4 6 , 3 A D LY E5 E6

E7

E1 7

F8 6 , 3 A D LY E1 8

G R E Y TB 1 4 E 1 0 G R E Y TB 1 5 E 1 1 G R E Y TB 1 6 E 5

R1 2K20

+ 24V _C + 24V _1 + 24V _2 + 24V _3 + 24V _4 + 24V _5 + 24V _6 + 24V _7 + 24V _8 + 24V _9

P A RT O F W 0 7 2 4 V D C _ C O N TR P A RT O F W 0 7 P A RT O F W 0 7 P A RT O F W 0 7

G /V

17

B LU E

TB 1 8 E 1 6

B LU E

TB 1 9 E 7

D ET# 2

P A RT O F W 0 7

+12V CTRL

+ 1 2 V -R TN 4 m m q BLK

+5V a ux @ 100m A m a x

E24 F3 1 5 A D LY

4 m m q RE D

+ 5V _A U X + 5V _A U X

G R E Y TB 1 3 E 9

E19

+S N S _12V 2

E2 1

E2 2

G R E Y TB 2 0 E 1 7 G R E Y TB 2 1 E 6

P A RT O F W 0 7

+ 1 2 V -RTN R2 91 0 R 2 ,5 m m q

P A RT O F W 0 7 P A RT O F W 0 7

+ 12V

E23

P A RT O F W 0 7 G /V

+12V_INH

+ 5 V _ A U X -R TN + 5 V _ A U X-R TN

E13

W 0 7 -P 1 4

+5V_AUX

+5V_AUX +5V_AUX +5V_AUX-RTN +5V_AUX-RTN

W 0 7 -P 1 5

TO M G N D ( SC R E W E D O N TH E B A SE O F TH E C H A SSIS M 4 )

G R E Y TB 1 2 E 8

-S N S _ 1 2 V 1

IN P CTRL

+ 2 4 V _ C -R TN + 2 4 V _ 1 -RTN + 2 4 V _ 2 -RTN + 2 4 V _ 3 -RTN + 2 4 V _ 4 -RTN + 2 4 V _ 5 -RTN + 2 4 V _ 6 -RTN + 2 4 V _ 7 -RTN + 2 4 V _ 8 -RTN

G R E Y TB 1 0 E 1 4 G R E Y TB 1 1 E 1 5

+ 12 V SEN S

E7 P A RT O F W 0 7

F6 2 A D LY E1 2

F5 6 , 3 A D LY E8 E9

E4

+ 1 2 V -R T N -

6 5 4 3 2 1

FIXE D O N M GND E XTE R N A L P LU G ( SC R E W M 6 )

E1 1

E20 E16

+ 12V @ 18A m a x ( N O TE # 2 )

10 9 8 7 6 5 4 3 2 1

W 02 2 ,5 m m q Y/G

F7 1 A D LY E1 5

E10

INH_1IN INH_0IN +5V_AUX 0V_AUX FAIL_E FAIL_C

MGND

V in n o m = 1 0 0 -2 4 0 V a c @ 4 7 -6 3 H z ------------------LO W LE A K . C U RR .= 0 , 3 m A

E1 4 W 03

+12V +

F2

+ 2 4 V -R TN 4 m m q BLK

-S N S _ 2 4 V 2

M A X TO T. O U TP U T PO W ER=6 50 W

M A IN BR E A K E R

E8

E4

+S N S _24V 1

PE' E6

MGND

AW G 18 RE D

+ 24 V M O D 2 SEN S

N

M G N D_C M G N D_1 M G N D_2 M G N D_3 M G N D_4 M G N D_5 M G N D_6

E2

+S N S _24V 2

A1 N ' E4

N'

+24V +

+ 24 V M O D 1 SEN S

W 01

PE' E2 N N' E3

1 1 0 -2 2 0 V a c PE @ 5 0 -6 0 H z

L' E 5

E1

-S N S _ 2 4 V 1 IN P U T

L1 10A

TB 1 E 1

A 23 1 0 1 1 0 -0 0 -A 2 4 V FA N A SSY

2 4 V FA N A SSY RE A R O F U N IT

+24V O U T

D ET# 2

+ 2 4 V -R T N -

F1 SW 1

D ET# 2

+24V MOD1 CTRL

INH +Ve -V_SNS INH -Ve SHARE UNUSED SHARE GOOD-C +V_SNS GOOD_E UNUSED

10 9 8 7 6 5 4 3 2 1 INH +Ve -V_SNS INH -Ve SHARE UNUSED SHARE GOOD-C +V_SNS GOOD_E UNUSED

3 x 1 ,5 m m q SH E A TE D M A IN C A BLE

+24V MOD2 CTRL

G /V

2 1

P/N:

W 0 7 -P 1 2

E3

L

+ 2 4 V _ 9 -RTN M G N D_9

C A SE IN M E C H A N IC A L TO U C H W ITH C H A SSIS O F TH E U N IT

A1 P / N 1 0 3 6 9 -0 0 -A P O W E R SU P P LY A SSE M B LY

J1

W 0 7 -J 2 P 1

+ 2 4 V _ IN H + 2 4 V _ IN H

N O TE : SU P P LY C A BLE S M U ST BE W IR E D FA R A W A Y FR O M P . S. O U TP U T C A B LE

A 22 1 0 1 1 0 -0 0 -A 2 4 V FA N A SSY

2 4 V FA N A SSY BO TTO M O F U N IT

10034-01-E

+ 5V _A U X + 5V _A U X PA RTO F W 07

2 1

PA RTO F W 0 7

1

SW ITC H C LO SE D = + 2 4 V O U TP U T D ISA BLE D

W 0 7 -J 1 P 1

2 4 V LE D _ K

2 4 V D C -1 2 4 V D C -2 2 4 V D C -3 2 4 V D C -4 2 4 V D C -5 2 4 V D C -6 2 4 V D C -7 2 4 V D C -8

TB 2 2

A D J U ST O U TP U T TO G IV E + 1 3 V O N TH E LO A D ( C O O LIN G P E LTIE R C E LLS IN O N C O N D ITIO N )

+ 1 2 V _ IN H

MIURA Unit

2

2 4 V LE D _ A

+

K G REEN

W 0 7 -P 1 0 4 4 3 3 2 2 1 1

4 3 2 1

-

J1

A

+

SW 2 P / N 1 0 3 6 8 -0 0 -A

Page 1 of 10

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

-

37

AW G 18

1 ,5 m m q P A RT O F W 0 8 1 J 1 W 0 7 -P 1 1

D ET # 1

654321

A

1 2 3 4

1 1 2 2 3 3 4 4

PA RTO F W 0 7

1 2 V LE D _ K

P A RT O F W 0 8

12V D C

Title:

SW ITC H C LO SE D = + 1 2 V O U TP U T D ISA BLE D

FR O N T V IE W S

2 ,5 m m q

2 K

2 4 V D C -9

1 2 V LE D _ A

B LU E AW G 18

Electrical drawing

SW 3 P / N 1 0 3 6 8 -0 1 -A

D ET # 2 10 8 6 4 2

9 7 5 3 1

FIX E D O N B O TTO M OF R E A G E N T TR A Y ( Te m p SE N SO R )

W 02 M G ND

FIX E D O N B O TTO M OF R & S TR A Y

N O TE S: 1 - A 1 "+ 2 4 V O U TP U T": + 1 8 , 2 V TO + 3 2 , 4 V A D J U STA B LE R A N G E 2 - A 1 "+ 1 2 V O U TP U T": + 9 ,1 V TO 1 6 ,2 A D J U STA BLE RA N G E 3 - N .A . 4 - V E R .0 1 FO R 1 3 -B IT E N C O D E R U SE D A S 1 2 -B IT

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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37

W 1 3 -P 3

10034-01-E

+5V -5V EGND MGND

+12V EGND MGND

W 0 7 -P7

SERV IC E ( N O T U SE D )

SE RV IC E ( N O T U SED )

P/N:

W 1 0 -P 1

J3 0 1 2 3 4

RS2 3 2 P C SE RV IC E C O N N E C TIO N ( O P TIO N A L - A C TU A LLY N O T U SE D )

J2 9 1 2 3

J2 8 1 2 3

J6 1 2 3 4 5 6 7 8

J3

+24V EGND MGND

VDCP RXD-IN TXD-OUT MGND RS232-GND VDCP-RTN RTS CTS

N.C. N.C. RXD N.C. TXD N.C. N.C. N.C. SGND N.C.

J2

1 2 3 4 5 6 7 8 9 10

1 2 3 4 5 6 7 8 9 10

N.C. N.C. RXD RTS TXD CTS N.C. N.C. SGND N.C.

P A RT O F A 2 O P P C O N TRO LLE R A SSE M BLY P / N 1 0 0 1 6 -0 0 -C

W 13 FLA T 4 0 X A W G 2 8 2 4 V D C _ C O N TR

W 1 3 -P2

J1

P1

P2

P3

P4

J2

1 2 3 4

W 1 3 -J4 1 2 3 4

W 1 3 -J3 1 2 3 4

W 1 3 -J2 1 2 3 4

W 1 3 -J1 1 2

W 1 3 -P 1

RS2 3 2 P C O P ERA TIV E C O N N EC TIO N

+24V +24V-RET +24V +24V-RET

MWPHA MWPHB MWPHC MWPHD

MBPHA MBPHB MBPHC MBPHD

MAPHA MAPHB MAPHC MAPHD

ISE M O D U LE RE A G E N T BU TTO N

Title:

ISE M O D U LE - C O N TRO LLE R

ISE M O D U LE PU M P A SSEM BLY

Electrical drawing

N.C. RXD TXD N.C. SGND N.C. N.C. N.C. N.C.

DATA GND

1 2 3 4 5 6 7 8 9

1 . . . . . . . 40

PA RT O F W 0 7

W 1 0 -J2

MIURA Unit

W 10 FLA T 1 0 X A W G 2 8

A 26 ISE M O D U LE A SSEM BLY - 4 C H A N N E LS P / N 1 0 7 2 6 -0 0 -A ( C O N TRO LLER, TU BIN G S, PU M P S A N D REA G EN T BU TTO N FRO M M ED IC A C O RP .)

O P TIO N A L

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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10034-01-E F L T _ H O M E F L T _ A N O D E W S H _ H O M E W S H _ A N O D E C V T _ H O M E C V T _ A N O D E + 5V E G N D

J22

P/N:

J2 1

W 18- P 2

PART O F W 18

W 18- P 4

PART O F W 18

PART O F W 18

S A M P-H O M E

REAG -H O M E

O PTO - D I L1

ARM 1-Y HO M E

ARM 1- X HO M E

O PTO - D I L2

ARM 2- Y HO M E

ARM 2- X HO M E

F L T- H O M E

W SH -H O M E

CVT-H O M E

TO W 18- J 2

TO W 18-J 3

TO W 18- J 4

TO W 18- J 5

TO W 18- J 6

TO W 18-J 7

TO W 18- J 8

TO W 18- J 9

TO W 18- J 1 0

TO W 18- J 1 1

TO W 18-J 1 2

TO 0, 5 M L DI L U TO R1 TO O PP ARM 1 AS S E M BLY AS S E M BLY ( H O M E S E NS O R) ( Y -H O M E S E NS O R)

TO O PP ARM 1 AS S E M BLY ( X -H O M E S E NS O R)

TO O PP S & R AS S E M BL Y ( S A M PL E S E NS O R)

TO O PP S & R AS S E M BL Y ( R EAG ENT HO M E S E NS O R)

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

TO 0, 5 M L DI LU TO R2 TO O PP ARM 2 AS S E M BL Y AS S E M BLY ( H O M E S E NS O R) ( Y -H O M E S E NS O R)

TO O PP ARM 2 AS S E M BLY ( X -H O M E S E NS O R)

TO O PP R&W AS S E M BLY ( F L T- H O M E S E NS O R)

TO O PP R&W AS S E M BLY ( W SH -H O M E S E NS O R)

Electrical drawing

Title:

PART O F W 18

W 18-P 3

MIURA Unit

W 18- P 1

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8

J19

1 2 3 4 5 6 7 8

J1 7

D IL 2_ H O M E D IL 2_ A N O D E A 2Y _ H O M E A 2 Y _ A N O D E A 2 X _ H O M E A 2 X _ A N O D E + 5 V E G N D

S P R M N _ H O M E S P R M N 2 _ A N O D E S M P _ H O M E S M P _ A N O D E R G T _ H O M E R G T _ A N O D E + 5V E G N D

D IL 1 _ H O M E D IL 1 _ A N O D E A 1 Y _ H O M E A 1Y _ A N O D E A 1X _ H O M E A 1X _ A N O D E + 5V E G N D

PART O F A2 O PP CO NTR O L E R AS S E M BLY P/ N 10016-0 0-C

TO O PP R&W AS S E M BLY ( C VT- H O M E S E NS O R)

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W 19 FLA T 1 0 X A W G 2 8

W 20 FLA T 1 0 X A W G 2 8

W 2 2 -P1

W 21 FLA T 1 0 X A W G 2 8

1 2 3 4 5 6 7 8 9 10

W 2 3 -P1

W 22 FLA T 1 0 X A W G 2 8

W 1 4 -P1

W 23 FLA T 1 0 X A W G 2 8

W 14 FLA T 1 0 X A W G 2 8

2 4 V D C -3

P A RT O F W 0 7

2 4 V D C -4

P A RT O F W 0 7

2 4 V D C -5

P A RT O F W 0 7

2 4 V D C -6

PA RT O F W 0 7

2 4 V D C -1

PA RT O F W 0 7

J4

J4

1 2 3 4 5 6 7 8 9 10

1 2 3

J2

A 15 STEP M O TO R D RI V E - 2 X1 .5 A V E R.0 1 P / N 1 0 0 0 2 -0 1 - A

J4

J3

J4

1 2 3 4

1 2 3 4

1 2 3 4

1 2 3 4

1 2 3 4

1 2 3 4

1 2 3 4

1 2 3 4

1 2 3 4

1 2 3 4

J1

STEP_1 DIR_1 ENB_1 TRQ_1 STEP_2 DIR_2 ENB_2 TRQ_2 +5V EGND

+24V EGND MGND

J1

W 1 4 -P 2

+PA2 -PA2 +PB2 -PB2

+PA2 -PA2 +PB2 -PB2

J3

W 0 7 -P1

+PA1 -PA1 +PB1 -PB1

1 2 3

1 2 3 4 5 6 7 8 9 10 STEP_1 DIR_1 ENB_1 TRQ_1 STEP_2 DIR_2 ENB_2 TRQ_2 +5V EGND

A 14 STEP M O TO R D RI V E - 2 X1 .5 A V E R.0 4 P / N 1 0 0 0 2 -0 4 - A

+PA2 -PA2 +PB2 -PB2

J3

J2

+24V EGND MGND

1 2 3 4 5 6 7 8 9 10 STEP_1 DIR_1 ENB_1 TRQ_1 STEP_2 DIR_2 ENB_2 TRQ_2 +5V EGND

J1

W 2 3 -P 2

+PA1 -PA1 +PB1 -PB1

1 2 3

W 0 7 -P6

A 13 STEP M O TO R D RI V E - 2 X1 .5 A V E R.0 3 P / N 1 0 0 0 2 -0 3 - A

+PA2 -PA2 +PB2 -PB2

J3

+24V EGND MGND

1 2 3 4 5 6 7 8 9 10

+PA1 -PA1 +PB1 -PB1

J4

J2

+PA1 -PA1 +PB1 -PB1

1 2 3

J1

W 2 2 -P 2

1 2 3 4

J3

W 0 7 -P 5

A 12 STEP M O TO R D RI V E - 2 X1 .5 A V E R.0 2 P / N 1 0 0 0 2 -0 2 -A

+PA2 -PA2 +PB2 -PB2

+PA1 -PA1 +PB1 -PB1

J4

J2

W 2 1 -P2

STEP_1 DIR_1 ENB_1 TRQ_1 STEP_2 DIR_2 ENB_2 TRQ_2 +5V EGND

STEP_1 DIR_1 ENB_1 TRQ_1 STEP_2 DIR_2 ENB_2 TRQ_2 +5V EGND

J1

+24V EGND MGND

1 2 3 4 5 6 7 8 9 10

W 0 7 -P 4

1 2 3 4

J3

W 2 0 -P2

A 11 STEP M O TO R D RIV E - 2 X1 . 5 A V ER.0 2 P / N 1 0 0 0 2 -0 2 -A

+PA2 -PA2 +PB2 -PB2

+PA1 -PA1 +PB1 -PB1

A 10 STEP M O TO R D RIV E - 2 X1 . 5 A V ER.0 0 P / N 1 0 0 0 2 -0 0 -A

J2

+24V EGND MGND

J1

1 2 3

W 0 7 -P 3

1 2 3 4 5 6 7 8 9 10

W 1 9 -P2

STEP_1 DIR_1 ENB_1 TRQ_1 STEP_2 DIR_2 ENB_2 TRQ_2 +5V EGND

+24V EGND MGND

1 2 3

W 0 7 -P 2

MIURA Unit

2 4 V D C -2

PA RT O F W 0 7

J2

10034-01-E

MOTDIL1_STEP MOTDIL1_DIR MOTDIL1_ENB MOTDIL1_TRQ MOTDIL2_STEP MOTDIL2_DIR MOTDIL2_ENB MOTDIL2_TRQ +5V EGND

MOTWSH_STEP MOTWSH_DIR MOTWSH_ENB MOTWSH_TRQ MOTSPRMN_STEP MOTSPRMN_DIR MOTSPRMN_ENB MOTSPRMN_TRQ +5V EGND

MOTCVT_STEP MOTCVT_DIR MOTCVT_ENB MOTCVT_TRQ MOTFLT_STEP MOTFLT_DIR MOTFLT_ENB MOTFLT_TRQ +5V EGND

W 2 1 -P1

J9

P/N:

W 2 0 -P1

J1 3 1 2 3 4 5 6 7 8 9 10

1 2 3 4 5 6 7 8 9 10

W 1 9 -P1

J1 2 1 2 3 4 5 6 7 8 9 10

J8 1 2 3 4 5 6 7 8 9 10

J7 1 2 3 4 5 6 7 8 9 10

J5

MOTA2X_STEP MOTA2X_DIR MOTA2X_ENB MOTA2X_TRQ MOTA2Y_STEP MOTA2Y_DIR MOTA2Y_ENB MOTA2Y_TRQ +5V EGND

MOTSMP_STEP MOTSMP_DIR MOTSMP_ENB MOTSMP_TRQ MOTRGT_STEP MOTRGT_DIR MOTRGT_ENB MOTRGT_TRQ +5V EGND

MOTA1X_STEP MOTA1X_DIR MOTA1X_ENB MOTA1X_TRQ MOTA1Y_STEP MOTA1Y_DIR MOTA1Y_ENB MOTA1Y_TRQ +5V EGND

P A RT O F A 2 O PP C O N TR O LLER A SSEM BLY P / N 1 0 0 1 6 -0 0 -C

SP A RE W 1 6 -P4

W 1 6 -P 5

W 1 6 -P6

W 1 6 -P 7

W 1 6 -P8

W 1 6 -P 9

W 1 6 -P1 0

W 1 6 -P1 1

P A RT O F W 1 6 A W G 18

PA RT O F W 1 6 A W G 18

P A RT O F W 1 6 A W G 18

P A RT O F W 1 6 A W G 18

P A RT O F W 1 6 A W G 18

P A RT O F W 1 6 A W G 18

PA RT O F W 1 6 A W G 18

W 1 6 -P1

W 1 6 -P 2

PA RT O F W 1 6 A W G 18

P A RT O F W 1 6 A W G 18

PA RT O F W 1 6 A W G 18

PA RT O F W 1 6 A W G 18

SA M P -M O T

REA G -M O T

XA RM 1 -M O T

YA RM 1 -M O T

XA RM 2 -M O T

YA RM 2 -M O T

C V T- M O T

FLT-M O T

W SH -M O T

D IL1 -M O T

D IL2 -M O T

TO W 1 6 - J 3

TO W 1 6 - J 4

TO W 1 6 - J 5

TO W 1 6 - J 6

TO W 1 6 - J 7

TO W 1 6 - J 8

TO W 1 6 -J9

TO W 1 6 -J1 0

TO W 1 6 -J1 1

TO W 1 6 -J1

TO W 1 6 -J2

TO O PP R& W A SSE M BLY (W A SH I N G STA TIO N M O TO R A SSEM BLY)

TO A RM D ILU TO R A SSEM BLY (A RM 1 D ILU TO R)

TO O PP S& R A SSEM BLY (SA M P LE M O TO R A SSEM BLY)

TO O PP S& R A SSEM BLY (REA G EN T M O TO R A SSEM BLY)

TO O PP A RM 1 A SSY (X-A XIS A RM 1 M O TO R)

TO O P P A RM 1 A SSY (Y-A XIS A RM 1 M O TO R)

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

TO O PP A RM 2 A SSY (X-A XIS A RM 2 M O TO R)

TO O P P A RM 2 A SSY (Y-A XIS A RM 2 M O TO R)

TO O PP R& W A SSE M BLY TO O P P R& W A SSEM BLY (REA D IN G C U V E TTE (FILTER W H EE L M O TO R A SSEM BLY) M O TO R A SSEM BLY)

Electrical drawing

Title:

W 1 6 -P 3

TO A RM D ILU TO R A SSEM BLY (A RM 2 D ILU TO R)

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1 2 3 4 5 6 7 8 9 10

N.C . HAL_LMP N.C . INC _HTR N.C . TEM_DRV N.C . TEM_OPT N.C . EGND

10034-01-E

P A RT O F A 2 O P P C O N TR O LLE R A S SE M B LY P / N 1 0 0 1 6 -0 0 -C

J14

W 1 7 -P 1

W 0 8 -P 1

PA RTO F W 08

P A RT O F W 0 8

1 2 3 FAN+ 2

BLAC K

RED

RED

TEM-

TEM

A 28

A 29

A 30

P E LTIE R M O D U LE S ( RE A G E N T TR A Y C O O LE R )

A 31 4 X 1 0 1 1 2 -0 0 -A 1 2 V 6 0 x 6 0 FA N A SSY

P/N:

1 2 1 2

1 2

1 2

Title:

BLUE -

BLUE

RED +

RED

-

+

BLUE

A 32

A 33

Electrical drawing

T EM

+ -

+ T EM

A 27 8 ,5 A @ 8,6 V 3 8 .5 W x 4

+ -

+ TEM

+

EV-POS EV-NEG

TO O P P R & W A S SE M B LY ( C U V E TTE S IN C U B A TIO N H E A TE R STR IP )

J5 P1

A 34

P E LTIE R C O O LIN G F A N S ( RE A G E N T TR A Y C O O LE R )

1 2

TO O P P R & W A S SE M B LY ( H A LO G E N R E A D IN G LA M P )

-

TO W 0 8 -J 1

RED

TO W 0 8 -J 2

+

TO A 3

J4 P1

B LK R E D RED

C V T-IN C

-

DIL_HOME DIL_ANODE +5V EGND

F LT-LM P

1 2

1 2

1 2

J3 P1 1 2

J2 P1

BLUE

PHA+ PHAPHB+ PHB-

R E A G _ TE M P

TO O P P S& R A S SE M B LY ( RE A G A SS Y TE M P SE N SO R )

P1

W 06 A W G 22

A W G 18

B LK R E D A R M D ILU TO R E V

A 16 A R M D ILU TO R A SS E M B LY P / N 1 0 3 5 8 -0 0 -C

2 1

E1 E2 E3 E4

BLAC K

TEM-

P2

TEM+

P1

RED

W 1 8 -J 4 BLAC K

W 1 6 -J 1

5 0 0 u L D ILU TE R

RED

BLUE

+12V_RMT +12V_RMT-RTN MGND FAN+ 1

TEM4

3

E1 E2 E3 E4

TO O P P P U M P S & D RIV E R S A 7 [A 1 -J 8 ]

1 2 3 4

1 2 3 4

TEM-

2 1

W 0 8 -P 4

2

1

W 0 8 -P 3

BLAC K

PA RTO F W 18

PA RTO F W 16 A W G 18

P1 J1

TB 1

TEM+

D IL1 -M O T TO W 1 6 -P 1

TEM+

TB 2

J4

RED

TO STE P M O TO R D R IV E 2 X 1 . 5 A V E R . 0 1

O P TO _ D IL1

A W G 22

W 1 8 -J 2 2 D IL2 -E V TO W 1 8 -P 1 2

TO W 1 8 -P 2

J5

1 2

1 2

J3

1 2

A R M 2 D ILU TO R

+12V +12V-RTN MGND

+24V +24V-RTN N.C . MGND TEM+

VSW-P VSW-N

VREG VREG-RTN

EV-POS EV-NEG

A8 LH P P O W E R B O A R D P / N 1 0 7 6 2 -0 0 -A

V TE M P + EG N D +Vs M GND

P1

J6

-

J2 1 2 3 4

A 17 A R M D ILU TO R A SS E M B LY P / N 1 0 3 5 8 -0 1 -C

J2

+

P1

1 2 3

J1

N.C . REG-ON N.C . SW-ON N.C . N.C . N.C . N.C . N.C . EGND

A R M D ILU TO R E V

1 2 3 4

1 2 3 4 5 6 7 8 9 10

DIL_HOME DIL_ANODE +5V EGND

5 0 0 u L D ILU TE R

H E A T SIN K F A N ( FIXE D O N TH E B A SE ) A 35

N O T U SE D

PHA+ PHAPHB+ PHB-

W 0 8 -P 2

FAN-

P2

FAN-

P1

12V D C

PA RTO F W 08

4

W 1 8 -J 7

3

W 1 6 -J 2

W 1 7 -P 2

TO O P P C O N TR O LLE R A SSE M B LY

2 4 V D C -9

PA RTO F W 08 P A RT O F W 1 6 A W G 18

MIURA Unit

P A RT O F W 1 8

1 2 3 4

TO STE P M O TO R D IL2 -M O T D R IV E 2 X 1 . 5 A V E R . 0 1 TO W 1 6 -P 2

W 17 F LA T 1 0 X A W G 2 8

1 2 3 4

TO O P P C O N TR O LLE R O P TO _ D IL2 A SSE M B LY TO W 1 8 -P 3

A R M 1 D ILU TO R

W 1 8 -J 2 1 D IL1 -E V TO W 1 8 -P 1 1 TO O P P P U M P S & D RIV E R S A 7 [A 1 -J 4 ]

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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W 2 4 -P 1

J4

1 2 3 4 5 6 7 8 9 10

1 2 3 4 5 6 7 8 9 10

J11

W 1 5 -P 1

SP A R E O U TP U TS

W 1 5 FLA T 1 0 X A W G 2 8

1 2 3 4

J1

INP-0 1 INP-02 INP-0 3 INP-04 INP-0 5 INP-0 6 INP-07 INP-0 8 INP-09 EG ND

A1 P W R D R IV E R M O D U LE - 9 X 1 A V E R . 0 0

J2

MIURA Unit

O UT0 9-P O UT0 9-N

O UT0 8-P O UT0 8-N 1 2

J10

J11 1 2

O UT0 7-P O UT0 7-N 1 2

J9

W 1 8 -P 7 V+ V-

W 1 8 -P 1 2

SP A R E P A RTO F W 1 8

C HTR2-A C HTR2-B

EV2 -PO S EV2 -NEG

C HTR1-A C HTR1-B

V+ V-

W 1 8 -P 6 V+ V-

EV1-PO S EV1-NEG

J8 1 2

J7

W 1 8 -P 1 1 V+ V-

O UT0 6-P O UT0 6-N

O UT0 5-P O UT0 5-N

J6 1 2

J5 1 2

J4 1 2

1 2

J3

O UT0 4-P O UT0 4-N

O UT0 3-P O UT0 3-N

B U ZZE R

V A 2+ V A 2-

1 2

P A RTO F W 0 7

V A 1+ V A 1-

O UT02 -P O UT02 -N

2 4 V D C -8

J1 1 2 3 4

O UT01 -P O UT01 -N

W 0 7 -P 8

P7

+24 V EGND +1 2V EG ND

1 2 3 4 5 6 7 8 9 10

W 1 5 -P 1

2 4 V D C -7

J10

P/N:

W 2 4 FLA T 1 0 X A W G 2 8

10034-01-E

BUZZER DIL1 _EV DIL1_PMP WSH_PMP ARM1_C O IL DIL2_EV DIL2 _PMP ARM2_C O IL SPARE_ISE EG ND

DIS0 _PMP ASP1_PMP DIS2 _PMP ASP3_PMP DIS4_PMP ASP5 _PMP DIS6_PMP ASP7 _PMP SC V_PMP EG ND 1 2 3 4 5 6 7 8 9 10

SPRMN_O C O UT2-7 SPRMN_O C O UT2 -5 SPRMN_O C O UT2-4 SPRMN_O C O UT2-3 SPRA1_O C O UT4 -7 SPRA1 _OC O UT4-5 SPRA2_O C O UT1 -6 SPRRW_O C O UT2 -7 SPRRW_O C O UT2-4 EGND

PA RTO F A 2 O P P C O N TR O LLE R A SSE M B LY P / N 1 0 0 1 6 -0 0 -C

P A RTO F W 1 8

A R M 2 -H C O IL TO W 1 8 -J 1 4 TO O P P A R M 2 A SSY ( A R M 2 C O IL H E A TE R ) D IL2 -E V TO W 1 8 -J 2 2 TO A R M 2 D ILU TO R A SSE M B LY ( D I L E V )

P2

1 2 3 4

J1

P A RTO F W 1 8

1 2

W 1 8 -P 1 4 V+ V-

W 1 8 -P 1 3 V+ V-

V+ V-

V+ V-

V+ V-

J11

Title:

V+ V-

V+ V-

V+ V-

SP A R E

D IL1 -E V TO W 1 8 -J 2 1 TO A R M 1 D ILU TO R A SSE M B LY ( D I L E V )

O UT0 9-P O UT0 9-N

O UT0 8-P O UT0 8-N

J10 1 2

J9 1 2

1 2

J8

A R M 1 -H C O IL TO W 1 8 -J 1 3 TO O P P A R M 1 A SSY ( A R M 1 C O IL H E A TE R )

J2

O UT0 7-P O UT0 7-N

O UT06 -P O UT06 -N

O UT05 -P O UT05 -N

J7 1 2

J6 1 2

J5 1 2

1 2

J4

O UT04 -P O UT04 -N

O UT03 -P O UT03 -N

O UT02 -P O UT02 -N

O UT01 -P O UT01 -N 1 2

J3

P A RTO F W 1 8

+24 V EGND +12 V EGND

A2 P W R D R IV E R M O D U LE - 9 X 1 A V E R . 0 0

INP-01 INP-0 2 INP-03 INP-0 4 INP-0 5 INP-06 INP-0 7 INP-08 INP-09 EG ND

1 2 3 4 5 6 7 8 9 10

W 2 4 -P 2

D ILU TO R 1 P U M P

PA RTO F W 18

PA RTO F W 18

W 1 8 -J 2 3

W 1 8 -J 2 4

W A SH IN G SI N K P U M P D ILU TO R 2 P U M P

1 2

Electrical drawing

A7 O P P P U M P S & D R IV E R S P / N 1 0 2 1 7 -0 0 -E

1 2

D ISP E N SIN G N E E D LE 1 D ISP E N SIN G N E E D LE 2 D ISP E N SIN G N E E D LE 3 D ISP E N SIN G N E E D LE 4 D ISP E N SIN G N E E D LE 5 D ISP E N SIN G N E E D LE 6 PU M P PU M P PU M P PU M P PU M P PU M P

P1

P1

A 24 A 25 ZR P A SP IR A TIO N P U M P ZR P A SP IR A TIO N P U M P P / N 1 0 9 3 8 -0 0 -A P / N 1 0 9 3 8 -0 1 -A SU C TI O N N E E D LE S P U M P SU C TI O N TIP P U M P

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37

SPRM N_O C INP2-1 SPRM N_O C INP2-1-RTN SPRM N_TTLINP4 -5 SPRM N_TTLINP4 -5 -RTN SPRM N_TTLINP4 -4 SPRM N_TTLINP4 -4 -RTN SPRM N_TTLINP4 -3 SPRM N_TTLINP4 -3 -RTN SPRM N_TTLINP4 -2 SPRM N_TTLINP4 -2 -RTN SPRM N_TTLINP4 -1 SPRM N_TTLINP4 -1 -RTN SPRM N_TTLINP4 -0 SPRM N_TTLINP4 -0 -RTN +5 V EG ND 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

J27

10034-01-E

W 1 8 -P 1 5

J26

J16

1 2 3 4

1 2 3 4 5 6 7 8 9 10

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

J31

1 2 3 4 5 6

J1

VTEM P+ EG ND +Vs M G ND

DIS_SNS DIS_SNS-RTN LIQ 2_SNS LIQ 2_SNS-RTN LIQ 1_SNS LIQ 1_SNS-RTN SPRM N_O C INP1 -4 SPRM N_O C INP1 -4 -RTN SPRM N_O C INP2 -0 SPRM N_O C INP2 -0 -RTN LIQ C _SNS LIQ C _SNS-RTN C VR_SNS +5 V C VR_ANO DE EG ND

EG ND VTM P_O UT EG ND +5V EG ND NTEM _O N EG ND NC O O LALM EG ND M G ND

+5V TX_RS2 3 2 EG ND RX_RS2 3 2 READ_TRIG M G ND

PA RTO F A 2 O P P C O N TR O LLE R A SSE M B LY P / N 1 0 0 1 6 -0 0 - C

O P TI O N FO R E X TE R N A L C O O LE R C O N TR O L

W 1 8 -P 1 0

P1

SP A R E TTL IN P U TS TO M A IN A SSE M B LY

TO STE P M O TO R D R IV E 2 X 1 . 5 A V E R . 0 0

R E A G -M O T

PA RTO F W 1 6 A W G 20

W 18 ( SH E A TE D 5 C O N D )

PA RTO F W 1 8

P/N:

TO W 1 6 -P 4 TO STE P M O TO R D R IV E 2 X 1 . 5 A V E R . 0 0

TO W 1 6 -P 3

PA RTO F W 1 6 A W G 20 W 1 6 -J4

W 1 8 -J2 0

W 1 8 -J2 5

P1

+5V RS23 2 TXD G ND RS23 2 RXD SW IN/ O UT

C VR_SNS EG ND

+PA -PA +PB -PB

R E A G E N T M O TO R A SSE M B LY

FI XE D O N B O TTO M O F R E A G E N T P LA TE

W1 M GND

C O V E R SE N SO R

E1

R E A G E N T A SSE M B LY H O M E SE N SO R

P LA C E D U N D E R R E A G E N T TR A Y

R E A G E N T A SSY TE M P SE N SO R

W 1 8 -J 1 7 B LU E

E LE C TR O N IC TE M P E R A TU R E SE N SO R

W 1 8 -J 1 8 G REEN

1 2 3 4

W 1 8 -J3

PA RTO F W 1 8

PA RTO F W 18

1 2

W 1 8 -J 2

FLT-H O M E

FLT-H O M E

TO W 1 8 -P 1

TO W 1 8 -P 1

TO O P P C O N TR O LLE R A SSE M B LY

TO O P P C O N TR O LLE R A SSE M B LY

M SW M SW-RTN

G REEN M SW M SW-RTN

B LU E M SW M SW-RTN

RED

Electrical drawing

1 2 3 4

W 1 8 -J1 6 RED

O UTPUT ANO DE +5V EG ND

O UTPUT ANO DE +5 V EG ND

SA M P LE A SSE M B LY H O M E SE N SO R

E2

FI X E D O N B O TTO M O F SA M P LE & R E A G E N TS A SSE M B LY

A20 LM 3 5 TE M P SE N SO R P / N 1 0 0 5 0 -0 2 -A

1 2

MM1

A21 R E E D SW I TC H P / N 1 0 5 7 0 -0 0 -A

1 2

M GND

A3 P / N 1 0 2 2 0 -0 0 -A O P P S& R A SSE M B LY

1 2

FI XE D O N TO P O F SA M P LE & R E A G E N TS A SSE M B LY & IN TO U C H W ITH SA M P LE P LA TE

B A R -C O D E R E A D E R

1 2

SA M P LE M O TO R A SSE M B LY

Title:

+PA -PA +PB -PB

1 2 3 4 5

1 2 3 4

1 2 3 4

1 2

W 1 6 -J 3

MIURA Unit

SA M P -M O T

R E A G _ TE M P TO A 8 TO LH P P O W E R BO A RD

FLO A T LE V E L SE N SO R

FLO A T LE V E L SE N SO R

FLO A T LE V E L SE N SO R

A4 W A STE TA N K

A3 LI Q U ID 2 TA N K C LE A N E R SO LU TIO N

A3 LI Q U ID 1 TA N K SY STE M I C SO LU TIO N

TA N K S O F LIQ U ID P LA C E D O U TSID E TH E M A C H I N E

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37

W 1 8 -P 5

J24

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

J18

W 1 8 -P 8

10034-01-E

SPRA1_O C INP2-1 SPRA1_O C INP2-1-RTN SPRA1_O C INP2-0 SPRA1_O C INP2-0-RTN SPRA2_O C INP1-7 SPRA2_O C INP1-7-RTN SPRA2_O C INP1-6 SPRA2_O C INP1-6-RTN SPRA2_O C INP2-0 SPRA2_O C INP2-0-RTN SPRA2_O C INP2-2 SPRA2_O C INP2-2-RTN SPRA2_O C INP2-1 SPRA2_O C INP2-1-RTN +5 V EGND

A1SW A1SW-ANO DE A2SW A2SW-ANO DE WSHLPO S WSHLPO S-ANO DE +5 V EGND

SPRA1_O C INP1-4 SPRA1_O C INP1-4-RTN ARM1_SNS ARM1_SNS-RTN SPRA2_O C INP1-4 SPRA2_O C INP1-4-RTN ARM2_SNS ARM2_SNS-RTN WSH_SNS WSH_SNS-RTN SPRRW_O C INP1-7 SPRRW_O C INP1-7-RTN MG ND +2 4V +5 V EGND

PA RTO F A 2 O P P C O N TR O LLE R A SS E M B LY P / N 1 0 0 1 6 -0 0 -C

J20

S P A R E S IN P U T TO A R M 1 A S SE M B LY A N D A R M 2 A S SE M B LY

PA RTO F W 18

PA RTO F W 18

P/N:

A R M 1 -H C O IL TO W 1 8 -P 6 TO P W R D R IV E R M O D U LE - 9 X 1 A V E R .0 0 )

PA RTO F W 18

1 2 3 4 5 6 7 8 9 10

W 1 8 -J 1 4

1 2 3 4 5 6 7 8 9 10

W 1 8 -J 1 3

MIURA Unit

A R M 2 -H C O IL TO W 1 8 -P 7 TO P W R D R IV E R M O D U LE - 9 X 1 A V E R .0 0 )

W 0 5 -P 1

C HTR-A SNS-EG ND MG ND +5 V O PTO-EG ND C HTR-B V+ SNS-O UT C -OUT ANO DE

C HTR-A SNS-EG ND MG ND +5 V O PTO-EG ND C HTR-B V+ SNS-O UT C -OUT ANO DE

W 0 4 -P 1

F LE X I B LE W I R I N G M O V I N G W I TH A R M

W 04

FLE X IB LE W IR IN G M O V IN G W ITH A R M

PA RTO F W 1 8

W 05

1 2 3 4 5 6 7 8 9 10

W 0 5 -P 2

1 2 3 4 5 6 7 8 9 10

W 0 4 -P 2

W SH LP O S

A4 O P P A R M 1 A SS E M B LY P / N 1 0 1 9 8 -0 0 - A

A5 O P P A R M 2 A SS E M B LY P / N 1 0 2 0 0 - 0 0 -A

W 1 6 -J5

PA RTO F W 16

W 1 8 -J6

PA RTO F W 18

PA RTO F W 16

W 1 8 -J5

PA RTO F W 18

W 1 6 -J 7

PA RTO F W 16

Y -A X I S A R M 1 M O TO R A SSE M B LY

PA RTO F W 18

1 2 3 4

+PA -PA +PB -PB 1 2 3 4

W 1 8 -J 9

Y -A X IS A R M 2 H O M E SE N SO R

O UTPUT ANO DE +5V EG ND

X -A X I S A R M 2 H O M E SE N SO R

1 2 3 4

+PA -PA +PB -PB

1 2 3 4

W 1 6 -J 6

X -A X IS A R M 2 M O TO R A SSE M B LY

O UTPUT ANO DE +5V EG ND

Y - A X IS A R M 1 H O M E S E N SO R

1 2 3 4

+PA -PA +PB -PB 1 2 3 4

1 2 3 4

1 2 3 4

+PA -PA +PB -PB

Y -A X IS A R M 1 M O TO R A SS E M B LY

O UTPUT ANO DE +5V EG ND

X -A X I S A R M 1 H O M E SE N SO R

W 1 6 -J8

PA RTO F W 16

W 1 8 -J8

PA RTO F W 18

X A R M 1 -M O T

A R M 1 -X H O M E

YA RM 1 -M O T

A RM 1 -YH O M E

X A R M 2 -M O T

A R M 2 -X H O M E

Y A R M 2 -M O T

TO W 1 6 -P 5

TO W 1 8 - P 2

TO W 1 6 -P 6

TO W 1 8 -P 2

TO W 1 6 - P 7

TO W 1 8 -P 3

TO W 1 6 - P 8

TO W 1 8 - P 3

TO STE P M O TO R D R IV E 2 X 1 .5 A V E R . 0 2

TO O P P C O N TR O LLE R A SS E M B LY

TO STE P M O TO R D RIV E 2 X1 .5 A V E R.0 2

TO O P P C O N TR O LLE R A SS E M B LY

TO STE P M O TO R D R IV E 2 X 1 . 5 A V E R .0 2

TO O P P C O N TR O LLE R A SS E M B LY

TO STE P M O TO R D R I V E 2 X 1 .5 A V E R . 0 2

TO O P P C O N TR O LLE R A SS E M B LY

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Title:

O P P A R M M O D U LE

TO O P P R & W A SS E M B LY ( W A S H IN G S TA TI O N LO W P O SITIO N SE N SO R )

Electrical drawing

C HTR-A C HTR-B SNS-EG ND V+ MG ND SNS-O UT +5 V C -OUT O PTO-EG ND ANO DE

O P P A R M M O D U LE

O UTPUT ANO DE +5V EG ND

X -A X I S A R M 1 M O TO R A SSE M B LY

C HTR-A C HTR-B SNS-EG ND V+ MG ND SNS-O UT +5 V C -OUT O PTO-EG ND ANO DE

TO W 1 8 - J 1 5

A R M 1 -Y H O M E

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37

J2 3 1 2 3 4 5 6

P1

W 1 1 -P 2

( 1 5 C O N D . SH IE LD E D C A B LE IN C LU D E D W ITH E N C O D E R SE E TA B LE O N TH IS P A G E )

PA RTO F W 08

W 11 (5 C O N D SH IE LD E D )

P/N:

P1

C V T-IN C

10034-01-E

J15

1 2 3 4

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

J2 5

VOUT-P VOUT-N VDC-P EGND VDC-N MGND

VTEMP+ EGND +Vs MGND

BIT1(LSB) BIT3 BIT5 BIT7 BIT9 BIT11 DIRECTION +EVOLT BIT2 BIT4 BIT6 BIT8 BIT10 BIT12(MSB) EGND

PA RTO F A 2 O P P C O N TR O LLE R A SSE M B LY P / N 1 0 0 1 6 -0 0 -C

TO W 0 8 -P 4

W 0 8 -E 2

1 2

1 2 3 4 5 6

W 1 1 -P 1

C U V E TTE A SSE M B LY H O M E SE N SO R

C U V E TTE A SSE M B LY TE M P E R A TU R E SE N SO R

C U V E TTE S IN C U B A TIO N H E A TE R STR IP

TH E R M A L P R O TE C TIO N

Vout-P Vout-N VDC-P VDC-N EGND MGND

PROT-

V_1 V_2

OUTPUT ANODE +5V EGND

R E A D IN G C U V E TTE M O TO R A SSE M B LY

W 0 8 -E 1

W 0 8 -J 1

1 2 3 4

W 1 8 -J 1 2

+PA -PA +PB -PB

1 2 3 4

W 1 6 -J 9

MIURA Unit

PA RTO F W 16

TO W 1 6 -J 9

RED

RED

C V T-M O T

PA RTO F W 0 8 PA RTO F W 18

PROT+

C V T-H O M E TO W 1 8 -P 4

1 2 -B IT M IU R A E N C O D E R ( A B S 1 3 -B IT--> 1 2 -B IT 5 V E N C O D E R , G R A Y, R E S4 0 9 6 , SYN C H R O , W ITH R A D IA L C A B LE )

P H O TO D IO D E SE N SO R

O P P C U V E TTE A SSE M B LY

A6 O P P R & W A SSE M B LY P / N 1 0 2 0 8 -0 1 -A O P P W A SH IN G STA TIO N

W A SH IN G STA TIO N LO W P O SITIO N SE N SO R

W 1 8 -J 1 0

W 1 6 -J 1 1

W 1 8 -J 1 1

W 1 8 -J 1 5

PA RTO F W 16

PA RT O F W 1 8

PA RTO F W 16

PA RTO F W 1 8

PA RTO F W 18

FLT-LM P

FLT-M O T

FLT-H O M E

W SH -M O T

W SH -H O M E

W SH LP O S

TO W 0 8 -P 3

TO W 1 6 -P 1 0

TO W 1 8 -P 4

TO W 1 6 -P 1 1

TO W 1 8 -P 4

TO W 1 8 -P 8

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Electrical drawing

1 2 3 4

E4

W 1 6 -J 1 0

W 0 8 -J 2

PA RTO F W 08

W A SH IN G STA TIO N H O M E SE N SO R

FIXE D O N TO P O F R & W A SSE M B LY

W2 M GND E3

1 2 3 4

1 2 3 4

1 2

V+ V-

+PA -PA +PB -PB

OUTPUT ANODE +5V EGND

FIXE D O N TO P O F O P TIC A L G R O U P

W A SH IN G STA TIO N M O TO R A SSE M B LY

E2

OUTPUT ANODE +5V EGND

E1

1 2 3 4

FILTE R W H E E L H O M E SE N SO R

OUTPUT ANODE +5V EGND

FILTE R W H E E L M O TO R A SSE M B LY

1 2 3 4

H A LO G E N R E A D IN G LA M P

FIXE D O N TO P O F R & W A SSE M B LY

W1 M GND

+PA -PA +PB -PB

FIXE D O N B O TTO M O F C U V E TTE P LA TE

Title:

O P P O P TIC A L G R O U P

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Page 10 of 10

37

- W IR IN G FO R FLU ID S A4 O PP A RM 1 A SSE M BLY

H Y D R A U LI C S C H EM A TI C W A S H I N G S TA TI O N , S I N K A N D W A S TE C IR C U IT

A1 O PP A RM M O D U LE

HM 4 O U TP U T M A N IFO LD

EX TER N A L

H T3 H T5

A1 A RM 1 C O IL H E A TER

H T7

HM 5 RED

10034-01-E

S A M P LI N G C I R C U I T S

H T6

HM 1

A25

A1 0 .5 M L D ILU TO R A SSE M BLY

SU C TIO N TIP PU M P

2 1 + H M 3 A RM D ILU TO R HM 2 LV M E V

A1 O PP A RM M O D U LE

H T1 6

SU C TIO N N E ED LES PU M P

HM 2 A RM 2 N EE D LE (REA G E N TS)

A1 0 .5 M L D ILU TO R A SSE M BLY

A11

A8

A7

A6

A5

A3

A4

HM 2 HM 3 HM 4 HM 5 HM 6 HM 7 HM 8 HM 9 HM 10 HM 11 HM 12 HM 13 HM 14 HM 15 HM 16 HM 17 HM 18 HM 19 HM 20

HM 8 HM 21 HM 1 IN P U T M A N IFO LD HM 23 HM 22

HM 1 A RM 1 N EE D LE (SA M P LE S)

H T1 H T6 H T4 H T2

A2

HM 10

HM 11

HM 12

HM 13

HM 14

HM 15

H T1 0

H T1 1

H T1 2

H T1 3

H T1 4

H T1 5

HM 16

HM 17

HM 18

HM 19

HM 20

HM 21

HM 9 W A SH IN G STA TIO N M A N IFO LD

HM 3 W A SH IN G SIN K

3

H T8 H M 6 BLU E H T9 H M 7 G RE E N

A17 A RM 2 D ILU TO R A SSEM BLY

H T1

A10

HM 9

M

HM 1

A9

A1 A RM 2 C O IL H E A TER

HM 1

HM 2

HM 2

A3 O PP W A SH IN G STA TIO N

2 1 + H M 3 A RM D ILU TO R HM 2 LV M E V H T1 7

TIP

N E ED LE7 N E ED LE6

N E ED LE5

N E E D LE 4

N E E D LE 3

N E E D LE 2

N E ED LE1

A3

A5

Title:

A5 O PP A RM 2 A SSE M BLY

HM 2

MIURA Unit

A2 3 -

W A SH IN G D ISPE N SIN G D ISPE N SIN G D ISPE N SIN G D ISP EN SIN G D ISP EN SIN G D ISP EN SIN G D ILU TO R1 D ILU TO R2 SIN K N E E D LE 6 N E E D LE 5 N E E D LE 4 N E ED LE3 N E ED LE2 N E ED LE1 PU M P PU M P PU M P PU M P PU M P PU M P PU M P PU M P PU M P

A4

LIQ U ID 1 TA N K

LIQ U ID 2 TA N K

W A STE TA N K (D ISC H A RG E)

G REE N

BLU E

RE D

Electrical drawing

HM 1

A24

ZRP ASPIRATION PUMP VER.00

A16 A RM 1 D ILU TO R A SSEM BLY

H T1

HM 1

A7 O P P P U M PS & D RIV ERS ZRP ASPIRATION PUMP VER.01

HM 2

HM 1

P/N:

M

FU LL/ EM P TY LIQ U ID LEV E L M O N ITO RE D BY FLO A T LE V E L SE N SO RS

A6 O PP R& W A SSE M BLY

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.

Schematics and Part Lists for MIURA Unit Sub-assemblies and Wirings

This paragraph and its sub-paragraphs include electrical drawings and part lists for MIURA Unit for the main instrument sub-assemblies including wirings. Part lists show only components available for servicing. Schematics have also been given with the aim to help trouble shooting.

3.3.1.

OPP Power Supply Assembly P/N 10369-00-A

This assembly is the Power Supply of the Unit; it includes a universal main AC/DC power supply (SMPS) for DC voltages generation. It must be connected to an alternate stable supply in the range from 100Vac up to 240Vac; the acceptable frequency ranges from 47Hz to 63Hz. Semi-operative voltage selection is not required. The main switch block is placed on the back side of the unit and it includes:  The main breaker.  Two line protection fuses (into a sliding fuse-holder).  One line filter and one suppressor.  The supply cable inlet.  A protection ground plug, to be used for eventual measures or further protection.

MAIN BREAKER PROTECTION FUSES BOX POWER SUPPLY FAX OUTLET GROUND PLUG

POWER CABLE

Figure 23: Main Switch Block

External main fuses on the main switch block:  Fuse F1 and F2: case 5mmX20mm, 10A/250Vac, T-type (delayed). WARNING When replacing or controlling main fuses, the instrument must be powered OFF and the power cable must be disconnected from the instrument.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Part List Pos.

Ref. Designator

Title: OPP Power Supply Assembly Q.ty

UoM

1

A1

1

PZ

2

F1, F2

2

PZ

3

SW1

1

PZ

4 5

  W01

1 1

PZ PZ

Description POWER SUPPLY, AC/DC SWITCHING, 650W, 90-264Vac@4763Hz INP, +5Vdc@100mAmax AUX, +24Vdc@18Amax OUT1, +12Vdc@18Amax OUT2, LOW LEAKAGE CURRENT =300uA@264Vac-53Hz, INTERNAL FAN COOLER (FW), SCREW TERMINAL, EN61010-1 COMPLIANT, VEGA650 SERIES FUSE,, 5x20mm, GLASS BODY, TYPE T (DELAYED) POWER INLET BLOCK, IEC/EN60320-1, WITH BIPOLAR BREAKER, READY FOR FUSEHOLDER 5x20mm 2-POLES, LINE FILTER 10A, MEDICAL APPLICATIONS FUSEHOLDER, 2-POLES, EXTRA SAFE OPP MAINPS WIRING

P/N: 10369-00-A Value

Rating

Toler.

 

 

 

V607B3D

P/N

10A

 

CT520310

 

250 Vac  

 

KMF1.1193.11

   

   

   

4301.1403 10057-00-A

RFI Filter suppressor is placed into Power Supply and belonging on the OPP MAINPS WIRING p/n 10057-00-A.

FRON T PS COVE R

POWE R SUPP LY RFI OPP REAR SUPPRESSO MAINPS PS R WIRING COVER Figure 24: OPP Power SupplyFILTER Assembly

+12VDCOUT TRIMMING POT

To replace this assembly power OFF the instrument, disconnect from main power line and remove the instrument cabinet. Unfasten the screws fixing the Front PS Cover and the Rear PS Cover; remove them. Unfasten the two screws fixing the Power Supply on the instrument base (they are placed behind these two covers); disconnect wirings from Power Supply; unfasten and extract RFI Filter and remove Power Supply. Replace the Power Supply only with the same model following the instructions above from bottom to top. The +12Vdc output section gives the possibility to trim the generated voltage through a potentiometer in order to adjust its value when under load conditions. The voltage must be regulated in order to get about +13Vdc on the Peltier cell terminal block TB2 of the LHP Power Board 10762-00-A, when under load condition (Blue LED ON) – pay attention not to overcome +13.5Vdc on the terminal block TB1 of the same board (fans).

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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L 1 1 0 -2 2 0 V a c @ 5 0 -6 0 H z

N'

N

N'

E4

MGND

10 9 8 7 6 5 4 3 2 1

D ET# 3

N

A1

PE' E6

LA M B D A P / N V 6 0 7 B 3 D

+S N S_24V 1 -S N S _ 2 4 V 2

M A X TO T. O U TP U T PO W ER=650W

R M T SE N SIN G O F + 2 4 V M O D U LE 2

+12V O U T

+12V +

+12V @ 18A m a x ( N O TE # 2 )

+ 1 2 V -R T N +12V SEN S

D ET# 3 INH_1IN INH_0IN +5V_AUX 0V_AUX FAIL_E FAIL_C

2 ,5 m m q Y/ G

R M T SE N SIN G O F + 2 4 V M O D U LE 1

+24V M O D 2 SEN S

L

V in n o m = 1 0 0 -2 4 0 V a c @ 4 7 -6 3 H z ------------------LO W LE A K . C U RR.= 0 ,3 m A

F2

M GND

L'

-S N S _ 2 4 V 1 +S N S_24V 2

IN P U T

M GND

E3

M A IN B R E A K E R

E8

+24V M O D 1 SEN S

D ET# 3

E5

N'

+24V @ 18A m a x ( N O TE # 1 )

+ 2 4 V -R T N -

W 01 N

+24V +

10369-00-A

L1 2m H 10A C 210 L' E 1 L L'

+24V O U T

D ET# 2

3 x 1 ,5 m m q SH E A TE D M A IN C A B LE

PE' E2

PE

D ET# 2

+24V MOD1 CTR L

P/N:

SW 1

+24V MOD2 C TR L

10 9 8 7 6 5 4 3 2 1

E7

IN P C TR L

D ET# 1

6 5 4 3 2 1

FIX E D O N M G N D E X TE R N A L TE R M IN A L ( SC R E W M 6 )

INH +Ve -V_SNS INH -Ve SHARE UNUSED SHARE GOOD-C +V_SNS GOOD_E UNUSED

F1

O P TIO N C O N N E C TO R O F + 2 4 V M O D U LE 2

INH +Ve -V_SNS INH -Ve SHARE UNUSED SHARE GOOD-C +V_SNS GOOD_E UNUSED

IN TO TH E P . S. A 1 (P A RTO F W 01 )

2 x FU SE S = 1 0 A D LY ( T-TY P E ) A N TISU R G E G LA SS

J1

INH +Ve -V_SNS INH -Ve SHARE UNUSED SHARE GOOD-C +V_SNS GOOD_E UNUSED

10 9 8 7 6 5 4 3 2 1

O P TIO N C O N N E C TO R O F + 2 4 V M O D U LE 1

Page 1 of 1

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

OPP Power Supply Assembly

37

O P TIO N C O N N E C TO R O F P R IM A R Y M O D U LE

O P TIO N C O N N E C TO R O F + 1 2 V M O D U LE

-S N S _ 1 2 V 1 +S N S_12V 2

+12V C TR L

R M T SE N SIN G O F + 1 2 V M O D U LE

D ET# 2

C O N N EC TO R S F R O N T V IEW

M G ND FIX E D O N TH E B O TTO M O F TH E C H A SSIS ( SC R E W M 4 )

D ET # 1

D ET # 3

6 5 4 3 2 1

1 2

10 8 6 4 2

9 7 5 3 1

Electrical drawing

Title:

D ET # 2

N O TE S: 1 - A 1 "+ 2 4 V O U TP U T": + 1 8 , 2 V TO + 3 2 , 4 V A D J U STA B LE R A N G E 2 - A 1 "+ 1 2 V O U TP U T": + 9 , 1 V TO 1 6 ,2 A D J U STA B LE R A N G E 3 - R E M O TE SE N SIN G = 0 ,7 5 V m a x LIN E D R O P C O M P E N SA TIO N

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.1.1.

OPP MAINPS Wiring, P/N 10057-00-A

This is the power wiring that connects the instrument power inlet with the Power Supply. It carries on high voltage line (100-240Vac @50-60Hz). Work on it only with power cable disconnected from main line. Part List Pos.

Ref. Designator

Title: OPP MAINPS Wiring

P/N: 10057-00-A

Q.ty

UoM

Description

Value

Rating

Toler.

1

E1, E3

2

PZ

 

 

 

RF-F-408P

2

E2

1

PZ

 

 

 

GF-F 608

3

E4-E6

3

PZ

 

 

 

RF-U4

4

E7

1

PZ

 

 

 

GF-M4

5

E8

1

PZ

 

 

 

GF-M6

6

 

0,35

M

 

 

 

1120307

7

 

0,4

M

 

 

 

4520002

8

L1

1

PZ

TERMINAL, FAST-ON, FEMALE, TOTALLY PREINSULATED IN PC, PRE.TINNED BRASS, RED (AWG22-16, 0,25-1,5mm 2), 4,8x0,8mm TERMINAL, AD INNESTO, FAST-ON, FEMALE, PREINSULATED IN PVC, PRE.TINNED BRASS, YELLOW (AWG12-10, 4-6mm 2), 6,35x0,8mm TERMINAL, FORK, PREISOLATO IN PVC, PREINSULATED IN PVC, PRE.TINNED BRASS, RED (AWG22-16, 0,25-1,5mmq), SCREW DIAM. 4mm TERMINAL, HOLED, PREISOLATO IN PVC, PREINSULATED IN PVC, PRE.TINNED BRASS, YELLOW (AWG12-10, 4-6mm 2), SCREW DIAM. 4,3mm TERMINAL, HOLED, PREISOLATO IN PVC, PREINSULATED IN PVC, PRE.TINNED BRASS, YELLOW (AWG12-10, 4-6mm 2), SCREW DIAM. 6,4mm CABLE, MULTIPOLES, 3 CONDUCTORS (2 NUMBERED BLACK + 1 Y/G) 3x1,5mm 2 (3G1,5), COPPER, FLEXIBLE, EXTERNAL PVC BLACK SHEATH, CEE 73/23, FLAME RETARDANT IEC60332, 0,6-1kV, TYPE LAPP OLFLEX CLASSIC 110 CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, CEE 73/23, H07V-K, 2,5mm2 (50/0,25), FROM -40°C TO +70°C, Uo/U=450-750V, YELLOW/GREEN FILTER COIL, RFI SUPPRESSOR, 10A, WORKING VOLTAGE=500Veff max, ENCAPSULATED, M4 THREATED FIXING HOLES

P/N

2mH

10A/ 500V

 

C210

Figure 25: OPP MAINPS Wiring, P/N 10057-00-A

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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Page 1 of 1

37

L1 2m H 10A

E5

1 0 -2 0 V ac TO S W 1 -P E ' @ 5 0 -6 0 H z OF OP P UNI T

E2

B LA CK-1 TO A1 - L AC/ D C PO W ER SU P LY E 6 TO A1 - E A R TH GR O UND Y E L O W / G R E N AC/ D C P O W E R SU P LY

YEL O W / G RE N

P/N:

TO S W 1 -L' B R O W N L L' B LA CK B LA CK-1 OF OP P UNI T N N'

OPP MAINPS Wiring

E1

10057-00-A

I N T O TH E P O W E R S U P L Y

E4

E3

R E D B LA CK-2

TO S W 1 - N B L U E OF OP P UNI T

Y E L L O W /G R E E N

3 x 1 ,5 m mq P V C S H E A TE D CAB LE

B LA CK-2 TO A1 - N AC/ D C P O W E R SU P LY

Title:

2 , 5 m mq

Electrical drawing

TO MGND E 7 ( S C R E W E D ON TH E B A S E OF TH E CHASS I S M4 )

TO MGND E X T P LU G E 8 YEL O W /G RE N (M 6)

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3.3.2.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

OPP Controller Assembly P/N 10016-00-C

This assembly includes a local DC/DC converter power supply, the controller boards of the unit and a mother board A1 (OPP Controller Mother Board P/N 10030-00-C). This assembly is contained into a rack and collects all small signals to/from sensors and driver boards. The DC/DC power supply A6 (CNT Power Supply P/N 10028-01-A) converts the +24VDC into the DC low voltages used by the digital and analog circuits. The controller boards are four:  A2 – R&W Controller P/N 10012-04-C, controls Read and Wash Assembly.  A3 – MAIN Controller Ver.01 P/N 10012-01-D, controls the Unit and Sample and Reagent Assembly.  A4 – ARM1 Controller P/N 10012-02-C, controls ARM1 Assembly (Sample ARM).  A5 – ARM2 Controller P/N 10012-03-C, controls ARM2 Assembly (Reagent ARM). The controller boards are intra-connected through two busses: one for data and macro-command (Rx/Tx bus) the other for synchronisms (SPI bus). The Rx/Tx bus is accessed also by the Personal Computer through the Main Controller board that provides the adapter. If the Unit is equipped with the ISE Module, the ARM1 controller board manages the communication with it too.

Figure 26: OPP Controller Assembly - Front View If needed, it is possible to extract each of these five boards by sliding them away: pay attention not to touch on-board electronic components as they can be ESD sensitive and not to bend or damage boards. Use a standard hook extractor for Eurocards 100x160mm. If needed, the Mother Board can be disassembled after having disconnected the wirings and dismounted the rack from the mechanics. Screw away seven upper screws and seven lower screws. During replacing with a new one, take care about the alignments to allow correct boards insertion. Refer to the following layout to find information on the connection of the wiring connectors into the Controller Assembly backplane (Mother board).

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Figure 27: OPP Controller Assembly - Back View, Connectors to Unit Wirings

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Part List Pos. 1 2 3 4 5 6 7

Ref. Designator A1 A2 A3 A4 A5 A6  

Title: OPP Controller Assembly Q.ty

UoM

1 1 1 1 1 1 1

PZ PZ PZ PZ PZ PZ PZ

P/N: 10016-00-C Description

OPP CONTROLLER MOTHER BOARD R&W CONTROLLER MAIN CONTROLLER VER.01 ARM1 CONTROLLER ARM2 CONTROLLER CNT POWER SUPPLY RACK, 3U/160/52TE

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Value

Rating

Toler.

             

             

             

P/N 10030-00-C 10012-04-C 10012-01-D 10012-02-C 10012-03-C 10028-01-A SUBRACK SERIE ARGENTO "A" MILC-21097

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Page 1 of 2

37

A3

A4

A5

A6

R & W CONTR O L E R P / N 1 0 1 2 -0 4 -C

MAIN CONTR O L E R VE R . 0 1 P / N 1 0 1 2 -0 1 -C

AR M 1 CONTR O L E R P / N 1 0 1 2 -0 2 -C

AR M 2 CONTR O L E R P / N 1 0 1 2 -0 3 -C

CNT P O W E R S U P LY P / N 1 0 2 8 -0 3 -A

SP A R E SLO T

J1

J1

J1

P1

P2

P3

P4

J1 P/N:

J1

10016-00-C

A2

P6

OPP Controller Assembly

P5

P A R T OF A1

J1

TO / F R O M P C SE R V IC E CONNE C TIO N ( R S-2 3 2 )

J2

OP TIO NAL ACTU ALLY NOT US E D

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

TO / F R O M P C OP E R A TIV E CONNE C TIO N ( R S-2 3 2 )

J3

OUTP U T O LO AD DR IV E R S

J4

J5

Title:

S P R M N _ O C O U T 2 7 S P R M N _ O C O U T 2 5 S P R M N _ O C O U T 2 4 S P R M N _ O C O U T 2 3 S P R A 1 _ O C O U T 4 7 S P R A 1 _ O C O U T 4 5 S P R A 2 _ O C O U T 1 6 S P R R W _ O C O U T 2 7 S P R R W _ O C O U T 2 4 E G N D

M O T D I L 1 _ S T E P M O T D I L 1 _ D I R M O T D I L 1 _ E N B M O T D I L 1 _ T R Q M O T D I L 2 _ S T E P M O T D I L 2 _ D I R M O T D I L 2 _ E N B M O T D I L 2 _ T R Q + 5 V E G N D

M O T A 2 X _ S T E P M O T A 2 X _ D I R M O T A 2 X _ E N B M O T A 2 X _ T R Q M O T A 2 Y _ S T E P M O T A 2 Y _ D I R M O T A 2 Y _ E N B M O T A 2 Y _ T R Q + 5 V E G N D

M O T A 1 X _ S T E P M O T A 1 X _ D I R M O T A 1 X _ E N B M O T A 1 X _ T R Q M O T A 1 Y _ S T E P M O T A 1 Y _ D I R M O T A 1 Y _ E N B M O T A 1 Y _ T R Q + 5 V E G N D

TO / F R O M IS E MODULE ( RS-2 3 2 )

J6

OUTP U T O AR M 1 X & Y MOTO R DR IV E R S

J7

OUTP U T O AR M 2 X & Y MOTO R DR IV E R S

J8

OUTP U T O AR M 1 DILU TO R & AR M 2 DILU TO R MOTO R DR IV E R S

J9

1 2 3 4 5 6 7 8 9 1 0

1 2 3 4 5 6 7 8 9 1 0

1 2 3 4 5 6 7 8 9 1 0

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8 9 1 0

OUTP U T O SM P & R G T MOTO R DR IV E R S

SP A R E OUTP U TS

J10

Electrical drawing

TO / F R O M B A R -C ODE R E A DE R ( RS-2 3 2 )

1 2 3 4 5 6 7 8 9 1 0

1 2 3 4 5 6

1 2 3 4 5 6 7 8 9 1 0

V D C P R X D I N T X D O U T M G N D R S 2 3 2 G N D V D C P R T N R T S C T S

M O T S M P _ S T E P M O T S M P _ D I R M O T S M P _ E N B M O T S M P _ T R Q M O T R G T _ S T E P M O T R G T _ D I R M O T R G T _ E N B M O T R G T _ T R Q + 5 V E G N D

N . C . N .C . R X D N .C . T X D N . C . N . C . N .C . S G N D N .C . 1 2 3 4 5 6 7 8 9 1 0

B U Z Z E R D I L 1 _ E V D I L 1 _ P M P W S H _ P M P A R M 1 _ C O I L D I L 2 _ E V D I L 2 _ P M P A R M 2 _ C O I L S P A R E _ I S E E G N D

N . C . N .C . R X D R T S T X D C T S N . C . N . C . S G N D N .C . 1 2 3 4 5 6 7 8 9 1 0

+ 5 V T X _ R S 2 3 2 E G N D R X _ R S 2 3 2 R E A D _ T R I G M G N D

OP P CONTR O L E R MOTH E R B O AR D P / N 1 0 3 0 -0 -C

OP TIO NAL ACTU ALLY NOT US E D

63/382

S P A R E I N P U TS TO A RM 1 & A R M 2 A S E M B LIE S

O P TI O N A L A C TU A L Y N O T U SE D

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

IN P U T FRO M A RM 2 H O M E O P TO SE N SO R S J21 J2 J23

IN P U T FRO M FR O M IN P U T FRO M FILTE R WH E L, P H O TO D IO D E PRO TE C TIO N & SE N SO R S WSH STA TIO N & C UV ETE HO M ES O P TO S E N S O R S J24 J2 5

FRO M C U V E T E IN P U T F RO M A S Y A S EM B LY MA IN A S EM B LY TE M P E R A TU R E S E N S O R S SE N SO R J2 6 J2 7 J2 8 J29 E G N D V T M P _ O U T E G N D + 5 V E G N D N T E M _ O N E G N D N C O O L A L M E G N D M G N D

+ 5 V 5 V E G N D M G N D

O P C O N TR O L ER MOTH ER B O A RD P / N 1 0 3 0 - 0 -C

J3 0

OPP Controller Assembly

D I L 1 _ H O M E D I L 1 _ A N O D E A 1 Y _ H O M E A 1 Y _ A N O D E A 1 X _ H O M E A 1 Y _ A N O D E + 5 V E G N D

S P R M N _ H O M E S P R M N 2 _ A N O D E S M P _ H O M E S M P _ A N O D E R G T _ H O M E R G T _ A N O D E + 5 V E G N D

P/N:

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6

IN P U T FRO M A RM 1 , A RM 2 & R& W A S E M B LIE S E N SO R S + SP A RE S

J3 1

Title:

1 2 3 4 5 6 7 8 9 1 0

+ 1 2 V E G N D M G N D

S P R A 1 _ O C I N P 1 4 S P R A 1 _ O C I N P 1 4 R T N A R M 1 _ S N S A R M 1 _ S N S R T N S P R A 2 _ O C I N P 1 4 S P R A 2 _ O C I N P 1 4 R T N A R M 2 _ S N S A R M 2 _ S N S R T N W S H _ S N S W S H _ S N S R T N S P R R W _ O C I N P 1 7 S P R R W _ O C I N P 1 7 R T N M G N D + 2 4 V + 5 V E G N D

1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6

1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5

IN P U TF RO M SP A RE, SM P H O ME & RG TH O M E O P TO S E N S O R S J1 7 J1 8

1 2 3 4

1 2 3

V T M P 2 + E G N D + V s M G N D

B I T 1 ( L S B ) B I T 3 B I T 5 B I T 7 B I T 9 B I T 1 1 D I R E C T I O N + E V O L T B I T 2 B I T 4 B I T 6 B I T 8 B I T 1 0 B I T 1 2 ( M S B ) E G N D

1 2 3 4 5 6 7 8 9 1 0

J1 6

+ 2 4 V E G N D M G N D

S P R M N _ O C I N P 2 1 S P R M N _ O C I N P 2 1 R T N S P R M N _ T T L I N P 4 5 S P R M N _ T T L I N P 4 5 R T N S P R M N _ T T L I N P 4 4 S P R M N _ T T L I N P 4 4 R T N S P R M N _ T T L I N P 4 3 S P R M N _ T T L I N P 4 3 R T N S P R M N _ T T L I N P 4 2 S P R M N _ T T L I N P 4 2 R T N S P R M N _ T T L I N P 4 1 S P R M N _ T T L I N P 4 1 R T N S P R M N _ T T L I N P 4 0 S P R M N _ T T L I N P 4 0 R T N + 5 V E G N D

N . C . H A L _ L M P N . C . I N C _ H T R N . C . S P R M N _ O C O U T 4 5 N . C . N . C . N . C . E G N D

S P A R E T L I N P U TS TO MA IN A S EM B LY

1 2 3

1 2 3 4

D I S _ S N S D I S _ S N S R T N L I Q 2 _ S N S L I Q 2 _ S N S R T N L I Q 1 _ S N S L I Q 1 _ S N S R T N S P R M N _ O C I N P 1 4 S P R M N _ O C I N P 1 4 R T N N . C . E G N D L I Q C _ S N S L I Q C _ S N S R T N C V R _ S N S + 5 V C V R _ A N O D E E G N D

V T M P 1 + E G N D + V s M G N D

PA RT O F A 1

1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6

1 2 3 4

A 1 S W A 1 S W A N O D E A 2 S W A 2 S W A N O D E W S H L P O S W S H L P O S A N O D E + 5 V E G N D

V O U T P V O U T N V D C P E G N D V D C N M G N D

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8 9 1 0

O U TP U T O WSH MO TO R O U TPU T O IN P U TFRO M & SPA RE MO TO R P W R SW ITC H & 1 2 -B IT A BSO LU TE R E G U L A TO R E N C O D E R D RIV ER S J13 J1 4 J15

FR O M + 2 4 V D C P + 1 2 V D C P + / -5 V D C P C O LE R A S E M B LY EN V IRO N M E N TA L IN PU T ( SER V IC E) ( SE RV IC E) C O M MA N D & C O N TRO L ( O TI O N A L C O N E C TI O N ) TE M P E R A TU R E S U P L Y SE N SO R

O P TI O N A L O P TI O N A L A C TU A L Y A C TU A L Y N O T U SED N O T U SED

Electrical drawing

J20 1 2 3 4 5 6

M O T W S H _ S T E P M O T W S H _ D I R M O T W S H _ E N B M O T W S H _ T R Q M O T S P R M N _ S T E P M O T S P R M N _ D I R M O T S P R M N _ E N B M O T S P R M N _ T R Q + 5 V E G N D

J12

F L T _ H O M E F L T _ A N O D E W S H _ H O M E W S H _ A N O D E C V T _ H O M E C V T _ A N O D E + 5 V E G N D

1 2 3 4 5 6 7 8 9 1 0

1 2 3 4 5 6 7 8 9 1 0

O U TP U T O C V T & FLT MO TO R D RIV ERS

1 2 3 4 5 6 7 8

M O T C V T _ S T E P M O T C V T _ D I R M O T C V T _ E N B M O T C V T _ T R Q M O T F L T _ S T E P M O T F L T _ D I R M O T F L T _ E N B M O T F L T _ T R Q + 5 V E G N D

D I S 0 _ P M P A S P 1 _ P M P D I S 2 _ P M P A S P 3 _ P M P D I S 4 _ P M P A S P 5 _ P M P D I S 6 _ P M P A S P 7 _ P M P S C V _ P M P E G N D

J1

D I L 2 _ H O M E D I L 2 _ A N O D E A 2 Y _ H O M E A 2 Y _ A N O D E A 2 X _ H O M E A 2 X _ A N O D E + 5 V E G N D

S P R A 1 _ O C I N P 2 1 S P R A 1 _ O C I N P 2 1 R T N S P R A 1 _ O C I N P 2 0 S P R A 1 _ O C I N P 2 0 R T N S P R A 2 _ O C I N P 1 7 S P R A 2 _ O C I N P 1 7 R T N S P R A 2 _ O C I N P 1 6 S P R A 2 _ O C I N P 1 6 R T N S P R A 2 _ O C I N P 2 0 S P R A 2 _ O C I N P 2 0 R T N S P R A 2 _ O C I N P 2 2 S P R A 2 _ O C I N P 2 2 R T N S P R A 2 _ O C I N P 2 1 S P R A 2 _ O C I N P 2 1 R T N + 5 V E G N D

O U TP U T O WSH STA TIO N PU M P D RIV ERS

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6

IN P U T FRO M A RM 1 H O M E O P TO SE N SO R S

J1 9 10016-00-C

O P TI O N A L A C TU A L Y N O T U SED Page 2 of 2

37 MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

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3.3.2.1.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

OPP Controller Mother Board P/N 10030-00-C

This board is the Mother Board of the Controller Assembly; it acts as a backplane interconnecting the Controller Boards each other. It collects signals from remote sensors and distributes signals to the drivers and peripherals through wirings. Connectors P1 to P4 are for Controllers Board, connector P5 is not used and connector P6 is for the local power supply. Four green LEDs are placed on this board for monitoring of DC voltages:  +5V  -5V  +24V  +12V (actually not used) when light is ON, voltage is there.

Figure 28: OPP Controller Mother Board - Front View Note: No maintenance operations are foreseen at board level. Ask Producer for spare part.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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3.3.2.2.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

CNT Power Supply P/N 10028-01-A Ver.01

This board is a DC/DC converter power supply for the controller boards of the unit. It is located into the Controller assembly P/N 10016-00-C, inserted in the connector P6. It generates two filtered voltages +5VDC and -5VDC. The DC channels is protected against input over-current by a F (fast) type 5mmx20mm 4.0A/250Vac standard glass fuse.

Figure 29: CNT Power Supply Note: No maintenance operations are foreseen at board level. Ask Producer for spare part.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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3.3.2.3.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

MAIN Controller Ver.01 P/N 10012-01-D

This board is the Main Controller of the Unit. It is located into the Controller assembly P/N 10016-00-C, in the slot corresponding to the connector P2. It manages the Sample and Reagent Assembly and the data handshake with PC and BarCode Reader. It controls the Sample wheel motor, the Reagent wheel motor, the liquid level floating sensors of the tanks, the cover of the instrument, the buzzer, the Communication with the other controllers and the SPI Synchro Bus (as master). It is equipped with an embedded flash code memory micro-controller (U1). The firmware upgrade is achieved by using a special Software Download program only and it is performed through the RS232 serial link from the Personal Computer of the system; no hardware intervention is required. This electronic board is provided with an external flash memory (U3 - on socket) for storing particular data and also calibration parameters for all units’ assemblies. This chip must follow the unit in case of board breakdown and replacing. This board controls the cuvette incubation temperature and also measures the internal temperature of the power electronic (motor drivers). Two potentiometer have been tuned at factory:  Potentiometer R154, devoted to the incubation temperature (cuvette) fine tuning and off-set nulling.  Potentiometer R160, devoted to internal electronic temperature fine tuning and off-set nulling. On the rear edge of the board are four LEDs that give the monitor status of this module:  CR7 (green): +5V ON, if ON the board is powered.  CR4 (green): BOARD TX, when ON the board is transmitting data.  CR3 (yellow): PC TX, when ON the Personal Computer is transmitting data.  CR2 (red): WD ALARM, if ON the board is out of order (watch-dog) and must be replaced. In particular, this board controls the following signals and functions: Name Desciption MOTRGT_STEP Reagent Motor, Step MOTRGT_DIR Reagent Motor, Direction MOTRGT_ENB Reagent Motor, Enable MOTRGT_TRQ Reagent Motor, REDUCED TORQUE RGT_HOME Reagent Motor, Home Sensor MOTSMP_STEP Sample Motor, Step MOTSMP_DIR Sample Motor, Direction MOTSMP_ENB Sample Motor, Enable MOTSMP_TRQ Sample Motor, REDUCED TORQUE SMP_HOME Sample Motor, Home Sensor CVR_OPT Cover Sensor READ_TRIG BarCode Reading Trigger LIQ1_SNS Systemic Solution Tank Level Sensor LIQ2_SNS Cleaner Solution Tank Level Sensor DIS_SNS Waste Tank Level Sensor LIQC_SNS Cooling Liquid Level Sensor BUZZER Buzzer (internal beeper) INC_HTR Incubation Heater Strip SPI SPI Synchro Bus Rx/Tx Data Rx/Tx Controller Boards Data RS232 PC Rx/Tx Rx/Tx Personal Computer Data RS232 BC Rx/Tx Rx/Tx BarCode Reader Data

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Type of Signal OUTPUT OUTPUT OUTPUT OUTPUT INPUT OUTPUT OUTPUT OUTPUT OUTPUT INPUT INPUT OUTPUT INPUT INPUT INPUT INPUT OUTPUT OUTPUT INPUT/OUTPUT INPUT/OUTPUT INPUT/OUTPUT INPUT/OUTPUT

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M

Figure 30: MAIN Controller Board Note: No maintenance operations are foreseen at board level. Ask Producer for spare part.

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3.3.2.4.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

RW Controller P/N 10012-04-C

This board is the Read&Wash Controller of the Unit. It is located into the Controller assembly P/N 10016-00-C, inserted in the connector P1. It manages the Read & Wash Assembly. It controls the Cuvette wheel motor, the Filter wheel motor, the Washing Station motor, the Halogen Lamp, the Washing Station into cuvettes, the Washing station dispensing pumps, the Washing Station aspirating pumps, the tip aspirating pump (for drying), the cuvette encoder, the Communication with the other controllers and the SPI Synchro Bus (as slave). It is equipped with a flash code memory micro-controller (U1). The firmware upgrade is achieved by using a special Software Download program only and it is performed through the RS232 serial link from the Personal Computer of the system; no hardware intervention is required. Characteristic calibration parameters of the R&W Assembly are stored in the external flash memory of the Main Controller Board. This board manages the optical group and provides the optical measurement of the reaction’s OD by acquisition and conditioning of the photodiode analog signal. Analog-to digital conversion is reached by a 16-bit AtoD Converter working in parallel mode. Each wavelength filter works with its own gain. Automatic gain calibration is provided through a digital potentiometer. Off-set is automatically nulled. On the rear edge of the board are three LEDs that give the monitor status of this module:  CR7 (green): +5V ON, if ON the board is powered.  CR4 (green): BOARD TX, when ON the board is transmitting data.  CR2 (red): WD ALARM, if ON the board is out of order (watch dog) and must be replaced. In particular, this board controls the following signals and functions: Name Desciption Type of Signal MOTCVT_STEP Cuvette Motor, Step OUTPUT MOTCVT_DIR Cuvette Motor, Direction OUTPUT MOTCVT_ENB Cuvette Motor, Enable OUTPUT MOTCVT_TRQ Cuvette Motor, REDUCED TORQUE OUTPUT CVT_HOME Cuvette Motor, Home Sensor INPUT MOTWSH_STEP Washing Station Motor, Step OUTPUT MOTWSH_DIR Washing Station Motor, Direction OUTPUT MOTWSH_ENB Washing Station Motor, Enable OUTPUT MOTWSH_TRQ Washing Station Motor, REDUCED TORQUE OUTPUT WSH_HOME Washing Station Motor, Home Sensor INPUT MOTFLT_STEP Filter Wheel Motor, Step OUTPUT MOTFLT_DIR Filter Wheel Motor, Direction OUTPUT MOTFLT_ENB Filter Wheel Motor, Enable OUTPUT MOTFLT_TRQ Filter Wheel Motor, REDUCED TORQUE OUTPUT FLT_HOME Filter Wheel Motor, Home Sensor INPUT HAL_LMP Halogen Lamp (Photometer) OUTPUT WSHLPOS Washing Station Low Position Sensor INPUT DIS1_PMP Needle 1 Dispensing Pump (DIS1 - Position1) OUTPUT DIS2_PMP Needle 2 Dispensing Pump (DIS2 – Position2) OUTPUT DIS3_PMP Needle 3 Dispensing Pump (DIS3 – Position3) OUTPUT DIS4_PMP Needle 4 Dispensing Pump (DIS4 – Position4) OUTPUT DIS5_PMP Needle 5 Dispensing Pump (DIS5 – Position5) OUTPUT DIS6_PMP Needle 6 Dispensing Pump (DIS6 – Position6) OUTPUT ASP1-7_PMP Needle 1-5 and 7, Aspiration Pump (ASP1-5, ASP7, OUTPUT Positions 1-5, 7) SCV_PMP Tip Aspiration Pump (TIP – Position 8) OUTPUT

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Name BIT00÷11_ENC SPI Rx/Tx Data

Desciption BIT 0÷11 ENCODER SPI Synchro Bus Rx/Tx Controller Boards Data

Type of Signal INPUT INPUT/OUTPUT INPUT/OUTPUT

RW

Figure 31: Read&Wash Controller Note: No maintenance operations are foreseen at board level. Ask Producer for spare part.

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3.3.2.5.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

ARM1 Controller P/N 10012-02-C

This board is the ARM1 Controller of the Unit. It manages the ARM1 Assembly. It is located into the Controller assembly P/N 10016-00-C, inserted in the connector P3. Actually the ARM1 is supposed to work with samples. It controls the ARM1 X-axis motor (rotation), the ARM1 Y-axis motor (elevation), the Diluter motor, the Washing pump, the Electrovalve, the Liquid level detector, the Obstacle sensor, the Heater coil, the Washing sink pump, the Communication with the other controllers and the SPI Synchro Bus (as slave). It is equipped with a flash code memory micro-controller (U1). The firmware upgrade is achieved by using a special Software Download program only and it is performed through the RS232 serial link from the Personal Computer of the system; no hardware intervention is required. Characteristic calibration parameters of the ARM1 Assembly are stored in the external flash memory of the Main Controller Board. This board manages the ARM1 X-axis and Y-axis motions and the ARM1 Diluter metering. During probe washing in the sink, the electrovalve is open, the washing pump and the washing sink empty pump are enabled. During sampling, the electrovalve is closed and the washing pump are disabled. When probe is descending the firmware monitors the obstacle sensor in order to detect eventual crashes. When probe is descending into samples or reagents, the firmware monitors the liquid level detector in order to control the depth of the probe into the liquid (reagents and/or sample). The washing sink pump is devoted to empty the washing sink from waste. The heater coil is for liquid warming and probe temperature conditioning. The heater coil is supposed to be used in eventual special applications for liquid warming (warming resistor is actually not used). If provided, this board manages the handshake of data and the commands to the ISE Module through a RS232 serial link. On the rear edge of the board are three LEDs that give the monitor status of this module:  CR7 (green): +5V ON, if ON the board is powered.  CR4 (green): BOARD TX, when ON the board is transmitting data.  CR2 (red): WD ALARM, if ON the board is out of order (watch dog) and must be replaced. In particular, this board controls the following signals and functions: Name Desciption MOTA1X_STEP ARM1 X-Axis Motor, Step MOTA1X_DIR ARM1 X-Axis Motor, Direction MOTA1X_ENB ARM1 X-Axis Motor, Enable MOTA1X_TRQ ARM1 X-Axis Motor, 60% TORQUE A1X_HOME ARM1 X-Axis Motor, Home Sensor MOTA1Y_STEP ARM1 Y-Axis Motor, Step MOTA1Y_DIR ARM1 Y-Axis Motor, Direction MOTA1Y_ENB ARM1 Y-Axis Motor, Enable MOTA1Y_TRQ ARM1 Y-Axis Motor, 60% TORQUE A1Y_HOME ARM1 Y-Axis Motor, Home Sensor MOTDIL1_STEP ARM1 Diluter Motor, Step MOTDIL1_DIR ARM1 Diluter Motor, Direction MOTDIL1_ENB ARM1 Diluter Motor, Enable MOTDIL1_TRQ ARM1 Diluter Motor, 60% TORQUE DIL1_HOME ARM1 Diluter Motor, Home Sensor DIL1_EV ARM1 Electrovalve DIL1_PMP ARM1 Probe Washing Pump ARM1_SNS ARM1 Liquid Level Detector A1SW ARM1 Y-Axis Obstacle Sensor (Crash sensor) ARM1_COIL ARM1 Heater Coil WSH_PMP Washing Sink Empty Pump

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Name SPI Rx/Tx Data RS232 ISE Rx/Tx

Desciption SPI Synchro Bus Rx/Tx Controller Boards Data Rx/Tx ISE Module Data

Type of Signal INPUT/OUTPUT INPUT/OUTPUT INPUT/OUTPUT

A1

Figure 32: ARM1 Controller Note: No maintenance operations are foreseen at board level. Ask Producer for spare part.

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3.3.2.6.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

ARM2 Controller P/N 10012-03-C

This board is the ARM2 Controller of the Unit. It manages the ARM2 Assembly. It is located into the Controller assembly P/N 10016-00-C, inserted in the connector P4. Actually the ARM2 is supposed to work with reagents. It controls the ARM2 X-axis motor (rotation), the ARM2 Y-axis motor (elevation), the Diluter motor, the Washing pump, the Electrovalve, the Liquid level detector, the Obstacle sensor, the Heater coil, the Washing sink pump, the Communication with the other controllers and the SPI Synchro Bus (as slave). It is equipped with a flash code memory micro-controller (U1). The firmware upgrade is achieved by using a special Software Download program only and it is performed through the RS232 serial link from the Personal Computer of the system; no hardware intervention is required. Characteristic calibration parameters of the ARM2 Assembly are stored in the external flash memory of the Main Controller Board. This board manages the ARM2 X-axis and Y-axis motions and the ARM2 Diluter metering. During probe washing in the sink, the electrovalve is open, the washing pump and the washing sink empty pump are enabled. During sampling, the electrovalve is closed and the washing pump are disabled. When probe is descending the firmware monitors the obstacle sensor in order to detect eventual crashes. When probe is descending into samples or reagents, the firmware monitors the liquid level detector too in order to enable the control the depth of the probe itself into the liquid. The washing sink pump is devoted to empty the washing sink from waste liquid and it can be enabled from both ARM2 and ARM1. The heater coil is for liquid warming. On the rear edge of the board are three LEDs that give the monitor status of this module:  CR7 (green): +5V ON, if ON the board is powered.  CR4 (green): BOARD TX, when ON the board is transmitting data.  CR2 (red): WD ALARM, if ON the board is out of order (watch dog) and must be replaced. In particular, this board controls the following signals and functions: Name Desciption MOTA2X_STEP ARM2 X-Axis Motor, Step MOTA2X_DIR ARM2 X-Axis Motor, Direction MOTA2X_ENB ARM2 X-Axis Motor, Enable MOTA2X_TRQ ARM2 X-Axis Motor, 60% TORQUE A2X_HOME ARM2 X-Axis Motor, Home Sensor MOTA21Y_STEP ARM2 Y-Axis Motor, Step MOTA2Y_DIR ARM2 Y-Axis Motor, Direction MOTA2Y_ENB ARM2 Y-Axis Motor, Enable MOTA2Y_TRQ ARM2 Y-Axis Motor, 60% TORQUE A2Y_HOME ARM2 Y-Axis Motor, Home Sensor MOTDIL2_STEP ARM2 Diluter Motor, Step MOTDIL2_DIR ARM2 Diluter Motor, Direction MOTDIL2_ENB ARM2 Diluter Motor, Enable MOTDIL2_TRQ ARM2 Diluter Motor, 60% TORQUE DIL2_HOME ARM2 Diluter Motor, Home Sensor DIL2_EV ARM2 Electrovalve DIL2_PMP ARM2 Probe Washing Pump ARM2_SNS ARM2 Liquid Level Detector A2SW ARM2 Y-Axis Obstacle Sensor (Crash sensor) ARM2_COIL ARM2 Heater Coil WSH_PMP Washing Sink Empty Pump SPI SPI Synchro Bus

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Type of Signal OUTPUT OUTPUT OUTPUT OUTPUT INPUT OUTPUT OUTPUT OUTPUT OUTPUT INPUT OUTPUT OUTPUT OUTPUT OUTPUT INPUT OUTPUT OUTPUT OUTPUT INPUT OUTPUT OUTPUT INPUT/OUTPUT

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A2

Figure 33: ARM2 Controller Note: No maintenance operations are foreseen at board level. Ask Producer for spare part.

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3.3.3.

Step Motor Driver – 2X1.5A, All Versions, P/N 10002-xx-A

This module is used as Stepping Motor Driver for all motor of the units. Each board is divided into two sections and then it can drive one or two motors (one per every section). It includes several versions depending on the size of the motors:  Ver.00 – P/N 10002-00-A  Ver.01 – P/N 10002-01-A  Ver.02 – P/N 10002-02-A  Ver.03 – P/N 10002-03-A  Ver.04 – P/N 10002-04-A. The board is provided with two LEDs for each section (Section1: CR1, CR2 - Section2: CR3, CR4):  CR1 and CR3, green: when OFF, full motor torque is selected; when ON, reduced motor torque (about 75%) is selected.  CR2 and CR4, red: when OFF, motor is disabled; when ON, motor is enabled. MOTOR 1 CONNECTOR

MOTOR 2 CONNECTOR

SECTION 1

SECTION 2

CONTROLS CONNECTOR

POWER SUPPLY CONNECTOR Figure 34: Step Motor Driver

Note: No maintenance operations are foreseen at board level. Ask Producer for spare part. Six of this boards are used in MIURA. They drive eleven motors: 9 for motions and 2 belonging on the micrometering pumps (two Diluters – one for each ARM). These six boards, located over the bridge containing the Controller Assembly, are protected by a plexiglass cover and cooled by the rear fan. To access the boards, open the side panel of the unit and unfasten the plexiglass cover. To replace a board, unfasten the two screws that fix it on the two supports paying attention not to confuse them with ones fixing the integrated circuit on the heat sink; unplug connectors and rise up the board. Repeat on the other way round the former instructions for assembling the new board. Replace board only with the same model (they must have the same P/N) as boards are not interchangeable. Don’t disconnect motors with power on as both driver and motor can be damaged.

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FIXING SCREWS

Figure 35: Step Motor Drivers, Fixing Points The configuration and destination of each driver version is given in the following table “Step Motor Drivers’ Configurations”. Step Motor Driver Configurations Version

Size of Motor per Section Sect.

Size

Operat. Current

#1

1.40A/ph, 1.75Nm, Bipolar, 1.8°

1.40A/ph

#2

1.40A/ph, 1.75Nm, Bipolar, 1.8°

1.40A/ph

#1

0.82A/ph, Bipolar, 1.8°

0.56A/ph

#2

0.82A/ph, Bipolar, 1.8°

0.56A/ph

#1

1.40A/ph, 0.48Nm, Bipolar, 1.8°

1.00A/ph

#2

0.85A/ph, 0.33Nm, Bipolar, 1.8°

0.80A/ph

#1

1.40A/ph, 1.17Nm, Bipolar, 1.8°

1.14A/ph

#2

1.40A/ph, 1.17Nm, Bipolar, 0.9°

1.00A/ph

#1

0.28A/ph, 0.20Nm, Bipolar, 1.8°

0.25A/ph

#2

Not Used

10002-00-A

10002-01-A

10002-02-A

10002-03-A

10002-04-A

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---

Jumpers Configuration JMP1=Closed JMP2=Closed JMP3=Open JMP4=Closed JMP1=Open JMP2=Closed JMP3=Open JMP4=Closed JMP1=Open JMP2=Closed JMP3=Open JMP4=Closed JMP1=Closed JMP2=Open JMP3=Open JMP4=Closed JMP1=Closed JMP2=Open JMP3=Open JMP4=Open

Mode Full Step ½ Step ½ Step ½ Step ½ Step ½ Step ¼ Step ½ Step ¼ Step ---

Destination (Motor) Sample Wheel (SMP) Reagent Wheel (RGT) ARM1 Diluter (DIL1) ARM2 Diluter (DIL2) ARM1 or ARM2 X-Axis ARM1 or ARM2 Y-Axis Cuvette Wheel (CVT) Filter Wheel (FLT) Washing Station (WASH) ---

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P/N 10002-02-A FOR ARM2 X-Y

ARM2X

DIL1

P/N 10002-03-A FOR CVT + FLT

ARM2-Y

CVT

DIL2

FLT

WASH

P/N 10002-01-A FOR DIL1-DIL2

P/N 10002-04-A FOR WASH

P/N 10002-00-A FOR SMP+RGT

SMP

ARM1-X

RGT

ARM1-Y

P/N 10002-02-A FOR ARM1 X-Y

Figure 36: Step Motor Drivers Array

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3.3.4.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

LHP Power Board, P/N 10762-00-A

This module is used to drive the photometer Halogen Lamp, the Incubation Heater Strip and to control the cooling temperature of the reagent tray (Peltier cell circuit). It includes three sections: one section is the SMPS for halogen lamp supply (out J3), the second section is the driver for incubation heater strip switching and controlling at constant temperature (outJ4), the third section enables the Peltier cell circuit (outTB2) and its fans (outTB1)of the reagent tray cooler. The lamp driver consists in a switching mode power supply (SMPS) generating a DC voltage @ +12V; the LED CR5 (green) is ON when lamp is enabled. The firmware enables the lamp at instrument power on. The voltage has been fine tuned to +12.00V at factory under load conditions (lamp on). In case of voltage modification, tune to +12.00V +/- 0,01V by trimming R2 potentiometer. It’s status is controlled by the R&W Controller’s firmware. The heater strip driver doesn’t need any calibration; it is enabled when LED CR6 (green) is ON. Its status is controlled by the MAIN Controller’s firmware. The cooler section regulates reagent refrigeration temperature. It includes the potentiometer R16, tuned at factory, that allows the control of reagent tray temperature; it modifies the threshold. Temperature is measured on the bottom of the bulk reagent tray. When measured temperature is above the threshold Peltier are enabled; when it is below, Peltier are disabled. The range of the threshold goes from about +9.5°C up to about +12.3°C, that means from +10°C to +14°C on reagents. Turning potentiometer R2 CW (clockwise) temperature decreases, turn completely CCW (counter-clockwise) to get about 13°C. The cooler doesn’t assure more than 14°C below the ambient temperature.

Figure 37: LPH Power board Note: No maintenance operations are foreseen at board level. Ask Producer for spare part. The board is placed next a +24Vdc cooler fan for optimum operation when lamp, heater and cooler are on. To access the board, open the top cover on the reagent tray, it is placed just on the instrument base in the middle of the trays. To replace a board, unfasten the screw that fix it on the supports; unplug connectors and remove. Replace board only with the same model. When replacing that board provide tuning of the lamp voltage by trimming at +12.00V +/- 0,01V the R2 potentiometer (monitor the voltage with a multimeter on the lamp connector side). When replacing that board provide also tune the potentiometer R16 according with the temperature desired for the cooler (see above). For the regulation of the voltage +12Vdc on the power supply, see the paragraph related to the OPP Power Supply Assembly given previously.

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To Halogen Lamp

To Peltier Cells (4terminals)

To Heater Strip

To Peltier Fans (4terminals)

From +24Vdc Power Supply

From Mother Board

From +12Vdc Power Supply

Figure 38: LHP Power Board Note: No maintenance operations are foreseen at board level. Ask Producer for spare part. As already said the Cooler section is powered by the +12Vdc only; it is independent from the Controller boards and manages the cooling of reagents tray. It can be powered independently from the rest of the electronics: this allows the operator to leave cooling ON overnight without the need of the PC controlling. This refrigeration unity preserves reagents at constant temperature of about 12°C ± 2°C (anyway not less than a maximum of 14°C below the ambient temperature). The command for turning ON/OFF the refrigeration unit is separate and independent from that dedicated to the power ON/OFF of the electronics; in this way, with the main breaker of the instrument in ON position, it is possible to turn ON or OFF the refrigeration unity independently from the rest of the instrument. The Cooler assy is composed by the following main parts:  four Peltier Cells for cooling, placed under the reagent tray;  one temperature sensors (LM35 Temp Sensor Ver.01, P/N 10050-01-A), for reagent tray temperature control;  four +12Vdc small fans, for the ventilation of the four heatsinks.

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3.3.5.

OPP S&R Assembly, P/N 10220-00-B

This assembly is controlled by the MAIN Controller P/N 10012-01-D. It includes the sample wheel and the reagent wheel each of them moved by a stepping motor (1.75NM 1.8 Motor Assy P/N 100039-00A) and a home sensor (Opto Sensor Ver.00 P/N 10045-00-A). The barcode (option) is controlled by the Main Controller Board through a RS232 link. REAGENT TRAY LHP POWER BOARD

REAGENT WHEEL OPTO SENSOR

SAMPLE TRAY SAMPLE WHEEL BELT

SAMPLE WHEEL OPTO SENSOR CLEANER

SAMPLE WHEEL MOTOR BARCODE READER Figure 39: S&R Assembly, top view

SAMPLE TRAY MGND BRUSH REAGENT WHEEL MOTOR

PELTIER CELL HEATSINK (1 OF 4) FAN

Figure 40: S&R Assembly, bottom left side view Four Peltier cells have been fixed under the reagent tray to keep it cool. Each of the Peltier is fixed on a heatsink, aired by a 60x60mm fan that’s conveying heat outside the instrument through a pvc outlet. Peltier cells, fans and heatsinks are listed in the part list of the Miura Unit 10034-01-E (see above).

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The temperature of the reagent tray is monitored by a potted temperature sensor (LM35 Temp Sensor Ver.01 P/N 10050-01-A) fixed on the bottom side of the reagent tray; this sensor is controlled by the LHP Power Board P/N 10762-00-A (placed under the reagent tray) in order to control the refrigeration temperature of reagents when cooling is ON. A Jumper (W1) and a MGND Brush (MM1) assure the electrical grounding of the reagent and sample wheels; electrical grounding assure save operation and the correct liquid level detection into tubes, cups and vials.

REAGENT TRAY DRAIN (FOR CONDENSATION)

Part List Pos.

Ref. Designator

Title: OPP S&R Assembly Q.ty

UoM

1 2 3

A1, A3 A2, A4 A5

2 2 1

PZ PZ PZ

4 5 6

A6 W1 MM1

1 1 1

PZ PZ PZ

MGND JUMPER

REAGENT WHEEL TEMPERATURE SENSOR Figure 41: S&R Assembly, bottom rear view

P/N: 10220-00-B Description

1.75NM1.8 MOTOR ASSY OPTO SENSOR VER.00 BARCODE READER (OPTION), HOUSING CON CONNETTORE M-12 LM35 TEMP SENSOR VER.01 OPP 100M3 MGND JUMPER OPP MGND BRUSH

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Value

Rating

Toler.

     

     

     

10039-00-A 10045-00-A BCL 8 SM102

P/N

     

     

     

10050-01-B 10410-00-A 10413-00-A

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P1

1 2 3 4

P1

P1

P1 10220-00-B

P1

1 2 3 4

1 2 3 4

1 2 3 4 5

V T E M P+ E GN D +V s M GN D

+5V R S 232T X D GN D R S 232R X D S W IN /OU T

OU T PU T A N OD E +5V E GN D

+PA -PA +PB -PB

OU T PU T A N OD E +5V E GN D

P1

1 2 3 4

1 2 3 4

+PA -PA +PB -PB

Page 1 of 1

37

P/N:

A6

A1

A2

A3

A4

A5

1. 7 5N B1. 8 M O TO R A SSY

O PTO SEN SO R

1. 7 5N B1. 8 M O TO R A SSY

O PTO SEN SO R

BA R- C O D E REA D ER

P/N 10039- 0 0- A

P/N 10045- 0 0- A

P/N 10039- 0 0- A

P/N 10045- 0 0- A

LEU ZE BC L- 8

OPP S&R Assembly

LM 35 TE M P SEN SO R V ER. 0 1 P/N 10050- 0 1- B

PLA C ED U N D ER REA G EN T A SSEM BLY

SA M PLE A SSEM BLY HO M E SEN SO R

REA G EN T M O TO R A SSEM BLY

REA G EN T A SSEM BLY HO M E SEN SO R

BA R C O D E REA D ER

REA G EN T A SSEM BLY TE M PERA TU RE SEN SO R

Title:

SA M PLE M O TO R A SSEM BLY

M GND MM1 O PP M G N D BRU SH

Electrical drawing

FI X ED O N TO P O F SA M PLE & REA G EN TS A SSEM BLY & I N TO U C H W I TH SA M PLE PLA TE FI X ED O N BO T O M O F W 1 FI X ED O N BO T O M O F REA G EN T PLA TE M G N D SA M PLE & REA G EN TS A SSEM BLY E1 E2 O PP 100M 3 M G N D JU M PER

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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3.3.5.1.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Opto Sensor Ver.00 P/N 10045-00-A

This is the opto home sensor used for both Sample Wheel and Reagent Wheel motions. RED W H I TE B LU E

P1 1 2 3 4

O U TP U T A N O D E V c c EG N D

G REEN B LA C K

Figure 42: Opto Sensor Sample wheel home sensor is placed behind the OPP Pumps & Drivers Assembly of the instrument. To replace it is convenient to disassemble the cabinet; sensor is fixed by two screws and a holed cable tie.

FIXING SCREWS FLAG HOLED CABLE TIE

Figure 43: Sample Wheel home sensor Reagent wheel home sensor is placed below the Cooler Assembly cover near the Cooler Assembly. To replace it, remove the cooler cover; the sensor is fixed by two screws, pull the cable up to extract the connectors placed in the bottom.

FIXING SCREWS FLAG Figure 44: Reagent Wheel home sensor

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.5.2.

1.75NM 1.8 Motor Assy P/N 10039-00-A

This is the stepping motor assembly used for the Sample Wheel and for the Reagent Wheel motions. M 1 + + -

B LA C K Y E LLO W O RA N G E G REEN

P1 1 2 3 4

BBB+ B+

A A A A

RED W H I TE BRO W N B LU E

+ PA -P A + PB -P B

Figure 45: 1.75NM 1.8 Motor Assy To access motors, disassemble the cabinet. Sample wheel motor is placed on the left front side of the instrument. It is fixed on a sliding support. Reagent wheel motor is placed on the left rear side of the instrument. Sensor is fixed on the bottom of the plate.

Figure 46: Sample Wheel Motor Assy, Fixing

Figure 47: Reagent Wheel Motor Assy, Fixing

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.5.3.

LM35 Temp Sensor Ver.01, P/N 10050-01-B

This is the temperature sensor used for monitoring the reagent tray cooling temperature. + 4 TO + 3 0 V d c A 1 P / N 1 0 1 2 1 -0 1 -A L M 3 5 F I L TE R M O D U L E V E R . 0 1 P1 TE M P V +

E2 E1

EG N D

E3

W H I TE BRO W N

W H I TE B LA C K BRO W N

1 2 3 4

V TE M P EG N D + V s N .C .

SH IE LD A W G 24 B LA C K

2x A W G 26 + SC H IE LD

4 -P IN P O LA R IZE D C O N N E C TO R W I TH L O C K

V o u t = 0 m V + 1 0 m V / ° C LIN E A R

Reagent tray temperature sensor is placed on the rear side of the instrument, below the Reagent tray plate. To access it remove the cabinet; the sensor is fixed by one screw together with the grounding jumper giving MGND ground connection to the mechanical parts. The sensor is connected to the LHP Power Board (cooling section) through a connector.

REAGENT TRAY TEMPERATUR E SENSOR

FIXING SCREW & TRAY GROUND CONNECTION Figure 48: Reagent Tray Temperature Sensor

Part List Pos.

Ref. Designator

Title: LM35 Temp Sensor Ver.01

P/N: 10050-01-B

Q.ty

UoM

Description

Value

Rating

Toler.

1 2

A1 P1

1 1

PZ PZ

   

   

   

10121-01-A 280359-0

3

 

3

PZ

 

 

 

181270-2

4

 

0,33

M

 

 

 

0028 880

5

 

0,05

M

 

 

 

CAV1007/24NE

6

 

2

ML

LM35 FILTER MODULE VER01 CONNECTOR, RECEPTACLE, FEMALE, STRAIGHT, CRIMP CONTACT, SINGLE ROW 1x4PIN, POLARIZATION, LOCK, AMPMODU SERIES, PITCH 2,54mm, UL94-V1 CONTACT, CRIMP, FEMALE, 22-26AWG, FOR TYCO-AMP MODU MULTI-CONDUCTOR CABLE, SHIELDED ULTRA-FLEX, CONDUCTOR PCV 2x0,14mmq (AWG26), (CONDUCTORS: WHITHE/BROWN), POLIURETAN SHEAT, FLAME RETARDANT, TIN PLATED COPPER SHIELD, NOM. DIAM.=3,9mm, FROM -40°C TO +70°C, TYPE LAPP UNITRONIC-FD CP PLUS, 0,25A, 70°C, 250Vac CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, BLACK SILICON ADHESIVE, PROTECTION, RTV744

 

 

 

744

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.5.4.

OPP 100M3 MGND Jumper P/N 10410-00-A

This jumper is used to connect the bottom of reagent tray with ground. It is located under the sample and reagent assembly, connecting the base of the trays with the bottom of the reagent wheel (into the big hole). It is mainly needed for correct ARMs’ liquid level detector operation. F I X E D O N B O TTO M O F S A M P L E & R E A G E N TS A SSE M B LY

E1

E2

F I X E D O N B O TTO M O F R E A G E N T A SSE M B LY

2 ,5 m m q Y/ G

JUMPER

Figure 49: OPP 100M3 MGND Jumper and its location

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3.3.5.5.

OPP MGND Brush P/N 10413-00-A

This jumper is used to connect the turning sample tray with ground. It is located on the rear side of the assembly and connects the tray with the base. It is mainly needed for correct ARMs’ liquid level detector operation when descending into the samples. S O L D E R E D I N TO TH E C O P P E R BR U SH ( F I X E D O N TO P O F SA M P LE & R E A G E N T A SSE M B LY )

E1

E2 FIXE D O N O N E O F TH E F I X I N G SC R E W A W G 2 0 Y/ G

Figure 50: OPP MGND Brush and its location

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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3.3.5.6.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

BarCode Reader

The barcode reader is placed on the left side of the instrument. To access it disassemble the cabinet. It is fixed on its own bracket by two screws on the bottom that allow mechanical calibration. In case of misalignment, unfasten the screws and align it. To replace it, loosen the connector.

FIXING SCREWS

CONNECTOR

Figure 51: BarCode Reader

B: Indicators LEDs

B1= status LED B2= decode LED

Figure 52: BarCode Reader LEDs, Top View After power on, the BCL 8 performs an automatic "Power On" function test. side of the BCL 8 lights up (if not, check and tight interface connector). Two 3-colour LEDs at the top of the case show the device and reading status: LED Color Green flashing Green continuous Status LED Red flashing (200ms) Red continuous Orange flashing (200ms) Green (200ms on) Decode LED Red (200ms off) Orange continuous

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Then, the green status LED on the top meaning initialisation phase ready for operation warning error, no function service operation reading successful no reading result reading gate active

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.6.

OPP ARM1 Assembly, P/N 10198-00-A

This assembly is controlled by the ARM1 Controller P/N 10012-02-C. It includes the X-axis ( 0.48NM1.8 Motor Assy P/N 10041-00-A ), the Y-axis (0.43NM1.8 Motor Assy P/N 10252-00-A ) and the Diluter stepping motors (integrated into the Diluter itself). Two home sensors controls respectively the X-axis (Opto Sensor Ver.00 P/N 10045-00-A) and the Y-axis (Opto Sensor Ver.02 P/N 10045-02-A). The Diluter home sensor is integrated in the Diluter itself. On top of the ARM is placed the board OPP ARM Module P/N 10205-00-B; it includes the Liquid Detector sensor, the Obstacle sensor and the Heater Coil (heater actually not used) and it is connected through a flexible wiring to the electronics.

OPP ARM MODULE

Figure 53: ARM1 Assembly Part List Pos. 1 2 3 4 5

Ref. Designator A1 A2 A3 A4 A5

Title: OPP ARM1 Assembly Q.ty

UoM

1 1 1 1 1

PZ PZ PZ PZ PZ

P/N: 10198-00-A Description

OPP ARM MODULE 0.48NM1.8 MOTOR ASSY OPTO SENSOR VER.00 0.43NM1.8 MOTOR ASSY OPTO SENSOR VER.02

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Value

Rating

Toler.

         

         

         

P/N 10205-01-C 10041-00-A 10045-00-A 10252-00-A 10045-02-A

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

1 2 3 4 5 6 7 8 9 10

C H TR -A C H TR -B SN S-EG N D V+ M G ND SN S-O U T +5V C -O U T O P TO -EG N D ANO DE

37

J1

10198-00-A

P C B C O I L H E A TE R

P/N:

L I Q U I D D E TE C TO R

C H TR -B 2

V+ EG N D SN S-O U T M G ND

1 2 3 4

C H TR -A 1

A 1 O P P A R M M O D U LE P / N 1 0 2 0 5 -0 1 -C

A R M 1 LIQ U ID D E TE C TO R

OPP ARM1 Assembly

1 2

S N S - IN EG N D

P R O TE C TI O N Y-A XIS A R M 1 O B S TA C L E SE N SO R A R M 1 C O I L H E A TE R

E1 TO B E F I X E D O N TH E N E E D LE O F A R M 1

A 3 O P TO S E N S O R P / N 1 0 0 4 5 -0 0 -A

A 4 0 . 4 3 N B 1 . 8 M O TO R A S S Y P / N 1 0 2 5 2 -0 0 -A

A 5 O P TO S E N S O R P / N 1 0 0 4 5 -0 2 -A

X-A XIS A R M 1 M O TO R A SSE M B LY

A R M 1 X -A X IS H O M E SE N SO R

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Y-A XIS A R M 1 M O TO R A SSE M B LY

1 2 3 4

P1

O U TP U T ANO DE +5V EG N D

1 2 3 4

P1

+PA -P A +PB -P B

+PA -P A +PB -P B

O U TP U T ANO DE +5V EG N D

1 2 3 4

P1

1 2 3 4

P1

Electrical drawing

Title:

A 2 0 . 4 8 N B 1 . 8 M O TO R A S S Y P / N 1 0 0 4 1 -0 0 -A

A R M 1 Y -A X IS H O M E SE N SO R

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.6.1.

0.48NM 1.8 Motor Assy P/N 10041-00-A

This is the stepping motor assembly used for ARM1 X-axis (rotation). M 1 + + -

B LA C K Y E LLO W O RA N G E G REEN

P1 1 2 3 4

BBB+ B+

A A A A

RED W H I TE BRO W N B LU E

+ PA -P A + PB -P B

Figure 54: 0.48NM 1.8 Motor Assy To access motors, disassemble the cabinet and the complete ARM. ARM1 X-axis motor is placed on the front side of the instrument. It is fixed on a plate.

MOTOR

Figure 55: ARM1 X-axis Motor Assy

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.6.2.

0.43NM 1.8 Motor Assy P/N 10252-00-A

This is the stepping motor assembly used for ARM1 Y-axis (elevation). A + A A -

B LA C K Y E LLO W G REEN

P1 1 2 3 4

BB B+

M 1

RED W H I TE B LU E

+ PA -P A + PB -P B

Figure 56: 0.48NM 1.8 Motor Assy To access motors, disassemble the cabinet and the complete ARM. ARM1 Y-axis motor is placed on the front side of the instrument inside a mechanical protection.

MOTOR, INSIDE PROTECTION

Figure 57: ARM1 Y-axis Motor Assy

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3.3.6.3.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Opto Sensor, All Versions P/N 10045-xx-A

This is the home sensor of the ARM1 stepping motor assemblies. There are several versions that refer to the same electrical drawing, they differ for length and for external wiring protection:  Version 00 (P/N 10045-00-A) is used for ARM1 X-axis home.  Version 02 (P/N 10045-02-A) is used for ARM1 Y-axis home. To access opto sensors, disassemble the cabinet. To replace it disassemble the pump assembly; it is fixed by two screws and a holed cable tie. RED W H I TE B LU E

P1 1 2 3 4

O U TP U T A N O D E V c c EG N D

G REEN B LA C K

Figure 58: Opto Sensor

Y-AXIS HOME SENSOR VER.02

X-AXIS HOME SENSOR VER.00

Figure 59: ARM1 Home Sensors

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.6.4.

OPP ARM Module P/N 10205-01-C

This board, located on top of the ARM under a protection cover, includes the Liquid Level capacitive sensor for detection of fluid’s level, the Obstacle sensor (to detect crashes along Y-axis travelling) and the Heater Coil. The Liquid Level sensor includes two LEDs:  one green LED, it lights ON whent instrument is in power on and the board is powered,  one red LED, it lights ON when the probe touches a fluid giving a capacitance variation. The Liquid Level sensor is in contact with the probe through a jumper soldered on the board. The Obstacle sensor detects when the probe crashes on its way down: a flag, fixed on the probe, enters the optocoupler on the board and activates the alarm. The Heater Coil connects the probe with the Diluter through a Teflon tubing. One end is plugged on the very top of the probe, the other end is fitted onto the top acrylic head of the Diluter. It can warm the fluid (feature actually not used) flowing into the probe, it can be equipped with a heating element as a cartridge resistor controlled by the ARMx Controller in PWM mode and driven by the Pumps & Driver Assembly. It is possible to replace the Heater Coil, after having disconnected tubing from probe and Diluter, by removing it from the clamps. If during instrument power on the green led is OFF or flashes/blinks, replace the board. It is possible to replace this board by removing the screws that fix the wiring clamp and the board itself. HEATING ELEMENT CONDUCTORS (ACTUALLY NOT USED) HEATER COIL LIQUID LEVEL DETECTOR – ON WHEN ACTIVATED (RED LED)

LIQUID LEVEL DETECTOR POWER ON (GREEN LED) JUMPER FROM PROBE TO THE LIQUID LEVEL DETECTOR

OBSTACLE SENSOR OPTOCOUPLER (SOLDERED ON THE BOARD)

CAP HEATER COIL TO DILUTER TUBING CONNECTION

SPRING

HEATER COIL TO PROBE TUBING CONNECTION Figure 60: OPP ARM Module

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.7.

OPP ARM2 Assembly, P/N 10200-00-A

This assembly is controlled by the ARM2 Controller P/N 10012-03-C. It includes the X-axis ( 0.48NM1.8 Motor Assy P/N 10041-00-A ), the Y-axis (0.43NM1.8 Motor Assy P/N 10252-00-A ) and the Diluter stepping motors (integrated into the Diluter itself). Two home sensors controls respectively the X-axis (Opto Sensor Ver.00 P/N 10045-00-A) and the Y-axis (Opto Sensor Ver.01 P/N 10045-01-A). The Diluter home sensor is integrated in the Diluter itself. On top of the ARM is placed the board OPP ARM Module P/N 10205-00-B; it includes the Liquid Detector sensor, the Obstacle sensor and the Heater Coil (heater actually not used and it is connected through a flexible wiring to the electronics.

Figure 61: ARM2 Assembly Part List Pos. 1 2 3 4 5

Ref. Designator A1 A2 A3 A4 A5

Title: OPP ARM2 Assembly Q.ty

UoM

1 1 1 1 1

PZ PZ PZ PZ PZ

P/N: 10200-00-A Description

OPP ARM MODULE 0.48NM1.8 MOTOR ASSY OPTO SENSOR VER.00 0.43NM1.8 MOTOR ASSY OPTO SENSOR VER.01

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Value

Rating

Toler.

         

         

         

P/N 10205-01-C 10041-00-A 10045-00-A 10252-00-A 10045-01-A

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1 2 3 4 5 6 7 8 9 10

C H TR -A C H TR -B SN S-EG N D V+ M G ND SN S-O U T +5V C -O UT O P TO -EG N D ANO DE

37

J1

10200-00-A

P C B C O I L H E A TE R

P/N:

L I Q U I D D E TE C TO R

C H TR -B 2

V+ EG N D SN S-O U T M G ND

1 2 3 4

C H TR -A 1

A 1 O P P A R M M O D U LE P / N 1 0 2 0 5 -0 1 -C

A R M 2 LIQ U ID D E TE C TO R

OPP ARM2 Assembly

1 2

S N S - IN EG N D

P R O TE C TI O N Y-A XIS A R M 2 O B S TA C L E SE N SO R A R M 2 C O I L H E A TE R

E1 TO B E F I X E D O N TH E N E E D LE O F A R M 2

A 3 O P TO S E N S O R P / N 1 0 0 4 5 -0 1 -A

A 4 0 . 4 3 N B 1 . 8 M O TO R A S S Y P / N 1 0 2 5 2 -0 0 -A

A 5 O P TO S E N S O R P / N 1 0 0 4 5 -0 1 -A

X-A XIS A R M 2 M O TO R A SS E M B LY

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

A R M 2 X -A X IS H O M E SE N SO R

Y-A XIS A R M 2 M O TO R A SS E M B LY

1 2 3 4

P1 O U TP U T ANO DE +5V EG N D

1 2 3 4

P1

+PA -P A +PB -P B

1 2 3 4

P1 O U TP U T ANO DE +5V EG N D

+PA -P A +PB -P B

1 2 3 4

P1

Electrical drawing

Title:

A 2 0 . 4 8 N B 1 . 8 M O TO R A S S Y P / N 1 0 0 4 1 -0 0 -A

A R M 2 Y-A XIS H O M E SE N SO R

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.7.1.

0.48NM 1.8 Motor Assy P/N 10041-00-A

This is the stepping motor assembly used for ARM2 X-axis (rotation). M 1 + + -

B LA C K Y E LLO W O RA N G E G REEN

P1 1 2 3 4

BBB+ B+

A A A A

RED W H I TE BRO W N B LU E

+ PA -P A + PB -P B

Figure 62: 0.48NM 1.8 Motor Assy To access motors, disassemble the cabinet and the complete ARM. ARM2 X-axis motor is placed on the rear side of the instrument. It is fixed on a plate.

MOTOR

Figure 63: ARM2 X-axis Motor Assy

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.7.2.

0.43NM 1.8 Motor Assy P/N 10252-00-A

This is the stepping motor assembly used for ARM2 Y-axis (elevation). A + A A -

B LA C K Y E LLO W G REEN

P1 1 2 3 4

BB B+

M 1

RED W H I TE B LU E

+ PA -P A + PB -P B

Figure 64: 0.48NM 1.8 Motor Assy To access motors, disassemble the cabinet and the complete ARM. ARM2 Y-axis motor is placed on the rear side of the instrument inside a mechanical protection.

MOTOR, INSIDE PROTECTION

Figure 65: ARM2 Y-axis Motor Assy

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3.3.7.3.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Opto Sensor, All Versions P/N 10045-xx-A

This is the home sensor of the ARM2 stepping motor assemblies. There are several versions that refer to the same electrical drawing, they differ for length and for external wiring protection:  Version 00 (P/N 10045-00-A) is used for ARM2 X-axis home.  Version 01 (P/N 10045-01-A) is used for ARM2 Y-axis home.

RED W H I TE B LU E

P1 1 2 3 4

O U TP U T A N O D E V c c EG N D

G REEN B LA C K

Figure 66: Opto Sensor

Y-AXIS HOME SENSOR VER.02

X-AXIS HOME SENSOR VER.00

Figure 67: ARM2 Home Sensors

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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3.3.7.4.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

OPP ARM Module P/N 10205-01-C

This module is controlled by the ARM2 Controller P/N 10012-03-C. For configuration, refer to ARM1 Assembly which adopts the same module.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.8.

OPP R&W Assembly Ver.01, P/N 10208-01-A

This assembly is controlled by the Read&Wash Controller P/N 10012-04-C. It includes the cuvette wheel, the Filter wheel and the Washing Station, each of them moved by a stepping motor and controlled through a home sensor. It is composed by the following sub-assemblies:  OPP Cuvette Assemblies Ver.01, P/N 10210-01-A;  OPP Optical Group Ver.01, P/N 10212-01-A;  OPP Washing Station, P/N 10211-00-A. ANALOG SECTION

DIGITAL SECTION

A/D

Halogen lamp source

Interferential filters and focal system

Photodiode

Pre-Amp (Gain + Off-set) trimming

OPP Optical Group

Filtering

R&W Controller Auto-gain & A/D Conversion

Read&Wash Controller board

Figure 68: Optical Measurement Functional Diagram The OPP Cuvette Assemblies includes: the reading cuvette tray, the encoder for the on-line control of the cuvette tray position and the photodiode module for photometric readings. The photodiode board is connected trough a wiring with the mother board. The OPP Optical Group includes the halogen lamp light source, the optical lenses and the filter wheel. The OPP Washing Station is devoted to cuvettes washing and includes needles and tip for aspiration/dispensing and a manifold for fluid distribution. Part List Pos. 1 2 3 4 5

Ref. Designator A1 A2 A3 W1 W2

Title: OPP R&W Assembly Ver.01 Q.ty

UoM

1 1 1 1 1

PZ PZ PZ PZ PZ

Description OPP CUVETTE ASSEMBLY VER.0 OPP OPTICAL GROUP VER.01 OPP WASHING STATION OPP 100M3 MGND JUMPER OPP 100M4 MGND JUMPER

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N: 10208-01-A Value

Rating

Toler.

         

         

         

P/N 10210-01-A 10212-01-A 10211-00-A 10410-00-A 10411-00-A

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

OPTICAL GROUP

WASHING STATION

CUVETTE ASSEMBLY

METALLIC CUVETTE FOR MECHANICA L CALIBRATIO N OF THE ARMY IN CUVETTE Figure 69: R&W Assembly, shown without cuvettes during calibration

CUVETTE ASSEMBLY

100M3 MGND JUMPER

100M4 MGND JUMPER

Figure 70: R&W Assembly, front side view

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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O P TO SE N SO R P / N 1 0 0 4 5 -0 0 -A

LM 3 5 TE M P SE N S. V E R0 2 P / N 1 0 0 5 0 -0 2 -A

C U V E TTE A SSE M B LY H O M E SE N SO R

C U V E TTE A SSE M B LY TE M P E RA TU RE SE N SO R

Page 1 of 1

Vout-P Vout-N VDC-P VDC-N EGND MGND

10208-01-A

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

1 2 3 4 5 6

BIT1(LSB) BIT3 BIT5 BIT7 BIT9 BIT11 DIRECTION +EVOLT BIT2 BIT4 BIT6 BIT8 BIT10 BIT12(MSB) EGND

PROT-

TH E R M A L SW ITC H N C / 7 0 -5 5 ° C 2 4 5 5 R-L7 0 C

1 2 -BIT M IU RA E N C O D E R P / N 1 0 7 4 7 -0 0 -A

P H O TO D IO D E M O D U LE P / N 1 0 0 1 1 -0 0 -A

C U V E TTE S IN C U BA TIO N H E A TE R STRIP

TH E R M A L P RO TE C TIO N

P H O TO D IO D E SE N SO R

P/N:

RE A D IN G C U V E TTE M O TO R A SSE M BLY

1 2

IN C U BA TIO N H E A TE R STRIP P / N 1 0 0 4 3 -0 0 -A

P / N 1 0 0 4 0 -0 0 -A

OPP R&W Assembly Ver.01

1 .1 7 N B 1 .8 M O TO R A SSY

PROT+

VTEMP+ EGND +Vs MGND 1 2 3 4

V_1 V_2

OUTPUT ANODE +5V EGND

1 2 3 4

1 2 3 4

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

+PA -PA +PB -PB

37

A1 O P P C U V E TTE A SSE M BLY P / N 1 0 2 1 0 -0 1 -A

A2

A3 O P P W A SH IN G STA TIO N P / N 1 0 2 1 1 -0 0 -A FIX E D O N BO TTO M O F C U V E TTE P LA TE

2 0 W H A LO G E N LA M P A SSY P / N 1 0 7 4 9 -0 0 -A

FILTE R W H E E L M O TO R A SSE M BLY

FILTE R W H E E L H O M E SE N SO R

1 .1 7 N B0 .9 M O TO R A SSY

O P TO SE N SO R P / N 1 0 0 4 5 -0 0 -A

P / N 1 0 0 4 2 -0 0 -A

W A SH IN G STA TIO N M O TO R A SSE M BLY

0 .2 0 N B 1 .8 M O TO R A SSY P / N 1 0 0 5 5 -0 0 -A

M G ND

E1

W A SH IN G STA TIO N H O M E SE N SO R

W A SH IN G STA TIO N LO W P O SITIO N SE N SO R

O P TO SE N SO R P / N 1 0 0 4 5 -0 0 -A

O P TO SE N SO R P / N 1 0 0 4 5 -0 0 -A

FIXE D O N TO P O F R & W A SSE M BLY E2

O PP 10 0M 3 M G N D JU M PER

Title:

H A LO G E N RE A D IN G LA M P

W1

FIX E D O N TO P O F O P TIC A L G RO U P

W2

FIXE D O N TO P O F R & W A SSE M BLY

M G ND E1

Electrical drawing

O P P O P TIC A L G R O U P P / N 1 0 2 1 2 -0 1 -A

E2

1 2 3 4

1 2 3 4

OUTPUT ANODE +5V EGND

OUTPUT ANODE +5V EGND

1 2 3 4 +PA -PA +PB -PB

1 2 3 4

1 2 3 4 +PA -PA +PB -PB

OUTPUT ANODE +5V EGND

1 2 V+ V-

O PP 100 M 4 M G N D JU M PER

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3.3.8.1.

OPP Cuvette Assembly, P/N 10210-01-A

This sub-assembly, controlled by the Read&Wash Controller P/N 10012-04-C, includes the cuvette wheel that is moved by a stepping motor assembly (1.17NM1.8 Motor Assy P/N 10040-00-A), and controlled through the related home sensor (Opto Sensor Ver.00 P/N 10045-00-A) and the absolute encoder (12-BIT Miura Encoder P/N 1074700-A). The absolute encoder returns back to the R&W Controller board the absolute position of the tray; it permits any eventual positioning correction or the rising of an error alarm. The OPP Cuvette Assembly includes 80 semidisposable cuvettes and:  the Incubation Eater Strip, P/N 10043-00-A;  the LM35 Temperature Sensor, P/N 10050-02-B;  the Photodiode module, P/N 10011-00-B. The Incubation Eater Strip is controlled by the Read&Wash Controller and driven by the LHP Power Board P/N 10762-00-A; it allows the heating of the aluminium bulk structure above and, consequently, the incubation at constant temperature of the reaction fluids into the cuvettes. The LM35 Temperature Sensor returns to the controller the temperature of the assembly to be regulated; on the base of the temperature measurement the heater strip is turned ON and OFF to regulate incubation temperature. The photodiode module is placed under the cuvette tray and allows the photometric measurement of the incident light crossing the cuvette under test. It is located into a special enclosure and includes two potentiometers: one for photodiode pre-amplifier Gain calibration, the other for Off-set nulling.

CUVETTE TRAY

TEMPERATURE SENSOR

THERMOSTA T

HEATER STRIP CONNECTOR

HEATER STRIP

CUVETTE WHEEL STEPPING MOTOR CUVETTE WHEEL HOME SENSOR

CUVETTE WHEEL ABSOLUTE ENCODER

Figure 71: Cuvette Assembly, Top, Side & Bottom Views – Without cover

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Part List Pos. 1 2 3 4 5 6 7

Ref. Designator A1 A2 A3 A4 A5 A6 SW1

Title: OPP Cuvette Assembly Q.ty

UoM

1 1 1 1 1 1 1

PZ PZ PZ PZ PZ PZ PZ

P/N: 10210-01-A Description

1.17NM 1.8 MOTOR ASSY OPTO SENSOR LM35 TEMP SENSOR VER.02 INCUBATION HEATER STRIP ASSY 12-BIT MIURA ENCODER PHOTODIODE MODULE THERMOSTAT, MULTIPURPOSE, OPEN @ 70°C+/-3°C,CLOSES @ 55°C+/-4°C, CONTACTS N/C, 250V, 10A

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Value

Rating

Toler.

             

             

             

P/N 10040-00-A 10045-00-A 10050-02-B 10043-00-A 10747-00-A 10011-00-B 2455R-T147-B201ABA13-L70C

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V o u t P V o u t N V D C P V D C N E G N D M G N D

10210-01-A

P1

J1

A1

A2

A3

A4

SW 1

1 . 7 N B 1 . 8 M O T R A S Y O P T O S E N S O R L M 3 5 TE M P S E N S O R I N C U B A T I O N TH E R M A L S W I T C H V E R . 0 2 H E A TE R S TR I P N C / 7 0 - 5 ° C P / N 1 0 4 0 - 0 - A P / N 1 0 4 5 -0 - A P / N 1 0 4 3 - 0 -A 2 4 5 R -L 7 0 C P / N 1 0 5 0 - 2 -A

OPP Cuvette Assembly Ver.01

P/N:

1 2 3 4 5 6

B I T 1 ( L S B ) B I T 3 B I T 5 B I T 7 B I T 9 B I T 1 1 D I R E C T I O N + E V O L T B I T 2 B I T 4 B I T 6 B I T 8 B I T 1 0 B I T 1 2 ( M S B ) E G N D

P R O T +

P1

1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5

P1

1 2

P1

1 2 3 4

P1

1 2 3 4

1 2 3 4

V _ 1 V _ 2

+ P A P A + P B P B

P R O T -

V T E M P + E G N D + V s M G N D

O U T P U T A N O D E + 5 V E G N D

Page 1 of 1

37

A5 1 2 - B I T M IU R A E N C O D E R P / N 1 0 7 4 -0 - A

A6 P H O T D IO D E M O D U LE

C U V E T A S E M B LY C U V E T E S R E A D I N G C U V E T C U V E T A S E M B L Y T E M P E R A T U R E I N C U B A T I O N TH E R M A L M O T R A S E M B L Y H O M E S N S O R S E N S O R H E A TE R S T R I P P R O TE C T I O N

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

C U V E T R O TA I O N C O N TR O L

Electrical drawing

Title:

P / N 1 0 1 - 0 -B

P H O TO D I O D E SE N SO R

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.8.1.1.

1.17NM 1.8 MOTOR ASSY P/N 10040-00-A

This is the stepping motor assembly used for the cuvette assembly. M 1 + + -

B LA C K Y E LLO W O RA N G E G REEN

P1 1 2 3 4

BBB+ B+

A A A A

RED W H I TE BRO W N B LU E

+ PA -P A + PB -P B

Figure 72: 1.17NM 1.8 Motor Assy To access motors, disassemble the cabinet. It is placed under the cuvette assembly on the rear side of the instrument inside a mechanical protection. The rotor is moved through a belt.

STEPPING MOTOR

CUVETTE WHEEL OPTO HOME SENSOR

CUVETTE WHEEL BELT

Figure 73: Cuvette Motor Assy

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3.3.8.1.2.

Opto Sensor, All Versions P/N 10045-00-A

This is the home sensor of the Cuvette Wheel stepping motor assemblies. It is placed under the assembly and can be accessed from the front cover. RED W H I TE B LU E

P1 1 2 3 4

O U TP U T A N O D E V c c EG N D

G REEN B LA C K

Figure 74: Opto Sensor

CUVETTE WHEEL HOME SENSOR VER.00 Figure 75: Cuvette Wheel Home Sensors

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3.3.8.1.3.

LM35 Temp Sensor Ver.01 P/N 10050-02-A

This is the temperature sensor used to control the incubation temperature.

TE M P V +

E2 E1

EG N D

E3

W H I TE BRO W N

W H I TE B LA C K BRO W N

P1 1 2 3 4

V TE M P EG N D + V s N .C .

SH IE LD

Figure 76: LM35 Temp Sensor Ver.02 Incubation temperature sensor is placed under the cuvette assembly in the front side. To access it, open the front panel; sensor is fixed by one screw near the thermostat protection switch. The sensor is connected to the Mother Board through a connector and a shielded cable.

TEMPERATUR E SENSOR

PROTECTION THERMOSTAT Figure 77: Cuvette Wheel temperature sensor and Thermostat

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

TEMP. SENSOR FIXING SCREW

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3.3.8.1.4.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Incubation Heater Strip Assy P/N 10043-00-A

This is the heater used to warm up the cuvette assembly in order to reach the constant incubation temperature. O RA N G E O RA N G E

P1 1 2

V _1 V _2

Figure 78: Incubation Heater Strip Incubation heater strip is placed under the cuvette assembly. To access its connector, open the front panel. It is driven by the PWR Switch & Regulator board.

HEATER STRIP Figure 79: Heater Strip

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

HEATER STRIP CONNECTOR

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3.3.8.1.5.

12-BIT Miura Encoder P/N 10747-00-A

An absolute encoder is used to monitor on-line the position of cuvette wheel. It allows correction of the position of the wheel to assure reliable readings, washings and dispensing.

B I T1 B I T2 B I T4 B I T6 B I T8 B I T1 0 B I T1 2 C O D -S E Q + EV B I T3 B I T5 B I T7 B I T9 B I T1 1 B I T1 3 O V

1 3 -B IT E N C O D E R ( + 5 V , G R A Y C O D E O U TP U T) W I TH S H I E L D E D C A B L E

A 1

B I T1 ( L S B ) B I T2 B I T4 B I T6 B I T8 B I T1 0 B I T1 2 C O D E SE Q U E N C E + EV B I T3 B I T5 B I T7 B I T9 B I T1 1 B I T1 3 ( M S B ) EG N D

B R O W N / Y E LLO W BRO W N /G REEN B LU E / R E D V IO LE T P IN K Y E LLO W BRO W N W H I TE / Y E L L O W RED W H I TE / G R E E N G R E Y/ P IN K B LA C K G REY G REEN W H I TE B LU E

P1 1 2 3 4 5 6 7 8 9 1 1 1 1 1 1

0 1 2 3 4 5

B I T1 ( L S B ) B I T3 B I T5 B I T7 B I T9 B I T1 1 D I R E C TI O N + E V O LT B I T2 B I T4 B I T6 B I T8 B I T1 0 B I T1 2 ( M S B ) EG N D

TO O P P C O N TR O L L E R A SSE M B LY P / N 1 0 0 1 6 -0 0 -B

Figure 80: 12-BIT Encoder The encoder is placed under the cuvette assembly. To access it remove the cover. It is connected directly to the Mother Board through a shielded cable and the data acquisition is made by the Read&Wash Controller board.

ABSOLUTE ENCODER

Figure 81: 12-BIT Miura Encoder

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3.3.8.1.6.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Photodiode Module P/N 10011-00-B

This module is used to measure the light crossing the cuvette to be read: it is the photo-sensor pre-amplifier. It is placed at the end of the optical path and it’s part of the photometer. It includes two potentiometers, one for Gain calibration (R2), the other for off-set nulling (R3):  R2 has been regulated at factory to give readings of about 20,000 counts at 340nm wavelenght over the full dynamic (65535 counts) and Gain = 1.  R3 has been regulated at factory to decrease eventual signal off-set to give 5÷15 counts over the full dynamic (65535 counts). These potentiometers do not require of any further calibration during normal operation. In case of replacing photodiode board or in case of modification of lighting conditions (replacement of lamp, filter set, replacement of lens) there could be the need of re-calibrating Gain, in this case potentiometers can be gently turned without disassembling parts through the upper cover of the cuvette wheel: two holes have been provided for reaching potentiometers when cuvette number 32 is placed in reading position; Gain = left potentiometer, Off-set = right potentiometer.

Figure 82: Photodiode Module Note: No maintenance operations are foreseen at board level. Ask Producer for spare part. To access the boards, remove the cuvette wheel cover, remove the whole cuvette tray support and open the enclosure; unfasten the fixing screw and replace the board only with the same model. Assemble back all parts and perform Gain and Off-set calibration. See the procedure below.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

DISASSEMBLE THE CUVETTE COVER AND THE WASHING STATION COVER

PUSH UP TO THE VERY TOP THE WASHING STATION HEAD

UNFASTEN THE SIX SCREWS THAT FIX THE CUVETTE SUPPORT TO THE TRAY DISASSEMB LE THE CUVETTE SUPPORT FROM THE TRAY

UNFASTEN PHOTODIODE MODULE SUPPORT

REPLACE MODULE TAKING IT OUT FROM THE SUPPORT

Figure 83: Photodiode Module Replacing Procedure

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3.3.8.2.

OPP Optical Group Ver.01, P/N 10212-01-A

This sub-assembly, controlled by the Read&Wash Controller P/N 10012-04-C, includes the filter wheel that is moved by a stepping motor assembly (1.17NM0.9 Motor Assy P/N 10042-00-A), and controlled through the related home sensor (Opto Sensor Ver.00 P/N 10045-00-A). The OPP Cuvette Assembly includes also:  the 20W Halogen Lamp Assy, P/N 10749-00-A,  the set of 8 interferential filters. The filter wheel is managed by the Read&Wash Controller in order to position the requested wavelength on the optical path. Every machine cycle includes an home positioning of the wheel for on-line controlling.

Filter

Detector

AMP METER

Light source

Lens

Cuvette

OPP Optical Group

Figure 84: Photometer FILTER WHEEL OPTO HOME SENSOR (INSIDE COVER)

HALOGEN LAMP

HALOGEN LAMP CONNECT OR

FILTER WHEEL MOTOR

Figure 85: OPP Optical Group, back view

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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Part List Pos. 1 2 3 4

Ref. Designator A1 A2 A3  

Title: OPP Optical Group Q.ty

UoM

1 1 1 1

PZ PZ PZ PZ

P/N: 10212-01-A Description

20W HALOGEN LAMP ASSY 1.17NM0.9 M MOTOR ASSY VER.01 OPTO SENSOR SET OF INTERFERENTIAL FILTERS, 8 MATCHED FILTERS + CAP FOR OFFSET, λ=505nm, 546nm, 578nm, 630nm, 700nm, 340nm, 405nm, 492nm

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Value

Rating

Toler.

       

       

       

P/N 10749-00-A 10042-00-A 10045-00-A  

115/382

1 2 3 4

10212-01-A

OUTPUT ANODE +5V EGND

+PA -PA +PB -PB 1 2 3 4

1 2

P1

P1

OPP Optical Group Ver.01

P/N:

P1

Page 1 of 1

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

V+ V-

37

A2

A3

2 0 W H A LO G E N LA M P A SSY

1 .1 7 N B0 .9 M O TO R A SSY P / N 1 0 0 4 2 -0 0 -A

O P TO SE N SO R P / N 1 0 0 4 5 -0 0 -A

FILTE R W H E E L M O TO R A SSE M BLY

FILTE R W H E E L H O M E SE N SO R

Title:

A1

H A LO G E N RE A D IN G LA M P

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Electrical drawing

P / N 1 0 7 4 9 -0 0 -A

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3.3.8.2.1.

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3.3.8.2.2.

20W Halogen Lamp Assy, P/N 10749-00-A

This is the lamp used as light source for the photometric system. P1 1

1 2

V + V -

2

Figure 86: 20W Halogen Lamp Assy The lamp is placed into its heat sink within the Optical Group. The Photometer Lamp must be replaced when the instrument is OFF; wait at least 5 minutes from the shutdown to allow the bulb to cool down and to avoid any burnings. The new lamp (provided by the Manufacturer with its own code) includes the fixing support; don’t remove the lamp from its support: the lamp hight has been calibrated at factory.

LAMP FIXIN G KNOB

LAMP LAMP CONNECTO R

Figure 87: 20W Halogen Lamp To replace the photometer lamp simply open the wicket protecting the lamp assembly and follow the steps below:  Unscrew and save the phillips screw that fixes the lamp wiring to the optical group main body.  Unplug the lamp connector from the main wiring (pay attention do not let it slide inside the machine).  Unfasten the lamp knob.  Take out the lamp with its support.

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    

Place a new lamp, with its support, in the slot and tight the fastening knob. Plug the connector back to the fixed wiring. Screw up the phillips screw to fasten the lamp conductors to the optical group main body and close the wicket. Switch the instrument on, start the software and wait the end of the warm up. Run a Gain Calibration Cycle from the Status menu. The cycle includes an auto-zero cycle that allows the instrument to level the different wavelength gains and update the zero values of all the reading Cuvettes.

WARNING Do not touch the lamp bulb with your fingers: grease and damp could affect its lasting performance.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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3.3.8.2.3.

1.17NM 0.9 MOTOR ASSY, P/N 10042-00-A

This is the stepping motor assembly used for the filter wheel motion. M 1 + + -

B LA C K Y E LLO W O RA N G E G REEN

P1 1 2 3 4

BBB+ B+

A A A A

RED W H I TE BRO W N B LU E

+ PA -P A + PB -P B

Figure 88: 1.17NM 0.9 Motor Assy To access the motor, disassemble the cabinet. It is placed behind the optical group. The filter wheel is moved through a belt.

0.9° STEPPING MOTOR

BELT

Figure 89: Filter Wheel Stepping Motor

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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3.3.8.2.4.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Opto Sensor Ver.00 P/N, 10045-00-A

This is the opto home sensor used for Filter Wheel motion control. RED W H I TE B LU E

P1 1 2 3 4

O U TP U T A N O D E V c c EG N D

G REEN B LA C K

Figure 90: Opto Sensor The Filter wheel home sensor is placed into the Optical Group behind a plastic back cover. To replace it remove the cabinet and then remove the black plastic cover, that is fixed with one screw on the rear side; unfasten the screws fixing the support and replace the sensor. Align it on the wheel, replace back all parts and proceed with mechanical calibration of the filters (by using the service software MiuraServer). After replacing control filter wheel mechanical calibration and then run a Gain Calibration Cycle. COVER SUPPORT FIXING SCREWS

HOME SENSOR

Figure 91: Sample Wheel home sensor Replace sensor only with the same model.

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3.3.8.2.5.

Interferential Filters

The optical group includes a 10-positions filter wheel: interferential filters are 8, the wavelengths are included within 340nm and 700nm; one position is devoted to the auto-zero resetting of the off-set. One more position is free for possible optional wavelengths and isn’t used in the standard configuration. Positions on the filter wheel are numbered to easily recognize filters. The cross-reference table between the physical wheel position and the filter wavelength located in that position is the following:          

Filter pos.0 Filter pos.1 Filter pos.2 Filter pos.3 Filter pos.4 Filter pos.5 Filter pos.6 Filter pos.7 Filter pos.8 Filter pos.9

505nm 546nm 578nm 630nm 700nm black cap (off-set) 340nm not used 405nm 492nm

In order to replace a filter, remove the cover, remove the Optical group, disassemble it and carefully unplug the wheel. On the wheel, unfasten the big holed screw fixing the filter, remove the o-ring and extract the filter itself. Repeat the above steps on the other way round to assemble back the group. Filters are special “matched” devices: replace them only with original ones got by the instrument Producer.

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3.3.8.3.

OPP Washing Station, P/N 10211-00-A

This sub-assembly, controlled by the Read&Wash Controller P/N 10012-04-C, includes the washing station of the reading cuvettes; it is moved by a stepping motor assembly (1.20NM1.8 Motor Assy P/N 10055-00-A), and it is controlled through one home sensor for the upper positioning and one opto-sensor for the lower positioning (Opto Sensor Ver.00 P/N 10045-00-A). The lower positioning sensor flags when needles have entered cuvettes; in this way the washing pumps can be activated for dispensing systemic solution. The OPP Washing Station includes, 6 aspiration neddles, 1 drying tip and:  5 couples of needles, for aspiration and for dispensing;  1 dispensing needle;  1 aspiration needle;  1 drying tip (white Teflon).

Figure 92: Washing Station

TI P

POS.8

ASP7

POS.7

DIS6

POS.6

ASP5/DIS5 ASP4/DIS4 ASP3/DIS3 ASP2/DIS2 ASP1/DIS1

POS.5

POS.4

POS.3

POS.2

POS.1

Figure 93: Washing Station, Needles Configuration Needles of the washing station are driven by:  6 peristaltic pumps, for the washing solution dispensing (all peristaltic pumps are placed behind the front panel of the instrument);  2 diaphragm vacuum pumps, for aspiration and drying cuvettes (the diaphragm pumps are placed behind the back panel of the instrument).

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PERISTALTI PERISTALT PERISTALTI PERISTALTI PERISTALTI PERISTALTI C C C C IC C PUMP PUMP PUMP PUMP PUMP PUMP NEEDLE NEEDLE NEEDLE NEEDLE NEEDLE NEEDLE Figure 94: Washing Station OPP Pumps & Drivers) “DIS5”(Included in “DIS6” “DIS2” “DIS1” “DIS3” “DIS4”Peristaltic Pumps INLET

OUTL ET

ASPIRATION PUMP, TIP PUMP FOR ALL ASPIRATION NEEDLS Figure 95: Washing Station Diaphragm Pumps (Aspiration + Drying) Each of the 6 peristaltic pumps is directly connected to only one dispensation needle (short ones) of the washing station. One of the two diaphragm pumps is connected in parallel to the 6 aspirating needles (long ones), the second one is dedicated to the drying tip only. During the washing cycle all cuvettes progressively run under each of the

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needles from position 1 up to position 8, moving one position on any every machine cycle. During the washing cycle, composed from a descent phase, a waiting phase and a rising phase, the needles, placed in the different positions, behave as follow:  Positions 1 (couple of needles): the cuvette is discharged and then washed twice with Cleaner Solution; it comes out half-full;  Positions 2÷4 (couple of needles): the cuvette is discharged and then washed twice with Systemic Solution; it comes out half-full;  Position 5 (couple of needles): the cuvette is discharged and then washed once with Systemic Solution; it comes out empty;  Position 6 (single needle): the cuvette is filled with Systemic Solution and then controlled optically (transparent or zero-value updating);  Position 7 (single needle): the cuvette has been emptied out;  Position 8 (tip): the cuvette has been dried from liquid residuals. Part List Pos.

Ref. Designator

Title: OPP Washing Station

P/N: 10211-00-A

Q.ty

UoM

Description

Value

Rating

Toler.

1 2 3 4 5 6 7 8

A1, A2 A3 HM1-HM5 HM6 HM7 HM8 HM9 HT1-HT12

2 1 5 1 1 1 1 1,85

PZ PZ PZ PZ PZ PZ PZ M

               

               

               

10045-00-A 10055-01-A 20261-00-0 20077-00-0 20078-00-0 20239-00-0

9

HT13

0,15

M

OPTO SENSOR 0.20NM1.8 MOTOR ASSY NEEDLES, DISPENSER-ASPIRATION, DIAM. 1,1mm NEEDLE, ASPIRATION, DIAM. 1,1mm NEEDLE, DISPENSER, DIAM. 1,1mm DRYING TIP ASSEMBLY WASHING STATION MANIFOLD FLEXIBLE TUBING, PTFE (TEFLON), AWG19 (INT.DIAM. 0,9mm, EXT.DIAM.=1,7mm) FLEXIBLE TUBING, PLASTIC, TYGON, INT.DIAM.=3/32" (2,4mm), EXT.DIAM.=5/32" (4mm), THICKNESS=1/32" (0,8mm), TYPE TYGON R3603

 

 

 

AAC00004

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P/N

PTFE TW19

125/382

Page 1 of 2 10211-00-A

P1

P1

OPP Washing Station

P/N:

P1

1 2 3 4

1 2 3 4

1 2 3 4

O UTP UT ANO DE +5 V EG N D

O UTP UT ANO DE +5 V EG N D

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

+PA -P A +PB -P B

37

0 . 2 0 N B 1 . 8 M O TO R A S S Y P / N 1 0 0 5 5 -0 0 -A A1

A2

O P TO S E N S O R P / N 1 0 0 4 5 -0 0 -A

W A S H I N G S TA TI O N M O TO R A S S E M B L Y

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

W A S H I N G S TA TI O N H O M E SE N SO R

W A S H I N G S TA TI O N L O W P O S I TI O N S E N S O R

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Electrical drawing

Title:

O P TO S E N S O R P / N 1 0 0 4 5 -0 0 -A

A3

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Page 2 of 2

37

P/N:

10211-00-A

S U CTIO N S U CTI O N DI S P E N S I N G DI S P E N S I N G DI S P E N S I N G DI S P E N S I N G DI S P E N S I N G DI S P E N S I N G TI P NE E DLE S NE E DLE 6 NE E D L E 5 NE E D L E 4 NE E DLE 3 NE E D L E 2 NE E D L E 1 PU M P PU M P PU M P PU M P PU M P PU M P PU M P PU M P

OPP Washing Station

HM 9 W AS H I N G S TA TI O N M ANI F O LD

HT1 2

HT1 HT1 0 HT9 HT8 HT7 HT6 HT5 HT4 HT3 HT2 HT1

HM 8

HM 7

HM 6

TI P

HM 5

HM 4

HM 3

HM 2

Electrical drawing

Title:

HT1 3

HM 1

NE E D L E 7 NE E DLE 6 NE E DLE 5 NE E D L E 4 NE E D L E 3 NE E DLE 2 NE E D L E 1

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3.3.8.3.1.

0.20NM 1.8 MOTOR ASSY, P/N 10055-00-A

This is the stepping motor assembly used for the washing station motion. A + A A -

B LA C K Y E LLO W G REEN

P1 1 2 3 4

BB B+

M 1

RED W H I TE B LU E

+ PA -P A + PB -P B

Figure 96: 0.20NM 1.8 Motor Assy To access the motor, disassemble the cabinet. Motor is placed behind the washing station. The group of needles is moved through a belt.

WASHING STATION MOTOR

Figure 97: Washing Station Stepping Motor

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3.3.8.3.2.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Opto Sensor Ver.00 P/N, 10045-00-A

This is the opto home sensor used for Filter Wheel motion control. RED W H I TE B LU E

P1 1 2 3 4

O U TP U T A N O D E V c c EG N D

G REEN B LA C K

Figure 98: Opto Sensor Two Washing Station opto sensors are placed in the rear side: one home sensor and one low position sensor. To replace them remove the cabinet.

HOME SENSOR

LOW POSITION SENSOR

Figure 99: Washing Station Stepping Motor Replace sensor only with the same model.

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3.3.8.4.

OPP 100M3 MGND Jumper P/N 10410-00-A and OPP 100M4 MGND Jumper

These jumpers are used to connect the bottom of the cuvette tray and the optical group with the mechanical ground for protection and shielding. The 100M3 MGND Jumper is located under the cuvette tray. The 100M4 MGND Jumper connects the cuvette tray mechanical support with the optical group.

F I X E D O N B O TTO M O F S A M P L E & R E A G E N TS A SSE M B LY

E1

E2

F I X E D O N B O TTO M O F R E A G E N T A SSE M B LY

2 ,5 m m q Y/ G

MGND JUMPER

Figure 100: OPP 100M3 MGND Jumper

MGND JUMPER

Figure 101: 100M4 MGND Jumper

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3.3.9.

OPP Pumps & Drivers, P/N 10217-00-E

This assembly is controlled by the OPP Controller Assembly P/N 10016-00-C and includes two boards (Power Driver Module – 9x1A, P/N 10006-00-C) for powering loads. It includes the following main parts:  2 Power Driver Modules;  6 peristaltic pumps for dispensing (washing station);  2 diagphram pumps for rinsing (two sampling probes washing – one for each ARM);  1 diagphram pump for aspiration (washing sink). The pumps are connected to the power boards respecting the pictures below. DIS3

DIS1

DIS2

DIS5 DIS4

SPAR TIP ARM1-EV WASHING SINK ARM2-EV E ARM2 ARM1 DIS6 ASP BUZZE ARM1 PROBE R PROBE HEATER

A2 “POWER DRIVER MODULE” BOARD A13 BUZZER

SPARE

A1 “POWER DRIVER MODULE” BOARD A10 200ml/min WASHING SINK DIAGPHRAM PUMP

A3 55ml/min Head “DIS1 NEEDLE” A5 55ml/min Head “DIS3 NEEDLE” A6 55ml/min Head “DIS4 NEEDLE”

ARM2 HEATER

POWER SUPPLY CONNECTOR (BEHIND) A7 55ml/min Head “DIS5 NEEDLE”

A8 55ml/min Head “DIS6 NEEDLE”

A9 100ml/min “ARM2 SAMPLE PROBE RINSING”

A4 A11 38ml/min Head 100ml/min “DIS2 NEEDLE” “ARM1 REAGENT PROBE RINSING”

Figure 102: OPP Pumps & Drivers, “Connectors to Loads” Correspondence Signal to Power Output cross-reference tables: Ref.Des.: A1, Power Driver Module – 9x1A board Output Load Driven by OUT01 Buzzer Main Controller Ver.01 OUT02 ARM1 Diluter Electrovalve ARM1 Controller OUT03 Diluter ARM1 Pump ARM1 Controller OUT04 Washing Sink Pump ARM1 & ARM2 Controller OUT05 ARM1 Coil Heater ARM1 Controller OUT06 ARM2 Diluter Electrovalve ARM2 Controller OUT07 Diluter ARM2 Pump ARM2 Controller OUT08 ARM2 Coil Heater ARM2 Controller OUT09 Spare Output --Output OUT01 OUT02 OUT03 OUT04 OUT05 OUT06 OUT07

Ref.Des.: A2, Power Driver Module – 9x1A board Load Driven by Dispensing Needle1 Pump Read & Wash Controller Dispensing Needle2 Pump Read & Wash Controller Dispensing Needle3 Pump Read & Wash Controller Dispensing Needle4 Pump Read & Wash Controller Dispensing Needle5 Pump Read & Wash Controller Dispensing Needle6 Pump Read & Wash Controller Spare Output ---

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Connector J3 J4 J5 J6 J7 J8 J9 J10 J11 Connector J3 J4 J5 J6 J7 J8 J9

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Output OUT08 OUT09 Part List Pos.

Ref. Designator

Load Suction Needles Pump Suction Tip Pump

Driven by Read & Wash Controller Read & Wash Controller

Title: OPP Pumps & Drivers

Connector J10 J11

P/N: 10217-00-E

Q.ty

UoM

Description

Value

Rating

Toler.

1 2 3 4 5 6 7 8 9

A1, A2 A3, A5-A8 A4 A9, A11 A10 A13 W1 HM1 HM2-HM22

2 5 1 2 1 1 1 1 21

PZ PZ PZ PZ PZ PZ PZ PZ PZ

                 

                 

                 

10006-00-C 10060-01-A 10638-00-A 10059-00-A 10947-00-A 10058-00-A 10514-00-A 20270-00-0 20271-00-A

10

HM23

1

PZ

 

 

 

20269-00-A

11

HM24

1

PZ

PWR DRIVER MODULE - 9X1A SR10_30 PUMP ASSY VER.01 38ML SR10_30 PUMP ASSY NF10 PUMP ASSEMBLY APN20 PUMP ASSY BUZZER ASSY OPP PUMPS & DRIVERS WIRING MANIFOLD NIPPLE, DIAM.=2,3, THREADED, BARBED, FOR 2,5 mm TUBING, PVC NIPPLE, DIAM.=2,3, THREADED, BARBED, FOR 3 mm TUBING, PVC NIPPLE MANIFOLD INPUT, THREADED, BARBED, FOR 4 mm TUBING, PVC

 

 

 

20273-00-A

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P/N

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Page 1 of 2

37

W1

1 2 3 4

TO O PP C O N TRO LLER A SSEM BLY

1 2 3 4

P1

OUT09-P OUT09-N

OUT08-P OUT08-N

J1 0

J1 1 1 2

TO O PP A RM 1 A SSY (C O IL H EA TER)

J9 P1

TO O PP A RM 2 A SSY (C O IL H EA TER)

SPA RE O U TPU T

1 2

1 2

1 2

P1

TO A RM 2 D I L U TO R EV

P/N: OPP Pumps & Drivers

V+ V-

V+ V-

V+ V-

V+ V-

TO A RM 1 D I L U TO R EV

OUT07-P OUT07-N

OUT06-P OUT06-N

OUT05-P OUT05-N

OUT04-P OUT04-N

P1

J8

1 2

P1 BU ZZER

J7

1 2

J6

1 2

J5

1 2

J4

1 2

J3

OUT03-P OUT03-N

OUT02-P OUT02-N

OUT01-P OUT01-N

+

-

1 2 3 4

J2

10217-00-E

1 2 3 4

A1 PW R D RIV ER M O D U LE - 9 X1 A V ER. 0 0 P/ N 1 0 0 0 6 - 0 0 -C

INP-01 INP-02 INP-03 INP-04 INP-05 INP-06 INP-07 INP-08 INP-09 EGND

J1 V A 1+ V A 1V A 2+ V A 2-

J1

+24V EGND +12V EGND

1 2 3 4 5 6 7 8 9 10

A 13 BU ZZER A SSY P/ N 1 0 0 5 8 - 0 0 -A

TO PO W ER SU PPLY

W1

1 2 3 4

W1

V+ V-

P1

SPA RE O U TP U T

TO SU C TI O N N EED LES PU M P

OUT09-P OUT09-N

J1 1

1 2

J1 0

1 2

OUT08-P OUT08-N

+24V EGND +12V EGND OUT07-P OUT07-N

J9

1 2

OUT06-P OUT06-N

J8

1 2

1 2

P1 V+ V-

P1 V+ V-

P1

J7

J2

TO SU C TI O N TI P PU M P

P/ N 1 0 3 6 8 - 0 0 -A

P

-

A3 A5 A6 A7 A8 SR1 0 _ 3 0 PU M P A SSY SR1 0_ 3 0 PU M P A SSY SR1 0 _ 3 0 PU M P A SSY SR1 0 _ 3 0 PU M P A SSY SR1 0_ 3 0 PU M P A SSY V ER. 0 3 V ER.0 1 V ER. 0 1 V ER. 0 1 V ER.0 1 P/ N 1 0 0 6 0 - 0 3 -A

P/ N 1 0 0 6 0 -0 1 - A

P/ N 1 0 0 6 0 - 0 1 -A

P/ N 1 0 0 6 0 -0 1 - A

P/ N 1 0 0 6 0 -0 1 - A

D I S PEN SIN G N EED LE 1 D I S PEN SIN G N EED LE 2 D ISPEN SI N G N EED LE 3 D I S PEN SIN G N EED LE 4 D I S PEN SIN G N EED LE 5 D ISPEN SI N G N EED LE 6 PU M P PU M P PU M P PU M P PU M P PU M P

P

-

P

-

P

-

A9 N F1 0 PU M P A SSY

A 10 A PN 2 0 PU M P A SSY

A 11 N F1 0 PU M P A SSY

P/ N 1 0 0 5 9 - 0 0 -A

P/ N 1 0 9 4 7 - 0 0 -A

P/ N 1 0 0 5 9 -0 0 - A

D I L U TO R 1 PU M P

Title:

-

+

P

+

-

+

P

+

-

+

P

+

-

Electrical drawing

A4 3 8 M L SR1 0 _ 3 0 PU M P A SSY

P

+

V+ V-

-

+

V+ V+

P

J6

1 2

1 2

P1 V+ V-

P1

OUT04-P OUT04-N

OUT03-P OUT03-N

OUT02-P OUT02-N

OUT01-P OUT01-N

1 2

J5

OUT05-P OUT05-N

A2 PW R D RIV ER M O D U LE - 9 X1 A V ER. 0 0 P/ N 1 0 0 0 6 -0 0 - C

J4

1 2

J3

P2

1 2 3 4 1 2 3 4

J1

INP-01 INP-02 INP-03 INP-04 INP-05 INP-06 INP-07 INP-08 INP-09 EGND

1 2 3 4 5 6 7 8 9 10

TO O PP C O N TRO LLER A SSEM BLY

W A SH I N G SIN K PU M P D ILU TO R 2 PU M P

H YD RA U LIC C O N N EC TI O N S TO A RM S A N D W A SH I N G SIN K

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Page 2 of 2

37

- W IR IN G F O R F LU ID S -

W A SH IN G SIN K PU M P

A9

A 11

A 10

D ISP E N SIN G N E E D LE 6 PU M P

A8

HM 2 HM 3 HM 4 HM 5 HM 6 HM 7 HM 8 HM 9

D ISP E N SIN G N E E D LE 5 PU M P

A7

D ISP E N SIN G N E E D LE 4 PU M P

A6

D ISP E N SIN G N E E D LE 3 PU M P

A5

D ISP E N SIN G N E E D LE 2 PU M P

A3

D ISP E N SIN G N E E D LE 1 PU M P

OPP Pumps & Drivers

D ILU TO R 2 PU M P

A4

HM 10 HM 11 HM 12 HM 13 HM 14 HM 15 HM 16 HM 17 HM 18 HM 19 HM 20

Title:

D ILU TO R 1 PU M P

P/N:

10217-00-E

H Y D R A U LIC S C H E M A TIC

HM 1 IN P U T M A N IFO LD

Electrical drawing

HM 21 HM 24

HM 23 HM 22

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3.3.9.1.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Power Driver Module - 9x1A, P/N 10006-00-C

This module is used to drive most of the peripheral loads of the instrument. The board includes nine sections, one for each load. Two of these boards are included in the M100 Pumps Assembly and they are interchangeable. Loads will be enabled by signals generated in the Controller Boards (see previous paragraph): loads are enabled when the respective lamp is ON.

Figure 103: Power Driver Module – 9x1A Note: No maintenance operations are foreseen at board level. Ask Producer for spare part. To access the boards, open the side panel of the unit, both of them have been placed on the upper part of the pumps bracket. To replace a board, remove the cabinet, unplug connectors, unfasten the screw that fix it on the support and replace it with a new one. Replace board only with the same model.

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3.3.9.2.

SR10_30 Pump Assy Ver.01, P/N 10060-01-A

This is the peristaltic pump used for:  dispensing needle nr.1;  dispensing needle nr.3;  dispensing needle nr.4;  dispensing needle nr.5;  dispensing needle nr.6;  diluter ARM1;  diluter ARM2. P1 RED B LU E

V + V -

-

P

+

1 2

Figure 104: SR10_30 Pump Assy Ver.01 and Ver.03 Peristaltic pumps are placed behind the instrument front panel on the pumps bracket. To replace pump head, disconnect external instrument charge tubing (green one), unplug pump tubing from manifold nipples, unplug the white pump head (by pressing the side brackets) and remove it from the motor shaft. Replace with the new head being careful to insert the shaft in the middle of the three rollers; plug tubing on the manifold nipple and connect back the external instrument charge tubing.

To replace the entire pump, including dc motor, follow the procedure above but unfasten the two fixing screw, unplug electrical connectors, extract the pump and replace with the new one.

Replace pump only with the same model.

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3.3.9.3.

38ML SR10_30 Pump Assy, P/N 10638-00-A

This is the peristaltic pump used for dispensing needle nr.2. P1 RED B LU E

V + V -

-

P

+

1 2

Figure 105: 38ML SR10_30 Pump Assy This peristaltic pump is placed behind the instrument right side panel on the pumps bracket. It flows about 38ml/min. To replace pump head, disconnect external instrument charge tubing (green one), unplug pump tubing from manifold nipples, unplug the white pump head (by pressing the side brackets) and remove it from the motor shaft. Replace with the new head being careful to insert the shaft in the middle of the three rollers; plug tubing on the manifold nipple and connect back the external instrument charge tubing.

To replace the entire pump, including dc motor, follow the procedure above but unfasten the two fixing screws, unplug electrical connectors, extract the pump and replace with the new one.

Replace the pump only with the same model. In case of tubing internal walls gluing by long inactivity and so obstructing normal flow, open the head extract and gently massage the tubing and assemble all back.

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3.3.9.4.

NF10 Pump Assy, P/N 10059-00-A

This is the diagphram pump used for rinsing and washing the RM probe (ARM diluter washing). P1 RED B LA C K

V + V -

330N 50V

-

P

+

1 2

Figure 106: NF10 Pump Assy It is placed behind the instrument front panel on the pumps bracket. It flows about 100ml/min. To clean the membrane and valves into the pump head, disconnect external instrument charge tubing (green one), unplug pump tubing from manifold nipples, unfasten the four torx-screws and remove the black cover. Clean parts with distilled water and then reassemble all in the exact way. The procedure above could be necessary in case of pump blockage due to long inactivity.

To replace the entire pump, disconnect external instrument charge tubing (green one), unplug pump tubing from manifold nipples, unfasten the two screws fixing the black support on the bracket, unplug the electrical connector and extract the old pump. Remove the support away from the old pump and fix it on the new one. Place the new pump on the bracket fixing the support on it. Plug back tubing and connector. When plugging back the new tubing pay attention to follow the correct tubing position. Replace the pump only with the same model.

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3.3.9.5.

APN20 Pump Assy, P/N 10947-00-A

This is the diagphram pump used for drawing the washing sink; the well is the place where the sampling probe rinses and washes and this waste pump aspirates all residuals so it must be considered as potentially infected. P1 RED B LA C K

V + V -

-

P

+

1 2

Figure 107: APN20 Pump Assy It is placed behind the instrument front panel on the pumps bracket. It flows about 200ml/min. To clean the membrane and valves into the pump head, disconnect external instrument charge tubing (green one), unplug pump tubing from manifold nipples, unfasten the four screws and remove the cover. Clean parts with distilled water and then reassemble all in the exact way. The procedure above could be necessary in case of pump blockage due to long inactivity.

Figure 108: APN20 PumpAssy – Washing Sink Pump To replace pump unfasten the two screws fixing the pump support to the bracket; unplug electrical connectors and the tubings and remove the pump. Take the support away from the old pump and fix it on the new one. Place the new pump on the bracket fixing the support on it. Plug back tubing and connector. When plugging back the new tubing pay attention to follow the correct tubing position. Replace the pump only with the same model. WARNING Take care when handling waste tubing and pump as they must be considered POTENTIALLY INFECTED

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.9.6.

Buzzer Assy, P/N 10058-00-A

This is the buzzer used as sound beeper of the instrument; it is activated in case of alarms, at the end of analysis working sessions and at the end of warming-up.

P1 +

-

RED B LA C K

1 2

V + V -

Figure 109: Buzzer Assy Buzzer is placed behind the instrument front panel on the left side of the pumps bracket. To replace it, remove the cabinet, unplug connectors, unfasten the screw that fix it on the support and replace it with a new one.

Replace the buzzer only with the same model.

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3.3.9.7.

OPP Pumps & Drivers Wiring, P/N 10514-00-A

This is the wiring connects PWR Module boards power connectors to the assembly power connector. It carries on +24Vdc power.

Part List Pos.

Ref. Designator

Title: OPP MAINPS Wiring

P/N: 10514-00-A

Q.ty

UoM

Description

Value

Rating

Toler.

1

J1

1

PZ

 

 

 

350780-1

2

 

4

PZ

 

 

 

926894-1

3

L1

1

PZ

 

 

 

TPFA26435400021

4

P1, P2

2

PZ

 

 

 

350779-1

5

 

4

PZ

 

 

 

926893-1

6

 

0,8

M

 

 

 

CAV1007/18NE

7

 

0,8

M

CONNECTOR, RECEPTACLE, PANEL, STRAIGHT, CRIMP CONTACTS, SINGLE ROW, 4X1PIN, POLARIZATION, LOCK, PITCH 6.35, TYPE UNIVERSAL MATE-N-LOCK CONTACT, CRIMPING TYPE, MALE, 20-14AWG (0,5-2,0mm 2), FOR TYCO AMP UNIVERSAL MATE-N-LOCK, TINNED BRASS, 19A FERRITE, EMI SUPPRESSOR, CORE, FOR CABLE, EXT. DIAM.=14.3mm, INT. DIAM.=6.35mm, L=28.6mm, Z=171Ohm @25MHz, BROADBAND=25-300MHz CONNECTOR, PLUG, STRAIGHT, CRIMPING CONTACTS, SINGLE ROW, 4X1PIN, POLARIZATION, LOCK, PITCH 6.35, TYPE UNIVERSAL MATE-N-LOCK CONTACT, CRIMPING TYPE, FEMALE, 20-14AWG (0,5-2,0mm 2), FOR TYCO AMP UNIVERSAL MATE-N-LOCK, TINNED BRASS, 19A CONDUCTOR, COPPER, FLEXIBLE, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, BLACK CONDUCTOR, COPPER, FLEXIBLE, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, RED

 

 

 

CAV1007/18RO

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N

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Page 1 of 1

37

P1 1 12 + 24V E2 G N D TO PW R D RIVER 3 M O D U LE + 12V 43 4 EG N D

10514-00-A

RO S O N ERO

OPP Pumps & Drivers Wiring

V A1+ 1 V A1- 2 V A2+ 3 V A2- 4

P/N:

J 1 L1 A W G 18

P2

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Title:

1 + 24V 2 1 TO P W R D R I V E R 23 EG N D 34 + 12V M O D ULE 4 EG N D

Electrical drawing

RO S O N ERO

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3.3.10.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.11.

ARM Diluter Assembly Ver.00 (ARM1), P/N 10358-00-C

This assembly includes the diluter assembly and the electrovalve for ARM1 (Sample ARM). The diluter assembly is a high-resolution micro-metering pumps equipped with an integrated home sensor (benchmark sensor). It allows the dosing of micro-volumes of fluid (sampling). Home sensor is connected to the Controller Assembly (through the OPP Sensor Wiring), motor is connected to its Step Motor Driver board (through OPP MOTDRV Wiring). The assembly is controlled by the ARM1 Controller board. The electrovalve is used to separate the fluid to be dosed from the column of systemic solution used for probe washing. Electrovalve is driven by PWR Driver Module A1 (through OPP Sensor Wiring) and controlled by the ARM1 Controller board.

ELECTROVALVE

DILUTER

Figure 110: ARM Diluter Assembly Ver.00 (ARM1) Part List Pos. 1 2 3

Ref. Designator A1 A2  

Title: ARM Dilutor Assembly Ver.00 (ARM1)

P/N: 10358-00-A

Q.ty

UoM

Description

Value

Rating

Toler.

1 1 0,15

PZ PZ M

500uL DILUTER VER.00 2-WAY EV ASSY FLEX TUBING, PTFE (TEFLON), AWG19 (INNER DIAM.= 0,9mm, OUTER DIAM.=1,7mm)

     

     

     

P/N 10911-00-A 10051-00-B PTFE TW19

To replace electrovalve, unplug connector and tubing and unfasten the fixing screws. To replace diluter, unplug both home sensor and motor connectors, unfasten the support and replace it. Replace both parts only with same models.

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Page 1 of 1

37

A1 P/N 1 0911- 0 0- A 50 0uL D I L U TE R

- W I R I N G FO R FLUI D S -

O RA N G E BRO W N

K E

RED YELLO W

A+

BLA C K

A C OM

YELLO W

A-

G REEN

B+

RED

B C OM

W HI TE

B-

BLU E

P2 1 2 3 4

10358-00-A

C A

O U TP U T ANO DE N .C . EG N D

PLU G

M

ARM Diluter Assly Ver.00 and Ver.01

HM 1

P/N:

H YD RAU LI C SC H EM ATI C

P1 1 2 3 4

+ PA -P A + PB -P B

REC EPTA C LE

A1 50 0uL D I L U TE R HM 2 H T1 A2

HM 1

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Title:

P1 1 2

Electrical drawing

1

RED BLA C K

V+ V-

-

HM 2

+ A RM D I L U TE R LV M EV

2

+

-

P/N 1 0051- 0 0- B 2- W A Y EV A SSY

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.12.

ARM Diluter Assembly Ver.01 (ARM2), P/N 10358-01-C

This assembly includes the diluter assembly and the electrovalve for ARM2 (Sample ARM). The diluter assembly is a high-resolution micro-metering pumps equipped with an integrated home sensor (benchmark sensor). It allows the dosing of micro-volumes of fluid (sampling). Home sensor is connected to the Controller Assembly (through the OPP Sensor Wiring), motor is connected to its Step Motor Driver board (through OPP MOTDRV Wiring). The assembly is controlled by the ARM2 Controller board. The electrovalve is used to separate the fluid to be dosed from the column of systemic solution used for probe washing. Electrovalve is driven by PWR Driver Module A1 (through OPP Sensor Wiring) and controlled by the ARM2 Controller board.

HOME SENSOR

ELECTROVA LVE

STEP MOTOR

DILUTE R HEAD

Figure 111: ARM Diluter Assembly Ver.01 (ARM2) Part List Pos. 1 2 3

Ref. Designator A1 A2  

Title: ARM Dilutor Assembly Ver.01 (ARM2)

P/N: 10358-01-A

Q.ty

UoM

Description

Value

Rating

Toler.

1 1 0,15

PZ PZ M

500uL DILUTER VER.00 2-WAY EV ASSY FLEX TUBING, PTFE (TEFLON), AWG19 (INNER DIAM.= 0,9mm, OUTER DIAM.=1,7mm)

     

     

     

P/N 10911-00-A 10051-00-B PTFE TW19

To replace electrovalve, unplug connector and tubing and unfasten the fixing screws. To replace diluter, unplug both home sensor and motor connectors, unfasten the support and replace it. Replace both parts only with same models. For the electrical drawing refer to the previous schematic given for the Ver.00.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.13.

ISE Module Assembly, P/N 10726-00-A (Option)

This assembly is composed by the ISE Module itself including the conditioning electronic, the pump assembly (substantially a bracket with the three pumps fo Calibrant A, Calibrant B and Waste) and the Reagent Button (connecting the Reagent Pack to the module). The ISE Module has its own hardware and software and it is controlled by the instrument through an RS232 serial link. It provides automatically the analysis of the sample and gives back the results (one for each of the four electrodes). The sample will be dispensed into the inlet upper cup by the sampling probe (ARM). Calibrant A and B are moved by two of the three peristaltic pumps from the reagent pack to the inlet cup. The third pump draws the waste to the reagent pack. The peristaltic pumps are controlled by the ISE Module directly and have stepping motors. The module is connected to the calibrants and waste through the reagent button hydraulic internal fittings. It also provides the 2-wires electrical connection to the Dallas reagent pack internal chip for data storing and reading (calibrant actual volumes, expiring date, total volumes). Refer to Miura or Miura 200 User Manual for ISE Module operation and theory.

ISE MODULE WIRING ISE MODULE (WITH ELECTRODE S) ISE MODULE PUMP ASSEMBL Y ISE MODULE REAGENT BUTTON

FROM REAGENT PACK

WASTE

TO ISE MODULE

CAL B CAL A

FROM ISE MODULE (WASTE) TO REAGENT PACK (WASTE)

Figure 112: ISE Module Part List Pos.

Ref. Designator

Title: ISE Module Assembly

P/N: 10726-00-A

Q.ty

UoM

Description

Value

Rating

Toler.

1 2 3 4 5 6 7 8

A1 A2 A3          

1 1 1 1 1 1 1 1

PZ PZ PZ PZ PZ PZ PZ PZ

               

               

               

5008 10785-00-A 10784-00-B 5201 5202 5203 5205 5204

9 10 11 12 13 14 15

             

1 1 1 1 1 1 1

PZ PZ PZ PZ PZ PZ PZ

4-CHANNEL ISE MODULE (RILAVORATO) ISE MODULE REAGENT BUTTON ISE MODULE PUMP ASSEMBLY Na ELECTRODE, PER 4-CHANNEL ISE MODULE P/N 5008 K ELECTRODE, PER 4-CHANNEL ISE MODULE P/N 5008 Cl ELECTRODE, PER 4-CHANNEL ISE MODULE P/N 5008 Li ELECTRODE, PER 4-CHANNEL ISE MODULE P/N 5008 REFERENCE ELECTRODE, PER 4-CHANNEL ISE MODULE P/N 5008 4 CHANNEL RIGHT ANGLE ADAPTER KIT TUBING ADAPTER (4 CHANNEL TUBING CONNECTOR KIT) 4 CHANNEL A/B/WASTE TUBING KIT PUMP TUBING KIT 4 CHANNEL COMPRESSION PLATE 4 CHANNEL BUBBLE DETECTOR KIT 4 CHANNEL SAMPLE CUP KIT

P/N

             

             

             

5615 5612 5611 5610 5618 5621 5617

Electrodes, reagent pack, cleaning solution and urine diluent are considered consumables.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Replace both parts only with same models.

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P3

+ 2 4 V + 2 4 V R E T + 2 4 V + 2 4 V R E T

10726-00-A

P2

TO W 1 3 - P 2 CAB L A GGI O IS E M ODUL E

M W P H A M W P H B M W P H C M W P H D

TO W 1 3 - J 4 CAB L A GGI O I SE MODUL E

P4

J2 1 2 3 4

1 2 3 4

1 2 3 4

1 2 3 4

1 2

1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 2 4 2 5 2 6 2 7 2 8 2 9 3 0 3 1 3 2 3 3 3 4 3 5 3 6 3 7 3 8 3 9 4 0

P1

TO W 1 3 - J 3 CAB L A GGI O I SE MODUL E

M B P H A M B P H B M B P H C M B P H D

TO W 1 3 - J 2 CAB L A GGI O IS E M ODUL E

M A P H A M A P H B M A P H C M A P H D

TO W 1 3 - J 1 CAB L A GGI O IS E M ODUL E

D A T A

TO W 1 3 - P 1 CAB L A GGI O IS E M ODUL E

Page 1 of 1

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

G N D

37

B+ B B-

B+ B B-

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

R E D

B+ B BGR E N Title:

A2 P / N 1 0 7 8 5 - 0 -A CAL A

CAL B

W AS TE IS E M ODUL E ON/ O F

Electrical drawing

I SE MODUL E R E A GE N T BU T O N F R O M ME D IC A COR P O R A TI O N

R E D

R E D W H I T E B L U E

B L A C K Y E L L O W G R E E N A + A A -

A + A A -

R E D W H I T E B L U E

B L A C K Y E L L O W G R E E N

R E D

W H I T E

B L U E

B L A C K Y E L L O W G R E E N

TO DALL A S CHI P ON R E A GE N T P A CK

A + A A -

A1 4 -C HANNE L IS E M ODUL E - CONTR O L E R FR O M M E D I C A COR P O R A TI O N

B L A C K B L A C K

W H I T E B L A C K

ISE Module Assembly

G N D D A T A M A P H A M A P H A M A P H B M A P H B M A P H C M A P H C M A P H D M A P H D M B P H A M B P H A M B P H B M B P H B M B P H C M B P H C M B P H D M B P H D M W P H A M W P H A M W P H B M W P H B M W P H C M W P H C M W P H D M W P H D + 2 4 V + 2 4 V + 2 4 V R E T + 2 4 V R E T G N D N .C . C P U _ R E S E T R T S R X D _ I N C T S T X D _ O U T N .C . R E S E R V . R E S E R V .

P/N:

1 2

J1

A3 I SE MODUL E P U MP ASS E M B L Y P / N 1 0 7 8 4 -0 - A ( P U MP S F R O M M E D IC A COR P O R A TIO N)

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.14.

24V Fan Assy, P/N 10110-00-A

Two of this fans are used for instrument cooling. RED B LA C K

+

P1 1 2

+ 24V EG N D

-

One fan is placed on the base of the instrument; the other on the back side of the instrument for the ventilation of the stepping motor drivers (power channel). To replace them, remove the cabinet, unplug connector and unfasten fixing screws. Replace only with same parts.

Figure 113: 24V Fan Assy, on the instrument base

Figure 114: 24V Fan Assy, on the power channel

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.15.

12V Fan Assy, P/N 10111-00-A

This fan is used to cool down the heatsink of the LHP Power Board P/N 10762-00-A. RED B LA C K

+

P1 1 2

+ 24V EG N D

-

It is placed on the base of the instrument, just under the board. To replace them, remove the cabinet, unplug connector and unfasten fixing screws. Replace only with same parts.

Figure 115: 12V Fan Assy, under the LHP Power Board

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.16.

12V 60x60 Fan Assy, P/N 10112-00-A

Four of this fans are used for cooling down the heatsinks placed on the Peltier under the reagent tray and devoted to the reagent refrigeration. RED B LA C K

+

P1 1 2

+ 24V EG N D

-

Each of them is placed on the a plastic channel conveying the hot air under the base, outside the instrument. To replace them, remove the cabinet, unplug connector and unfasten fixing screws. Replace only with same parts.

Figure 116: 12V60x60 Fan Assy, under the Reagent tray

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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3.3.17.

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Cover Reed Sensor, P/N 10570-00-A

This is the reed sensor used to detect when cover of the instrument is open. It is composed by two parts: one part is the sensor placed in the internal back side of the instrument, it is fixed on the cabinet and connected to the OPP Sensor Wiring through a connector; the other is the magnet, fixed on the cover of the instrument. P1 1 2

C C -R E T

To replace sensor, remove the rear panel, unplug connector and remove the cabinet; then replace sensor. To replace magnet, just unscrew it from the cover. Replace only with same parts.

Figure 117: Cover sensor, magnet on the cover

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.18.

ZRP Aspiration Pump Ver.00, P/N 10938-00-A and ZRP Aspiration Pump Ver.01, P/N 10938-01-A

These are the diagphram vacuum pumps connected to all washing station aspiration needles and to the washing tip. They are fixed on the base of the instrument and can be accessed by the side instrument panel. RED B LU E

V + V -

-

P

+

P1 1 2

The pump p/n 10938-00-A is placed on the right and it is the pump connected in parallel to all of the six washing station aspiration needles. The pump p/n 10938-01-A is placed on the left and it is the pump connected to the washing station aspiration white drying tip. To replace this pump, remove the instrument side panel, disconnect tubings and unplug connectors, unfasten the four screws fixing the pump on the base base and then replace the pump on the left. To replace magnet, just unscrew it from the cover. Replace only with same parts; it’s impossible to confuse Ver.00 and ver.01 pump connectors because they have been polarized by reversing the type on the wiring (male/female and female/male).

ASPIRATION FITTING (FROM TIP)

ASPIRATION FITTING (FROM NEEDLE)

WASTE FITTING

WASTE FITTING DIAPHRAGM PUMP FOR ALL ASPIRATION NEEDLES P/N 10938-01-A

DIAPHRAGM PUMP FOR DRYING TIP P/N 10938-00-A

Figure 118: ZRPAspiration Pumps

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.19.

OPP ON-OFF Breaker Ver.00, P/N 10368-00-A

This is the switch used to turn ON and OFF the instrument control and power electronic section. It is the green button fixed on the upper right side of the cabinet; it is connected to the OPP 24VDC AND AUXPS Wiring.

SW 2 A K 2

J1

RED B LA C K B LU E B LA C K

4 3 2 1

A C K N

-LE D -SW -LE D O -SW

1

To replace this switch, unplug connectors, remove the cabinet, remove contacts from the connector receptacle, unscrew and extract the green button from top of cabinet. When replacing it, fix the new part on the cabinet and reinsert contacts in the right place of the receptacle connectors. Replace only with same parts; it’s impossible to confuse Ver.00 and ver.01 breakers because they are reversed to the wiring (male/female and female/male).

OPP ON-OFF BREAKER VER.00

OPP ON-OFF BREAKER VER.01 Figure 119: OPP ON-OFF Breaker Ver.00 and Ver.01

Part List Pos.

Ref. Designator

Title: OPP ON-OFF Breaker Ver.00 Q.ty

UoM

1

SW2

1

PZ

2

J1

1

PZ

3

 

4

PZ

Description BREAKER, STABLE (ST) OFF-ON, PANEL MOUNTING, ROUND WITH GREEN LED IP67, 100mA/24V, POLYAMMIDE GREEN KEY, BLACK BODY PA-6T UL94-V0,WITH AWG20 CONDUCTORS LENGHT.=500mm, 200.000 CILCLES, CONNECTOR, RECEPTACLE, STRAIGHT, CRIMP CONTACTS, DOUBLE ROWS 2X2PIN, POLARIZATION, LOCK, MOLEX 5557 MINI-FIT JR SERIES, 94V-2 CONTACTS, CRIMP, FEMALE, 24-18AWG, FOR RECEPTACLE MOLEX 5557 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), 5556 SERIES, REEL

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N: 10368-00-A Value

Rating

Toler.

 

 

 

IPR1 FAD3 L0G

P/N

 

 

 

39-01-2040

 

 

 

39-00-0038

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.20.

OPP ON-OFF Breaker Ver.01, P/N 10368-01-A

This is the switch used to turn ON and OFF the instrument refrigeration section. It is the blue button fixed on the upper right side of the cabinet; it is connected to the OPP 24VDC AND AUXPS Wiring.

SW 3 A K 2

J1

RED B LA C K B LU E B LA C K

4 3 2 1

A C K N

-LE D -SW -LE D O -SW

1

To replace this switch, unplug connectors, remove the cabinet, remove contacts from the connector receptacle, unscrew and extract the blue button from top of cabinet. When replacing it, fix the new part on the cabinet and reinsert contacts in the right place of the receptacle connectors. Replace only with same parts; it’s impossible to confuse Ver.00 and ver.01 breakers because they are reversed to the wiring (male/female and female/male). Part List Pos.

Ref. Designator

Title: OPP ON-OFF Breaker Ver.01

P/N: 10368-01-A

Q.ty

UoM

Description

Value

Rating

Toler.

1

SW2

1

PZ

 

 

 

IPR1 FAD1 L0B

2

J1

1

PZ

 

 

 

39-01-2041

3

 

4

PZ

BREAKER, STABLE (ST) OFF-ON, PANEL MOUNTING, ROUND WITH BLUE LED IP67, 100mA/24V, POLYAMMIDE BLUE KEY, BLACK BODY PA-6T UL94-V0,WITH AWG20 CONDUCTORS LENGHT.=500mm, 200.000 CILCLES, CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACTS, DOUBLE ROW 2X2PIN, POLARIZATION, LOCK, MOLEX 5559 MINI-FIT JR SERIES, 94V-2 CONTACTS, CRIMP, MALE, 24-18AWG, FOR PLUG MOLEX 5559 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), 5556 SERIES

 

 

 

39-00-0041

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N

156/382

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.

Wirings of the Unit

This section includes the wirings of the unit.

3.3.21.1.

OPP VDCPS-TB Wiring, P/N 10159-00-A

This is the wiring linking the DC voltages generated by the OPP Power Supply Assembly to the protection fuses and to the distribution terminal blocks. It carries on power. Part List Pos.

Title: OPP VDCPS-TB Wiring Q.ty

UoM

Description

Value

Rating

Toler.

1

E1-E4

4

PZ

 

 

 

GF-U4

2

10

PZ

 

 

 

RF-F 405

5

PZ

 

 

 

RF-P 10

4

E5, E6, E8, E9, E11, E12, E14, E15, E17, E18 E7, E10, E13, E16, E19 E20, E23, E24

3

PZ

 

 

 

GF-P 10

5

E21, E22

2

PZ

 

 

 

GF-F 608

6

 

0,8

M

 

 

 

4520043

7

 

0,75

M

 

 

 

4520013

8

 

5,4

M

 

 

 

CAV1007/18RO

9

 

24

PZ

CRIMP SPADE TERMINAL, PRE-INSULATED, PVC, TIN PLATED BODY COPPER, YELLOW (AWG12-10, 4-6mmq), SCERW DIAM.= 4mm CRIMP FASTON TERMINAL, FEMALE, PRE-INSULATION, PC, TIN PLATED BODY COPPER, RED (AWG22-16, 0,25-1,5mmq), 2,8x0,5mm CRIMP PIN TERMINAL, PRE-INSULATED, PVC, TIN PLATED BODY COPPER, RED (AWG22-16, 0,25-1,5mmq), L=10mm CRIMP PIN TERMINAL, PRE-INSULATED, PVC, TIN PLATED BODY COPPER, YELLOW (AWG12-10 4-6mmq), L=10mm CRIMP FASTON TERMINAL, FEMALE, PRE-INSULATION, PC, TIN PLATED BODY COPPER, YELLOW (AWG22-10, 4-6mmq), 6,35x0,8mm CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, CEE 73/23, H07V-K, 4mm2 (56/0,3), FROM -40°C TO +70°C, Uo/U=450750V, RED CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, CEE 73/23, H07V-K, 4mm2 (56/0,3), FROM -40°C TO +70°C, Uo/U=450750V, BLACK CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, RED CABLE TIE, LENGHT=92mm, WIDTH=2,3mm, DIAM.=2-16mm

 

 

 

TYB23M

3

Ref. Designator

P/N: 10159-00-A P/N

Figure 120: OPP VDCPS-TB Wiring, P/N 10159-00-A

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

RED - A W G 1 8 E7 TO TB 1 4 O F O P P O R TU N ITY U N IT

E5 E6

RED - A W G 1 8

TO F4 -1 O F O P P O R TU N ITY U N IT

Page 1 of 1

37

TO F4 -2 O F O P P O R TU N ITY U N IT

TO TB 1 3 O F O P P O R TU N ITY U N IT

E10

RED - A W G 1 8

E9

TO F5 -1 O F O P P O R TU N ITY U N IT TO F5 -2 O F O P P O R TU N ITY U N IT

10159-00-A

E8 RED - A W G 1 8

E11

RED - A W G 1 8

RED - A W G 1 8 E16 TO TB 1 0 O F O P P O R TU N ITY U N IT

E15

+12V

E2

RED - A W G 1 8

B LA C K - 4 m m q

E3

RED - 4m m q E23 TO TB 2 0 O F O P P O R TU N ITY U N IT

TO TE R M IN A L + 1 2 V -R TN O F A 1 A C / D C P O W E R S U P P LY

E19

+ 1 2 V -R TN

E4

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

E18

E20

E21 E22

RED - 4m m q

B LA C K - 4 m m q

TO F8 -1 O F O P P O R TU N ITY U N IT TO F8 -2 O F O P P O R TU N ITY U N IT

TO TB 9 -2 O F O P P O R TU N ITY U N IT

Title:

TO TE R M IN A L + 1 2 V O F A 1 A C / D C P O W E R S U P P LY

TO F7 -1 O F O P P O R TU N ITY U N IT TO F7 -2 O F O P P O R TU N ITY U N IT

RED - A W G 1 8 TO TB 1 5 O F O P P O R TU N ITY U N IT

+ 2 4 V -R TN

TO F6 -2 O F O P P O R TU N ITY U N IT

E17

+24V

TO TE R M IN A L + 2 4 V -R TN O F A 1 A C / D C P O W E R S U P P LY

E14

RED - A W G 1 8

E1 TO TE R M IN A L + 2 4 V O F A 1 A C / D C P O W E R S U P P LY

E12

TO F3 -1 O F O P P O R TU N ITY U N IT TO F3 -2 O F O P P O R TU N ITY U N IT

E24

P/N:

E13

OPP VDCPS-TB Wiring

TO TB 1 2 O F O P P O R TU N ITY U N IT

TO F6 -1 O F O P P O R TU N ITY U N IT

TO TB 1 8 -1 O F O P P O R TU N ITY U N IT

158/382

Electrical drawing

RED - A W G 1 8

37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.2.

Cooler Fans Wiring, P/N 10113-00-A

This is the wiring linking the five fans of the refrigeration circuit to the LHP Power Board. Four of the fans (60x60mm @ 12Vdc) are placed under the the Peltier cell heatsink, the fifth (92x92mm @ 12Vdc) is under the LHP Power board, ventilating its heatsink. Part List Pos.

Ref. Designator

Title: Cooler Fans Wiring

P/N: 10113-00-A

Q.ty

UoM

Description

Value

Rating

Toler.

1

E1-E4

4

PZ

 

 

 

BF-P 10

2

J1-J5

5

PZ

 

 

 

39-01-2021

3

 

10

PZ

 

 

 

39-00-0040

4

 

2,2

M

 

 

 

CAV1007/18RO

5

 

2,2

M

 

 

 

CAV1007/18NE

6 7

   

15 1

PZ PZ

CRIMP PIN TERMINAL, PRE-INSULATED, PVC, TIN PLATED BODY COPPER, BLUE (AWG16-14, 1,5-2,5mmq), L=10mm CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACT, SINGLE ROW 1X2PIN, POLARIZATION, LOCK, MOLEX 5559 MINI-FIT JR SERIES, 94V-2 CONTACT, CRIMP, MALE, 24-18AWG, FOR PLUG MOLEX 5559 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), 5556 SERIES CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, RED CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, BLACK CABLE TIE, LENGHT=92mm, WIDTH=2,3mm, DIAM.=2-16mm CABLE TIE, HOLE DIAM. 5mm, LUNGH.=198,4mm, WIDTH=4,7mm

P/N

   

   

   

TYB23M TY535M

Figure 121: Cooler Fans Wiring, P/N 10113-00-A

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

159/382

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Page 1 of 1

37

AW G 18

TO TB 1- 2 O F L H P PO W ER BO ARD +12V_F E2

+12V

J4

TO TB 1- 4 O F +12V_F - R TN E4 L H P PO W ER BO ARD

TO TB 1- 1 O F L H P PO W ER BO ARD +12V_F E1 TO TB 1- 3 O F +12V_F - R TN E3 L H P PO W ER BO ARD

BL A CK

+12V- R TN

RED

+12V

J3

BL A CK

+12V- R TN

1 +12V 2 EG ND

RED

+12V

J2 1 +12V 2 EG ND

BL A CK

+12V- R TN

RED

+12V

J1

+12V- R TN

1 +12V 2 EG ND

BL A CK

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

1 +12V 2 EG ND

10113-00-A

RED

P/N:

+12V- R TN

TO A33 O F O PPO RTU NI TY UNI T ( 1 2V 60x60 F A N AS S Y - PEL TI E R)

TO A31 O F O PPO RTU NI TY UNI T ( 1 2V 60x60 F A N AS S Y - PEL TI E R)

Cooler Fans Wiring

BL A CK

1 +12V 2 EG ND

TO A32 O F O PPO RTU NI TY UNI T ( 1 2V 60x60 F A N AS S Y - PEL TI E R)

TO A35 O F O PPO RTU NI TY UNI T ( 1 2V F A N AS S Y - BO T O M O F UNI T)

Title:

J5

Electrical drawing

+12V

RED

TO A34 O F O PPO RTU NI TY UNI T ( 1 2V 60x60 F A N AS S Y - PEL TI E R)

160/382

37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.3.

OPP 24VDC AND AUXPS Wiring, P/N 10161-00-C

This is the power wiring that links the DC voltages from the distribution terminal blocks to each assembly to be supplied. It carries on power. Part List Pos.

Title: OPP 24VDC AND AUXPS Wiring Q.ty

UoM

Description

Value

Rating

Toler.

1

J1, J2

2

PZ

 

 

 

39-01-2021

2

P1-P7

7

PZ

 

 

 

350766-1

3

P8

1

PZ

 

 

 

350779-1

4 5

P9  

1 29

PZ PZ

   

   

   

  926893-1

6

P10

1

PZ

 

 

 

39-01-2041

7

 

8

PZ

 

 

 

39-00-0040

8

P11

1

PZ

 

 

 

39-01-2040

9

 

4

PZ

 

 

 

39-00-0038

10

P12-P14

3

PZ

 

 

 

51110-1060

11

 

30

PZ

 

 

 

50394-8100

12

P15

1

PZ

 

 

 

50-37-5063

13

 

6

PZ

 

 

 

08-70-1039

14

E7, E11, E12, E14

4

PZ

 

 

 

BF-P 10

15

E2, E3, E5, E6, E9, E10 E1, E4, E8, E13, E15, E16, E17 L1

6

PZ

 

 

 

GF-P 10

7

PZ

 

 

 

RF-P 10

1

PZ

 

 

 

TPFA26435400021

1 1 9,85

PZ PZ M

CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACT, SINGLE ROW 1X2PIN, POLARIZATION, LOCK, MOLEX 5559 MINI-FIT JR SERIES, 94V-2 CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACT, SINGLE ROW, 3X1PIN, POLARIZATION, LOCK, PITCH 6.35, TYPE UNIVERSAL MATE-N-LOCK CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACT, SINGLE ROW, 4X1PIN, POLARIZATION, LOCK, PITCH 6.35, TYPE UNIVERSAL MATE-N-LOCK NOT USED CONTACT, CRIMP, FEMALE, 20-14AWG (0,5-2,0mmq), FOR TYCO AMP UNIVERSAL MATE-N-LOCK, TIN PLATED BRASS, 19A CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACTS, DOUBLE ROW 2X2PIN, POLARIZATION, LOCK, MOLEX 5559 MINI-FIT JR SERIES, 94V-2 CONTACT, CRIMP, MALE, 24-18AWG, FOR PLUG MOLEX 5559 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), 5556 SERIES CONNECTOR, RECEPTACLE, STRAIGHT, CRIMP CONTACTS, DOUBLE ROWS 2X2PIN, POLARIZATION, LOCK, MOLEX 5557 MINI-FIT JR SERIES, 94V-2 CONTACT, CRIMP, FEMALE, 24-18AWG, FOR RECEPTACLE MOLEX 5557 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), 5556 SERIES, REEL CONNECTOR, HOUSING, FEMALE, STRAIGHT, CRIMP CONTACTS, DOUBLE ROWS 5X2PIN, 2mm, POLARIZATION, LOCK, MOLEX 51110 SERIES CONTACT, CRIMP, FEMALE, 24-30AWG, FOR HOUSING MOLEX 51110 CONNECTOR, HOUSING, FEMALE, STRAIGHT, CRIMP CONTACTS, SINGLE ROW 6X1PIN, 2,50mm, POLARIZATION, LOCK, MOLEX SPOX SERIES CONTACT, CRIMP, FEMALE, 22-28AWG, FOR HOUSING MOLEX SPOX CRIMP PIN TERMINAL, PRE-INSULATED, PVC, TIN PLATED BODY COPPER, BLUE (AWG16-14, 1,5-2,5mmq), L=10mm CRIMP PIN TERMINAL, PRE-INSULATED, PVC, TIN PLATED BODY COPPER, YELLOW (AWG12-10 4-6mmq), L=10mm CRIMP PIN TERMINAL, PRE-INSULATED, PVC, TIN PLATED BODY COPPER, RED (AWG22-16 0,25-1,5mmq), L=10mm FERRITE, EMI SUPPRESSOR, CORE, EXT.DIAM.=14.3mm, INT.DIAM.=6.35mm, L=28.6mm, Z=171Ohm @25MHz, BROADBAND=25-300MHz RESISTOR, AXIAL, METALLIC FILM, 0,6W, 1% RESISTOR, AXIAL, METALLIC FILM, 0,6W, 1% CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, RED CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, BLACK CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, YELLOW/GREEN CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, RED CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, BLACK CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, BLUE CABLE TIE, LENGHT=92mm, WIDTH=2,3mm, DIAM.=2-16mm CABLE TIE, LENGHT =140mm, WIDTH =3,5mm CABLE TIE, HOLE DIAM. 5mm, LUNGH.=198,4mm, WIDTH=4,7mm

2K20 910R  

0,6W 0,6W  

1% 1%  

TPFA26435400021 MRS25 2K2 1% CAV1007/18RO

 

 

 

CAV1007/18NE

 

 

 

CAV1007/18GI/VE

 

 

 

CAV1007/24RO

 

 

 

CAV1007/24NE

 

 

 

CAV1007/24BL

     

     

     

TYB23M TYB24M TY535M

16 17

Ref. Designator

P/N: 10161-00-C

18 19 20

R1 R2

21

 

9

M

22

 

4,35

M

23

 

1,7

M

24

 

0,5

M

25

 

3,9

M

26 27 28

     

42 24 4

M M PZ

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N

161/382

37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Figure 122: OPP 24VDC AND AUXPS Wiring, P/N 10161-00-C

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

162/382

B LA C K

P1

TO TB 1 3 O F O P P O R TU N I TY U N I T

+24V

TO TB 7 O F O P P O R TU N I TY U N I T

+ 2 4 V - R TN

TO TB 2 O F O P P O R TU N I TY U N I T

M G ND

E9

E5

E2

1 2 3

M G ND _1

Y E LLO W / G R E E N

+24V _2

RED

+ 2 4 V _ 2 - R TN

B LA C K

+24V EG N D M G ND

P2 1 2 3

M G ND _2

Y E LLO W / G R E E N

+24V _3

RED

+ 2 4 V _ 3 - R TN

B LA C K

+24V EG N D M G ND

+24V

TO TB 8 O F O P P O R TU N I TY U N I T

+ 2 4 V - R TN

TO TB 3 O F O P P O R TU N I TY U N I T

M G ND

E6

E3

1 2 3

M G ND _3

Y E LLO W / G R E E N

+24V _4

RED

+ 2 4 V _ 4 - R TN

B LA C K

+24V EG N D M G ND

+24V

TO TB 6 O F O P P O R TU N I TY U N I T

+ 2 4 V - R TN

TO TB 1 O F O P P O R TU N I TY U N I T

E8

E4

M G ND

E1

1 2 3

M G ND _4

Y E LLO W / G R E E N

+24V _5

RED

E11

TO TB 9 O F O P P O R TU N I TY U N I T

+ 2 4 V - R TN

E7

X - A X I S A R M 1 M O TO R Y - A X I S A R M 1 M O TO R

+ 2 4 V _ 5 - R TN

B LA C K

+24V EG N D M G ND

TO J 2 O F A 2 1 S TE P M O TO R D R I V E - 2 x 1 . 5 A V E R . 0 2 X - A X I S A R M 2 M O TO R Y - A X I S A R M 2 M O TO R

P5 1 2 3

M G ND _5

Y E LLO W / G R E E N

+24V _6

RED

+ 2 4 V _ 6 - R TN

B LA C K

+24V EG N D M G ND

TO J 2 O F A 2 2 S TE P M O TO R D R I V E - 2 x 1 . 5 A V E R . 0 3 R E A D . C U V E TTE M O TO R F I L TE R W H E E L M O TO R

+ 2 4 V S U P P L Y L I N E S TO P E R I P H E R A L S ( LH P P O W E R B O A R D + 2 4 V d c E X C LU D E D )

AW G 18

1 2 3

M G ND _6

Y E LLO W / G R E E N

+24V _C

RED

+ 2 4 V _ C - R TN

B LA C K

+24V EG N D M G ND

TO J 2 O F A 2 3 S TE P M O TO R D R I V E - 2 x 1 . 5 A V E R . 0 4 W A S H I N G S TA T. M O TO R S P A R E M O TO R

AW G 18 P7 1 2 3

M G ND _C

Y E LLO W / G R E E N

+24V _7

RED

+ 2 4 V _ 7 - R TN +24V _8

B LA C K RED

+ 2 4 V _ 8 - R TN

B LA C K

+24V EG N D M G ND

TO J 2 8 O F A 2 O P P C O N TR O L L E R A S S E M B L Y C O N TR O L L E R A SSE M B LY

A W G 18 P8 1 2 3 4

+24V EG N D +24V EG N D

TO J 1 O F A 7 O P P P U M P S & D R IV E R S A R M 1 / 2 P E R IP H E R A LS & W A SH IN G P U M P S

Electrical drawing

+24V

TO J 2 O F A 2 0 S TE P M O TO R D R I V E - 2 x 1 . 5 A V E R . 0 2

AW G 18

L1 TO TB 1 5 O F O P P O R TU N I TY U N I T

S A M P L E M O TO R REA G EN T M O TO R

AW G 18

P6

TO TB 1 2 O F O P P O R TU N I TY U N I T

TO J 2 O F A 1 9 S TE P M O TO R D R I V E - 2 x 1 . 5 A V E R . 0 0

AW G 18

P4

E10

A R M 1 D I L U TO R A R M 2 D I L U TO R

AW G 18

P3

TO TB 1 4 O F O P P O R TU N I TY U N I T

TO J 2 O F A 7 S TE P M O TO R D R I V E - 2 x 1 . 5 A V E R . 0 1

10161-00-C

+ 2 4 V _ 1 - R TN

AW G 18

P/N:

RED

OPP 24VDC AND AUXPS Wiring

+24V _1

Page 1 of 2

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Title:

37

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

163/382

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Page 2 of 2

37

P13 1 2 3 4 5 6 7 8 9 10

N O TE : W IR E S A R E A W G 2 4 IF N O T O TH E R W ISE SP E C IFIE D

+ 5 V _ A U X -R TN + 2 4 V _ IN H

B LU E

P10

+ 2 4 V _ IN H

1 2 3 4

+5V_AU X

TO SW 2 O F O P P O R TU N ITY U N IT

10161-00-C

TO + 2 4 V M O D 1 C TR L O F A 1 A C / D C P O W E R SU P P LY

U N U SE D G O O D -E + V _ SN S G O O D -C SH A R E U N U SE D SH A R E IN H -V e -V _ SN S IN H + V e

24VLED_A

A W G 18 24VLED_K

R1 2K20

E15

RED

+ 5 V _ A U X -R TN + 2 4 V _ IN H

B LK

TO TB 1 1 O F O P P U N IT

+ 2 4 V LE D - C A TH O D E

TO TB 5 O F O P P U N IT

C O N N E C TO R S D E TA IL V IE W FR O M B A C K ( W IR E SID E )

P/N:

B LU E

E13

+ 2 4 V LE D - A N O D E

P 1 2 -P 1 4

P15

BLK

RED

OPP 24VDC AND AUXPS Wiring

TO + 2 4 V M O D 2 C TR L O F A 1 A C / D C P O W E R SU P P LY

1 2 3 4 5 6 7 8 9 10

BLK

P12 U N U SE D G O O D -E + V _ SN S G O O D -C SH A R E U N U SE D SH A R E IN H -V e -V _ SN S IN H + V e

P15 TO IN P C TR L O F A 1 A C /D C PO W ER SU P P LY

FA IL_ C FA IL_ E 0V_AU X + 5V _A U X IN H _ 0 IN IN H _ 1 IN

1 2 3 4 5 6

10 8 6 4 2

P11 + 5 V _ A U X -R TN B LK +5V_AU X

EX

1 2 3 4

+5V_AU X

RED

TO SW 3 O F O P P O R TU N ITY U N IT

9 7 5 3 1

1 2 3 4 5

6

R2 910R

E17

+ 1 2 V LE D - A N O D E

TO TB 1 9 O F O P P U N IT

+ 1 2 V LE D - C A TH O D E

TO TB 1 7 O F O P P U N IT

RED

+ 5 V _ A U X -R TN

E16

+ 1 2 V _ IN H

B LU E

B LK

Title:

TO + 1 2 V C TR L O F A 1 A C /D C PO W ER SU P P LY

1 2 3 4 5 6 7 8 9 10

12VLED_K

P14 U N U SE D G O O D _E + V _ SN S G O O D _C SH A R E U N U SE D SH A R E IN H -V e -V _ SN S IN H + V e

12VLED_A

BLK

A W G 18

TO TB 1 0 O F O P P O R TU N ITY U N IT TO TB 4 O F O P P O R TU N ITY U N IT

+ 24V _2F

E14

+ 2 4 V _ 2 F-R TN E 1 2

RED

+24V

B LA C K

+ 2 4 V -R TN

RED

+ 24V

B LA C K

+ 2 4 V -R TN

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

J2 1 2

+ 24V EG N D

TO A 2 6 O F O P P O R TU N ITY U N IT ( 2 4 V FA N A SSY - R E A R O F U N IT)

+ 24V EG N D

TO A 2 5 O F O P P O R TU N ITY U N IT ( 2 4 V FA N A SSY - B O TTO M O F U N IT)

J1 1 2

Electrical drawing

A W G 18

164/382

37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.4.

OPP ARM Ver.00 Wiring, P/N 10204-00-B

Two of this wirings are used to connect the OPP ARM Module board on top of both sampling ARMs with the OPP Sensors wiring. It carries on both signals and power. Part List Pos.

Ref. Designator

Title: OPP ARM Ver.00 Wiring

P/N: 10204-00-B

Q.ty

UoM

Description

Value

Rating

Toler.

1

P1

1

PZ

 

 

 

39-01-2101

2

 

10

PZ

 

 

 

39-00-0041

3

P2

1

PZ

 

 

 

1-281838-0

4

 

10

PZ

 

 

 

182734-2

5

 

0,5

M

 

 

 

CAV1007/24RO

6

 

0,5

M

 

 

 

CAV1007/24BL

7

 

0,5

M

 

 

 

CAV1007/24NE

8

 

0,5

M

 

 

 

CAV1007/24MA

9

 

0,5

M

 

 

 

CAV1007/24BI

10

 

0,5

M

 

 

 

CAV1007/24GI

11

 

0,5

M

 

 

 

CAV1007/24AR

12

 

0,5

M

 

 

 

CAV1007/24VE

13

 

0,5

M

 

 

 

CAV1007/24GR

14

 

0,5

M

 

 

 

CAV1007/24VI

15

 

0,41

M

CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACT, SINGLE ROW 5X2PIN, POLARIZATION, LOCK, MOLEX 5559 MINI-FIT JR SERIES, 94V-2 CONTACT, CRIMP, MALE, 24-18AWG, FOR PLUG MOLEX 5559 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), 5556 SERIES CONNECTOR, CRIMP, RECEPTACLE, STRAIGHT, 10X1PIN, PITCH 2.54, TYPE HE14 CONTACT, CRIMP, FEMALE, 28-24AWG, FOR TYCO AMP TYPE HE14 CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, RED CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, BLUE CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, BLACK CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, BROWN CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, WHITE CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, YELLOW CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, ORANGE CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, GREEN CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, GREY CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, PURPLE TUBE, ULTRA-FLEX, POLYAMMIDE 6, UL94-HB, IP68, OUTER DIAM.= 10mm, INNER DIAM.= 6,5mm, CURVE= 13mm, BLACK, FLEXA QUICK-SYSTEM SERIES, TYPE PA 6-S AD10

P/N

 

 

 

151941

Figure 123: OPP ARM Ver.00 Wiring, P/N 10204-00-B

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

165/382

37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

A W G 24

1 C H TR - A 2 SN -E G N D 3 MGND 4 + 5V 5 O P TO - E G N D TO C A B L A G I O P S E N S O R S 6 C H TR - B 7 V+ 8 SN -O U T 9 C -O U T 10 A NO D E

1 0 -P IN M A LE P O L A R I Z E D C O N E C TO R W I TH L O C K Electrical drawing

Title:

1 0 -P IN FE M A LE P O L A R I Z E D C O N E C TO R W I TH L O C K

O RA N G E G RE N BRO W N RED B LA C K B LU E G RE Y V IO L E T YEL O W W H I TE

10204-00-B

O RA N G E B LU E G RE N G RE Y BRO W N V IO L E T RED YEL O W B LA C K W H I TE

P/N:

C H TR - A 1 C H TR - B 2 SN -E G N D 3 TO V+ 4 A R M M O D U LE M G N D 5 B O A R D SN -O U T 6 + 5V 7 C -O U T 8 O P TO - E G N D 9 A NO D E 10

P1

OPP ARM Ver.00 Wiring

P2

Page 1 of 1

Figure 124:

W I R N G I N TO A P R O TE C TI N G TU B E I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

166/382

37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.5.

RS232 FS9F Cable Assy, P/N 10162-00-A

This is the serial wiring linking the Controller Assembly (Mother Board) with the external RS-232 connector; it is a flat cable. It carries on communication signals. Part List Pos.

Ref. Designator

Title: RS232 FS9F Cable Assy Q.ty

UoM

1

J1

1

PZ

2

P1

1

PZ

3

 

0,77

M

P/N: 10062-00-A Description

CONNECTOR, SUB-D,9PIN, FOR FLAT CABLE, FEMALE, METALLIC FRONT, LOW PROFILE HDF CONNECTOR, FEMALE, 10 POLI, IDC, FOR FLAT CABLE AWG28, DIN 41651, PITCH 1,27mm, WITH STRAIN RELIEF CABLE, FLAT, 10 CONDUCTORS, PVC, PITCH 1,27mm, AWG28 (7/36), 108Ohm, 300V, GREY

Value

Rating

Toler.

 

 

 

747303-4

P/N

 

 

 

0918 510 6813

 

 

 

1-0057040-3

Figure 125: RS232 FS9F Cable assy, P/N 10162-00-A

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

167/382

P1

RS232 FS9F Cable Assy

P/N:

1 N .C 2 N .C 3 RXD 4 R TS TO A 2 5 TX D 6 C TS O P C O N TR L E R A S E M B L Y 7 N . C ( F O R S 2 3 C O N E C TI O N S ) 8 N .C 9 SG N D 1 0 N .C

Title:

N .C 1 RXD 2 TX D 3 TO R S 2 3 H O S T N .C 4 C O N E C TI O N S G N D 5 (E XT RN A L N .C 6 P C ) R TS 7 C TS 8 N .C 9

10062-00-A

J1

Page 1 of 1

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Electrical drawing

37

1 . 2 7 P I TC H F L A T C B L E - A W G 2 8 I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

168/382

37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.6.

OPP Photodiode Wiring, P/N 10148-00-B

This is the shielded cable linking the Photodiode module to the Controller Assembly (Mother Board). It carries on the analog signals from photodiode. Part List Pos.

Ref. Designator

Title: OPP Photodiode Wiring

P/N: 10148-00-B

Q.ty

UoM

Description

Value

Rating

Toler.

1

P1

1

PZ

 

 

 

280360-0

2

 

6

PZ

 

 

 

181271-2

3

P2

1

PZ

 

 

 

51021-0600

4

 

6

PZ

 

 

 

50058-8100

5

 

0,4

M

 

 

 

860180 25M

6

 

0,08

M

CONNECTOR, RECEPTACLE, FEMALE, STRAIGHT, CRIMP CONTACTS, SINGLE ROW 6X1PIN, 2.54, POLARIZATION, LOCK, TYCO-AMP MODU SERIES CONTACT, CRIMP, FEMALE, 28-30AWG, FOR TYCO-AMP MODU CONNACTOR, WIRE-TO-BOARD, RECEPTACLE, CRIMP CONTACT, SINGLE ROW 6X1PIN, 1.25, POLARIZATION, LOCK CONTACT, CRIMP, FEMALE, 28-32AWG, FOR RECEPTACLE MOLEX 51021 SERIES MULTICONDUCTOR CABLE, 6 CONDUCTORS, PCV, 7/0.1mm INSULATED, NOM. AREA PER CONDUCTOR=0,055mm 2, SHIELDED, PVC GREY SHEAT, MAX DIAM.=3,8mm, TYPE 7-26C, DEF 61-12, 0,25A, 70°C, 250Vac (CORES: RED/GREEN/YELLOW/WHITE/BLACK/BLUE) CONDUCTOR, COPPER, FLEX, PVC, UL1213, AWG28 (7/36), 300V, BROWN

P/N

 

 

 

5852-BR005

Figure 126: OPP Photodiode Wiring, P/N 10148-00-B

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

169/382

W H I TE V o u t -P 1 G R E N V o u t -N 2 R E D TO J 2 3 F A V D C -P 3 B L U E O P C N TR O L E A S M B L Y V D C -N 4 BLA C K EG N D 5 MGND 6

W H I TE 1GREN Vout-P 2RED Vout-N TO A 6 3BLACK VDC-P P4 EGND HOTDI EMODULE BLU E 5 V D C -N 6 MGND

AW G 28

AW G 28

10148-00-B

P2

P/N:

P1

Page 1 of 1

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

OPP Photodiode Wiring

37

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Electrical drawing

Title:

6 x 0 . 5m q SHIELD B R O W N [ O N E C R N O T U SE D ] B R O W N

170/382

37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.7.

10X-FLAT Ver.00 Wiring, P/N 10145-00-A

Seven of this flat cables are used to link the six Step Motor Driver and the PWR Switch and Regulator to the Controller Assembly (Mother Board). They carry on control signals. Part List Pos.

Ref. Designator

Title: 10X-FLAT Ver.00 Wiring

P/N: 10145-00-A

Q.ty

UoM

Description

Value

Rating

Toler.

2

PZ

 

 

 

0918 510 6813

 

0,53

M

 

 

 

1-0057040-3

 

2

PZ

CONNECTOR, FEMALE, 10 POLES, IDC, FOR FLAT CABLE AWG28, DIN 41651, PITCH 1,27mm, WITH STRAIN RELIEF CABLE, FLAT, 10 CONDUCTORS, PVC, PITCH 1,27mm, AWG28 (7/36), 108Ohm, 300V, GREY LOCK FOR FEMALE CONNECTOR

 

 

 

0918 000 9905 01

1

P1, P2

2 3

P/N

Figure 127: 10X-Flat Ver.00 Wiring, P/N 10145-00-A

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

171/382

P1

10X-FLAT Ver.00 Wiring

P/N:

1 F L A T_ 0 1 2 F L A T_ 0 2 3 F L A T_ 0 3 4 F L A T_ 0 4 TO A 2 5 F L A T_ 0 5 O6 FLAT_06 P CONTR LERASEMBLY 7 F L A T_ 0 7 8 F L A T_ 0 8 9 F L A T_ 0 9 1 0 F L A T_ 1 0

Title:

F L A T_ 0 1 1 F L A T_ 0 2 2 F L A T_ 0 3 3 F L A T_ 0 4 4 F L A T_ 0 5 5 TO P E R I H E R A L S Y s F L A T_ 0 6 6 F L A T_ 0 7 7 F L A T_ 0 8 8 F L A T_ 0 9 9 F L A T_ 1 0 1 0

10145-00-A

P2

Page 1 of 1

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Electrical drawing

37

1 . 2 7 P I TC H F L A T C B L E - A W G 2 8 30 V /1A I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

30 V /1A 172/382

37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.8.

10X-FLAT Ver.01 Wiring, P/N 10145-01-A

This flat cables links the PWR Driver Module A1 (ARMs and washing sink pumps and loads) to the Controller Assembly (Mother Board). It carries on control signals. Its difference from Ver.00 consists in the length only. Part List Pos.

Ref. Designator

Title: 10X-FLAT Ver.01 Wiring

P/N: 10145-01-A

Q.ty

UoM

Description

Value

Rating

Toler.

2

PZ

 

 

 

0918 510 6813

 

0,96

M

 

 

 

1-0057040-3

 

2

PZ

CONNECTOR, FEMALE, 10 POLES, IDC, FOR FLAT CABLE AWG28, DIN 41651, PITCH 1,27mm, WITH STRAIN RELIEF CABLE, FLAT, 10 CONDUCTORS, PVC, PITCH 1,27mm, AWG28 (7/36), 108Ohm, 300V, GREY LOCK FOR FEMALE CONNECTOR

 

 

 

0918 000 9905 01

1

P1, P2

2 3

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N

173/382

P1

10X-FLAT Ver.01 Wiring

P/N:

1 F L A T_ 0 1 2 F L A T_ 0 2 3 F L A T_ 0 3 4 F L A T_ 0 4 TO A 2 5 F L A T_ 0 5 O6 FLAT_06 P CONTR LERASEMBLY 7 F L A T_ 0 7 8 F L A T_ 0 8 9 F L A T_ 0 9 1 0 F L A T_ 1 0

Title:

F L A T_ 0 1 1 F L A T_ 0 2 2 F L A T_ 0 3 3 F L A T_ 0 4 4 F L A T_ 0 5 5 TO P E R I H E R A L S Y s F L A T_ 0 6 6 F L A T_ 0 7 7 F L A T_ 0 8 8 F L A T_ 0 9 9 F L A T_ 1 0 1 0

10145-01-A

P2

Page 1 of 1

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Electrical drawing

37

1 . 2 7 P I TC H F L A T C B L E - A W G 2 8 30 V /1A I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

30 V /1A 174/382

37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.9.

10X-FLAT Ver.02 Wiring, P/N 10145-02-A

This flat cables links the PWR Driver Module A2 (Washing Station pumps) to the Controller Assembly (Mother Board). It carries on control signals. Its difference from Ver.00 consists in the length only. Part List Pos.

Ref. Designator

Title: 10X-FLAT Ver.02 Wiring

P/N: 10145-02-A

Q.ty

UoM

Description

Value

Rating

Toler.

2

PZ

 

 

 

0918 510 6813

 

1,15

M

 

 

 

1-0057040-3

 

2

PZ

CONNECTOR, FEMALE, 10 POLES, IDC, FOR FLAT CABLE AWG28, DIN 41651, PITCH 1,27mm, WITH STRAIN RELIEF CABLE, FLAT, 10 CONDUCTORS, PVC, PITCH 1,27mm, AWG28 (7/36), 108Ohm, 300V, GREY LOCK FOR FEMALE CONNECTOR

 

 

 

0918 000 9905 01

1

P1, P2

2 3

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N

175/382

P1

10X-FLAT Ver.02 Wiring

P/N:

1 F L A T_ 0 1 2 F L A T_ 0 2 3 F L A T_ 0 3 4 F L A T_ 0 4 TO A 2 5 F L A T_ 0 5 O6 FLAT_06 P CONTR LERASEMBLY 7 F L A T_ 0 7 8 F L A T_ 0 8 9 F L A T_ 0 9 1 0 F L A T_ 1 0

Title:

F L A T_ 0 1 1 F L A T_ 0 2 2 F L A T_ 0 3 3 F L A T_ 0 4 4 F L A T_ 0 5 5 TO P E R I H E R A L S Y s F L A T_ 0 6 6 F L A T_ 0 7 7 F L A T_ 0 8 8 F L A T_ 0 9 9 F L A T_ 1 0 1 0

10145-02-A

P2

Page 1 of 1

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Electrical drawing

37

1 . 2 7 P I TC H F L A T C B L E - A W G 2 8 30 V /1A I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

30 V /1A 176/382

37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.10.

OPP ISE Module Wiring, P/N 10165-00-A (Option)

This wiring connects the ISE Module if included in the instrument to the Controller Assembly (mother board). It carries on power and small signals. Part List Pos.

Ref. Designator

Title: OPP ISE Module Wiring

P/N: 10165-00-A

Q.ty

UoM

Description

Value

Rating

Toler.

1

J1

1

PZ

 

 

 

39-01-2021

2

J2, J3, J4

3

PZ

 

 

 

39-01-2041

3

 

14

PZ

 

 

 

39-00-0048

4

P2

1

PZ

 

 

 

39-01-2040

5

 

4

PZ

 

 

 

39-00-0046

6

P1

1

PZ

 

 

 

0918-540-6813

7

P3

1

PZ

 

 

 

280361-0

8

 

7

PZ

 

 

 

181270-2

9

 

0,4

M

 

 

 

3302-40

10

 

0,2

M

 

 

 

CAV1007/24RO

11

 

0,2

M

 

 

 

CAV1007/24NE

13

 

8

PZ

CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACT, SINGLE ROW 1X2PIN, POLARIZATION, LOCK, MOLEX 5559 MINI-FIT JR SERIES, 94V-2 CONNECTOR, PLUG, STRAIGHT, CRIMPING CONTACTS, DOUBLE ROW 2X2PIN, POLARIZATION, LOCK, MOLEX 5559 MINI-FIT JR SERIES, 94V-2 CONTACT, CRIMP, MALE, 22-28AWG, FOR PLUG MOLEX 5559 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), 5558 SERIES, REEL CONNECTOR, RECEPTACLE, STRAIGHT, CRIMP CONTACTS, DOUBLE ROWS 2X2PIN, POLARIZATION, LOCK, MOLEX 5557 MINI-FIT JR SERIES, 94V-2 CONTACT, CRIMP, FEMALE, 22-28AWG, FOR RECEPTACLE MOLEX 5557 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), SERIE 5556, REEL CONNETCTOR, FEMALE, 40-POLES, IDC, FOR AWG28 FLAT CABLE, DIN 41651, 1,27mm PITCH, WITH STRAIN RELIEF CONNECTOR, RECEPTACLE, FEMALE, STRAIGHT, CRIMP CONTACTS, SINGLE ROW 8X1PIN, 2.54, POLARIZATION, LOCK, TYCO-AMP MODU SERIES CONTACT, CRIMP, FEMALE, 22-26AWG, FOR TYCO-AMP MODU CABLE, FLAT, 40 CONDUCTOR, PVC, 1,27mm PITCH, AWG28 (7/36), 105Ohm, 300V, GREY, SINGLE CONDUCTORS CODED WITH COLOURS CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, RED CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, BLACK CABLE TIE, LENGHT=92mm, WIDTH=2,3mm, DIAM.=2-16mm

P/N

 

 

 

TYB23M

Figure 128: OPP ISE Module Wiring, P/N 10165-00-A

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

177/382

40 C O N DU C TO R FL A T C A BL E AW G - 2 8

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

RTS RXD _I N C TS TX D _O U T

J2 1 2 3 4

TO A 26- P 1 O F I S E M O D ULE REA G EN T BU T O N

M A PHA M A PHB M A PHC M A PHD

TO A 26- P 2 O F I S E M O D ULE PU M P ASSEM BL Y ( " C A L A " M O TO R PU M P)

M BPHA M BPHB M BPHC M BPHD

TO A 26- P 3 O F I S E M O D ULE PU M P ASSEM BL Y ( " C A L B" M O TO R PU M P)

10165-00-A

1 DA TA 2 G ND

OPP ISE Module Wiring

1 2 3 4

P/N:

J3

J4 1 2 3 4

M W PHA TO M W PHB M W PHC A 26- P 4 O F I S E M O D ULE PU M P ASSEM BL Y M W PHD ( " W A S TE " M O TO R PU M P)

P2 1 2 1 +24V TO 3 2 +24V - R ET A 26- P 1 O F I S E M O D ULE PU M P ASSEM BL Y 4 3 +24V 4 +24V - R ET ( S W I TC H/LED C O NN EC TO R) A W G 24 Title:

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40

J1

G ND D ATA M A PHA M A PHA M A PHB M A PHB M A PHC M A PHC M A PHD M A PHD M BPHA M BPHA M BPHB M BPHB M BPHC M BPHC M BPHD M BPHD M W PHA M W PHA M W PHB M W PHB M W PHC M W PHC M W PHD M W PHD +24V +24V +24V - R ET +24V - R ET G ND

P3 1 2 3 4 5 6 7 8

+24V TX D_O U T RXD_I N F R O M N. C . G ND J 6 O F A 2 +24V - R ET O PP C O NTR O LLER ASS E M BL Y C TS RTS

Electrical drawing

P1 GND D ATA M APHA M APHA M APHB M APHB M APHC M APHC M APHD M APHD M BPHA M BPHA M BPHB M BPHB M BPHC M BPHC M BPHD M BPHD M W PHA FRO M M W PHA J1 O F A26 M W PHB I S E M O D U LE - C O N TR O LLER M W PHB M W PHC M W PHC M W PHD M W PHD +24V +24V +24V - R ET +24V - R ET GND N .C . C PU _RES E T RTS RXD _I N C TS TX D _O U T N .C . RES E RV . RES E RV .

Page 1 of 1

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

R E D B L A C K

37

178/382

37

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.11.

OPP MOTDRV Wiring, P/N 10146-00-A

This wiring connects the six Step Motor Driver boards to eleven stepping motors. It carries on power driving signals. Part List Pos.

Ref. Designator

Title: OPP MOTDRV Wiring

P/N: 10146-00-A

Q.ty

UoM

Description

Value

Rating

Toler.

1

J1-J11

11

PZ

 

 

 

39-01-2041

2

 

44

PZ

 

 

 

39-00-0041

3

P1-P11

11

PZ

 

 

 

350779-1

4

 

44

PZ

 

 

 

926893-1

5

 

13,6

M

 

 

 

CAV1007/18GI

6

 

13,6

M

 

 

 

CAV1007/18AR

7

 

13,6

M

 

 

 

CAV1007/18VE

8

 

13,6

M

 

 

 

CAV1007/18BL

9 10 11

     

54 33 11

PZ PZ PZ

CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACTS, DOUBLE ROW 2X2PIN, POLARIZATION, LOCK, MOLEX 5559 MINI-FIT JR SERIES, 94V-2 CONTACTS, CRIMP, MALE, 24-18AWG, FOR PLUG MOLEX 5559 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), 5556 SERIES CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACT, SINGLE ROW, 4X1PIN, POLARIZATION, LOCK, PITCH 6.35, TYPE UNIVERSAL MATE-N-LOCK CONTACT, CRIMP, FEMALE, 20-14AWG (0,5-2,0mmq), FOR TYCO AMP UNIVERSAL MATE-N-LOCK, TIN PLATED BRASS, 19A CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, YELLOW CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, ORANGE CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, GREEN CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, BLUE CABLE TIE, LENGHT=92mm, WIDTH=2,3mm, DIAM.=2-16mm CABLE TIE, LENGHT =140mm, WIDTH =3,5mm CABLE TIE, HOLE DIAM. 5mm, LENGHT =198,4mm, WIDTH =4,7mm

P/N

     

     

     

TYB23M TYB24M TY535M

Figure 129: OPP MOTDRV Wiring, P/N 10146-00-A

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

179/382

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

J9

J1 FRO M P1 O F A 17 A RM 1 D I L U TO R

1 2 3 4

+ PA -P A + PB -P B

YELLO W G REEN O RA N G E BLU E

P1 1 2 3 4

+ PA 1 TO -PA 1 + PB1 J3 O F A 7 - P B1 STE P M O TO R D RI V E - 2X1. 5 A V ER. 0 1

FRO M REA D I N G C U V ETTE M O TO R A SSEM BLY

+ PA -PA + PB -PB

1 2 3 4

YELLO W G REEN O RA N G E BLU E

Page 1 of 1

37

P9 1 2 3 4

+ PA 1 TO -PA 1 + PB1 J3 O F A 22 - P B1 STE P M O TO R D RI V E - 2X1. 5 A V ER. 0 3

A W G 18 (34/33) - 1m m q

A W G 18 (34/33) - 1m m q

FRO M P1 O F A 18 A RM 2 D I L U TO R

1 2 3 4

+ PA -P A + PB -P B

YELLO W G REEN O RA N G E BLU E

P2 1 2 3 4

+ PA 2 TO -PA 2 + PB2 J4 O F A 7 - P B2 STE P M O TO R D RI V E - 2X1. 5 A V ER. 0 1

FRO M FI L TE R W HEEL M O TO R A SSEM BLY

+ PA -PA + PB -PB

1 2 3 4

YELLO W G REEN O RA N G E BLU E

P10 1 2 3 4

+ PA 2 TO -PA 2 + PB2 J4 O F A 22 - P B2 STE P M O TO R D RI V E - 2X1. 5 A V ER. 0 3

10146-00-A

J10 J2

A W G 18 (34/33) - 1m m q

A W G 18 (34/33) - 1m m q

FRO M SA M PLE M O TO R A SSEM BLY

1 2 3 4

+ PA -P A + PB -P B

YELLO W G REEN O RA N G E BLU E

P3 1 2 3 4

+ PA 1 TO -PA 1 + PB1 J3 O F A 19 - P B1 STE P M O TO R D RI V E - 2X1. 5 A V ER. 0 0

+ PA FRO M -PA W A SHI N G STA TI O N + PB M O TO R A SSEM BLY - P B

1 2 3 4

YELLO W G REEN O RA N G E BLU E

P11 1 2 3 4

+ PA 1 TO -PA 1 + PB1 J3 O F A 23 - P B1 STE P M O TO R D RI V E - 2X1. 5 A V ER. 0 4

P/N:

J11 J3

A W G 18 (34/33) - 1m m q

J4 1 2 3 4

+ PA FRO M -P A REA G EN T + PB M O TO R A SSEM BLY - P B

YELLO W G REEN O RA N G E BLU E

OPP MOTDRV Wiring

A W G 18 (34/33) - 1m m q P4 1 2 3 4

+ PA 2 TO -PA 2 + PB2 J4 O F A 19 - P B2 STE P M O TO R D RI V E - 2X1. 5 A V ER. 0 0

A W G 18 (34/33) - 1m m q

J5 FRO M X- A XI S A RM 1 M O TO R A SSEM BLY

1 2 3 4

+ PA -P A + PB -P B

YELLO W G REEN O RA N G E BLU E

P5 1 2 3 4

+ PA 1 TO -PA 1 + PB1 J3 O F A 20 - P B1 STE P M O TO R D RI V E - 2X1. 5 A V ER. 0 2

A W G 18 (34/33) - 1m m q J6 FRO M Y- A XI S A RM 1 M O TO R A SSEM BLY

1 2 3 4

+ PA -P A + PB -P B

YELLO W G REEN O RA N G E BLU E

P6 1 2 3 4

+ PA 2 TO -PA 2 + PB2 J4 O F A 20 - P B2 STE P M O TO R D RI V E - 2X1. 5 A V ER. 0 2

1 2 3 4

YELLO W G REEN O RA N G E BLU E

P7 1 2 3 4

Electrical drawing

J7 + PA FRO M -P A X- A XI S A RM 2 + PB M O TO R A SSEM BLY - P B

Title:

A W G 18 (34/33) - 1m m q

+ PA 1 TO -PA 1 + PB1 J3 O F A 21 - P B1 STE P M O TO R D RI V E - 2X1. 5 A V ER. 0 2

A W G 18 (34/33) - 1m m q J8 + PA FRO M -P A Y- A XI S A RM 2 + PB M O TO R A SSEM BLY - P B

1 2 3 4

YELLO W G REEN O RA N G E BLU E

P8 1 2 3 4

+ PA 2 TO -PA 2 + PB2 J4 O F A 21 - P B2 STE P M O TO R D RI V E - 2X1. 5 A V ER. 0 2

A W G 18 (34/33) - 1m m q

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.13.

OPP Sensor Wiring, P/N 10153-00-B

This wiring connects instrument sensors to the Controller Assembly (Mother Board); it also powers ARMs electrovalves and diagphram pumps. It carries on signals and power. Part List Pos.

Ref. Designator

Title: OPP Sensor Wiring

P/N: 10153-00-B

Q.ty

UoM

Description

Value

Rating

Toler.

1

P1-P4, P8

5

PZ

 

 

 

280361-0

2

P5, P10

2

PZ

 

 

 

280366

3

 

37

PZ

 

 

 

39-00-0038

4

P15

1

PZ

 

 

 

280360-0

5

 

78

PZ

 

 

 

181270-2

6

P6, P7, P11-P14, J20, J24

8

PZ

 

 

 

39-01-2020

7

J2-J12, J15

12

PZ

 

 

 

39-01-2040

8

J13, J14

2

PZ

 

 

 

39-01-2100

9

 

51

PZ

 

 

 

39-00-0046

10

J16

1

PZ

 

 

 

PKG.M0.2GL.LR

11

J17

1

PZ

 

 

 

PKG.M0.2GL.LA

12

J18

1

PZ

 

 

 

PKG.M0.2GL.LV

13

J19, J21-J23

4

PZ

 

 

 

39-01-2021

14

 

8

PZ

 

 

 

39-00-0041

15

J25

1

PZ

 

 

 

50020499

16

 

12,7

M

 

 

 

CAV1007/24GI

17

 

8

M

 

 

 

CAV1007/24RO

18

 

8,55

M

 

 

 

CAV1007/24NE

19

 

16,3

M

 

 

 

CAV1007/24BI

20

 

2,8

M

 

 

 

CAV1007/24MA

21

 

4,4

M

 

 

 

CAV1007/24VI

22

 

2,8

M

 

 

 

CAV1007/24VE

23

 

4,6

M

CONNECTOR, RECEPTACLE, FEMALE, STRAIGHT, CRIMP CONTACTS, SINGLE ROW 8X1PIN, 2.54, POLARIZATION, LOCK, TYCO-AMP MODU SERIES CONNECTOR, RECEPTACLE, FEMALE, STRAIGHT, CRIMP CONTACTS, DOUBLE ROW 8X2PIN, 2.54, POLARIZATION, LOCK, TYCO-AMP MODU SERIES CONTACTS, CRIMP, FEMALE, 24-18AWG, FOR RECEPTACLE MOLEX 5557 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), 5556 SERIES, REEL CONNECTOR, RECEPTACLE, FEMALE, STRAIGHT, CRIMP CONTACTS, SINGLE ROW 6X1PIN, 2.54, POLARIZATION, LOCK, TYCO-AMP MODU SERIES CONTACT, CRIMP, FEMALE, 22-26AWG, FOR TYCO-AMP MODU CONNECTOR, RECEPTACLE, STRAIGHT, CRIMP CONTACT, SINGLE ROW 1X2PIN, POLARIZATION, LOCK, MOLEX 5557 MINI-FIT JR SERIES, 94V-2 CONNECTOR, RECEPTACLE, STRAIGHT, CRIMP CONTACTS, DOUBLE ROWS 2X2PIN, POLARIZATION, LOCK, MOLEX 5557 MINI-FIT JR SERIES, 94V-2 CONNECTOR, RECEPTACLE, STRAIGHT, CRIMP CONTACTS, SINGLE ROW 5X2PIN, POLARIZZAZIONE, LOCK, POLARIZATION, LOCK, MOLEX 5557 MINI-FIT JR SERIES, 94V2 CONTACT, CRIMP, FEMALE, 22-28AWG, FOR RECEPTACLE MOLEX 5557 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), SERIE 5556, REEL CONNECTOR, SOCKET, PANEL MOUNTING, STRAIGHT, FLAME RETARDANT PLASTIC (POLISOLFONE+PEEK), 2PINS, SOLDER AWG18-22 CONTACTS, CABLE OUTER DIAM.=45.2mm, POLARIZATION, SECURITY LOCK, 10A@400Veff, UL94V-0, REDEL SERIES, RED CONNECTOR, SOCKET, PANEL MOUNTING, STRAIGHT, FLAME RETARDANT PLASTIC (POLISOLFONE+PEEK), 2PINS, SOLDER AWG18-22 CONTACTS, CABLE OUTER DIAM.=45.2mm, POLARIZATION, SECURITY LOCK, 10A@400Veff, UL94V-0, REDEL SERIES, BLUE CONNECTOR, SOCKET, PANEL MOUNTING, STRAIGHT, FLAME RETARDANT PLASTIC (POLISOLFONE+PEEK), 2PINS, SOLDER AWG18-22 CONTACTS, CABLE OUTER DIAM.=45.2mm, POLARIZATION, SECURITY LOCK, 10A@400Veff, UL94V-0, REDEL SERIES, GREEN CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACTS, SINGLE ROW 1X2PIN, POLARIZATION, LOCK, MOLEX 5559 MINI-FIT JR SERIES, 94V-2 CONTACT, CRIMP, MALE, 24-18AWG, FOR PLUG MOLEX 5559 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), 5556 SERIES CONNECTOR, TYPE M12, 5POLES, STRAIGHT, BLACK (MOD. KB-095-5000-5A), PRE-ASSEMBLED WITH BLACK MULTICONDUCTOR CABLE, 5xAWG24,LENGHT=5m CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, YELLOW CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, RED CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, BLACK CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, WHITE CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, BROWN CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, PURPLE CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, GREEN CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG24 (11/0,16), Tmax=+80°C, Vmax=300V, GREY

 

 

 

CAV1007/24GR

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N

182/382

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Part List Pos.

Ref. Designator

Title: OPP Sensor Wiring Q.ty

UoM

24

 

2

M

25

 

3,5

M

26

 

5,3

M

27 28 29

     

97 34 8

PZ PZ PZ

P/N: 10153-00-B Description

CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG22 (17/0,16), Tmax=+80°C, Vmax=300V, ORANGE CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG22 (17/0,16), Tmax=+80°C, Vmax=300V, RED CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG22 (17/0,16), Tmax=+80°C, Vmax=300V, BLUE CABLE TIE, LENGHT=92mm, WIDTH=2,3mm, DIAM.=2-16mm CABLE TIE, LENGHT =140mm, WIDTH =3,5mm CABLE TIE, HOLE DIAM. 5mm, LUNGH.=198,4mm, WIDTH=4,7mm

Value

Rating

Toler.

 

 

 

CAV1007/22AR

P/N

 

 

 

CAV1007/22RO

 

 

 

CAV1007/22BL

     

     

     

TYB23M TYB24M TY535M

Figure 130: OPP Sensor Wiring, P/N 10153-00-B (two parts)

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

183/382

P1

P5

Y E LLO W W H ITE Y E LLO W W H ITE Y E LLO W W H ITE RED B LA C K

B LA C K

J5

Y E LLO W W H ITE

1 2 3 4

1 2 3 4

AW G 24

1 2 3 4

B LA C K

TO A 7 [J 7 O F A 1 ] O P P P U M P S & D R IV E R S A R M 1 - C O IL H E A TE R

1 2 3 4

O U TP U T ANODE N .C . EG N D

FR O M A 1 8 D ILU TO R 2 A S SE M B LY H O M E SE N SO R

O U TP U T ANODE Vcc EG N D

RED

1 2 3 4

BLAC K

FR O M A 4 9 A R M 1 X -A X IS H O M E SE N SO R

FR O M A 5 0 A R M 2 Y -A X IS HO M E SE N SO R

J9

P6 C H TR 1 _ A C H TR 1 _ B

1 2

FR O M J2 4 O F A 2 O P P C O N TR O LLE R A S SE M B LY IN P U T FR O M P R O TE C TIO N & SE N SO R S

O U TP U T ANODE Vcc EG N D

FR O M A 5 1 A R M 2 X -A X IS H O M E SE N SO R

C H TR 2 _ A C H TR 2 _ B

P8 1 2 3 4 5 6 7 8

A 1 SW A 1 SW _ A N O D E A 2 SW A 2 SW _ A N O D E R W SW R W SW _ A N O D E +5V EG N D

FR O M J2 6 O F A 2 O P P C O N TR O LLE R A S SE M B LY IN P U T FR O M M A IN A S SE M B LY SE N SO R S

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

1 2 3 4

B LU E V IO LE T Y E LLO W W H ITE

Y E LLO W W H ITE Y E LLO W W H ITE Y E LLO W W H ITE RED B LA C K

W H ITE B LA C K Y E LLO W B LA C K V IO LE T B LA C K

Y E LLO W W H ITE

AW G 24

O U TP U T ANODE Vcc EG N D

G REY B LA C K Y E LLO W

V IO LE T B LA C K

Y E LLO W B LA C K

FR O M A 5 3 W A S H IN G STA TIO N H O M E SE N SO R

O U TP U T ANODE Vcc EG N D

FR O M A 5 4 C U V E TTE A SSE M B LY H O M E SE N SO R

E V 1 -P O S E V 1 -N E G

TO A 7 [J 8 O F A 1 ] O P P P U M P S & D R IV E R S A R M 2 D IL E V

E V 2 -P O S E V 2 -N E G

J16 RED 1 2

FR O M J 1 O F A 2 O P P C O N TR O LLE R A S SE M B LY SE R IA L C O M M + R E A D TR IG G E R TO B A R C O D E REA D ER

+5V TX _ R S2 3 2 EG N D R X _ R S2 3 2 R E A D _ TR IG N .C .

1 2 3 4 5 6

BRO W N B LA C K B LU E W H ITE G REY

J25

BRO W N W H ITE B LU E B LA C K G REY

1 2

1 2

1 2 3 4 5

+5V DC R S2 3 2 TX D FR O M A 5 G ND R S2 3 2 R X D B A R C O D E R E A D E R SW IN / O U T

C O N N E C TO R TY P E M 1 2

P R E A S SE M B LE D C A B LE ( 5 x A W G 2 4 J A C K E TE D ) LE U ZE P / N 5 0 0 2 0 5 0 0

3

V+ V-

FR O M A 2 3 LIQ U ID 2 B O TTLE

J18 G REEN V _1 V _2

FR O M A 2 4 LIQ U ID 1 B O TTLE

J19 1 2

V _1 V _2

J20 1 2

RED B LU E

FR O M A 6 4 C O O LE R A S SE M B LY ( C O O LIN G LIQ U ID LE V E L D E TE C TO R )

C V R _ SN S EG N D

FR O M A 6 5 C O V ER SE N SO R

E V 1 -P O S E V 1 -N E G

TO A R M 1 D ILU TO R EV

E V 2 -P O S E V 2 -N E G

TO A R M 2 D ILU TO R EV

V+ V-

TO A 2 8 SU C TIO N N E E D LE S PUM P

V+ V-

TO A 2 9 TIP PUM P

J21 1 2

RED B LU E

J22 1 2

1 2

RED B LU E

J23 1 2

P14 V+ V-

V _1 V _2

1 2

P12

TO A 7 [J 1 0 O F A 2 ] O P P P U M P S & D R IV E R S SU C TIO N N E E D LE S PU M P TO A 7 [J 1 1 O F A 2 ] O P P P U M P S & D R IV E R S SU C TIO N TIP P U M P

FR O M A 2 2 W A STE B O TTLE

J 1 7 B LU E 1 2

P13 P15

V _1 V _2

A W G 22

P11 TO A 7 [J 4 O F A 1 ] O P P P U M P S & D R IV E R S A R M 1 D IL E V

J15

B LA C K

FR O M A 5 2 FILTE R W H E E L HO M E SE N SO R

J12 1 2 3 4

W H ITE B LA C K

Y E LLO W B LA C K

J11 1 2 3 4

FR O M A 6 0 W A SH IN G STA TIO N LO W P O SITIO N SE N SO R

J14 1 2 3 4 5 6 7 8 9 10

1 2 3 4

G REY B LA C K O U TP U T ANODE Vcc EG N D

O U TP U T ANODE Vcc EG N D

GREY

O RA N G E

O RA N G E B LU E

P10 D IS_ S N S D IS_ S N S-R TN LIQ 2 _ SN S LIQ 2 _ SN S-R TN LIQ 1 _ SN S LIQ 1 _ SN S-R TN S P R M N _ O C IN P 1 -4 S P R M N _ O C IN P 1 -4 R TN S P R M N _ O C IN P 2 -0 S P R M N _ O C IN P 2 -0 R TN LIQ C _ S N S LIQ C _ S N S-R TN C V R_ SN S +5V C V R_A N O D E EG N D

BLAC K

O RA N G E B LU E A W G 22

1 2

TO C A B LA G G IO O PP A RM 2

G REEN

J10

Y E LLO W W H ITE

Y E LLO W W H ITE RED B LA C K

O U TP U T ANODE Vcc EG N D

TO A 7 [J 1 0 O F A 1 ] O P P P U M P S & D R IV E R S A R M 1 - C O IL H E A TE R

J8

Y E LLO W W H ITE

AW G 24

FR O M A 4 8 A R M 1 Y -A X IS H O M E SE N SO R

J7

Y E LLO W W H ITE

Y E LLO W W H ITE

O U TP U T ANODE Vcc EG N D J6

RED

Y E LLO W W H ITE Y E LLO W W H ITE Y E LLO W W H ITE RED B LA C K

FR O M A 1 7 D ILU TO R 1 A S SE M B LY H O M E SE N SO R

P7

BLAC K

1 2 3 4 5 6 7 8

O U TP U T ANODE N .C . EG N D

C H TR -A SN S-E G N D M G ND +5V O P TO -E G N D C H TR -B V+ SN S-O U T C -O U T ANODE

BRO W N G REY

10153-00-B

1 2 3 4

TO C A B LA G G IO O PP A RM 1

P/N:

J4

Y E LLO W W H ITE

B LA C K

P4

IN P U T FR O M FILTE R W H E E L, W SH S TA TIO N & C U V E TTE H O M E S O P TO SE N SO R S

V IO LE T

C H TR -A SN S-E G N D M G ND +5V O P TO -E G N D C H TR -B V+ SN S-O U T C -O U T ANODE

OPP Sensor Wiring

AW G 24

Y E LLO W W H ITE RED B LA C K

FR O M J22 O F A 2 O P P C O N TR O LLE R A S SE M B LY

IN P U T FR O M A RM 1, A RM 2 & R& W A S SE M B LIE S SE N SO R S + SP A R E S

V IO LE T

1 2

RED B LU E

J24 1 2

Title:

1 2 3 4 5 6 7 8

FLT_ H O M E FLT_ A N O D E W SH _ H O M E W SH _ A N O D E C V T_ H O M E C V T_ A N O D E + 5V EG N D

FR O M A 4 7 R E A G E N T A SS E M B LY H O M E SE N SO R

FR O M J1 8 O F A 2 O P P C O N TR O LLE R A S SE M B LY

1 2 3 4 5 6 7 8 9 10

Electrical drawing

Y E LLLO W W H ITE Y E LLO W W H ITE Y E LLO W W H ITE RED B LA C K

P3

IN P U T FR O M A RM 2 H O M E O P TO SE N SO R S

O U TP U T ANODE Vcc EG N D

J3 1 2 3 4

B LA C K

D IL2 _ H O M E D IL2 _ A N O D E A 2 Y_ H O M E A 2 Y_ A N O D E A 2 X_ H O M E A 2 X_ A N O D E + 5V EG N D

FR O M A 4 6 SA M P LE A SSE M B LY H O M E SE N SO R

G REEN

1 2 3 4 5 6 7 8

D IL1 _ H O M E D IL1 _ A N O D E A 1 Y_ H O M E A 1 Y_ A N O D E A 1 X_ H O M E A 1 X_ A N O D E + 5V EG N D

O U TP U T ANODE Vcc EG N D

J13

O RA N G E G REEN BRO W N RED B LA C K B LU E G REY V IO LE T Y E LLO W W H ITE

AW G 24

BLAC K

B LA C K

Y E LLO W W H ITE RED B LA C K

FR O M J21 O F A 2 O P P C O N TR O LLE R A S SE M B LY

1 2 3 4

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

RED

IN P U T FR O M A RM 1 H O M E O P TO SE N SO R S

Y E LLO W W H ITE RED

Y E LLO W W H ITE RED B LA C K

P2 FR O M J19 O F A 2 O P P C O N TR O LLE R A S SE M B LY

J2

S P R A 1 _ O C IN P 1 -4 S P R A 1 _ O C IN P 1 -4 R TN A R M 1 _ SN S A R M 1 _ SN S -R TN S P R A 2 _ O C IN P 1 -4 S P R A 2 _ O C IN P 1 -4 R TN A R M 2 _ SN S A R M 2 _ SN S -R TN W SH _ SN S W SH _ SN S-R TN S P R R W _ O C IN P 1 -7 S P R R W _ O C IN P 1 -7 R TN M G ND + 24V +5V EG N D

RED

Y E LLO W W H ITE Y E LLO W W H ITE RED B LA C K

BRO WN

IN P U T FR O M SP A R E , SM P H O M E & RG THO M E O P TO SE N SO R S

AW G 24 1 2 3 4 5 6 7 8

RED

FR O M J17 O F A 2 O P P C O N TR O LLE R A S SE M B LY

SP R M N _ H O M E SP R M N 2 _ A N O D E SM P _ H O M E SM P _ A N O D E R G T_ H O M E R G T_ A N O D E + 5V EG N D

Page 1 of 1

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

RED

37

4 C O N N E C TO R J 2 5 5 FR O N T V IE W ( M A TIN G P IN SID E )

2

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1

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.14.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

3.3.21.15.

LHP Power Wiring, P/N 10940-00-A

This wiring powers the LHP Power Board and also connects it to the loads; it powers the optical group Halogen Lamp and the Incubation Heater Strip. It supplies the board with 24Vdc and 12Vdc. Part List Pos.

Ref. Designator

Title: LHP Power Wiring

P/N: 10940-00-A

Q.ty

UoM

Description

Value

Rating

Toler.

1

E1, E2

2

PZ

 

 

 

RF-F-608P

2

E3-E5

3

PZ

 

 

 

RF-P 10

3

E6, E7

2

PZ

 

 

 

BF-P 10

4

J1, J2

2

PZ

 

 

 

39-01-2021

5

 

4

PZ

 

 

 

39-00-0040

6

P1

1

PZ

 

 

 

350766-1

7

P2

1

PZ

 

 

 

350779-1

8

 

7

PZ

 

 

 

926893-1

9

P3, P4

1

PZ

 

 

 

39-01-2020

10

 

4

PZ

 

 

 

39-00-0038

11

 

2,66

M

 

 

 

CAV1007/18RO

12

 

2,36

M

 

 

 

CAV1007/18NE

13

 

0,96

M

 

 

 

4520041

14

 

1

M

 

 

 

4520011

15

 

1,04

M

 

 

 

4520001

16

 

0,8

M

 

 

 

4520042

17

 

0,8

M

 

 

 

4520012

18 19

   

30 2

PZ PZ

   

   

   

TYB23M TY533M

20

 

4

PZ

TERMINALE, AD INNESTO, FEMMINA, TOTALMENTE PREISOLATO IN PC, CORPO IN OTTONE CON STAGNATURA ELETTROLITICA, ROSSO (AWG22-16, 0,25-1,5mmq), 6,35x0,8mm CRIMP PIN TERMINAL, PRE-INSULATED, PVC, TIN PLATED BODY COPPER, RED (AWG22-16, 0,25-1,5mmq), L=10mm CRIMP PIN TERMINAL, PRE-INSULATED, PVC, TIN PLATED BODY COPPER, BLUE (AWG16-14, 1,5-2,5mmq), L=10mm CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACT, SINGLE ROW 1X2PIN, POLARIZATION, LOCK, MOLEX 5559 MINI-FIT JR SERIES, 94V-2 CONTACT, CRIMP, MALE, 24-18AWG, FOR PLUG MOLEX 5559 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), 5556 SERIES CONNECTOR, PLUG, STRAIGHT, CRIMP CONTACT, SINGLE ROW, 3X1PIN, POLARIZATION, LOCK, PITCH 6.35, TYPE UNIVERSAL MATE-N-LOCK CONNECTOR, PLUG, STRAIGHT, CRIMPING CONTACTS, SINGLE ROW, 4X1PIN, POLARIZATION, LOCK, PITCH 6.35, TYPE UNIVERSAL MATE-N-LOCK CONTACT, CRIMPING TYPE, FEMALE, 20-14AWG (0,5-2,0mm 2), FOR TYCO AMP UNIVERSAL MATE-N-LOCK, TINNED BRASS, 19A CONNECTOR, RECEPTACLE, STRAIGHT, CRIMP CONTACT, SINGLE ROW 1X2PIN, POLARIZATION, LOCK, MOLEX 5557 MINI-FIT JR SERIES, 94V-2 CONTACTS, CRIMP, FEMALE, 24-18AWG, FOR RECEPTACLE MOLEX 5557 SERIES, BRASS (PRE-PLATED TIN OVER COPPER), 5556 SERIES, REEL CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, RED CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, UL1007, AWG18 (34/0,18), Tmax=+80°C, Vmax=300V, BLACK CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, CEE 73/23, H07V-K, 1,5mmq (30/0,25), FROM -40°C TO +70°C, Uo/U=450-750V, RED CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, CEE 73/23, H07V-K, 1,5mmq (30/0,25), FROM -40°C TO +70°C, Uo/U=450-750V, BLACK CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, CEE 73/23, H07V-K, 1,5mmq (30/0,25), FROM -40°C TO +70°C, Uo/U=450-750V, YELLOW/GREEN CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, CEE 73/23, H07V-K, 2,5mmq (30/0,25), FROM -40°C TO +70°C, Uo/U=450-750V, RED CONDUCTOR, COPPER, FLEX, PVC, FLAME RETARDANT, CEE 73/23, H07V-K, 2,5mmq (30/0,25), FROM -40°C TO +70°C, Uo/U=450-750V, BLACK CABLE TIE, LENGHT=92mm, WIDTH=2,3mm, DIAM.=2-16mm CABLE TIE, HOLE DIAM. 3mm, LUNGH.=101,6mm, WIDTH=2,3mm CABLE TIE, HOLE DIAM. 5mm, LUNGH.=198,4mm, WIDTH=4,7mm

 

 

 

TY535M

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P/N

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MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

Figure 131: LHP Power Wiring, P/N 10940-00-A

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TO TB2 1 - 2 O F O PPO RTU N ITY U N I T + 1 2 V E6 + 1 2 V - R TN E7

RED BLA C K

+ 2 4 V E5 + 2 4 V - R TN E4

RED BLA C K

MGND

Y/G

2 ,5 m m q

P1 1 2 3

P3 TO A 8 - J 3 V REG LH P PO W ER BO A RD V REG - R TN

RED BLA C K

1 2

A W G 18

P2

P/N:

1 2 1 3 2 4 3 4

+24V TO J2 O F A 8 EG N D N . C . LHP PO W ER BO A RD MGND

LHP Power Wiring

TO TB2 -1 O F O PPO RTU N ITY U N I T

E3

1 ,5 m m q

J2 1 2

V+ V-

A W G 18

E1 PRO T+

TO HA LO G EN LA M P A SSY

Title:

TO TB8 -1 O F O PPO RTU N ITY U N I T

+12V TO J6 O F A 8 EG N D N . C . LHP PO W ER BO A RD 10940-00-A

TO TB1 9 - 2 O F O PPO RTU N ITY U N I T

TO TB1 6 - 2 O F O PPO RTU N ITY U N I T

Page 1 of 1

MIURA & MIURA 200 – Service Manual Section 3 MIURA - ELECTRICAL DRAWINGS AND PART LISTS

TO C U V ETTE PLA TE TH ERM A L PRO TEC TI O N

Electrical drawing

37

E2 PRO TP4 TO A 8 - J 4 LH P PO W ER BO A RD

V SW - P V SW - N

1 2

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

RED BLA C K

RED

J1 1 2

V1 V2

TO C U V ETTE PLA TE I N C U BA TI O N HEA TE R STRIP

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= 1 s tl e v e l = 2 n dl e v e l = 3 r dl e v e l = 4 th l e v e l = 5 th l e v e l

M I U R A 2 0 0 P /N 1 0 6 7 4 0 0 A H I E R A R C H I C A L D I A G R A M

M I U R A 2 0 0 P /N 1 0 6 7 4 0 0 A

P O W E R S U P P L Y A S S E M B L Y P /N 1 0 3 6 9 0 0 A

O P P A R M 1 A S S E M B L Y P /N 1 0 1 9 8 0 0 A

L I Q U I D 1 T A N K W I R I N G P /N 1 0 6 4 7 0 0 B

7

1 0 X F L A T V E R .0 1 W I R I N G P /N 1 0 1 4 5 0 1 A

1 2 V F A N A S S Y P /N 1 0 1 1 1 0 0 A

O P P V D C P S T B W I R I N G P /N 1 0 1 5 9 0 0 A

1 0 X F L A T V E R .0 0 W I R I N G P /N 1 0 1 4 5 0 0 A

S T E P M O T O R D R I V E R V E R .0 0 P /N 1 0 0 0 2 0 0 A Z R P A S P I R A T I O N P U M P V E R .0 0 P /N 1 0 9 3 8 0 0 A

C O V E R R E E D S E N S O R P /N 1 0 5 7 0 0 0 A

5 0 0 U L D I L U T E R V E R .0 0 P /N 1 0 9 1 1 0 0 C

P W R D R I V E R M O D U L E -9 X 1 A P /N 1 0 0 0 6 0 0 C

L H P P O W E R B O A R D P /N 1 0 7 6 2 0 0 A

A R M 1 D I L U T E R A S S E M B L Y V E R .0 0 P /N 1 0 3 5 8 0 0 C

O P P P U M P S A N D D R I V E R S P /N 1 0 2 1 7 0 1 E

O P P 1 0 0 M 3 M G N D J U M P E R P /N 1 0 4 1 0 0 0 A

O P P W A S H I N G S T A T I O N P /N 1 0 2 1 1 0 0 A

O P P O P T I C A L G R O U P P /N 1 0 2 1 2 0 1 A

W A S T E T A N K W I R I N G P /N 1 0 6 4 9 0 0 B

1 .1 7 N B 1 .8 M O T O R A S S Y P /N 1 0 0 4 0 0 0 A

O P P C U V E T T E A S S E M B L Y P /N 1 0 2 1 0 0 1 A

O P P R & W A S S E M B L Y P /N 1 0 2 0 8 0 1 A

W A S T E T A N K P /N 1 0 4 0 7 0 0 B

O P P A R M M O D U L E P /N 1 0 2 0 5 0 1 C

1 .7 5 N B 1 .8 M O T O R A S S Y P /N 1 0 0 3 9 0 0 A

C N T P O W E R S U P P L Y V E R .0 1 P /N 1 0 0 2 8 0 1 A

O P P M A I N P S W I R I N G P /N 1 0 0 5 7 0 0 A

L I Q U I D 2 T A N K W I R I N G P /N 1 0 6 4 8 0 0 B

L I Q U I D 2 T A N K P /N 1 0 4 0 6 0 0 B

O P P S & R A S S E M B L Y P /N 1 0 2 2 0 0 0 B

O P P C O N T R O L L E R A S S E M B L Y P /N 1 0 0 1 6 0 1 C

L I Q U I D 1 T A N K P /N 1 0 4 0 5 0 0 B

O P P P E R S O N A L C O M P U T E R

M I U R A 2 0 0 U N I T P /N 1 0 7 0 6 0 1 D

2

2

1 0 X F L A T V E R .0 2 W I R I N G P /N 1 0 1 4 5 0 2 A

1 2 V 6 0 x 6 0 F A N A S S Y P /N 1 0 1 1 2 0 0 A

Z R P A S P I R A T I O N P U M P V E R .0 1 P /N 1 0 9 3 8 0 1 A

S T E P M O T O R D R I V E R V E R .0 1 P /N 1 0 0 0 2 0 1 A

2 W A Y E V A S S Y P /N 1 0 0 5 1 0 0 B

S R 1 0 _ 3 0 P U M P A S S Y V E R .0 1 P /N 1 0 0 6 0 0 1 A

O P P 1 0 0 M 4 M G N D J U M P E R P /N 1 0 4 1 1 0 0 A

0 .2 0 N B 1 .8 M O T O R A S S Y P /N 1 0 0 5 5 0 0 A

A S S Y P /N 1 0 7 4 9 0 0 A

2 0 W H A L O G E N L A M P

O P T O S E N S O R V E R .0 0 P /N 1 0 0 4 5 0 0 A

0 .4 8 N B 1 .8 M O T O R A S S Y P /N 1 0 0 4 1 0 0 A

O P T O S E N S O R V E R .0 0 P /N 1 0 0 4 5 0 0 A

M A I N C O N T R O L L E R V E R .0 1 P /N 1 0 0 1 2 0 1 D

5

2

A R M 1 C O N T R O L L E R P /N 1 0 0 1 2 0 2 C

O P P M O T D R V W I R I N G P /N 1 0 1 4 6 0 0 A

O P P 2 4 V D C A N D A U X P S W I R I N G P /N 1 0 1 6 1 0 0 C

O P P O N O F F B R E A K E R V E R .0 0 P /N 1 0 3 6 8 0 0 A

S T E P M O T O R D R I V E R V E R .0 2 P /N 1 0 0 0 2 0 2 A

3 8 M L S R 1 0 _ 3 0 P U M P A S S Y P /N 1 0 6 3 8 0 0 A

O P T O S E N S O R V E R .0 0 P /N 1 0 0 4 5 0 0 A

1 .1 7 N B 0 .9 M O T O R A S S Y P /N 1 0 0 4 2 0 0 A

L M 3 5 T E M P S E N S O R V E R .0 2 P /N 1 0 0 5 0 0 2 B

0 .4 3 N B 1 .8 M O T O R A S S Y P /N 1 0 2 5 2 0 0 A

L M 3 5 T E M P S E N S O R V E R .0 1 P /N 1 0 0 5 0 0 1 B

2

R W C O N T R O L L E R P /N 1 0 0 1 2 0 4 C

O P P S E N S O R W I R I N G P /N 1 0 1 5 3 0 0 B

C O O L E R F A N S W I R I N G P /N 1 0 1 1 3 0 0 A

O P P O N O F F B R E A K E R V E R .0 1 P /N 1 0 3 6 8 0 1 A

S T E P M O T O R D R I V E R V E R .0 3 P /N 1 0 0 0 2 0 3 A

N F 1 0 P U M P A S S Y P /N 1 0 0 5 9 0 0 A

O P T O S E N S O R V E R .0 0 P /N 1 0 0 4 5 0 0 A

I N C U B A T I O N H E A T E R S T R I P P /N 1 0 0 4 3 0 0 A

O P T O S E N S O R V E R .0 0 P /N 1 0 0 4 5 0 0 A

O P P 1 0 0 M 3 M G N D J U M P E R P /N 1 0 4 1 0 0 0 A

2

O P P A R M 1 V E R .0 0 W I R I N G P /N 1 0 2 0 4 0 0 B

R S 2 3 2 F S 9 F C A B L E A S S Y P /N 1 0 0 6 2 0 0 A

I S E M O D U L E A S S Y 4 C H A N N E L S ( O P T .) P /N 1 0 7 2 6 0 0 A

S T E P M O T O R D R I V E R V E R .0 4 P /N 1 0 0 0 2 0 4 A

A P N 2 0 P U M P A S S Y P /N 1 0 9 4 7 0 0 A

P H O T O D I O D E M O D U L E P /N 1 0 0 1 1 0 0 B

O P T O S E N S O R V E R .0 2 P /N 1 0 0 4 5 0 2 A

O P P M G N D B R U S H P /N 1 0 4 1 3 0 0 A

O P P C O N T R O L L E R M O T H E R B O A R D P /N 1 0 0 3 0 0 0 C

L H P P O W E R W I R I N G P /N 1 0 9 4 0 0 0 A

O P P P H O T O D I O D E W I R I N G P /N 1 0 1 4 8 0 0 B

I S E M O D U L E P U M P A S S Y P /N 1 0 7 8 4 0 0 A

L M 3 5 T E M P S E N S O R V E R .0 2 P /N 1 0 0 5 0 0 2 B

B U Z Z E R A S S Y P /N 1 0 0 5 8 0 0 A

1 2 B I T M I U R A E N C O D E R P /N 1 0 7 4 7 0 0 A

M 3 M 4 M G N D J U M P E R P /N 1 0 9 7 2 0 0 A

O P P I S E M O D U L E W I R I N G ( O P T .) P /N 1 0 1 6 5 0 0 A

I S E M O D U L E R E A G E N T B U T T O N P /N 1 0 7 8 5 0 0 A

2 4 V F A N A S S Y P /N 1 0 1 1 0 0 0 A

O P P P U M P S & D R I V E R S W I R I N G P /N 1 0 5 1 4 0 0 A

2

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Schematics and part lists of the main assemblies of the instrument are given in this section into hierarchical format. Part List Pos.

P/N: 10674-00-A

Q.ty

UoM

Description

1 2

A1 A2

1 1

PCS PCS

3 4 5 6

A3 A4 A5 W1

1 1 1 1

PCS PCS PCS PCS

7

W2

1

PCS

8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28

W3 W4                    

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

PCS PCS PCS PCS PCS PCS PCS KIT KIT KIT KIT KIT KIT KIT KIT PZ PCS KIT PCS PCS KIT

1

KIT

MIURA 200 UNIT Ver.01 PERSONAL COMPUTER, COMPLETE WITH KEYBOARD, MONITOR, MOUSE AND USB PRINTER LIQUID 1 TANK (SYSTEMIC) WASTE TANK LIQUID 2 TANK (CLEANER SOLUTION) INSTRUMENT POWER CABLE, SCHUKO PLUG, IEC SOCKET, PVC EN60320 3X1mmq, 10A@250Vac, LENGHT=2m RS-232C STANDARD SERIAL CABLE, SUBD-9PIN F, SUBD-9PIN M, RX/TX E RTS/CTS NOT CROSSED, LENGHT=1,8m LIQUID 1 TANK WIRING (SYSTEMIC) WASTE TANK WIRING LIQUID 2 TANK WIRING (CLEANER SOLUTION) CUVETTE’S EXTRACTION TOOL MIURA OPERATING PROGRAM SOFTWARE ON CD-ROM 20W HALOGEN LAMP ASSY REAGENT BOTTLE 20ml, KIT 30 PCS REAGENT BOTTLE 50ml, KIT 50 PCS DILUTION AND PAEDIATRIC CUPS, KIT 250 PCS READING CUVETTES, KIT 5 PCS SYSTEMIC SOLUTION, KIT 6x50ml MULTICLEAN SOLUTION (CLEANER), KIT 2LT RINSE SOLUTION EWCVT, KIT 6X50ml RINSE SOLUTION EWPRB, KIT 6X20ml CAPS FOR REAGENT BOTTLES, KIT 80 PCS USER MANUAL – MIURA 200 (LAST REVISION) QUICK START GUIDE – MIURA 200 (LAST REVISION) PRIMARY TUBES 12mm X 86mm, KIT 1000 PCS FUNNEL, FOR SYSTEMIC TANK REFILLING CAP FOR WASTE TANK ADAPTER FOR TUBES, EXT. DIAM. 16,7, ALUMINIUM, FOR CUPS TYPE HITACHI 3ml, KIT 50 PCS CUPS TYPE HITACHI 3ml, KIT 1000 PCS

29

Ref. Designator

Title: Miura 200 System

           

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Value

Rating

Toler.

P/N

   

   

   

10034-01-E P3140000097

       

       

       

10405-00-B 10407-00-B 10406-00-B GJ033020

 

 

 

EG003330

                                     

                                     

                                     

 

 

 

10647-00-A 10649-00-B 10648-00-B M2ASA TBD-06_08_02-49 10749-00-A P3140000020 P3140000019 P3140000003 P3140000002 P3140000102 P3140000114 P3140000113 P3140000115 P3140000079 MNU-10704-00-_ GRS-10705-00-_ P3140000100 166K SPT 20296-00-0

 

 

 

P3140000001

231/382

10674-00-A

Page 1 of 1

MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

A1

W2

PO W ER S U PPL Y C ABL E

RS 2 32 CO NNEC TI O N HM 7 W 18- J 1 8 HM 6 W 18- J 1 7 HM 5 W 18- J 1 6 HM 1

P1 G REEN

P1 HM 1 BL U E

P1 RED

W3

W5

W4

A3

A5

A4

P/ N 10405- 0 0- B P/ N 10406- 0 0- B P/ N 10407- 0 0- B L I Q UI D 1 L I Q UI D 2 W A S TE TA N K C HARG E C HARG E TA NK TA NK S Y S TE M I C S O L U TI O N

C L E ANER S O L U TI O N

A2 O PP PERS O NAL CO M PUTE R

W AS TE

S M ART CARD READ ER/ W RI TE R

Title:

P=650W m a x

W1

O PTI O NAL

Electrical drawing

110- 2 20Va c 50- 6 0Hz

MIURA 200 System

VAC L I N E

P/N:

M I U RA 200 U NI T VER. 0 1 P/ N 10706- 0 1- D

TO PC PO W ER S U PPL Y VA C L I N E 110- 2 20Vac 50- 6 0Hz P=300W t y p

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

232/382

MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

4.1.

MIURA 200 Unit P/N 10706-01-E

This paragraph shows electrical drawings and part list of Miura 200 Unit P/N 10706-01-C. Part list shows only components/parts available for servicing. As in Mura system, in Miura 200 the two DC voltages are generated by the main power supply ( OPP Power Supply Assembly); they can be switched ON/OFF independently from each other:  +24Vdc for electronic operation (with the exception of the reagent cooler section); enabled by the front green switch.  +12Vdc for the cooler section and its electronic only; enabled by the front blue switch. This two DC lines are linked to the terminal blocs (TB) through the OPP VDCPS TB Wiring. The internal +24Vdc line is split into 5 lines by the OPP VDCPS TB Wiring, each one is protected by a specific fuse placed inside of the instrument, on a support behind the right side panel. The internal +12Vdc line is directly linked to the Cooler Section through the LHP Power Wiring. SIDE PANEL Access to Electronics and internal protection fuses

F8

F7

F6

F5

F4

F3

FUSEHOLDE RS AND FUSES

Figure 132: Side Panel and Internal Fuses The fuse panel includes the following 6 fuses:  Fuse F3: case 6.3mmX32mm, 15A/250Vac, T-Type (delayed). Protects the +12VDC line powering the LHP Power Board – Cooler Section.  Fuse F4: case 5mmX20mm, 6.3A/250Vac, T-Type (delayed). It protects the following lines: +24VDC-4: it’s not used; the connector has been left floating. +24VDC-5: it powers the Stepping Motor Driver A13 for Cuvette and Filter Wheel motors. +24VDC-6: it powers the Stepping Motor Driver A14 for Washing Station motor.  Fuse F5: case 5mmX20mm, 6.3A/250Vac, T-Type (delayed). It protects the following lines: +24VDC-1: it powers the Stepping Motor Driver A15 for ARM1 Diluter motor (the section for ARM2 diluters’ motor is obviously not used). +24VDC-2: it powers the Stepping Motor Driver A10 for Sample and Reagent motors. +24VDC-3: it powers the Stepping Motor Driver A11 for ARM1-X and ARM1-Y motors.  Fuse F6: case 5mmX20mm, 2A/250Vac, T-Type (delayed). It protects the +24V_C line; it powers the OPP Controller Assembly.  Fuse F7: case 5mmX20mm, 1A/250Vac, T-Type (delayed). It protects the +24V_2F line; it powers the two fans of the unit and the front switches’ LEDs (green and blue).  Fuse F8: case 5mmX20mm, 6.3A/250Vac, T-Type (delayed). It protects the following lines: +24VDC-7: it powers the Power Driver Module A1 for Buzzer, ARM1 Coil Heater, ARM1 Electrovalve, ARM1 Washing Pump (obviously ARM2 Coil Heater, ARM2 Electrovalve, ARM2 Washing Pump, and Washing Sink Pump connectors are not used). +24VDC-8: it powers the Power Driver Module A2 for Washing Station dispensing and aspirating Pumps. +24VDC-9: it powers the LHP Power Board A8 for Halogen Lamp and Heater Strip sections.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

233/382

MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

The unit can be considered as organized into different functional blocks mentioned as sub-assemblies in the following part list (reference designator Axx). Each of them has its own part list following the standard nested way for the parts there included. Part List

Title: Miura 200 Unit

P/N: 10706-01-E

Pos.

Ref. Designator

Q.ty

UoM

Description

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

A1 A2 A3 A4 A6 A7 A8 A5, A9, A12, A17 A10 A11 A13 A14 A15 A16 A20 A21  

1 1 1 1 1 1 1 4 1 1 1 1 1 1 1 1 1

PZ PZ PZ PZ PZ PZ PZ PZ PZ PZ PZ PZ PZ PZ PZ PZ PCS

18 19

A22, A23  

2 3

PCS PCS

20 21 22 23

A24 A25 A26 A27-A30

1 1 1 4

PCS PCS PZ PZ

24 25

A31-A34  

4 4

PZ PZ

26 27 28 29 30 31

A35 F3 F4, F5, F8 F7 F6  

1 1 3 1 1 1

PZ PCS PCS PCS PCS PZ

1

PZ

OPP POWER SUPPLY ASSEMBLY OPP CONTROLLER ASSEMBLY OPP S&R ASSEMBLY OPP ARM1 ASSEMBLY OPP R&W ASSEMBLY VER.01 OPP PUMPS & DRIVERS LHP POWER BOARD NOT USED STEP MOTOR DRIVE - 2X1.5A VER.00 STEP MOTOR DRIVE - 2X1.5A VER.02 STEP MOTOR DRIVE - 2X1.5A VER.03 STEP MOTOR DRIVE - 2X1.5A VER.04 STEP MOTOR DRIVE - 2X1.5A VER.01 ARM DILUTOR ASSEMBLY VER.00 LM35 TEMP SENSOR VER.02 COVER REED SENSOR MAGNET, MINIATURE, ENCAPSULATED, FOR PROSSIMITY SENSOR, REED SWITCH, FROM -25°C TO +85°C, NYLON 66 24V FAN ASSY GRID SAVE-FINGER, PROTECTION FOR 92x92mm FAN, EN294, WITH INSERT FOR HOLE 4,3mm, TYPE LZ23-3 EBM-PAPST ZRP ASPIRATION PUMP VER.00 (FOR ASPIRAT. NEEDLES) ZRP ASPIRATION PUMP VER.01 (FOR TIP) ISE MODULE ASSEMBLY - 4 CHANNELS (OPTION) THERMOELECTRIC MODULE, PELTIER CELL, Qmax=38,5W, Imax=8,5A, Vmax=8,6V, DTmax=65°C, 30x30x3,3mm, tipo lappato (FLAT CERAMIC SURFACE), RTV SEALING PROTECTION, AWG18 WIRES 12V 60x60 FAN ASSY HEATSINK, HIGH EFFICIENCY, BASE 60x60mm, HEIGHT 30mm, PARALLEL FINS 12V FAN ASSY FUSE, 6.3x32mm, GLASS BODY, TYPE T (DELAYED) FUSE, 5x20mm, GLASS BODY, TYPE T (DELAYED) FUSE, 5x20mm, GLASS BODY, TYPE T (DELAYED) FUSE, 5x20mm, GLASS BODY, TYPE T (DELAYED) FUSEHOLDER, NO CAP, PANEL MOUNTING WITH NUT, 6.3x32mm, 4W/20A @ 250Vac, TERMINALS 6.3X0.8mm, PC2 CATEGORY, FEC SERIES SLOTTED CAP, FOR 6.3x32mm FUSEHOLDER, SCHURTER FEC SERIES FUSEHOLDER, WITH CAP, PANEL MOUNTING WITH NUT, 5x20mm, 2.5W/10A @ 250Vac, TERMINALS QUICK-CONNECT 4.8X0.5mm, PC2 CATEGORY, FPG1 SERIES OPP ON-OFF BREAKER VER.00 OPP ON-OFF BREAKER VER.01 TERMINAL BLOCK, COMPOSABLE, FOR GROUND CONDUCTOR, MINIATURE, DIN RAIL EN 50045 (TYPE TS15), 4mm2, YELLOW/GREEN, TYPE AKE4 TERMINAL BLOCK, COMPOSABLE, MINIATURE, DIN RAIL EN 50045 (TYPE TS15), 400V, 32A, 4mm2, BLUE, TYPE AKZ4 TERMINAL BLOCK, COMPOSABLE, MINIATURE, DIN RAIL EN 50045 (TYPE TS15), 400V, 32A, 4mm2, GREY, TYPE AKZ4 JUMPER, FOR TERMINAL BLOCK TYPE AKZ4, 2 POSITIONS, TYPE Q2 JUMPER, FOR TERMINAL BLOCK TYPE AKZ4, 4 POSITIONS, TYPE Q4 INSULATED JUMPER, FOR TERMINAL BLOCK, PITCH 6mm, 2 POLES, STRAIGHT, TYPE QB2 DIN RAIL EN 50045, 15mm, GALVANIZED STEEL, WITH HOLES, LENGHT=1m, TYPE TS15 M3-M4 MGND JUMPER OPP VDCPS-TB WIRING OPP ARM WIRING NOT USED COOLER FANS WIRING OPP 24VDC AND AUXPS WIRING LHP POWER WIRING NOT USED

32 33

 

5

PZ

34 35 36

SW2 SW3 TB1-TB3, TB17, TB22

1 1 5

PCS PCS PCS

37

8

PCS

9

PCS

39

TB4-TB9, TB18, TB19 TB10-TB16, TB20, TB21  

4

PCS

40

 

1

PCS

41

 

3

PCS

42

 

0,15

M

43 44 45 46 47 48 49 50

W02 W03 W04, W05   W06 W07 W08 W09

1 1 2   1 1 1 1

PZ PZ PZ   PZ PZ PZ PZ

38

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Value                                

Rating                                

Toler.                                

P/N

 

 

 

10369-00-A 10016-01-C 10220-00-B 10198-00-A 10208-01-A 10217-01-D 10762-00-A   10002-00-A 10002-02-A 10002-03-A 10002-04-A 10002-01-A 10358-00-C 10050-02-B 10570-00-A MMPSM

   

   

   

10110-00-A 92439-2-2929

       

       

       

10938-00-A 10938-01-A 10726-00-A CP1.4-71-045L-RTV

   

   

   

10112-00-A W60-30W

  15A 6,3A 1A 2A  

  250Vac 250Vac 250Vac 250Vac  

           

10111-00-A CT632316 ST520263 ST520210 ST520220 0031.1631

 

 

 

0031.1613

 

 

 

3101.0210

     

     

     

10368-00-A 10368-01-A 0380260000

 

 

 

0294380000

 

 

 

0294360000

 

 

 

0336400000

 

 

 

0336600000

 

 

 

0482700000

 

 

 

0117510000

               

               

               

10972-00-A 10159-00-A 10204-00-B   10113-00-A 10161-00-C 10940-00-A  

234/382

MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

Part List Pos.

Ref. Designator

Title: Miura 200 Unit

P/N: 10706-01-E

Q.ty

UoM

Description

Value

Rating

Toler.

51 52 53 54 55 56 57 58 59 60

W10 W11 W12 W13 W14, W19-W23 W15 W16 W18 W17, W24 HM1

1 1 1 1 6 1 1 1 2 1

PZ PZ PZ PZ PZ PZ PZ PZ PZ PCS

                   

                   

                   

10062-00-A 10148-00-B   10165-00-A 10145-00-A 10145-01-A 10146-00-A 10153-00-B 10145-02-A 10558-00-A

61 62 63

HM3 HM4 HM6, HM7

1 1 2

PCS PCS PCS

     

     

     

20046-00-B 20254-00-A PMCD160212

64

HM5

1

PCS

 

 

 

PMC160212

65

HM8-HM21

14

PCS

 

 

 

20281-00-A

66

 

14

PCS

 

 

 

P-300x

67

 

1

PZ

 

 

 

Y230-6

68

HT1, HT6, HT8

2,4

M

 

 

 

AAC00004

69

HT2-HT5, HT7, HT9

3,9

M

 

 

 

AAC00007

70

HT10-HT17

11

M

 

 

 

562-3019-X2

71

HT18

0,32

M

RS232 FS9F CABLE ASSY OPP PHOTODIODE WIRING NOT USED OPP ISE MODULE WIRING (OPTION) 10X-FLAT VER.00 WIRING 10X-FLAT VER.01 WIRING OPP MOTDRV WIRING OPP SENSORS WIRING 10X-FLAT VER.02 WIRING SAMPLING PROBE, SWAGGED, OUTER DIAM.=1,2mm, INNER DIAM.=0,8mm/0,6mm WASHING SINK OUTPUT MANIFOLD COUPLING FOR PLASTIC TUBING, QUICK, FEMALE, PANEL MOUNTING, POLYPROPYLENE, O-RING EPDM SEAL, WITH LOCK, 1/2-24UNS THREAD, FOR 1/8" ID (3.2mm ID) TUBING, FINNED, WITH VALVE, PMC12 SERIES COUPLING FOR PLASTIC TUBING, QUICK, FEMALE, PANEL MOUNTING, POLYPROPYLENE, GUARNIZIONE O-RING EPDM, O-RING EPDM SEAL, WITH LOCK, 1/2-24UNS THREAD, FOR 1/8" ID (3.2mm ID) TUBING, FINNED, WITHOUT VALVE, PMC12 SERIES FINGERTIGHT FITTINGS NUT, PVC, 1/4-28UNF THREAD, FOR FERULE, FOR PTFE TUBING OUTER DIAM.=1/8" FERULE, FOR 1/8" PTFE TUBING, FLANGELESS, FOR FLATBOTTOM PORTS, ETFE, YELLOW FITTING, Y, BARBED, POLIPROPILEN, FOR FLEXIBLE TUBING ID=1/8" FLEXIBLE TUBING, TYGON,INNER DIAM.=3/32" (2,4mm), OUTER DIAM.=5/32" (4mm), WALL=1/32" (0,8mm), TYPE TYGON R3603 FLEXIBLE TUBING, TYGON, INNER DIAM.=1/8" (3,17mm), OUTER DIAM.=1/4" (6,35mm), WALL=1/16" (1,58mm), TYPE TYGON R3603 FLEXIBLE TUBING, PTFE (TEFLON), INNER DIAM.=1,6mm, OUTER DIAM.=3,2mm, WALL=0,8mm TUBING, RIGID, CHEMICAL RESISTANT, CYAN OR BLACK, INNER DIAM=5,5mm, OUTER DIAM.=8mm

 

 

 

TPE-E 5,5x8

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N

235/382

2 1

+24V_2F-RTN +24V_2F

PA RT O F W 0 7 A W G 18

2 1

TB 4 E 1 2

B LU E

TB 5 E 1 3

B LU E

TB 6 E 4

B LU E

TB 7 E 5

B LU E

TB 8 E 6

B LU E

TB 9 E 7

A W G 18 RED

+ 2 4 V -R TN 4 m m q B LK E14

F7 1 A D LY E15

E11

F6 2 A D LY E12

W 03

-S N S _ 2 4 V 2

M A X TO T. O U TP U T PO W ER=650 W

+12V OU T

+12V + E3

E20 E16

+ 12V @ 18A m a x ( N O TE # 2 )

F5 6 ,3 A D LY E8 E9

E4 E5

F4 6 ,3 A D LY E6

G R E Y TB 1 1 E 1 5

E10

G R E Y TB 1 3 E 9 G R E Y TB 1 4 E 1 0

E7 G R E Y TB 1 5 E 1 1

F8 6 ,3 A D LY E17 E18

-S N S _ 1 2 V 1 INH +Ve -V_SNS INH -Ve SHARE UNUSED SHARE GOOD-C +V_SNS GOOD_E UNUSED

G R E Y TB 1 0 E 1 4

G R E Y TB 1 2 E 8

E13

+12 V SEN S

IN P C TR L

E19 G /V

TB 1 6 E 3

+SN S _12V 2

B LU E

D ET# 2

+ 1 2 V -R TN 4 m m q B LK

+12V C TR L

B LU E

TB 1 8 E 2

E24

+ 5 V _ A U X-R TN + 5 V _ A U X -R TN

TO M G N D ( SC R E W E D O N TH E B A SE O F TH E C H A SSIS M 4 )

+ 5V _A U X + 5V _A U X

G R E Y TB 2 0 E 1

E21 4 m m q RED A D JU ST O U TP U T TO G IV E + 1 3 V O N TH E LO A D ( C O O LIN G P E LTIE R C E LLS IN O N C O N D ITIO N )

+12V_INH

+5V_AUX +5V_AUX +5V_AUX-RTN +5V_AUX-RTN

PA RTO F W 0 7

W 0 7 -P 1 4

+ 5V a ux @ 100m A m a x

+ 24V _C + 24V _1 + 24V _2 + 24V _3 + 24V _4 + 24V _5 + 24V _6 + 24V _7 + 24V _8 + 24V _9

P A RTO F W 0 7 2 4 V D C _ C O N TR P A RTO F W 07 P A RTO F W 07

TB 1 7 E 1 6

F3 1 5 A D LY W 0 7 -P 1 5

R1 2K20

P A RTO F W 07

G R E Y TB 1 9 E 1 7

E7

+ 2 4 V _ C -R TN + 2 4 V _ 1 -R TN + 2 4 V _ 2 -R TN + 2 4 V _ 3 -R TN + 2 4 V _ 4 -R TN + 2 4 V _ 5 -R TN + 2 4 V _ 6 -R TN + 2 4 V _ 7 -R TN + 2 4 V _ 8 -R TN + 2 4 V _ 9 -R TN

E2

+ 1 2 V -R T N -

D ET# 1

M G ND_C M G ND_1 M G ND_2 M G ND_3 M G ND_4 M G ND_5 M G ND_6

P/N:

10 9 8 7 6 5 4 3 2 1

LA M B D A P / N V 6 0 7 B 3 D

6 5 4 3 2 1

FIX E D O N M GND E XTE R N A L P LU G ( SC R E W M 6 )

N

V in n o m = 1 0 0 -2 4 0 V a c @ 4 7 -6 3 H z ------------------LO W LE A K . C U R R .= 0 ,3 m A

W 02 2 ,5 m m q Y/G

+24V +

10 9 8 7 6 5 4 3 2 1

M G ND

F2

B LU E

+SN S _24V 1

PE' E6

M GND

TB 3 E 3

+ 24V

E1

+24 V MO D 2 SEN S

L A1

N ' E4

N'

TB 2 E 2

G /V

+SN S _24V 2

+5V_AUX

E8

L'

G /V

+24 V MO D 1 SEN S

INH_1IN INH_0IN +5V_AUX 0V_AUX FAIL_E FAIL_C

M A IN B R E A K E R

L' E 5

TB 1 E 1

+24V O U T

D ET# 2

IN P U T

L1 10A

G /V

+ 24V @ 18A m a x ( N O TE # 1 )

-S N S _ 2 4 V 1

W 01

PE' E2 N N' E3

1 1 0 -2 2 0 V a c PE @ 5 0 -6 0 H z N

D ET# 2

+24V MOD1 C TR L

+ 2 4 V -R T N -

F1 L' E 1 L

+24V MOD2 C TR L

INH +Ve -V_SNS INH -Ve SHARE UNUSED SHARE GOOD-C +V_SNS GOOD_E UNUSED

10 9 8 7 6 5 4 3 2 1 INH +Ve -V_SNS INH -Ve SHARE UNUSED SHARE GOOD-C +V_SNS GOOD_E UNUSED

3 x 1 ,5 m m q SH E A TE D M A IN C A B LE

W 0 7 -P 1 3

A 23 1 0 1 1 0 -0 0 -A 2 4 V FA N A SSY

2 4 V FA N A SSY R E A R O F U N IT

+

W 0 7 -P 1 2

A1 P / N 1 0 3 6 9 -0 0 -A P O W E R SU P P LY A SSE M B LY

L

M G ND_9

C A SE IN M E C H A N IC A L TO U C H W ITH C H A SSIS O F TH E U N IT

SW 1

2 1

A W G 18

N O TE : SU P P LY C A B LE S M U ST B E W IR E D FA R A W A Y FR O M P .S. O U TP U T C A B LE

J1

W 0 7 -J2 P 1

+ 2 4 V _ IN H + 2 4 V _ IN H

+ 5 V _ A U X -R TN + 5 V _ A U X -R TN

2 x FU SE S = 1 0 A D LY ( T-TYP E ) A N TISU R G E G LA SS

A 22 1 0 1 1 0 -0 0 -A 2 4 V FA N A SSY

2 4 V FA N A SSY B O TTO M O F U N IT

10706-01-D

+5V _A U X +5V _A U X P A RTO F W 0 7

2 1

P A RTO F W 0 7

1

SW ITC H C LO SE D = + 2 4 V O U TP U T D ISA B LE D

W 0 7 -J1 P 1

2 4 V LE D _ K

E22

E23

G /V

+ 1 2 V -R TN R2 9 1 0 R 2 ,5 m m q +12V

P A RTO F W 07 P A RTO F W 07 P A RTO F W 07 P A RTO F W 07

TB 2 1 P A RTO F W 07

2 4 V D C -1 2 4 V D C -2 2 4 V D C -3 2 4 V D C -4 2 4 V D C -5 2 4 V D C -6 2 4 V D C -7 2 4 V D C -8

A W G 18 P A RTO F W 07

+ 1 2 V _ IN H

MIURA 200 Unit

2

2 4 V LE D _ A

-

K G REEN

W 0 7 -P 1 0 4 4 3 3 2 2 1 1

4 3 2 1

+

J1

A

-

SW 2 P / N 1 0 3 6 8 -0 0 -A

Page 1 of 10

MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

2 4 V D C -9

1 ,5 m m q

1

FR O N T V IEW S

D ET # 1

654321

12V D C

A

1 2 3 4

1 1 2 2 3 3 4 4

PA RT O F W 0 7

Title:

J 1 W 0 7 -P 1 1 K

SW ITC H C LO SE D = + 1 2 V O U TP U T D ISA B LE D

PA RTO F W 08

2

1 2 V LE D _ K 1 2 V LE D _ A

B LU E A W G 18

Electrical drawing

SW 3 P / N 1 0 3 6 8 -0 1 -A

D ET # 2 10 8 6 4 2

9 7 5 3 1

FIXE D O N B O TTO M OF R E A G E N T TR A Y ( Te m p SE N SO R )

W 02 M G ND

FIX E D O N B O TTO M OF R & S TR A Y

N O TE S: 1 - A 1 "+ 2 4 V O U TP U T": + 1 8 , 2 V TO + 3 2 , 4 V A D J U STA B LE R A N G E 2 - A 1 "+ 1 2 V O U TP U T": + 9 , 1 V TO 1 6 , 2 A D J U STA B LE R A N G E 3 - N .A . 4 - V E R . 0 1 FO R 1 3 -B IT E N C O D E R U SE D A S 1 2 -B IT

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MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

W 1 3 -P 3

10706-01-D

+5V -5V EGND MGND

+12V EGND MGND

W 0 7 -P 7

SERV IC E ( N O T U SED )

SER V IC E (N O T U SED )

P/N:

W 1 0 -P 1

J3 0 1 2 3 4

RS2 3 2 P C SERV IC E C O N N EC TIO N (O P TIO N A L - A C TU A LLY N O T U SED )

J2 9 1 2 3

J2 8 1 2 3

J6 1 2 3 4 5 6 7 8

J3

+24V EGND MGND

VDCP RXD-IN TXD-OUT MGND RS232-GND VDCP-RTN RTS CTS

N.C. N.C. RXD N.C. TXD N.C. N.C. N.C. SGND N.C.

J2

1 2 3 4 5 6 7 8 9 10

1 2 3 4 5 6 7 8 9 10

N.C. N.C. RXD RTS TXD CTS N.C. N.C. SGND N.C.

P A RT O F A 2 O P P C O N TRO LLER A SSEM BLY V ER.0 1 P / N 1 0 0 1 6 -0 1 -C

W 13 FLA T 4 0 X A W G 2 8 2 4 V D C _ C O N TR

W 1 3 -P 2

J1

P1

P2

P3

P4

J2

1 2 3 4

W 1 3 -J4 1 2 3 4

W 1 3 -J3 1 2 3 4

W 1 3 -J2 1 2 3 4

W 1 3 -J1 1 2

W 1 3 -P 1

RS2 3 2 P C O P ERA TIV E C O N N EC TIO N

+24V +24V-RET +24V +24V-RET

MWPHA MWPHB MWPHC MWPHD

MBPHA MBPHB MBPHC MBPHD

MAPHA MAPHB MAPHC MAPHD

ISE M O D U LE REA G EN T BU TTO N

Title:

ISE M O D U LE - C O N TRO LLER

ISE M O D U LE P U M P A SSEM BLY

Electrical drawing

N.C. RXD TXD N.C. SGND N.C. N.C. N.C. N.C.

DATA GND

1 2 3 4 5 6 7 8 9

1 . . . . . . . 40

P A RT O F W 0 7

W 1 0 -J2

MIURA 200 Unit

W 10 FLA T 1 0 X A W G 2 8

A 26 ISE M O D U LE A SSEM BLY - 4 C H A N N ELS P / N 1 0 7 2 6 -0 0 -A (C O N TRO LLE R, TU BIN G S, P U M P S A N D REA G EN T BU TTO N FRO M M ED IC A C O RP .)

O P TIO N A L

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MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

W 18- P 3

PART O F W 18

P/N:

W 18- P 4

PART O F W 18

PART O F W 18

S A M P- H O M E

REAG - H O M E

O PTO - D I L 1

ARM 1- Y HO M E

ARM 1- X HO M E

O PTO - D I L 2

ARM 2- Y HO M E

ARM 2- X HO M E

F L T- H O M E

W SH -H O M E

CVT- H O M E

TO W 18- J 2

TO W 18- J 3

TO W 18- J 4

TO W 18- J 5

TO W 18- J 6

TO W 18- J 7

TO W 18- J 8

TO W 18- J 9

TO W 18- J 1 0

TO W 18- J 1 1

TO W 18- J 1 2

TO 0, 5 M L DI L U TO R1 TO O PP ARM 1 AS S E M BL Y AS S E M BL Y ( H O M E S E NS O R) ( Y - H O M E S E NS O R)

TO O PP ARM 1 AS S E M BL Y (X-H O M E S E NS O R)

TO O PP S & R AS S E M BL Y ( S A M PL E S E NS O R)

TO O PP S & R AS S E M BL Y ( R EAG ENT HO M E S E NS O R)

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

NO T US E D

NO T US E D

NO T US E D

TO O PP R&W AS S E M BL Y ( F L T- H O M E S E NS O R)

TO O PP R&W AS S E M BL Y ( W SH -H O M E S E NS O R)

Electrical drawing

Title:

PART O F W 18

F L T _ H O M E F L T _ A N O D E W S H _ H O M E W S H _ A N O D E C V T _ H O M E C V T _ A N O D E + 5 V E G N D

1 2 3 4 5 6 7 8

W 18- P 2

MIURA 200 Unit

W 18- P 1

J22 1 2 3 4 5 6 7 8

J21

1 2 3 4 5 6 7 8

J1 9

1 2 3 4 5 6 7 8

J17

D I L 2 _ H O M E D IL 2 _ A N O D E A 2 Y _ H O M E A 2 Y _ A N O D E A 2 X _ H O M E A 2 X _ A N O D E + 5 V E G N D

S P R M N _ H O M E S P R M N 2 _ A N O D E S M P _ H O M E S M P _ A N O D E R G T _ H O M E R G T _ A N O D E + 5 V E G N D

D I L 1 _ H O M E D IL 1 _ A N O D E A 1 Y _ H O M E A 1 Y _ A N O D E A 1 X _ H O M E A 1 X _ A N O D E + 5 V E G N D

PART O F A2 O PP C O NTR O L E R AS S E M BL Y VER. 0 1 P/ N 10016- 0 1- C

TO O PP R&W AS S E M BL Y ( C VT- H O M E S E NS O R)

238/382

Electrical drawing

Title:

MIURA 200 Unit

P/N:

10706-01-D

Page 4 of 10

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MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

1 2 3 4 5 6 7 8 9 10

N.C . HAL_LMP N.C . INC _HTR N.C . TEM_DRV N.C . TEM_OPT N.C . EGND

10706-01-D

PA RTO F A 2 O P P C O N TRO LLE R A SS E M B LY V E R . 0 1 P / N 1 0 0 1 6 -0 1 -C

J14

W 1 7 -P 1

N O T U SE D

1 2 3

BLUE

+12V_RMT +12V_RMT-RTN MGND

+12V +12V-RTN MGND

2 1 FAN-

FAN+ 2

FAN-

FAN+ 1

P1 J1 2 1

3

4 BLAC K

RED

RED

TEM-

BLAC K

TEM-

E1 E2 E3 E4

W 06 A W G 22

A 27

A 28

A 29

A 30

P E LTIE R M O D U LE S ( RE A G E N T TR A Y C O O LE R)

1 2

1 2

1 2

Title:

BLUE -

BLUE

RED +

RED

BLUE -

+ T EM

+ TEM

+ T EM

+ -

8 ,5 A @ 8 ,6 V 3 8.5 W x 4

TEM

TO O P P R & W A SS E M BLY ( C U V E TTE S IN C U B A TIO N H E A TE R STR IP )

A 31 4 X 1 0 1 1 2 -0 0 -A 1 2 V 6 0 x 6 0 F A N A S SY

A 32

A 33

A 34

P E LTIE R C O O LIN G FA N S ( RE A G E N T TR A Y C O O LE R)

1 2

P1

TO O P P R & W A SS E M BLY ( H A LO G E N R E A D IN G LA M P )

Electrical drawing

EV-POS EV-NEG

A 16 A R M D ILU TO R A SSE M B LY P / N 1 0 3 5 8 -0 0 -C

TO O P P S& R A SS E M BLY ( RE A G A SSY TE M P SE N SO R)

RED

TO W 0 9 -J 1

+

TO W 0 2 -J 1

RED

TO A 3

J5 P1

B LK R E D

+

A R M D ILU TO R E V

C V T-IN C

-

DIL_HOME DIL_ANODE +5V EGND

5 0 0 u L D ILU TE R

F LT-LM P

BLUE

PHA+ PHAPHB+ PHB-

B LK R E D R E A G _ TE M P

J4 P1 1 2

J3 P1 1 2

J2 P1

-

P2

+

P1

1 2

W 1 8 -J 4

1 2

W 1 6 -J 1

1 2

A W G 18

1 2 3 4

1 2 3 4

TEM-

TEM+ RED

P A RT O F W 0 9

BLAC K

P A RT O F W 0 2

E1 E2 E3 E4

BLAC K

W 0 9 -P 1

4

1

W 0 2 -P 1

P A RT O F W 1 8

P A RT O F W 1 6 A W G 18

A W G 22

TB 1

TEM+

D IL1 -M O T TO W 1 6 -P 1

TEM-

TEM+

TEM+

VSW-P VSW-N

TB 2

J4

RED

TO STE P M O TO R D R IV E 2 X 1 . 5 A V E R . 0 1

J5

1 2

1 2

J3

O P TO _ D IL1

J6

A8 LH P P O W E R BO A R D P / N 1 0 7 6 2 -0 0 -A

V TE M P + EG N D +Vs M GND

VREG VREG-RTN

TO O P P P U M P S & D R IV E R S A 7 [A 1 -J 8 ]

+24V +24V-RTN N.C . MGND

J2 1 2 3 4

N O TU SED

-

P1

D IL2 -E V TO W 1 8 -P 1 2

J2

H E A T SIN K FA N ( FIX E D O N TH E B A SE ) A 35

+

W 1 8 -J 2 2

W 0 7 -P 1

1 2 3

J1

N.C . REG-ON N.C . SW-ON N.C . N.C . N.C . N.C . N.C . EGND

N O T U SE D

W 0 7 -P 6

1 2 3 4

1 2 3 4 5 6 7 8 9 10

W 1 7 -P 2

TO W 1 8 -P 2

12V D C

PA RTO F W 08

P/N:

W 1 8 -J 7

RED

W 1 6 -J 2

N O T U SE D

TO O P P C O N TR O LLE R A SS E M BLY

2 4 V D C -9

PA RTO F W 07 PA RTO F W 16 A W G 18

MIURA 200 Unit

PA RTO F W 18

3

TO STE P M O TO R D IL2 -M O T D R IV E 2 X 1 . 5 A V E R . 0 1 TO W 1 6 -P 2

W 17 FLA T 1 0 X A W G 2 8

2

TO O P P C O N TR O LLE R O P TO _ D IL2 A SS E M BLY TO W 1 8 -P 3

A R M 1 D ILU TO R

W 1 8 -J 2 1 D IL1 -E V TO W 1 8 -P 1 1 TO O P P P U M P S & D R IV E R S A 7 [A 1 -J 4 ]

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MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

W 2 4 -P 1

J4

1 2 3 4 5 6 7 8 9 10

1 2 3 4 5 6 7 8 9 10

J11

W 1 5 -P 1

SP A R E O U TP U TS

W 1 5 F LA T 1 0 X A W G 2 8

1 2 3 4

A1 P W R D R IV E R M O D U LE - 9 X 1 A V E R . 0 0

J2

O UT0 9-P O UT0 9-N

J1 1

1 2

O UT08 -P O UT08 -N

N O T U SE D

MIURA 200 Unit

W 1 8 -P 1 2

J1 0

1 2

O UT0 7-P O UT07 -N

J9

1 2

O UT06 -P O UT0 6-N

J8

W 1 8 -P 7

SP A RE PA RTO F W 18

C HTR2-A C HTR2-B

EV2-PO S EV2 -NEG

C HTR1-A C HTR1-B

V+ V-

EV1 -PO S EV1-NEG

W 1 8 -P 6 V+ V-

W 1 8 -P 1 1 V+ V-

J7

1 2

J6

O UT05 -P O UT05 -N

J5

1 2

O UT0 4-P O UT0 4-N

J4

1 2

O UT03 -P O UT0 3-N

J3

1 2

O UT0 2-P O UT02 -N

B U ZZE R

V A 2+ V A 2-

1 2

PA RTO F W 07

V A 1+ V A 1-

1 2

2 4 V D C -8

J1

INP-0 1 INP-0 2 INP-0 3 INP-0 4 INP-05 INP-06 INP-07 INP-08 INP-09 EG ND

J1 1 2 3 4

O UT01 -P O UT0 1-N

W 0 7 -P 8

P7

+24V EG ND +12V EG ND

1 2 3 4 5 6 7 8 9 10

W 1 5 -P 1

2 4 V D C -7

J10

P/N:

W 2 4 F LA T 1 0 X A W G 2 8

10706-01-D

BUZZER DIL1_EV DIL1_PM P WSH_PMP ARM1_C O IL DIL2 _EV DIL2 _PMP ARM2_C O IL SPARE_ISE EG ND

DIS0 _PMP ASP1 _PMP DIS2 _PMP ASP3_PM P DIS4_PM P ASP5_PM P DIS6_PM P ASP7_PM P SC V_PM P EG ND 1 2 3 4 5 6 7 8 9 10

SPRMN_O C O UT2-7 SPRMN_O C O UT2-5 SPRMN_O C O UT2-4 SPRMN_O C O UT2-3 SPRA1_O C O UT4-7 SPRA1_O C O UT4-5 SPRA2_O C O UT1 -6 SPRRW_O C O UT2-7 SPRRW_O C O UT2-4 EG ND

PA RTO F A 2 O P P C O N TR O LLE R A SS E M B LY V E R . 0 1 P / N 1 0 0 1 6 -0 1 -C

A R M 2 -H C O IL TO W 1 8 -J 1 4 N O T U SED

PA RTO F W 18

D IL2 -E V TO W 1 8 -J 2 2 N O T U SED

P2

1 2 3 4

J1

J2 PA RTO F W 18

W 1 8 -P 1 4 V+ V-

W 1 8 -P 1 3 V+ V-

V+ V-

V+ V-

V+ V-

J1 1

Title:

V+ V-

V+ V-

V+ V-

SP A RE

D IL1 -E V TO W 1 8 -J 2 1 TO A R M 1 D ILU TO R A S S E M B LY ( D IL E V )

1 2

J10 1 2

J9 1 2

1 2

J8

A R M 1 -H C O IL TO W 1 8 -J 1 3 TO O P P A R M 1 A S S Y ( A R M 1 C O IL H E A TE R )

O UT09 -P O UT0 9-N

O UT0 8-P O UT08 -N

O UT0 7-P O UT0 7-N

O UT06 -P O UT0 6-N

O UT0 5-P O UT05 -N

J7 1 2

J6 1 2

J5 1 2

1 2

J4

O UT04 -P O UT0 4-N

O UT03 -P O UT03 -N

O UT0 2-P O UT0 2-N

O UT01 -P O UT0 1-N 1 2

J3

PA RTO F W 18

+24 V EG ND +12 V EG ND

A2 P W R D R IV E R M O D U LE - 9 X 1 A V E R . 0 0

INP-01 INP-02 INP-03 INP-0 4 INP-0 5 INP-0 6 INP-0 7 INP-0 8 INP-0 9 EG ND

1 2 3 4 5 6 7 8 9 10

W 2 4 -P 2

D ILU TO R 1 P U M P

PA RTO F W 18

W 1 8 -J 2 3

W 1 8 -J 2 4 1 2

PA RTO F W 18

W A SH IN G SIN K P U M P

Electrical drawing

A7 O P P P U M P S & D R IV E R S P / N 1 0 2 1 7 -0 0 -E

1 2

D IS P E N S IN G N E E D LE 1 D IS P E N S IN G N E E D LE 2 D IS P E N S IN G N E E D LE 3 D IS P E N S IN G N E E D LE 4 D IS P E N S IN G N E E D LE 5 D IS P E N S IN G N E E D LE 6 PU M P PUM P PUM P PU M P PUM P PU M P

P1

P1

A 24 A25 ZR P A S P IR A TIO N P U M P ZR P A S P IR A TIO N P U M P P / N 1 0 9 3 8 -0 0 -A P / N 1 0 9 3 8 -0 1 -A S U C TIO N N E E D LE S P U M P SU C TIO N TIP P U M P

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Electrical drawing

Title:

MIURA 200 Unit

P/N:

10706-01-D

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MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

W 1 8 -P 5

J24

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

J18

W 1 8 -P 8

10706-01-D

SPRA1_O C INP2 -1 SPRA1_O C INP2-1-RTN SPRA1_O C INP2-0 SPRA1_O C INP2-0-RTN SPRA2_O C INP1-7 SPRA2_O C INP1-7-RTN SPRA2_O C INP1 -6 SPRA2_O C INP1 -6-RTN SPRA2_O C INP2 -0 SPRA2_O C INP2 -0-RTN SPRA2_O C INP2 -2 SPRA2_O C INP2-2-RTN SPRA2_O C INP2-1 SPRA2_O C INP2-1-RTN +5V EG ND

A1SW A1 SW-ANO DE A2 SW A2 SW-ANO DE WSHLPO S WSHLPO S-ANO DE +5V EG ND

SPRA1_O C INP1-4 SPRA1_O C INP1 -4-RTN ARM1_SNS ARM1_SNS-RTN SPRA2_O C INP1 -4 SPRA2_O C INP1 -4-RTN ARM2_SNS ARM2_SNS-RTN WSH_SNS WSH_SNS-RTN SPRRW_O C INP1-7 SPRRW_O C INP1-7-RTN MG ND +2 4V +5 V EG ND

PA RTO F A 2 O P P C O N TR O LLE R A S SE M B LY V E R .0 1 P / N 1 0 0 1 6 -0 1 - C

J20

SP A R E S IN P U T TO A R M 1 A S SE M B LY A N D A R M 2 A S SE M B LY

PA RTO F W 18

PA RTO F W 18

P/N:

A RM 1 -H C O IL TO W 1 8 -P 6 TO P W R D R I V E R M O D U LE - 9 X 1 A V E R . 0 0 )

PA RTO F W 18

W 1 8 -J1 3

W 1 8 -J 1 4

1 2 3 4 5 6 7 8 9 10

N O T U SED

W 0 4 -P 1

C HTR-A SNS-EG ND MG ND +5V O PTO -EG ND C HTR-B V+ SNS-OUT C -O UT ANO DE

MIURA 200 Unit

A RM 2 -H C O IL TO W 1 8 -P 7 TO P W R D R I V E R M O D U LE - 9 X 1 A V E R . 0 0 )

FLE X IB LE W I R I N G M O V IN G W I TH A R M

PA RTO F W 1 8

W 04

1 2 3 4 5 6 7 8 9 10

W 0 4 -P 2 W S H LP O S

C HTR-A C HTR-B SNS-EG ND V+ MG ND SNS-OUT +5 V C -O UT O PTO -EGND ANO DE

TO W 1 8 -J 1 5 TO O P P R & W A SS E M B LY ( W A SH I N G S TA TI O N LO W P O S ITIO N SE N SO R )

O P P A R M M O D U LE

A4 O P P A R M 1 A SS E M B LY P / N 1 0 1 9 8 -0 0 -A

Title:

Y -A X IS A R M 1 H O M E SE N S O R

W 1 6 -J 5

PA RTO F W 16

W 1 8 -J 6

PA RTO F W 18

N O T U SE D

N O T U SE D

N O T U SE D

1 2 3 4

1 2 3 4

1 2 3 4

1 2 3 4

N O T U SE D

Electrical drawing

+PA -PA +PB -PB

+PA -PA +PB -PB

Y -A X IS A R M 1 M O TO R A SSE M B LY

O UTPUT ANO DE +5V EG ND

X -A X IS A R M 1 H O M E SE N S O R

O UTPUT ANO DE +5V EG ND

X -A X IS A R M 1 M O TO R A SSE M B LY

W 1 6 -J 6

PA RTO F W 16

W 1 8 -J 5

PA RTO F W 18

W 1 6 -J 7

PA RTO F W 16

W 1 8 -J 9

PA RTO F W 18

W 1 6 -J8

PA RTO F W 16

W 1 8 -J8

PA RTO F W 18

X A R M 1 -M O T

A RM 1 -XH O M E

Y A R M 1 -M O T

A RM 1 -YH O M E

XA R M 2 -M O T

A R M 2 -X H O M E

YA R M 2 -M O T

TO W 1 6 -P 5

TO W 1 8 -P 2

TO W 1 6 -P 6

TO W 1 8 -P 2

TO W 1 6 - P 7

TO W 1 8 - P 3

TO W 1 6 - P 8

TO W 1 8 - P 3

TO S TE P M O TO R D RIV E 2 X1 .5 A V E R.0 2

TO O P P C O N TR O LLE R A S SE M B LY

TO S TE P M O TO R D R IV E 2 X 1 . 5 A V E R .0 2

TO O P P C O N TR O LLE R A S SE M B LY

TO S TE P M O TO R D R IV E 2 X 1 . 5 A V E R .0 2

TO O P P C O N TR O LLE R A S SE M B LY

TO S TE P M O TO R D R IV E 2 X 1 . 5 A V E R .0 2

TO O P P C O N TR O LLE R A S SE M B LY

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A R M 1 -Y H O M E

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J2 3 1 2 3 4 5 6

P1

W 1 1 -P 2

( 1 5 C O N D . SH IE LD E D C A B LE IN C LU D E D W ITH E N C O D E R SE E TA B LE O N TH IS P A G E )

PA RTO F W 09

W 11 (5 C O N D SH IE LD E D )

P/N:

P1

C V T-IN C

10706-01-D

J15

1 2 3 4

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

J25

VOUT-P VOUT-N VDC-P EGND VDC-N MGND

VTEMP+ EGND +Vs MGND

BIT1(LSB) BIT3 BIT5 BIT7 BIT9 BIT11 DIRECTION +EVOLT BIT2 BIT4 BIT6 BIT8 BIT10 BIT12(MSB) EGND

PA RTO F A 2 O P P C O N TR O LLE R A SSE M B LY V E R . 0 1 P / N 1 0 0 1 6 -0 1 -C

TO W 0 5 -P 1

W 0 9 -E 2

1 2

1 2 3 4 5 6

W 1 1 -P 1

C U V E TTE A SSE M B LY H O M E SE N SO R

C U V E TTE A SSE M B LY TE M P E R A TU R E SE N SO R

C U V E TTE S IN C U B A TIO N H E A TE R STR IP

TH E R M A L P R O TE C TIO N

Vout-P Vout-N VDC-P VDC-N EGND MGND

PROT-

V_1 V_2

OUTPUT ANODE +5V EGND

R E A D IN G C U V E TTE M O TO R A SSE M B LY

W 0 9 -E 1

W 0 9 -J 1

1 2 3 4

W 1 8 -J 1 2

+PA -PA +PB -PB

1 2 3 4

W 1 6 -J 9

MIURA 200 Unit

PA RTO F W 16

TO W 1 6 -J 9

RED

RED

C V T-M O T

PA RTO F W 0 9 PA RTO F W 18

PROT+

C V T-H O M E TO W 1 8 -P 4

1 2 -B IT M IU R A E N C O D E R ( A B S 1 3 -B IT--> 1 2 -B IT 5 V E N C O D E R , G R A Y, R E S4 0 9 6 , SYN C H R O , W ITH R A D IA L C A B LE )

P H O TO D IO D E SE N SO R

O P P C U V E TTE A SSE M B LY

A6 O P P R & W A SSE M B LY P / N 1 0 2 0 8 -0 1 -A O P P W A SH IN G STA TIO N

W A SH IN G STA TIO N LO W P O SITIO N SE N SO R

W 1 8 -J1 0

W 1 6 -J1 1

W 1 8 -J1 1

W 1 8 -J1 5

PA RTO F W 16

PA RTO F W 18

PA RTO F W 16

PA RTO F W 18

PA RTO F W 18

FLT-LM P

FLT-M O T

FLT-H O M E

W SH -M O T

W SH -H O M E

W SH LP O S

TO W 0 2 -P 1

TO W 1 6 -P 1 0

TO W 1 8 -P 4

TO W 1 6 -P 1 1

TO W 1 8 -P 4

TO W 1 8 -P 8

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Electrical drawing

1 2 3 4

E4

W 1 6 -J 1 0

W 0 2 -J 1

PA RTO F W 02

W A SH IN G STA TIO N H O M E SE N SO R

FIXE D O N TO P O F R & W A SSE M B LY

W2 M GND E3

1 2 3 4

1 2 3 4

1 2

V+ V-

+PA -PA +PB -PB

OUTPUT ANODE +5V EGND

FIXE D O N TO P O F O P TIC A L G R O U P

W A SH IN G STA TIO N M O TO R A SSE M B LY

E2

OUTPUT ANODE +5V EGND

E1

1 2 3 4

FILTE R W H E E L H O M E SE N SO R

OUTPUT ANODE +5V EGND

FILTE R W H E E L M O TO R A SSE M B LY

1 2 3 4

H A LO G E N R E A D IN G LA M P

FIXE D O N TO P O F R & W A SSE M B LY

W1 M GND

+PA -PA +PB -PB

FIXE D O N B O TTO M O F C U V E TTE P LA TE

Title:

O P P O P TIC A L G R O U P

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MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

- W IR IN G FO R FLU ID S H Y D R A U LI C S C H EM ATI C

A4 O P P A RM 1 A SSEM B LY

W A S H I N G S TA TI O N , S I N K A N D W A S TE C I R C U IT

A1 O P P A RM M O D U LE

HM 4 O U TP U T M A N IFO LD

H T3

EX TER N A L

H T5 A1 A RM 1 C O IL H EA TER

H T7

HM 5 R ED

10706-01-D

SA M P LI N G C I R C U I T S

H T6

HM 1

A 24 HM 1

HM 1

HM 2

HM 2

ZRP ASPIRATION PUMP VER.00

A 16 A RM 1 D ILU TO R A SSEM B LY

H T1

A7 O PP PU M PS & D RIV ERS ZRPASPIRATION PUMPVER.01

HM 2

A9

A 11

A 10

A8

A7

A6

A5

A3

A4

A2 3 -

2 1 + H M 3 A RM D ILU TO R LV M EV

HM 2

W A SH IN G D ISP E N SIN G D ISP EN SIN G D ISP E N SIN G D ISP EN SIN G D ISP E N SIN G D ISP EN SIN G D ILU TO R 1 D ILU TO R2 SIN K N EE D LE6 N EED LE5 N EE D LE4 N EED LE3 N EE D LE2 N EED LE1 PU M P PU M P PU M P PU M P PU M P PUM P PU M P PUM P PU M P

HM 1

P/N:

A 25

A1 0 .5 M L D ILU TO R A SSEM B LY

MIURA 200 Unit

M

SU C TIO N TIP PU M P

H T1 6

SU C TIO N N EE D LES PUM P

HM 2 HM 3 HM 4 HM 5 HM 6 HM 7 HM 8 HM 9 HM 10 HM 11 HM 12 HM 13 HM 14 HM 15 HM 16 HM 17 HM 18 HM 19 HM 20

HM 8 HM 9

HM 21

H T8 H M 6 BLU E

HM 20 HM 1 IN P U T M A N IFO LD

H T9 H M 7 G RE EN

HM 10

HM 11

HM 12

HM 13

HM 14

HM 15

H T1 0

H T1 1

H T1 2

H T1 3

H T1 4

H T1 5

HM 16

HM 17

HM 18

HM 19

HM 20

HM 21

HM 9 W A SH IN G STA TIO N M A N IFO LD

HM 3 W A SH IN G SIN K

TIP

A3 O P P W A SH IN G STA TIO N

N EED LE7 N EED LE6

N EE D LE5

N EED LE4

N EE D LE3

N EED LE2

N EE D LE1

A3

A5

A4

LIQ U ID 1 TA N K

LIQ U ID 2 TA N K

W A STE TA N K ( D ISC H A RG E )

G RE EN

BLU E

RED

Electrical drawing

HM 1 A RM 1 N EED LE ( SA M P LES)

H T1 H T6 H T4 H T2

Title:

HM 23 HM 22

FU LL/ EM P TY LIQ U ID LEV EL M O N ITO RE D BY FLO A T LE V E L SE N SO RS

A6 O P P R& W A SSE M BLY

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

4.2.

Schematics and Part Lists for MIURA Unit Sub-assemblies and Wirings

This paragraph and its sub-paragraphs include electrical drawings and part lists for MIURA 200 Unit for the main instrument sub-assemblies including wirings. NOTE: Not all parts have been included: only those different from MIURA – parts and subassemblies in common with the MIURA system will not be represented here as available in the paragraphs above. Part lists show only components available for servicing. Schematics have also been given with the aim to help trouble shooting.

4.2.1.

OPP Controller Assembly P/N 10016-01-C

This assembly includes a local DC/DC converter power supply, the controller boards of the unit and a mother board A1 (OPP Controller Mother Board P/N 10030-00-C). This assembly is contained into a rack and collects all small signals to/from sensors and driver boards. The DC/DC power supply A6 (CNT Power Supply P/N 10028-01-A) converts the +24VDC into the DC low voltages used by the digital and analog circuits. Differently from MIURA, in MIURA 200 system the controller boards are not four but only three:  A2 – R&W Controller P/N 10012-04-C, controls Read and Wash Assembly.  A3 – MAIN Controller Ver.01 P/N 10012-01-D, controls the Unit and Sample and Reagent Assembly.  A4 – ARM1 Controller P/N 10012-02-C, controls ARM1 Assembly (Sample ARM). The controller boards are intra-connected through two busses: one for data and macro-command (Rx/Tx bus) the other for synchronisms (SPI bus). The Rx/Tx bus is accessed also by the Personal Computer through the Main Controller board that provides the adapter. If the Unit is equipped with the ISE Module, the ARM1 controller board manages the communication with it too.

Figure 133: OPP Controller Assembly Ver.01 - Front View If needed, it is possible to extract each of these four boards by sliding them away: pay attention not to touch on-board electronic components as they can be ESD sensitive and not to bend or damage boards. Use a standard hook extractor for Eurocards 100x160mm. If needed, the Mother Board can be disassembled after having disconnected the wirings and dismounted the rack from the mechanics. Screw away seven upper screws and seven lower screws. During replacing with a new one, take care about the alignments to allow correct boards insertion.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

Refer to the following layout to find information on the connection of the wiring connectors into the Controller Assembly backplane (Mother board).

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

Figure 134: OPP Controller Assembly Ver.01 - Back View, Connectors to Unit Wirings

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

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MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

Part List Pos. 1 2 3 4 5 6 7

Ref. Designator A1 A2 A3 A4 A5 A6  

Title: OPP Controller Assembly – Ver.01 Q.ty

UoM

1 1 1 1 1 1 1

PZ PZ PZ PZ PZ PZ PZ

Description OPP CONTROLLER MOTHER BOARD R&W CONTROLLER MAIN CONTROLLER VER.01 ARM1 CONTROLLER NOT USED CNT POWER SUPPLY RACK, 3U/160/52TE

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P/N: 10016-01-C Value

Rating

Toler.

             

             

             

P/N 10030-00-C 10012-04-C 10012-01-D 10012-02-C 10012-03-C 10028-01-A SUBRACK SERIE ARGENTO "A" MILC-21097

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Page 1 of 2

MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

A3

A4

A6

R & W CONTR O L E R P / N 1 0 1 2 -0 4 -C

MAIN CONTR O L E R VE R . 0 1 P / N 1 0 1 2 -0 1 -C

AR M 1 CONTR O L E R P / N 1 0 1 2 -0 2 -C

S P A R E S LO T

J1

J1

P1

P2

P3

CNT P O WE R SU P LY P / N 1 0 2 8 -0 3 -A

S P A R E S LO T

J1 P/N:

J1

10016-01-C

A2

P5

P6

OPP Controller Assembly – Ver.01

P4

P A R T OF A1

J1

TO / F R O M P C SE R V IC E CONNE C TIO N ( R S-2 3 2 )

J2

OP TI O NAL ACTU ALLY NOT US E D

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

TO / F R O M P C OP E R A TIV E CONNE C TIO N ( R S-2 3 2 )

J3

OUTP U T O LO AD DR IV E R S

J4

J5

Title:

S P R M N _ O C O U T 2 7 S P R M N _ O C O U T 2 5 S P R M N _ O C O U T 2 4 S P R M N _ O C O U T 2 3 S P R A 1 _ O C O U T 4 7 S P R A 1 _ O C O U T 4 5 S P R A 2 _ O C O U T 1 6 S P R R W _ O C O U T 2 7 S P R R W _ O C O U T 2 4 E G N D

M O T D I L 1 _ S T E P M O T D I L 1 _ D I R M O T D I L 1 _ E N B M O T D I L 1 _ T R Q M O T D I L 2 _ S T E P M O T D I L 2 _ D I R M O T D I L 2 _ E N B M O T D I L 2 _ T R Q + 5 V E G N D

M O T A 2 X _ S T E P M O T A 2 X _ D I R M O T A 2 X _ E N B M O T A 2 X _ T R Q M O T A 2 Y _ S T E P M O T A 2 Y _ D I R M O T A 2 Y _ E N B M O T A 2 Y _ T R Q + 5 V E G N D

M O T A 1 X _ S T E P M O T A 1 X _ D I R M O T A 1 X _ E N B M O T A 1 X _ T R Q M O T A 1 Y _ S T E P M O T A 1 Y _ D I R M O T A 1 Y _ E N B M O T A 1 Y _ T R Q + 5 V E G N D

TO / F R O M ISE MODULE ( R S-2 3 2 )

J6

OUTP U T O AR M 1 X & Y MOTO R DR IV E R S

J7

SPA RE

OP TIO NAL ACTU ALLY NOT US E D

J8

OUTP U T O AR M 1 DILU TO R & S P A R E DILU TO R MOTO R DR IV E R S

J9

1 2 3 4 5 6 7 8 9 1 0

1 2 3 4 5 6 7 8 9 1 0

1 2 3 4 5 6 7 8 9 1 0

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8 9 1 0

OUTP U T O SM P & RG T MOTO R DR IV E R S

SPA RE OUTP U TS

J10

Electrical drawing

TO / F R O M B A R -C ODE R E A DE R ( R S-2 3 2 )

1 2 3 4 5 6 7 8 9 1 0

1 2 3 4 5 6

1 2 3 4 5 6 7 8 9 1 0

V D C P R X D I N T X D O U T M G N D R S 2 3 2 G N D V D C P R T N R T S C T S

M O T S M P _ S T E P M O T S M P _ D I R M O T S M P _ E N B M O T S M P _ T R Q M O T R G T _ S T E P M O T R G T _ D I R M O T R G T _ E N B M O T R G T _ T R Q + 5 V E G N D

N . C . N . C . R X D N .C . T X D N .C . N .C . N .C . S G N D N .C . 1 2 3 4 5 6 7 8 9 1 0

B U Z Z E R D I L 1 _ E V D I L 1 _ P M P W S H _ P M P A R M 1 _ C O I L D I L 2 _ E V D I L 2 _ P M P A R M 2 _ C O I L S P A R E _ I S E E G N D

N . C . N . C . R X D R T S T X D C T S N .C . N .C . S G N D N .C .

+ 5 V T X _ R S 2 3 2 E G N D R X _ R S 2 3 2 R E A D _ T R I G M G N D

1 2 3 4 5 6 7 8 9 1 0

OP P CONTR O L E R MOTH E R B O AR D P / N 1 0 3 0 -0 -C

OP TIO NAL ACTU ALLY NOT US E D

250/382

S P A R E I N P U TS TO A RM 1 & A R M 2 A S E M B LIE S

O P TI O N A L A C TU A L Y N O T U SE D

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

IN P U T FRO M SP A RE H O M E O P TO SE N SO R S J21 J2 J23

IN P U T FRO M FR O M IN P U T FRO M FILTE R WH E L, P H O TO D IO D E PRO TE C TIO N & SE N SO R S WSH STA TIO N & C UV ETE HO M ES O P TO S E N S O R S J24 J2 5

FRO M C U V E T E IN P U T F RO M A S Y A S EM B LY MA IN A S EM B LY TE M P E R A TU R E S E N S O R S SE N SO R J2 6 J2 7 J2 8 J29 E G N D V T M P _ O U T E G N D + 5 V E G N D N T E M _ O N E G N D N C O O L A L M E G N D M G N D

+ 5 V 5 V E G N D M G N D

O P C O N TR O L ER MOTH ER B O A RD P / N 1 0 3 0 - 0 -C

J3 0

OPP Controller Assembly – Ver.01

D I L 1 _ H O M E D I L 1 _ A N O D E A 1 Y _ H O M E A 1 Y _ A N O D E A 1 X _ H O M E A 1 Y _ A N O D E + 5 V E G N D

S P R M N _ H O M E S P R M N 2 _ A N O D E S M P _ H O M E S M P _ A N O D E R G T _ H O M E R G T _ A N O D E + 5 V E G N D

P/N:

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6

IN P U T FRO M A RM 1 , A RM 2 & R& W A S E M B LIE S E N SO R S + SP A RE S

J3 1

Title:

1 2 3 4 5 6 7 8 9 1 0

+ 1 2 V E G N D M G N D

S P R A 1 _ O C I N P 1 4 S P R A 1 _ O C I N P 1 4 R T N A R M 1 _ S N S A R M 1 _ S N S R T N S P R A 2 _ O C I N P 1 4 S P R A 2 _ O C I N P 1 4 R T N A R M 2 _ S N S A R M 2 _ S N S R T N W S H _ S N S W S H _ S N S R T N S P R R W _ O C I N P 1 7 S P R R W _ O C I N P 1 7 R T N M G N D + 2 4 V + 5 V E G N D

1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6

1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5

IN P U TF RO M SP A RE, SM P H O ME & RG TH O M E O P TO S E N S O R S J1 7 J1 8

1 2 3 4

1 2 3

V T M P 2 + E G N D + V s M G N D

B I T 1 ( L S B ) B I T 3 B I T 5 B I T 7 B I T 9 B I T 1 1 D I R E C T I O N + E V O L T B I T 2 B I T 4 B I T 6 B I T 8 B I T 1 0 B I T 1 2 ( M S B ) E G N D

1 2 3 4 5 6 7 8 9 1 0

J1 6

+ 2 4 V E G N D M G N D

S P R M N _ O C I N P 2 1 S P R M N _ O C I N P 2 1 R T N S P R M N _ T T L I N P 4 5 S P R M N _ T T L I N P 4 5 R T N S P R M N _ T T L I N P 4 4 S P R M N _ T T L I N P 4 4 R T N S P R M N _ T T L I N P 4 3 S P R M N _ T T L I N P 4 3 R T N S P R M N _ T T L I N P 4 2 S P R M N _ T T L I N P 4 2 R T N S P R M N _ T T L I N P 4 1 S P R M N _ T T L I N P 4 1 R T N S P R M N _ T T L I N P 4 0 S P R M N _ T T L I N P 4 0 R T N + 5 V E G N D

N . C . H A L _ L M P N . C . I N C _ H T R N . C . S P R M N _ O C O U T 4 5 N . C . N . C . N . C . E G N D

S P A R E T L I N P U TS TO MA IN A S EM B LY

1 2 3

1 2 3 4

D I S _ S N S D I S _ S N S R T N L I Q 2 _ S N S L I Q 2 _ S N S R T N L I Q 1 _ S N S L I Q 1 _ S N S R T N S P R M N _ O C I N P 1 4 S P R M N _ O C I N P 1 4 R T N N . C . E G N D L I Q C _ S N S L I Q C _ S N S R T N C V R _ S N S + 5 V C V R _ A N O D E E G N D

V T M P 1 + E G N D + V s M G N D

PA RT O F A 1

1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6

1 2 3 4

A 1 S W A 1 S W A N O D E A 2 S W A 2 S W A N O D E W S H L P O S W S H L P O S A N O D E + 5 V E G N D

V O U T P V O U T N V D C P E G N D V D C N M G N D

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8 9 1 0

O U TP U T O WSH MO TO R O U TPU T O IN P U TFRO M & SPA RE MO TO R P W R SW ITC H & 1 2 -B IT A BSO LU TE R E G U L A TO R E N C O D E R D RIV ER S J13 J1 4 J15

FR O M + 2 4 V D C P + 1 2 V D C P + / -5 V D C P C O LE R A S E M B LY EN V IRO N M E N TA L IN PU T ( SER V IC E) ( SE RV IC E) C O M MA N D & C O N TRO L ( O TI O N A L C O N E C TI O N ) TE M P E R A TU R E S U P L Y SE N SO R

O P TI O N A L O P TI O N A L A C TU A L Y A C TU A L Y N O T U SED N O T U SED

Electrical drawing

J20 1 2 3 4 5 6

M O T W S H _ S T E P M O T W S H _ D I R M O T W S H _ E N B M O T W S H _ T R Q M O T S P R M N _ S T E P M O T S P R M N _ D I R M O T S P R M N _ E N B M O T S P R M N _ T R Q + 5 V E G N D

J12

F L T _ H O M E F L T _ A N O D E W S H _ H O M E W S H _ A N O D E C V T _ H O M E C V T _ A N O D E + 5 V E G N D

1 2 3 4 5 6 7 8 9 1 0

1 2 3 4 5 6 7 8 9 1 0

O U TP U T O C V T & FLT MO TO R D RIV ERS

1 2 3 4 5 6 7 8

M O T C V T _ S T E P M O T C V T _ D I R M O T C V T _ E N B M O T C V T _ T R Q M O T F L T _ S T E P M O T F L T _ D I R M O T F L T _ E N B M O T F L T _ T R Q + 5 V E G N D

D I S 0 _ P M P A S P 1 _ P M P D I S 2 _ P M P A S P 3 _ P M P D I S 4 _ P M P A S P 5 _ P M P D I S 6 _ P M P A S P 7 _ P M P S C V _ P M P E G N D

J1

D I L 2 _ H O M E D I L 2 _ A N O D E A 2 Y _ H O M E A 2 Y _ A N O D E A 2 X _ H O M E A 2 X _ A N O D E + 5 V E G N D

S P R A 1 _ O C I N P 2 1 S P R A 1 _ O C I N P 2 1 R T N S P R A 1 _ O C I N P 2 0 S P R A 1 _ O C I N P 2 0 R T N S P R A 2 _ O C I N P 1 7 S P R A 2 _ O C I N P 1 7 R T N S P R A 2 _ O C I N P 1 6 S P R A 2 _ O C I N P 1 6 R T N S P R A 2 _ O C I N P 2 0 S P R A 2 _ O C I N P 2 0 R T N S P R A 2 _ O C I N P 2 2 S P R A 2 _ O C I N P 2 2 R T N S P R A 2 _ O C I N P 2 1 S P R A 2 _ O C I N P 2 1 R T N + 5 V E G N D

O U TP U T O WSH STA TIO N PU M P D RIV ERS

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6

IN P U T FRO M A RM 1 H O M E O P TO SE N SO R S

J1 9 10016-01-C

O P TI O N A L A C TU A L Y N O T U SED Page 2 of 2

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MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

4.2.2.

OPP Pumps & Drivers Ver.01, P/N 10217-01-E

This assembly is controlled by the OPP Controller Assembly P/N 10016-01-C and includes two boards (Power Driver Module – 9x1A, P/N 10006-00-C) for powering loads. It includes the following main parts:  2 Power Driver Modules;  6 peristaltic pumps for dispensing (washing station);  1 diagphram pumps for rinsing (one sampling probe washing – ARM);  1 diagphram pump for aspiration (washing sink). The pumps are connected to the power boards respecting the pictures below. DIS3

DIS1

DIS2

DIS5 DIS4

SPAR TIP ARM1-EV WASHING SINK NOT USED ARM1 DIS6 E ASP BUZZE ARM1 NOT R PROBE HEATER USED

A2 “POWER DRIVER MODULE” BOARD A13 BUZZER

SPARE

A1 “POWER DRIVER MODULE” BOARD A10 200ml/min WASHING SINK DIAGPHRAM PUMP

A3 55ml/min Head “DIS1 NEEDLE” A5 55ml/min Head “DIS3 NEEDLE” A6 55ml/min Head “DIS4 NEEDLE”

NOT USED

POWER SUPPLY CONNECTOR (BEHIND) A7 55ml/min Head “DIS5 NEEDLE”

A8 55ml/min Head “DIS6 NEEDLE”

A9 NOT USED, CLOSE NIPPLES WITH SILICON TUBING

A4 38ml/min Head “DIS2 NEEDLE”

A11 100ml/min “ARM1 REAGENT PROBE RINSING”

Figure 135: OPP Pumps & Drivers Ver.01, “Connectors to Loads” Correspondence Signal to Power Output cross-reference tables: Ref.Des.: A1, Power Driver Module – 9x1A board Output Load Driven by OUT01 Buzzer Main Controller Ver.01 OUT02 ARM1 Diluter Electrovalve ARM1 Controller OUT03 Diluter ARM1 Pump ARM1 Controller OUT04 Washing Sink Pump ARM1 & ARM2 Controller OUT05 ARM1 Coil Heater ARM1 Controller OUT06 Not Used --OUT07 Not Used --OUT08 Not Used --OUT09 Spare Output --Output OUT01 OUT02 OUT03 OUT04 OUT05 OUT06 OUT07

Ref.Des.: A2, Power Driver Module – 9x1A board Load Driven by Dispensing Needle1 Pump Read & Wash Controller Dispensing Needle2 Pump Read & Wash Controller Dispensing Needle3 Pump Read & Wash Controller Dispensing Needle4 Pump Read & Wash Controller Dispensing Needle5 Pump Read & Wash Controller Dispensing Needle6 Pump Read & Wash Controller Spare Output ---

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Connector J3 J4 J5 J6 J7 J8 J9 J10 J11 Connector J3 J4 J5 J6 J7 J8 J9

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Output OUT08 OUT09 Part List Pos.

Ref. Designator

Load Suction Needles Pump Suction Tip Pump

Driven by Read & Wash Controller Read & Wash Controller

Title: OPP Pumps & Drivers – Ver.01

Connector J10 J11

P/N: 10217-01-E

Q.ty

UoM

Description

Value

Rating

Toler.

1 2 3 4 5 6 7 8 9

A1, A2 A3, A5-A8 A4 A11 A10 A13 W1 HM1 HM2-HM22

2 5 1 1 1 1 1 1 21

PZ PZ PZ PZ PZ PZ PZ PZ PZ

                 

                 

                 

10006-00-C 10060-01-A 10638-00-A 10059-00-A 10947-00-A 10058-00-A 10514-00-A 20270-00-0 20271-00-A

10

HM23

1

PZ

 

 

 

20269-00-A

11

HM24

1

PZ

 

 

 

20273-00-A

12

A9

1

PZ

PWR DRIVER MODULE - 9X1A SR10_30 PUMP ASSY VER.01 38ML SR10_30 PUMP ASSY NF10 PUMP ASSEMBLY APN20 PUMP ASSY BUZZER ASSY OPP PUMPS & DRIVERS WIRING MANIFOLD NIPPLE, DIAM.=2,3, THREADED, BARBED, FOR 2,5 mm TUBING, PVC NIPPLE, DIAM.=2,3, THREADED, BARBED, FOR 3 mm TUBING, PVC NIPPLE MANIFOLD INPUT, THREADED, BARBED, FOR 4 mm TUBING, PVC NOT USED

 

 

 

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P/N

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W1

1 2 3 4

TO O PP C O N TRO LLER A SSEM BLY

OUT09-P OUT09-N

OUT08-P OUT08-N

SPA RE O U TPU T

J1 1 1 2

N O T U SED

J1 0 1 2

TO O PP A RM 1 A SSY (C O I L H EA TER)

J9 1 2

1 2

P1

OUT07-P OUT07-N

OUT06-P OUT06-N

OUT05-P OUT05-N

OUT04-P OUT04-N

P1

SPA RE O U TP U T N O T U SED

OPP Pumps & Drivers – Ver.01

V+ V-

V+ V-

V+ V-

P/N:

TO A RM 1 D ILU TO R EV

J8

1 2

P1 BU ZZE R

J7

1 2

J6

1 2

J5

1 2

J4

1 2

J3

OUT03-P OUT03-N

OUT02-P OUT02-N

OUT01-P OUT01-N

+

-

1 2 3 4

J2

10217-01-E

A1 PW R D RIV ER M O D U LE - 9 X1 A V ER.0 0 P/ N 1 0 0 0 6 -0 0 -C

INP-01 INP-02 INP-03 INP-04 INP-05 INP-06 INP-07 INP-08 INP-09 EGND

J1 V A 1+ V A 1V A 2+ V A 2-

J1

+24V EGND +12V EGND

1 2 3 4 5 6 7 8 9 10

A 13 BU ZZER A SSY P/ N 1 0 0 5 8 - 0 0 - A

TO PO W ER SU PPLY

1 2 3 4

1 2 3 4

P1

W1

1 2 3 4

W1

SPA RE O U TPU T

TO SU C TIO N N EED LES PU M P

OUT09-P OUT09-N

J1 1

1 2

J1 0

1 2

OUT08-P OUT08-N

+24V EGND +12V EGND OUT07-P OUT07-N

J9

1 2

OUT06-P OUT06-N

P1 V+ V-

P1

V+ V-

J8

1 2

1 2

P1 V+ V-

P1

J7

J2

TO SU C TIO N TI P PU M P

P/ N 1 0 6 3 8 - 0 0 - A

-

P

-

P

-

A3 A5 A6 A7 A8 SR1 0 _ 3 0 PU M P A SSY SR1 0 _ 3 0 PU M P A SSY SR1 0 _ 3 0 PU M P A SSY SR1 0 _ 3 0 PU M P A SSY SR1 0 _ 3 0 PU M P A SSY V ER.0 1 V ER. 0 1 V ER. 0 1 V ER.0 1 V ER.0 1 P/ N 1 0 0 6 0 - 0 1 - A

P/ N 1 0 0 6 0 -0 1 -A

P/ N 1 0 0 6 0 -0 1 -A

P/ N 1 0 0 6 0 - 0 1 - A

P/ N 1 0 0 6 0 -0 1 -A

D I S PEN SI N G N EED LE 1 D ISPEN SIN G N EED LE 2 D I S PEN SI N G N EED LE 3 D I S PEN SI N G N EED LE 4 D ISPEN SIN G N EED LE 5 D ISPEN SIN G N EED LE 6 PU M P PU M P PU M P PU M P PU M P PU M P

H YD RA U LIC C O N N EC TI O N S TO W A SH I N G STA TI O N

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P

-

+

P

+

-

+

P

+

-

P

-

A9 N F1 0 PU M P A SSY

A 10 A PN 2 0 PU M P A SSY

P/ N 1 0 0 5 9 - 0 0 - A

P/ N 1 0 9 4 7 - 0 0 - A

D ILU TO R 1 P U M P

W A SH IN G SI N K PU M P

Electrical drawing

A4 3 8 M L SR1 0 _ 3 0 PU M P A SSY

P

+

-

+

P

+

+

Title:

V+ V-

V+ V-

J6

1 2

1 2

P1 V+ V-

P1

OUT04-P OUT04-N

OUT03-P OUT03-N

OUT02-P OUT02-N

OUT01-P OUT01-N

1 2

J5

OUT05-P OUT05-N

A2 PW R D RIV ER M O D U LE - 9 X1 A V ER. 0 0 P/ N 1 0 0 0 6 - 0 0 - C

J4

1 2

J3

P2

1 2 3 4 1 2 3 4

J1

INP-01 INP-02 INP-03 INP-04 INP-05 INP-06 INP-07 INP-08 INP-09 EGND

1 2 3 4 5 6 7 8 9 10

TO O PP C O N TRO LLE R A SSEM BLY

H YD RA U LIC C O N N EC TI O N S TO A RM A N D W A SH IN G SI N K

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MIURA & MIURA 200 – Service Manual Section 4 MIURA 200 - ELECTRICAL DRAWINGS AND PART LISTS

- W IR IN G FO R FLU ID S -

10217-01-E

H Y D R A U LIC S C H E M A TIC

A9

A 10

A8

HM 2 HM 3 HM 4 HM 5 HM 6 HM 7 HM 8 HM 9

A7

D ISP E N SIN G N E E D LE 4 PU M P

A6

D ISP E N SIN G N E E D LE 3 PU M P

A5

D ISP E N SIN G N E E D LE 2 PU M P

A3

D ISP E N SIN G N E E D LE 1 PU M P

P/N:

D ISP E N SIN G N E E D LE 5 PU M P

OPP Pumps & Drivers – Ver.01

D ILU TO R 1 PU M P

W A SH IN G D ISP E N SIN G SIN K N E E D LE 6 PU M P PU M P

A4

HM 10 HM 11 HM 12 HM 13 HM 14 HM 15 HM 16 HM 17 HM 18 HM 19 HM 19

HM 24

Electrical drawing

HM 1 IN P U T M A N IFO LD

Title:

HM 21

HM 23 HM 22

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Section 5 MAINTENANCE

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5.1.2.5.

Section 5 MAINTENANCE

Washing Station Needles Disinfection

Clean the metallic needles with cotton wool soaked in Solution A and then clean them carefully with deionised water. Then power on the instrument and let it complete a Refill All cycle.

5.1.2.6.

Waste Tank Disinfection

Completely empty the tank into a container for contaminated materials. Fill the tank with Solution A and let it soak for about 20 minutes, and then rinse it carefully in deionised water.

5.1.2.7.

Systemic Solution Tank Cleaning

Completely empty tank into a proper container. Fill tank with bi-distilled water and shake it long, then empty in a proper container; repeat this procedure several times in order to clean it from eventual deposits or residuals. WARNING The above procedure does not ensure that all the virus and micro-organism are inactive and the machine is sterilized, although it reduces only the risk at a minimum level.

5.1.2.8.

Cleaner Solution Tank Cleaning

Completely empty tank into a proper container. Fill tanks with bi-distilled water and shake it long, then empty in a proper container; repeat this procedure several times in order to clean it from eventual deposits or residuals of NaOH. WARNING The Cleaner Solution must be purchased contains sodium hydroxide, it’s corrosive, and causes burnings. Avoid the contact with the skin and with eyes; in case of contact with skin, wash immediately with plenty of water. Note: refer to Cleaner Solution Safety Data Sheet for correct handling and detailed complete information.

5.2.

Safety Precautions

The maintenance operations left to the user must be carried out with the instrument OFF and with the power supply cable disconnect from the socket. Consider with attention and keep in mind all of the warnings listed along this document.

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5.3.

Section 5 MAINTENANCE

Periodic Maintenance Plan

In the following paragraphs are scheduled the periodic operations to carry out on instruments MIURA and MIURA 200; read carefully all instructions.

5.3.1.

Daily Maintenance Scheduling

Follow the instructions described below for the daily maintenance. Note: missing of Maintenance Scheduling by end user invalidates product warranty terms and conditions. At the beginning of the day 1. Check the volume of the Systemic Solution tank and refill it before run. 2. Check the volume of the Cleaner Solution tank and refill it before run. 3. Check the volume of the Waste tank and empty it before run. 4. Check the Tygon® tubing to/from external tanks in order to detect and eliminate occlusions or eventual defects. WARNING Waste is potentially infectious and can be hazardous to health. It must be disposed according to national and international instructions for the safe disposal of Bio-hazardous waste. At the end of the day 1. In case of ISE Module on board run an ISE Modue cleaning cycle. 2. On automatic instrument shut down procedure, never disable the final washing. 3. Remove and disinfect any fluid leakage in the working area. 4. Remove all reagents from the reagent tray and clean the upper carousel in case of fluid leakage; disinfect any potentially contaminated part. 5. Check for condensation on the bottom of the reagent tray: if too much, take out bottles and sop it up with a dry clean cloth. 6. Remove all samples from the sample tray and clean the upper carousel in case of fluid leakage; disinfect any potentially contaminated part.

5.3.2.

Weekly Maintenance Scheduling

The user MUST follow instructions described below for the weekly maintenance. 1. It is very important that every five days, at the end of the working day, the operator runs the automatic cuvette Extra wash cycle from the Status menu, in order to deeply clean reading cuvettes; remember to place an keep on board the EW Cvt solution (Extra Wash Cuvette solution). Better if this procedure is run every couple of days. In case of big test runners, with high test volumes (>1,500test/day), this procedure must be repeated every day. 2. Remove all reagents from the reagent tray and clean the bottom of the tray in case of fluid leakages or condensation; disinfect any potentially contaminated part. 3. Clean the outside surface of the metallic Sampling Probe with an ethanol solution at 70%. 4. Make sure that sample Probe is fixed in the proper positions and that it’s undamaged.

5.3.3.

Cuvette Rotor Maintenance Scheduling

The user MUST replace the 80 reading and incubation cuvettes rotor after 30,000 tests. Replacing all cuvettes is necessary for analysis result reliability.

5.3.4.

Two Months Maintenance Scheduling

The user MUST follow the instructions described below for the twice-monthly maintenance. 1. Run a Gain Calibration Cycle from the Status menu in order to equalize, reset and check optical filter gains and to optimize the dynamic of the optical measurement.

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2. 3. 4. 5.

6.

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Clean Systemic solution tank. Clean Cleaner solution tank. Clean Waste tank. Wash the Tygon® tubing to/from external tanks of the instrument using the 1% sodium hypochlorite solution (see paragraphs 5.1.2 “Disinfection”). After cleaning the 5lt Cleaner tank, fill it with good distilled water and run two following Start-Up cycle from the Status menu: this will prevent tubing and valves to be obstructed by salt crystals as the water will wash the internal circuit (needle #2) from NaOH salt. Gently oil the outer surface ARM’s shaft with some Vaseline grease (see picture below). Use a dust-free cloth slightly soaked with some Vaseline grease in order to spread it all along the outer surface of the steel  upper arm shaft; this will resolutely help the continuous up and down shaft sliding.

Gently oil a very light and mild VASELINE grease layer on the outer surface of the shaft. Use a dust free paper cloth for this operation and remove the excess.

5.3.5.

Six Months Maintenance Scheduling

The user MUST ask the Authorized Technical Personnel to carry on the following steps for the semi-annual maintenance. 1. Clean and disinfect metallic Sampling Probe. 2. Replace the washing station white tip.

5.3.6.

One Year Maintenance Scheduling

The user MUST ask the Authorized Technical Personnel to carry on the following steps for the annual maintenance plan. 1. Replace all peristaltic pump heads (about 450,000 machine working cycles in 1 year). 2. Replace photometer halogen lamp for optimized performances (2,000 hours or 1 year max). 3. Replace the sampling probe for optimized performances (replace earlier if damaged). 4. Replace tanks tubing with new ones for best operation. 5. Clean and disinfect the instrument probe washing sink to remove soils. 6. Verify instrument operation and check positions coordinates.

5.4.

ISE Module Maintenance Scheduling

This section provides the user recommendations for a proper maintenance of the ISE Module when integrated (option) into instruments MIURA and MIURA 200.

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NOTE: the producer reminds again the user that the periodic visual inspection of the device is the first and easier way to guarantee the best performance of the device itself. The ISE Module requires very little operator maintenance. The only daily maintenance required is to run the cleaning solution after the last sample of the day; the system automatically run it after 50 patient samples, whichever is first. Clean the sample inlet port once per month. All other parts and expendables are replacement items (see schedule in the following). Use only Producer approved components to avoid warranty terms decay.

5.4.1.

Scheduling for LOW VOLUME Users

The scheduled periodic operations to carry out on ISE Module for low volume users (processing less then 100 samples/day) have been listed in the following paragraph; read carefully all instructions.

5.4.1.1.

Daily Maintenance Scheduling

The user MUST follow the instructions described below for the daily maintenance. At the beginning of the day 1. Check ISE Module pump tubing integrity. 2. Check for the red ball indicator floating in the internal reference electrode solution. If it no longer floats replace electrode. 3. After instrument Warming Up check the ISE Calibration values in the ISE module conf menu. If not in range run again ISE Initialization (the software will anyway alert the operator for calibrations out of admissible range). At the end of the day 1. Run a Cleaning Cycle from the ISE module conf menu before instrument shut down (make sure that the ISE Cs cleaning solution bottle is on board and it isn’t empty). 2. Remove and disinfect any fluid leakage around the sample entry port in the working area. 3. Check for fluid leaks around tubing fittings and below the ISE Module itself. WARNING Liquid waste can be potentially infectious and can be hazardous to health. It must be disposed according to national and international instructions for the safe disposal of Bio-hazardous waste.

5.4.1.2.

One Months Maintenance Scheduling

The user MUST follow the following instructions for the monthly maintenance. 1. Clean ISE module upper sample inlet port using a cotton swab and distilled water and paying attention not to leave any residues.

5.4.1.3.

Six Months Maintenance Scheduling

The user MUST ask the Authorized Technical Personnel to replace the following components for the semi-annual maintenance. 1. Li+ Electrode. 2. Na+ Electrode. 3. K+ Electrode. 4. Cl- Electrode. 5. Reference Electrode. 6. Pump tubing (on ISE Module peristaltic pumps).

5.4.1.4.

One Year Maintenance Scheduling

The user MUST ask the Authorized Technical Personnel to replace the following components for the annual maintenance. 1. Fluidic tubing.

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Section 5 MAINTENANCE

Scheduling for HIGH VOLUME Users

The scheduled periodic operations to carry out on ISE Module for high volume users (processing greater then 100 samples/day) have been listed in the following paragraph; read carefully all instructions.

5.4.2.1.

Daily Maintenance Scheduling

The user MUST follow the instructions described below for the daily maintenance. At the beginning of the day 4. Check ISE Module pump tubing integrity. 5. Check for the red ball indicator floating in the internal reference electrode solution. If it no longer floats replace electrode. 6. After instrument Warming Up check the ISE Calibration values in the ISE module conf menu. If not in range run again ISE Initialization (the software will anyway alert the operator for calibrations out of admissible range). At the end of the day 1. Run a Cleaning Cycle from the ISE module conf menu before instrument shut down (make sure that the ISE Cs cleaning solution bottle is on board). 2. Remove and disinfect any fluid leakage around the sample entry port in the working area. 3. Check for fluid leaks around tubing fittings and below the ISE Module itself. WARNING Liquid waste can be potentially infectious and can be hazardous to health. It must be disposed according to national and international instructions for the safe disposal of Bio-hazardous waste.

5.4.2.2.

One Months Maintenance Scheduling

The user MUST follow the following instructions for the monthly maintenance. 1. Clean ISE module upper sample inlet port using a cotton swab and distilled water and paying attention not to leave any residues.

5.4.2.3.

Six Months Maintenance Scheduling

The user MUST ask the Authorized Technical Personnel to replace the following components for the semi-annual maintenance. 1. Pump tubing.

5.4.2.4.

At 3,000 samples Maintenance Scheduling

The user MUST ask the Authorized Technical Personnel to replace the following components after 3,000 samples. 1. Li+ Electrode.

5.4.2.5.

At 10,000 samples Maintenance Scheduling

The user MUST ask the Authorized Technical Personnel to replace the following components after 10,000 samples. 1. Na+ Electrode. 2. K+ Electrode. 3. Cl- Electrode. 4. Reference Electrode.

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5.4.2.6.

Section 5 MAINTENANCE

One Year Maintenance Scheduling

The user MUST ask the Authorized Technical Personnel to replace the following components for the annual maintenance. 1. Fluidic tubing.

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5.5.

Maintenance Procedures

5.5.1.

Generalities

Section 5 MAINTENANCE

Refer to the following paragraphs for the some maintenance operations including replacing of parts. For other special procedures ask the Producer.

5.5.2.

Reading Cuvettes Replacement

In order to replace all reading cuvettes the instrument must be ON and the User Interface software in running. Make sure that the new cuvettes are clean and not scratched in the narrow walls. NOTE: cuvettes replacement requires complete protection, gown with long sleeves (ending with elastic bands), shock-resistant rubber gloves and protective glasses. NOTE: replace cuvettes only with original ones provided by the manufacturer with code P3140000002 (or P3140000103 – reading plate with cuvettes). Replace the cuvette following the instructions below: 1. Open the Status menu. 2. Make sure that cuvettes to be replaced have been left empty by the instrument at the end of the working session, otherwise set a Start up cycle in the Status menu. 3. Select Move cvt tray and enter the cuvette number = 2. 4. Under the cuvette tray cover, top front aperture, there are 3 cuvettes (1 to 3): take them out by using the appropriate extraction tool. 5. Repeat steps described in 3-4 (step by 3 cuvettes at time) until all the cuvettes have been taken away. 6. Select Move cvt tray and enter the cuvette number = 2. 7. Under the protection top front aperture, there are 3 empty cuvette places (1 to 3): place a new cuvette in each place (leave it falling down in the seat and then press until triggering the click that ensures the cuvette is fixed in the tray). 8. Repeat steps described in 6-7 (step by 3 cuvettes at time) until all cuvettes have been replaced. 9. Start a Gain Calibration Cycle from the Status menu. The cycle includes an auto-zero cycle that allows the instrument to wash all cuvettes, to level the different wavelength gains and update the zero values of all the reading cuvettes.

CUVETTE TO BE REPLACED

Figure 136: Cuvette Replacement

5.5.2.1.

Single Cuvette Replacement

Replace a single Cuvette if required by the software, if it is damaged or deteriorated.

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3.

Section 5 MAINTENANCE

Make sure that the Cuvette to be replaced has been empty by the instrument at the end of the working session. In the Status menu select Move cvt tray and enter the number of the cuvette to be replaced. Within the protection cover top front aperture, the cuvette to be replaced has been moved: take it out, using the appropriate extraction tool, and replace it with a new one (leave it falling down in the seat and then press until triggering the click that ensures the cuvette is fixed in the tray). Run Start up from the Status menu, so that the machine updates the zero values of all the reading cuvettes.

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5.5.3.

Section 5 MAINTENANCE

Peristaltic Pump Heads Replacement

Replace peristaltic pump heads only with instrument powered down. NOTE: for the peristaltic pump head replacement wear complete protection, with long sleeves (ending with elastic bands), shock-resistant rubber gloves and protective glasses. Replace peristaltic pump heads only with original parts provided by the Manufacturer. Replace the peristaltic pump heads following the instructions below: 1. Open the front panel of the instrument. 2. Unplug the peristaltic pump tubing from the Pump Assembly nipples after sliding the tubing lock washer.

A3 55ml/min Head “DIS1 NEEDLE” A5 55ml/min Head “DIS3 NEEDLE” A6 55ml/min Head “DIS4 NEEDLE”

A7 55ml/min Head “DIS5 NEEDLE”

A8 55ml/min Head “DIS6 NEEDLE”

A4 38ml/min Head “DIS2 NEEDLE”

Figure 137: Peristaltic Pump Heads Placement 3. 4. 5. 6. 7. 8. 9.

Release retention head clips and slip the head off from its motor shaft. Clean the motor shafts with a dry cloth. Plug the new heads on its motor shafts. Plug the peristaltic pump tubing in the proper nipples. Close the instrument front panel. Switch the instrument on, start the software and wait the end of the warm up. Run a Start up cycle from the Status menu to wash cuvettes and to update their auto-zero values.

Refer to the pictures below for pumps and load connections to the PWR Driver Board connectors:

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DIS3

DIS1

DIS2

DIS5 DIS4

Section 5 MAINTENANCE

SPAR TIP ARM1-EV WASHING SINK ARM2-EV E ARM2 ARM1 DIS6 ASP BUZZE ARM1 PROBE R PROBE HEATER

A2 “POWER DRIVER MODULE” BOARD A13 BUZZER

SPARE

A1 “POWER DRIVER MODULE” BOARD A10 200ml/min WASHING SINK DIAGPHRAM PUMP

A3 55ml/min Head “DIS1 NEEDLE” A5 55ml/min Head “DIS3 NEEDLE” A6 55ml/min Head “DIS4 NEEDLE”

ARM2 HEATER

POWER SUPPLY CONNECTOR (BEHIND) A7 55ml/min Head “DIS5 NEEDLE”

A8 55ml/min Head “DIS6 NEEDLE”

A9 100ml/min “ARM2 SAMPLE PROBE RINSING”

A11 A4 100ml/min 38ml/min Head “DIS2 NEEDLE” “ARM1 REAGENT PROBE RINSING”

Figure 138: Pumps and Loads Connection to Power Boards (back-view) Refer to OPP Pump Assembly schematic and paragraph for connections.

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5.5.4.

Section 5 MAINTENANCE

Photometer Lamp Replacement

Replace the Photometer Lamp with the instrument in power off; wait at least 5 minutes from the shutdown to allow the bulb to cool down and to avoid oneself burns. The new halogen lamp +12V/20W (provided by the Manufacturer with code P3140000105) includes the fixing support but not the knob: save it. Don’t remove the lamp from its metallic support: the lamp height has been calibrated at factory and the fixed on that support.

HALOGEN LAMP WICKET

LAMP WIRING LAMP LAMP FIXED WITH A FIXIN CONNECTO SCREW G R KNOB Figure 139: Photometer Lamp Replacement

LAMP

LAMP KNOB

To replace the photometer lamp follow the instructions below (ref. to the pictures): 1. Open the wicket protecting the lamp assembly. 2. Unplug the lamp connector from the main wiring (pay attention do not let it slide inside the machine). 3. Unfasten the lamp knob. 4. Take out the lamp with its support. 5. Place a new lamp, with its support, in the slot and tight the fastening knob. 6. Plug the connector back to the fixed wiring. 7. Switch the instrument on, start the software and wait the end of the warm up. 8. Start a Gain Calibration Cycle from the Status menu. It includes the auto-zero cycle that allows the instrument to level the different wavelength gains and update the zero values of all the reading Cuvettes. WARNING Do not touch the new lamp bulb with your fingers: grease and damp could affect its lasting performance.

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5.5.5.

Section 5 MAINTENANCE

Sampling Probes Replacement

Replace the sampling probe with instrument in OFF. Make sure that the new probe (provided by the Manufacturer with code: P3140000016) does not present any imperfection. NOTE: for the sampling probe replacement a complete protection must be worn, with long sleeves (ending with elastic bands), shock-resistant rubber gloves and protective glasses. SAMPLING ARM PROTECTION

SAMPLIN G PROBE

UNHOOK AND LIFT UP THE SAMPLING ARM PROTECTION HEATER COIL

LIQUID DETECTOR CIRCUIT UNTHREAD THE CAP AND SLIDE UP THE SPRING

UNTHREAD THE FIXING AND SLIDE UP THE PROBE

Figure 140: Sampling Probe Replacement To replace the probe follow the instructions below (ref. to the pictures):  Unfasten the arm protection cover by slightly stretching it, and slide it backwards to lift it.  Unscrew the cap and slide it, together with the spring, along the teflon tubing.  Unscrew the probe fixing and slide it along the pipe.  Take the old probe out of the teflon tubing (do not bend the tubing), put it in a container for contaminated materials, and replace it with a new one.  Place the new probe top end into the teflon tubing (do not bend the tubing and use latex gloves).  Slide the fixing along the tubing and screw it paying attention that the probe is not blocked.  Slide the spring and the cap along the tubing and screw the cap; make sure that probe can move freely in its seat in opposition to the retention spring without to get blocked.  Fasten the arm cover in its original position by slightly stretching it.  Switch the instrument on, run the software and wait the end of the warm up.  Run three Armx Rinsing commands from the Status menu. The cycle includes probe washing and refill of the probe hydraulic tubing.

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5.5.6.

Section 5 MAINTENANCE

Interchangeability of Diluters in Older Systems

MIURA and MIURA 200 systems can adopt two kind of diluters (micro-metering past); the old model used in the past has been replaced with a new one. They are interchangeable with the following procedures.  THE OLD DILUTER The picture aside shows the old diluter model: HS053AZ201/16. This micro-metering pump performs a resolution of 0.1925µl/pulse driven in half-step mode and assures a minimum of 500µl total volume including the air gap. Inlet and outlet Teflon tubing are 1/16inch O.D. through dedicated fittings. It is directly assembled on the support fixed on the mechanics.  THE NEW DILUTER The picture aside shows the new diluter model: mod. TSMP78SPAC1616. This micro-metering pump performs a higher resolution of 0.11945µl/pulse driven in half-step mode and also assures a minimum of 500µl total volume including the air gap. Inlet and outlet Teflon tubing are 1/16inch O.D. through dedicated fittings. It is assembled on the support fixed on the mechanics through a small PVC adapter. The old and new diluters are completely interchangeable from the hydraulic, mechanical and electrical point of view:  Hydraulic inlet and outlet tubing are just the same as the old model and nothing has to be changed when replacing with the new one;  Hydraulic inlet and outlet fittings are belonging on the diluter and then following and supplied with the new one;  The new diluter needs a plastic (pvc) adapter to be fixed on the existing mechanical support; this adapter follows the new diluter supply.  Motor and home-position sensor connectors do not change from old to new model. The new diluter needs the installation of the software version 2.0.0.23 or higher, because it includes some additional parameters. Being the resolution (µl per pulse) of the new model different from the old one, some parameters needs to be modified in the configuration file “Opportunity.ini” as explained in the following – the software allows automatic modification. Also some of the characteristic parameters must be modified in the MiuraServer service interface: follow the manual procedure given in the new paragraph 4.4. In case of need to replace a defective or old diluter with a new model in an old system, the user must follow the proper procedure explained in the following paragraphs.

5.5.6.1.

Replacing OLD Diluter(s) in OLD Systems running OLD Software Version

This is the case of old diluters that must be replaced into a system running a software version 2.0.0.22 or earlier. Procedure: 1. Remove the instrument cover. 2. Replace the old diluter(s) with the new one(s) by plugging the tubing into its new fittings (included with the new model) and by interposing the plastic adapter between the diluter and the fixing support on the mechanics. 3. Connect the diluter(s) to the wiring. 4. Replace the cover. 5. Power-on the instrument and the PC (or anyway shut down the Miura software).

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6.

Install the software upgrade version 2.0.0.23 or higher. During the installation the program will ask you to check the proper diluter(s) actually installed into the system: select the new model “Diluter MOD.# SANW TS_MP78 SERIES (New Style)” and then click on “Confirm” and proceed with the installation. The program will automatically provide to set the correct parameters for the new diluter(s).

7.

Upon completed the installation of the new software, remember to turn off and then turn on again the instrument and run the new software version to operate on the system.

In case of Miura system (two ARMs = two diluters), the manufacturer recommends to use the same model of diluters within the same instrument and then: it is mandatory to replace both devices when moving from the old to the new model.

5.5.6.2.

Replacing OLD Diluter(s) in OLD Systems Running NEW Software Version

This is the case of old diluters that must be replaced into a system running a software version 2.0.0.23 or higher. In this case the parameters will be automatically set by means of a special application. Procedure: 1. Remove the instrument cover. 2. Replace the old diluter(s) with the new one(s) by plugging the tubing into its new fittings (included with the new model) and by interposing the plastic adapter between the diluter and the fixing support on the mechanics. 3. Connect the diluter(s) to the wiring. 4. Replace the cover. 5. Power-on the PC (or anyway shut down the Miura software). 6. Run the application “MiuraIniUpdater.exe” located under the path “C:\Program Files\Miura\Comunication”. This program will ask you to check the proper diluter(s) actually installed into the system: select the new model “Diluter MOD.# SANW TS_MP78 SERIES (New Style)” and then click on “Confirm”. The program will automatically provide to set the correct parameters for the new diluter(s).

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Section 5 MAINTENANCE

Turn the instrument on and run the software to operate on the system.

In case of Miura system (two ARMs = two diluters), the manufacturer recommends to use the same model of diluters within the same instrument and then: it is mandatory to replace both devices when moving from the old to the new model.

5.5.6.3.

Replacing NEW Diluter(s) in an NEW Systems

This is the case of new systems already using new diluters. In case that one of the new diluters is defective and must be replaced: just change it with another new diluter same model; no further modifications or adjustment are required.

5.5.6.4.

Modifications of Characteristic Parameters in case of OLD Diluter(s)

Replacement In case OLD Diluters have to be replaced with new models, after having carried on the instructions of paragraph 4.1 or 4.2, follow the procedure below in order to set the correct air gaps and to have the correct volume during sample dosing in the ISE module. 1. Enter the MiuraServer service program by the icon in the bottom right side of the Windows bar. It indicates that Miura Server is running.

Click on it with the right mouse button to access the program Miura Server and when the dialog window Miura Server Login open, introduce: User: serviceadmin Password: adminservice Then click OK. 2. Miura Server, service interface opens and the monitor will show three main windows.

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3.

Focus on the Calibration Panel

4.

Enter the ARM1 Position Panel and set the following parameters:

Section 5 MAINTENANCE

Home Positios Gap = 40  Click on “Memorize Gap” button Reagent Sample Gap = 0  Click on “Memorize Gap” button Final Gap = 0  Click on “Memorize Gap” button Click the button ”Memorize Gap” ANY TIME you want to memorize ANY SINGLE gap value. Activation of this key allows then memorization of the gap value currently displayed. ACTIVATING THIS COMMAND, THE INSTRUMENT SAVES ALL PARAMETERS TEMPORARY; PARAMETERS WILL BE EFFECTIVE UPON THE NEXT START-UP. 5. Repeat the same instructions of point 4 by entering the ARM2 Position Panel. 6. Enter the Ise Control Panel and set the following parameters:

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Section 5 MAINTENANCE

Urine Analysis Settings Reaction Quantity = 90 Needle Exceed Quantity = 10 Sample Analysis Settings Reaction Quantity = 90 Needle Quantity = 100 Click on “Save” button. ACTIVATING THE SAVE COMMAND, THE INSTRUMENT SAVES ALL PARAMETERS TEMPORARY; PARAMETERS WILL BE EFFECTIVE UPON THE NEXT START-UP. 7. Enter the Temperature Control Panel:

Control the following setting to be as below: Q.tà dil Sample = 400 Q.tà dil Standard = 300 If different, set as above and then click on the button “Save dil quant”. ACTIVATING THE SAVE COMMAND, THE INSTRUMENT SAVES ALL PARAMETERS TEMPORARY; PARAMETERS WILL BE EFFECTIVE UPON THE NEXT START-UP. 8. In order to download calibration parameters to the instrument it is necessary to open the dialog window About MiuraServer; it is possible to enter this windows by clicking on command “ Help” on the menu bar from the window Untitled-MiuraServer: Help»About MiuraServer.

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9.

Click on the command “Save Parameters” to start parameters download; all parameters that have been modified can be in this way updated on the instrument. At the end of the process the window will automatically close. 10. Shut down the software and the instrument. 11. Restart the system.

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5.5.7.

Section 5 MAINTENANCE

Aspiration and Tip Pumps: Interchangeability

MIURA and MIURA 200 systems can adopt two different kinds of vacuum diagphram pumps that are used both for the washing station aspiration needles and for the washing station tip. The two kinds of pumps differ from one another because they have different fixing supports. They are interchangeable with the following procedure. The first-model pump (KNF style) is used in the oldest systems are the following:  Aspiration Pump: p/n 10372-00-A, NF89 Pump Assy Ver00  Tip Pump: p/n 10372-01-A, NF89 Pump Assy Ver01 The second-model pump (ZRP style) is used in the current systems are the following:  Aspiration pump: p/n 10938-00-A, ZRP Aspiration Pump Ver00  Tip pump: p/n 10938-01-A, ZRP Aspiration Pump Ver01 First-Model

Second-Model

S3143000070 SUPPORT FOR ASPIRATION PUMP

S3143000070 SUPPORT FOR TIP PUMP

SHOCK ABSORBER NR. 3 METRIC SCREW M4X8 WITH WASHER AND LOCK-WASHER

TO BE FIXED ON THE INSTRUMENT BASE. USE NR. 4 METRIC SCREW M4X10 WITH WASHER AND LOCK-WASHER AND SCREW FROM THE BOTTOM OF THE BASE. When replacing one first-model pump with one second-model, the customer must order one of the following supports just for the first time (because the first-model has a different fixing); in this way the second-model pump can be properly fixed on the instrument base:  Cod. S3143000070, Support (dwg. DMC20482-0) for the 10938-00-A, ZRP Aspiration Pump Ver00 (for Aspiration pump)  Cod. S3143000069,

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Support (dwg. DMC20481-0) for the 10938-01-A, ZRP Aspiration Pump Ver01 (for Tip pump) The second-model pumps will be delivered complete with three shock-absorbers that must be fixed on the pump and fastened on the proper support (left or right – depending on the pump version). In order to replace one first-model pump with a second-model, follow the procedure below: 1.

2. 3. 4. 5. 6.

Unscrew the two tube-lockers on the blue fitting and unplug the waste tubing: WARNING Take care when handling waste tubing and pumps as they must be considered POTENTIALLY INFECTED Unplug the electrical connector. From the bottom of the instrument base, unfasten the four fixing screws (take care to save them - do not to lose them as they must be re-used) and extract the old pump. Fix the new pump on its support using the three shock-absorbers (fix using metric screw M4x8 with washer and lock-washer). Assemble the new pump by fastening the four screw from the bottom on the base. Fix the tubing on the fittings (see the following picture) and plug back the electrical connector. Waste Pumps

Inlet

Outlet

ASPIRATION PUMP P/N 10938-00-A, ZRP ASPIRATION PUMP VER00

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TIP PUMP P/N 10938-01-A, ZRP ASPIRATION PUMP VER01

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5.5.8.

Section 5 MAINTENANCE

Washing Sink Aspiration Pump: Interchangeability

MIURA and MIURA 200 systems can adopt two different kinds of diagphram pump used for emptying the probe Washing Sink. The two kinds of pump differ from one another because they have different fixing supports. They are interchangeable with the following procedure. The first-model pump (KNF style) used in the oldest system is the following:  Old Washing Sink Pump: p/n 10142-00-A, NF30 Pump Assy The second-model pumps (Iwaki style) used in the current systems is the following:  New Washing Sink Pump: p/n 10947-00-A, APN20 Pump Assy Ver00 When replacing one old-model pump with one new-model, the customer must order the following supports just for the first time (because the old model have a different fixing support); in this way the new pump can be properly fixed on the pump assembly:  Cod. S3143000101, Support (dwg. DMC20545-0) for the Aspiration Washing Sink Pump Ver00. First-Model

Second-Model

S3143000101 SUPPORT FOR ASPIRATION PUMP

WASHING

SINK

During replacement take care about the flow direction (in and out) by respecting the tubing connections. WARNING Take care when handling waste tubing and pump as they must be considered POTENTIALLY INFECTED

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Section 5 MAINTENANCE

ISE Module Maintenance Procedure

Refer to the following paragraphs for details about the main maintenance procedures over the ISE Module when integrated (option) in the MIURA and MIURA 200 system. SAMPLE ENTRY PORT

CALIBRANT A PORT

Li+ ELECTRODE

CALIBRANT B PORT

Na+ ELECTRODE K+ ELECTRODE

BUBBLE DETECTOR

Cl- ELECTRODE Reference ELECTRODE

WASTE FLUID TUBING

4-CHANNEL ISE MODULE COMPRESSION PLATE

RIGHT ANGLE ADAPTER

Figure 141: ISE Module, Outline

5.5.10.

Reagent Pack Replacement

When exhausted, Reagent Pack must be changed with a new one. Replace Reagent Pack with system in Idle status. Follow the procedure below: 1. Consider the ISE Module Reagent Pack containing Calibrat A, Calibrat B and Waste; 2. Press the yellow button of the Reagent Pack Connector and disconnect it from the pack; 3. Connect the Reagent Pack Connector on the new pack and be sure that it’s stable on it; 4. From the ISE module conf menu run the Initialize command

5.

Place the Reagent Pack back in its place paying attention not to bend or occlude tubing, close the front panel and start working.

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Reagent Pack Connector

Reagent Pack

Reagent Pack Connector

Figure 142: ISE Module, Reagent Pack replacement

WARNING Biohazard Waste: used reagent pack contain waste material and they must be always considered potentially infected. Dispose off according to local laws and rules.

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Section 5 MAINTENANCE

Electrodes Replacement

When electrodes maintenance period has expired they must be replaced with new ones. Replace Electrodes only with system powered OFF. Follow the procedure below: 1. From the ISE module conf menu run the command Maint to purge the ISE Module path; 2. Shut down the system (software and instrument); 3. Open the front panel of the instrument and carefully extract the Reagent Pack; 4. Depress the compression plate and remove all electrodes from the ISE Module (start with the upper one); 5. Dispose off the electrodes to be replaced according to local rules (they can be infected); 6. Remove new electrodes from sealed bag; 7. Remove the yellow flag from Reference electrode and if necessary soak the reference electrode in warm water until the lumen of the electrode has been cleared of salt build-up ( do not throw away the yellow flag with its flow path line – it can be used in case of ISE Module storage); 8. Install the new electrodes in the ISE Module (starting from the bottom – Reference electrode); 9. Power Up the system; 10. If the system doesn’t go into the Warming Up, run the Initialize command from the ISE module conf menu (being the electrode new, it could drift) otherwise jump to the next step; 11. Wait for 15 minutes then run again the Initialize command (time required for new electrode re-hydrating). WARNING Used electrodes must be always considered potentially infected.

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Section 5 MAINTENANCE

Electrodes Storage

In a day or two with the power off, the user might notice that it may take some time for the electrodes to regain stability.  The longer this period, the more acute the problem will occur.   The original silicone pump tubes may start crimping after a couple of weeks depending on the ambient temperature.   The solutions in the various lines may dry out and form blockages or restrictions. If the laboratory plans to store the instrument or to leave it OFF for long time (more then one week), the following steps should be performed: ISE Module de-activation From the ISE module conf menu run the command Do clean cycle to clean the ISE Module path; From the ISE module conf menu run the command Maint to purge (and empty) the ISE Module path; Shut down the system (software and instrument); Open the front panel of the instrument; Remove the Reagent Pack from the reagent connector and discard; Depress the compression plate and remove all electrodes from the ISE Module (start with the upper one), including the Reference electrode; 7. Place Na+ and Cl- electrodes into their individual sealed bags; 8. Reinsert the Reference Electrode flow path line with yellow flag, if available, and then put into its individual sealed bag; 9. Aspirate a small volume of Calibrant A from the top port of the Reagent Pack into a syringe fitted with a blunt needle; 10. Inject sufficient Calibrant A into the lumen of the K+ and Li+ electrodes until fluid fills the lumen; 11. Cover both ends of the lumen (both sides of the K+ and Li+ electrodes) with tape to hold the Calibrant in place; 12. Insert the K+ and Li+ electrodes into their sealed bags. 1. 2. 3. 4. 5. 6.

Note: for all electrodes, make sure that they are wiped dry prior to storing in sealed bags. WARNING Used electrodes must be always considered potentially infected. ISE Module re-activation (operate with system instrument down) 1. Remove all electrodes from sealed bag; 2. Remove tape from K+ and Li+ electrodes; 3. If necessary soak the reference electrode in warm water until the lumen of the electrode has been cleared of salt build-up (do not throw away the yellow flag with its flow path line – it can be used in case of ISE Module storage); 4. Remove the yellow flag from Reference electrode and if necessary soak the reference electrode in warm water until the lumen of the electrode has been cleared of salt build-up ( do not throw away the yellow flag with its flow path line – it can be used in case of ISE Module storage); 5. Install electrodes in the ISE Module (starting from the bottom – Reference electrode); 6. Connect the Reagent Pack to the ISE Module reagent connector; 7. Power Up the system; 8. If the system doesn’t perform Warming Up, from the ISE module conf menu run the Initialize command (being the electrode new, it could drift) otherwise jump to the next step; Wait for 15 minutes then run again the Initialize command (time required for new electrode re-hydrating). In the following the reader will find some suggestions about “storing the electrodes” if the analyzer is going to be off for an extended period of time (more then one week); see also the MIURA (or MIURA 200) User Manual (last rev.). If you leave the electrodes in the analyzer with the Power in OFF status, KCl salt will migrate through the membrane of the reference electrode into the flow path of the electrodes and may cause a problem when the analyzer is powered back on. The electrodes may be removed  to prevent a problem .

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The reference electrode is shipped with a small brown plastic tube installed in the flow path of the electrode to prevent the flow path from becoming clogged with dried KCl.  It is recommended that the tube be re-installed in the flow path of the reference electrode if the tube is still available. Alternatively, a blunt tip 22 gauge needle can be inserted into the reference electrode flow path to prevent clogging.  The Na and Cl electrodes can simply be removed from the module and stored in a plastic bag.   It would be best if the flow path of the K electrode be filled with some Cal A solution and then sealed with tape similarly to when it is received. This will help it re-equilibrate quicker when first installed. You also note that electrodes sometimes need some time to equilibrate when first installed. This is particularly true of the K electrode if it has dried out. The membrane needs to rehydrate and re-equilibrate in order to provide stable performance. It is a matter of just letting the electrodes re-hydrate and this is a function of time, not the amount of calibration solution that flows past it. If you are experiencing this issue, I would suggest installing the electrodes, purging the calibration solutions and letting the electrodes sit in Cal A for awhile and then attempt to calibrate. It is difficult to specify a time as some electrodes equilibrate immediately while some take a bit of time to stabilize. Running a serum sample as a daily cleaner, (which will allow the serum to sit in the electrode flow path for a bit of time), may be helpful.

5.5.12.1.

Troubleshooting Low Slope, Noise and Drift Error or Other ISE Module Issues

Low slope is usually the result of an electrode losing its sensitivity over time although it could be due to other issues. The noise error indicates instability of the mV values for a given solution during successive measurement during one analysis. Drift indicates that the analyzer is not observing stable mV values between measurements of the calibration solutions. The first level of troubleshooting is to run the appropriate daily ISE Module Cleaner solution a couple of times to remove any built up protein residues in the flow path. If that does not eliminate the observed problem, make sure the routine maintenance has been performed, such as replacing the reference electrode and pump tubing. If that does not work, replace the questionable electrode(s) and see if this cures the problem. If not, salt contamination may be the source of the problems. In all types of Ion Specific Electrode (ISE) modules, the possibility of dried salt providing an electrical leakage path exists which can result in various errors including “Drift” or “Noise” or incorrect slope values. Customers often do not go into the maintenance mode (Menu ISE Module Conf.  command “MAINT”) to empty the flow path prior to removing electrodes. This causes the solution that is in the flow path to leak onto the electrode contacts or bubble detector contacts. These small amounts of the calibration solutions eventually dry out; leaving traces of salt residues that may not be visible to the naked eye. These “salt tracks” are conductive to electricity and may provide electrical leakage paths from the electrodes interfering with their function. The electrical signal coming from the ISE electrodes is extremely small and any interference with those weak signals will result in errors. Customers must replace the electrodes properly. They should always wipe the ISE Module with a dry cloth whenever replacing electrodes, just in case solution has leaked. To eliminate this electrical leakage and resulting signal errors, the salt tracks need to be cleaned up. This is best done by removing all the electrodes from the analyzer and wiping down their contacts with a damp paper towel and allowing them to dry. The next step is to remove any traces of dried salt from the ISE module by taking another damp paper towel and wiping down the areas where the electrode contacts plug into the module. Follow this by removing the moisture with a dry paper towel and allow to dry. When assured everything is properly dry, reinstall all the electrodes and retest. Also check the electrode contacts. Make sure the contacts are clean. If they are dirty or corroded, clean them gently with a pencil eraser, (being careful not to remove the delicate gold coating). The contacts in the module are spring loaded. Make sure the springs are functioning properly and the contacts are moving in and out. Another potential source of noise errors in particular is related to flow. When the pump stops, the flow is also supposed to stop. Noise occurs when the solution in the system keeps moving while the analyzer is measuring the sample or calibrant. A "noise in Cal A" error occurs when the ISE Module reads the mV's for the electrodes while Calibrant A is present. What actually occurs is that the ISE Module takes six mV readings in rapid succession. Then the ISE Module calculates the average of the six readings. If one of the readings is more than 0.7mV above or below the average, then you will receive a "noise" error. This can occur due if there is a small flow problem and the Calibrant A is moving when the reading is taking place. You must make sure that all of the electrodes are seated properly and the o-rings are present. A quick test of this is to dispense Cal A into the Sample Cup and observe if the

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solution stays inside the cup. If it slowly empties, then you have a small air leak. Also make sure the pump tubing has been replaced as per the routine maintenance schedule. Assuring proper and continuous instrument grounding is also necessary. Sometimes moving an analyzer to a different location will help determine if improper grounding or fluctuating strong EMF fields are involved with inducing errors (i.e. big elevator motors, …). Installation of an Uninterruptible Power Supply (UPS), which also corrects for out of specification local power, is also a possible solution to noise and drift problems. Noise can also occur if the reference electrode is older than six months. Ensure that they perform maintenance when required. Of course, if one electrode is continually giving noise errors, simply replace the electrode. "Drift in Cal A" occurs after sample analysis. After every sample analysis, calibrant A is positioned in front of the electrodes and an mV reading is taken. It then compares the mV result to the previous Calibrant A reading. If the change is more than 7 mV, you will get a "drift" error. Troubleshooting is similar to the procedure listed above for "noise" errors. However, in both cases, try running a cleaning cycle and re-calibrating as a first step. If problems continue, it is probably due to external factors such as poor or intermittent electrical instrument grounding, improper supply voltage or Electro Magnetic Field, (EMF), effects from other instrumentation such as the electrical motors in refrigerators or centrifuges. The 4-channel ISE Module calibration cycle is calibrant B-A-B-A. This enables the system to check for drift errors during calibration and not just for sample analysis. It also enables the system to check for drift in both Cal A and Cal B.

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5.5.13.

Section 5 MAINTENANCE

Optical Group – Main Steps for Filters Calibration

The following procedure must be carried whenever the filter wheel has been removed: filter replacement, motor replacement, filter wheel home sensor replacement, lens replacement or when the operator recognizes the need (i.e.: bad result reproducibility on the same filter, etc.). Optical gain calibration @ 20000 counts 1

Open the MiuraServer service program

2

Enter the sub-menu named “reading Test Panel” and the sw will show a window including several commands related to: the filter wheel, the cuvette wheel, etc.

3

Home the cuvette wheel and then set cuvette nr. 32 to be read under the optical path. It is necessary to position cuvette #32 because with the cuvette cover it is possible to reach “Gain” and “Off-set” potentiometers by two upper throughholes. A very thin and long slotted screwdriver is needed for this operation (screwdriver diameter about 2mm, screwdriver length at least 30mm  25mm needed).

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4

Dismount the cuvette cover and check that the centre of the cuvette #32 is alligned with the optical path (identified by a sign on the black support). If the cuvette is not correctly alligned modify step by step the value in the field position of the section “cuvette wheel”. Note: to obtain good readings, avoid unstable cuvette’s wall reflections, taking care that the optical path be in correspondence of the cuvette centre.

5

Fill cuvette #32 with 300µl of distilled water and assemble back the cuvette cover caring the allignement with the washing station tip.

6

Introduce in the field “Change gain” the value 14 for the gain digital potentiometer and set it by activating the command aside. The value, when accepted, will be displayed in the field gain value. This value means real gain = 1, in this way the instrument doesn’t amplify the reading signal.

7

In the filter wheel section, select the filter posit.#6 = 340nm. Click Home and then click Go To Position (it is better to perform any positioning after homing the group). On the left of the panel, in the “Read” section check the selection “Continuous”; in the “Mode” section check the selection “Single Value” and then click on Start. Reading values will be displayed in the “Real Time Value” field and in the plot in terms of AtoD counts.

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In the following the optical gains cross-reference table showing the correspondence between the digital potentiometer setting values and the real mathematical/electronic signal gain has been annexed.

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8

The actual value read in the “Real Time Value” field must be manually trimmed around 20000 counts. This can be done by turning the potentiometer “Gain” which is the one placed under the left hole of the cover. Turning clockwise  value increases, turning counter clockwise  value decreases. Please gently insert the thin screwdriver to reach the potentiometer screw and also turn the potentiometer gently to avoid damaging. Trim to reach 20000 counts.

9

After having set the gain one value for 340nm, In the filter wheel section, select the filter posit. #5 – buioOFFSET. Click Home and then click Go To Position. The actual value read in the “Real Time Value” field must be manually trimmed around 10 ± 5 counts. This can be done by turning the potentiometer “OffSet” which is the one placed under the right hole of the cover. Turning clockwise  value increases, turning counter clockwise  value decreases. Please gently insert the thin screwdriver to reach the potentiometer screw and also turn the potentiometer gently to avoid damaging. Never set values of 0.

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Calibration control of the optical filter positions

1

In the filter wheel section, select again the filter posit.#6 = 340nm. Click Home and then click Go To Position (it is better to perform any positioning after homing the group). By reading the “Real Time Value” field and looking at the plot, start searching the highest and most stable value. Set the plot down and up limits to zoom at about ±50 points on the centre “Real time value” to help the research. A value is stable when cycling homing and resetting back to 340nm the real time value is within ±20/30 read points on about 3 sequencial µsteps. This position generally correspond to the centre of the filter.

2

Once that the highest and stable point has been found, memorize its position and run, as usual, the parameter download (“save parameter”, see MNM-10800-01-A ENG, MiuraServer SW Manual for Calibration). Reapeat the same procedure for all filters without taking care about the absolute mean value (that will be different from 20000). The interval between one flter and the subsequent is 160 µsteps. This means that at the actual position is necessary to add 160 to get the next one as starting point for calibration of the next filter. Consider that after the 340 filter calibration, all the others will be very near to the theoretical 160µsteps-multiple positions. Positions #7 (not used) and #5 (off-set) doesn’t need fine tuning calibration. At the end of the calibration, in the Cycle Control Panel, set the value “Abs for 340” = 20000 and save it. Download then parameters and then shut down the software and power off the instrument.

3

4

Restart the software and the instrument and run a Gain Calibration Cycle for wavelenght gains recalculation. In this way gains will be recalculated and set so to equalize different filter transparent values around 20000 counts.

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Digital potentiometer value vs. Real Gain - Cross-reference table Bit 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51

G 0,147059 0,204412 0,261765 0,319118 0,376471 0,433824 0,491176 0,548529 0,605882 0,663235 0,720588 0,777941 0,835294 0,892647 0,95 1,007353 1,064706 1,122059 1,179412 1,236765 1,294118 1,351471 1,408824 1,466176 1,523529 1,580882 1,638235 1,695588 1,752941 1,810294 1,867647 1,925 1,982353 2,039706 2,097059 2,154412 2,211765 2,269118 2,326471 2,383824 2,441176 2,498529 2,555882 2,613235 2,670588 2,727941 2,785294 2,842647 2,9 2,957353 3,014706 3,072059

Bit 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102

G 3,129412 3,186765 3,244118 3,301471 3,358824 3,416176 3,473529 3,530882 3,588235 3,645588 3,702941 3,760294 3,817647 3,875 3,932353 3,989706 4,047059 4,104412 4,161765 4,219118 4,276471 4,333824 4,391176 4,448529 4,505882 4,563235 4,620588 4,677941 4,735294 4,792647 4,85 4,907353 4,964706 5,022059 5,079412 5,136765 5,194118 5,251471 5,308824 5,366176 5,423529 5,480882 5,538235 5,595588 5,652941 5,710294 5,767647 5,825 5,882353 5,939706 5,997059

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Bit 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153

G 6,054412 6,111765 6,169118 6,226471 6,283824 6,341176 6,398529 6,455882 6,513235 6,570588 6,627941 6,685294 6,742647 6,8 6,857353 6,914706 6,972059 7,029412 7,086765 7,144118 7,201471 7,258824 7,316176 7,373529 7,430882 7,488235 7,545588 7,602941 7,660294 7,717647 7,775 7,832353 7,889706 7,947059 8,004412 8,061765 8,119118 8,176471 8,233824 8,291176 8,348529 8,405882 8,463235 8,520588 8,577941 8,635294 8,692647 8,75 8,807353 8,864706 8,922059

Bit 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204

G 8,979412 9,036765 9,094118 9,151471 9,208824 9,266176 9,323529 9,380882 9,438235 9,495588 9,552941 9,610294 9,667647 9,725 9,782353 9,839706 9,897059 9,954412 10,01176 10,06912 10,12647 10,18382 10,24118 10,29853 10,35588 10,41324 10,47059 10,52794 10,58529 10,64265 10,7 10,75735 10,81471 10,87206 10,92941 10,98676 11,04412 11,10147 11,15882 11,21618 11,27353 11,33088 11,38824 11,44559 11,50294 11,56029 11,61765 11,675 11,73235 11,78971 11,84706

Bit 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255

G 11,90441 11,96176 12,01912 12,07647 12,13382 12,19118 12,24853 12,30588 12,36324 12,42059 12,47794 12,53529 12,59265 12,65 12,70735 12,76471 12,82206 12,87941 12,93676 12,99412 13,05147 13,10882 13,16618 13,22353 13,28088 13,33824 13,39559 13,45294 13,51029 13,56765 13,625 13,68235 13,73971 13,79706 13,85441 13,91176 13,96912 14,02647 14,08382 14,14118 14,19853 14,25588 14,31324 14,37059 14,42794 14,48529 14,54265 14,6 14,65735 14,71471 14,77206

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Section 6 TESTING PERFORMANCE

Test of the Photometer: Accuracy and Imprecision

This test is intended for testing the photometer performance at different wavelengths. It validates the complete optical group (lamp, filter wheel, photodiode) and also the reading circuit on the R&W Controller board. When testing the performance of an instrument, run this test before the following ones so to check the photometer as first and then to address it possible causes of misfunctioning. Preparation To run this test it is necessary to get the following materials (food colourings and distilled water – herein after named as H2O) to prepare different solutions for checking each one of the wavelengths (actually 340nm, 405nm, 492nm, 505nm, 546nm, 578nm, 630nm, 700nm as standard configuration, change solutions accordingly to the new wavelength). They will be used as reagents. Each solution can be generated by mixing special food colouring with distilled water and it’s stable for about 48 hours; just remember to gently shake the solution before using. Use good distilled water as sample. Solution E102 for 340nm E102 for 405nm E102 for 492nm E124 for 505nm E124 for 546nm E131 for 578nm E131 for 630nm (E131+E102) for 700nm

       

Components E102 – Giallo Limone N.32 by Chimival srl E102 – Giallo Limone N.32 by Chimival srl E102 – Giallo Limone N.32 by Chimival srl E124 – Rosso Vivo Brillante N.54 by Chimival srl E124 – Rosso Vivo Brillante N.54 by Chimival srl E131 – Azzurro Brillante N.13 by Chimival srl E131 – Azzurro Brillante N.13 by Chimival srl E131 E102 – Verde Brillante N.56 by Chimival srl

Concentration 0.90 g/l into H2O 0.08 g/l into H2O 0.90 g/l into H2O 0.05 g/l into H2O 0.05 g/l into H2O 0.25 g/l into H2O 0.10 g/l into H2O 5.00 g/l into H2O

When ready, pour each solution into a new and clean reagent bottle and, after some minutes of stabilization, place it on the reagent tray. Programming In the Chemistry Menu, create eights applications, one for each solution (or wavelength), using the following general parameters: Reagent: Sample: Test type: Calibration model (Standard Menu): Wavelength: Blank included in calculation: Reagent volume: Sample volume: Reagent + sample incubation: Unit: Decimals: Instrument Factor:

Specific food colouring H2O Endpoint Nr. of standard=0, Factor=1000 xxx nm No 200μl 1μl 300 sec (to equilibrate to 37°C) Abs 1 [0.0] a=1, b=0

Specialize each application with the following filters 340nm, 405nm, 492nm, 505nm, 546nm, 578nm, 630nm, 700nm, and parameters below: Method Name EP340 EP405 EP492 EP505

Method Code 340 405 492 505

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Filter 340nm 405nm 492nm 505nm

Expected Values [10samples] Mean [mAbs] CV [%] 1300 ± 100 ≤ 1.0 800 ± 100 ≤ 1.3 750 ± 100 ≤ 1.3 850 ± 100 ≤ 1.3

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Method Name EP546 EP578 EP630 EP700

Method Code 546 578 630 700

Filter 546nm 578nm 630nm 700nm

Section 6 TESTING PERFORMANCE

Expected Values [10samples] Mean [mAbs] CV [%] 500 ± 100 ≤ 2.3 450 ± 100 ≤ 2.3 600 ± 100 ≤ 2.3 450 ± 100 ≤ 2.3

Execution and performance 1. Run a Start-Up cycle from the Status menu. 2. In the System Config Menu lock the instrument on sample #1 and Save. 3. Program a Work-List of 10 samples running all of the eight methods (EPxxx) above, for an amount of 80 tests. 4. Start the run in Batch mode. 5. At run concluded, check that for each method the Mean and the CV% for all 10 tests are within the limits given in the table above (Expected Values columns). Main troubleshooting Accuracy 1. In case the results of one test present a different Absorbance for the Mean (i.e.: due to different food colouring producer or product), crosscheck the Mean value by testing the absorbance of the same solution on a different standalone photometer with equivalent light path to compare the values. Note - Values read by different photometers may be slightly different due to the filters characteristics of each: to assess if the mean value read on the instrument is correct, the readings must be compared at different wavelength. Precision 1. In case of a flyer repeat only that test. 2. In case the results of one test present a CV% out of range, run an extra-wash cycle and then repeat the test. If the problem persist check the following: a. Replace solution b. Filter c. Replace cuvettes 3. In case that the results for most (all) tests present the CV% out of range, run an extra-wash cycle and then repeat the test. If the problem persist check the following: a. Cuvette #1 in the centre of the Optical Reading Path b. Filter Wheel  mechanical filters calibration (steps) c. Photodiode and its wiring d. Replace R&W Controller board e. Filter Wheel belt tension and its home sensor f. Replace cuvettes g. Order of filters (there positioning on the wheel)

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6.3.

Section 6 TESTING PERFORMANCE

Test of Pipetting: Accuracy & Imprecision

This test is intended for testing the pipetting performance. It validates the complete pipetting system (ARM1 and eventually ARM2 dosing, mixing) and also the ARM1 and ARM2 Controller board. When testing the performance of an instrument, run this test after the previous one, that assured good performance of the photometer. Preparation Pipetting accuracy and imprecision is tested through a standard sample dye solution (K 2Cr2O7 - Potassium Dichromat) at the fixed concentration of 100Abs to be used as sample. To prepare that dye solution, it is necessary to get the following materials to prepare a valid sample to be checked at 340nm: pure potassium dichromat and sulphuric acid. The solution can be generated by mixing the two ingredients above; it will remain stable for about 30 days when saved at controlled temperature [from +2°C to +18°C] and protected from the light. Just remember to gently shake the solution before using. Use good distilled water as reagent. Solution Potassium Dichromat Sample Dye

Components  K2Cr2O7 (purity 99%)  H2SO4 (Sulphuric Acid)

Concentration 10 g/l K2Cr2O7 into 0,0144mol/l H2SO4

Pour each solution into a new and clean sample tube and, after some minutes of stabilization, place it on the sample tray – position #1. Programming In the Chemistry Menu, create one application using the following general parameters: Reagent: H2O Sample: Sample Dye Test type: Endpoint Calibration model (Standard Menu): Nr. of standard=0, Factor=1000 Wavelength: 340 nm Blank included in calculation: Yes Reagent volume: 198μl Sample volume: 2μl Reagent + sample incubation: 300 sec (to equilibrate to 37°C) Unit: Abs Decimals: 1 [0.0] Instrument Factor: a=1, b=0 The parameters below are valid: Method Name 340DYE

Method Code DYE

Filter 340nm

Expected Values [25samples] Mean [mAbs] CV [%] 1000 ± 100 ≤ 2.5

Execution and performance 1. Run a Start-Up cycle from the Status menu. 2. In the System Config Menu lock the instrument on sample #1 and Save. 3. Program a Work-List of 25 samples running all of the eight methods (340DYE). 4. Start the run in Random mode. 5. At run concluded, check that for each method the Mean and the CV% are within the limits given in the table above (Expected Values columns). Main troubleshooting Accuracy

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1.

Section 6 TESTING PERFORMANCE

In case the results present a different Absorbance for the Mean, crosscheck the Mean value by testing the absorbance of the same reaction solution (this time obtained by manually mixing 198µl of H 2O with 2µl of potassium dichromat) on a different standalone photometer and compare the values. If the values are far more than 3%: a. Check the dosing circuit/s

Precision 1. In case of a flyer repeat the test. 2. In case the results of one test present a CV% out of range, run an extra-wash cycle and then repeat the test. If the problem persist check the following: a. Replace solution b. Replace cuvettes c. Check the dosing circuit d. Cuvette #1 in the centre of the Optical Reading Path

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6.4.

Section 6 TESTING PERFORMANCE

Test of the Incubation Temperature

This test is intended for testing the incubation temperature on the reaction cuvette tray. It validates the complete heater system controlled by the Main Controller board (it checks the complete chain: heater, temperature sensor, thermal interfaces, converter). Use this test also to control the calibration of the incubation temperature accordingly to the value read with the MiuraServer service software. Preparation Run the system and wait for the Idle Status. Prepare a digital thermometer equipped with a non-invasive small and precise sensor probe (like K-thermocouple) giving a resolution of at least 0.1°C. Prepare a pipette for dispensing 300µl of good distilled water into the cuvette placed under the ARM1 (accessible from the inlet hole on the cuvette cover). Open the MiuraServer service software and enter the Temperature Control Panel to monitor the Incubation Cuvette Temperature (see pic below).

MEASURED VALUE ON SENSOR

Execution and performance 1. Dispense 300µl of good distilled water into the cuvette placed under the ARM1 (enter from the inlet hole on the cuvette cover). 2. Immediately introduce the temperature sensor probe into the cuvette and fix it taking care that it’s on the cuvette bottom (don’t move it during the test) and start the stop-watch. 3. After about 15 minutes, control that: a. The temperature in green (measured by the internal sensor) is now regulated and ranges around the value of the field “Temperature value” (target value). b. The value of the temperature measured by the thermometer has reached the value displayed in the field “Temperature value” (target value). Note: the temperature measured by the internal sensor seems to change very quick in time. It is measured near the heater. The temperature into the cuvette is much more stable and uniform as it’s being integrated by the metal incubation bulk and by the incubation chamber environment. Fine Tuning In case the temperature measured by the thermometer is different from the target value: it is possible to adjust the incubation temperature by trimming the potentiometer R154 on the Main Controller board P/N 10012-01-D (see pic below).

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POT TO TRIM

M

Trim the R154 potentiometer, using a small screwdriver, until the “Measured Value on Sensor” reaches the value on the thermometer. Note: Pay attention when regulating the temperature because it’s a very slow phenomenon. Main troubleshooting 1. In case the incubation temperature doesn’t reach the target value and remains very low, check the following: a. Instrument connected to he external PC and handshaking messages. b. Main Controller board. c. Temperature sensor. d. Incubation heater strip not damaged.

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Problem REAGENT AND/OR SAMPLE PROBES FAILURES DURING ASPIRATION AND DISPENSATION

Possible Cause 1. Arm Heater Coil tubing not connected or damaged:

2.

3. 4.

5.

6.

REAGENT AND/OR SAMPLE PROBES DO NOT WASH, MISSING OF WASHING SOLUTION FLOW

Section 7 T

1. 2.

3.

4.

Corrective Action Verify that the tubing of the Heater Coil is correctly plugged on the sampling probe without any leakage. Verify that the fittings on the Diluter Head are correctly fastened and without fluid leakages. If the tubing or the fittings are damaged, change them with new ones. Diluter head: Verify that the Diluter Head doesn’t leak out and that, during sampling, the white Diluter Plunger moves up and down. In case of damage replace the part. Diluter electrovalve not working: Verify that during sampling, the Electrovalve switches ON and OFF. If not, replace the part. Systemic solution external charge Verify that system solution tank isn’t tubing is empty, liquid doesn’t flow: empty and that the Tygon® tubing is undamaged and not bended or obstructed and that the filter dips into the liquid. If damaged replace it. Teflon® tubing of the diluter head is Verify that the Heater Coil Teflon® empty or bubbles are into the circuit: tubing is undamaged and not bended or obstructed. If damaged change it. Verify that the Teflon® tubing between Electrovalve and Diluter Head is undamaged and not bended or obstructed. If damaged replace it. Verify that the Teflon® tubing end is correctly plugged onto the probe. Run a StartUp cycle to refill tubings and eliminate bubble. Sampling Probe occluded: Verify that the probe isn’t occluded and it is internally clean. Clean it first with several washings (Sample Arm rinsing) then use disinfection procedure for probes. If damaged change it. The systemic solution must be clean and without floating particles; verify and clean the tank internal filter. Diluter electrovalve not working: Verify that during sampling, the Electrovalve switches ON and OFF. If not replace the part. Teflon® tubing between Verify that the Teflon® tubing fittings Electrovalve and Diluter damaged: between Electrovalve and Diluter Head are correctly fastened, undamaged and that tubing is not bended or obstructed. If damaged replace it. Hydraulic circuits empty (most Verify that systemic solution tank isn’t common cause when arm doesn’t empty and that the Tygon® tubing is wash): undamaged and not bended or obstructed and that the filter dips into the liquid. If damaged replace it. Peristaltic Pumps worn away or not Verify the Peristaltic Pump heads: if

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Problem

Possible Cause working:

5. Sampling probe occluded:

TEST RESULTS NOT RELIABLE NOR REPEATABLE:

1. Sampling probe occluded:

2. Diluter Head:

3. Arm Heater Coil tubing not connected or damaged or shows many air bubbles inside:

4. Dirty cuvettes:

5. Photometer lamp: 6. Externally wet cuvettes:

7. Decayed Reagent: 8. Wrong or decayed control:

9. Contamination:

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Corrective Action worn, change them. Verify the Peristaltic Pump motors: they must turn during washing. If not moving, replace them. Verify that the probe isn’t occluded and it is internally clean. Clean it first with several washings (Sample arm rinsing) then use disinfection procedure for probes. If damaged change it. The systemic solution must be clean and without floating particles; verify and clean the tank internal filter. Verify that the probe isn’t occluded and that it is internally clean. Clean it first with several washings (Sample arm rinsing) then use disinfection procedure for probes. If damaged change it. The Systemic solution must be clean and without floating particles; verify and clean the tank internal filter. Verify the Diluter Head, if it contains floating particles or big air bubbles clean it with several probe washings (Sample arm rinsing). Verify that the tubing of the Heater Coil is correctly plugged on the sampling probe without any leakage. Verify that the fittings on the acrylic Diluter Head are correctly fastened. Verify if probe tubing or fittings are undamaged, otherwise replace them with new ones. Run a Start-Up cycle to refill tubing. Run a washing cycle (Start-up), take out the cuvette and control that their narrow walls are clean inside and outside; dirty cuvettes must be replaced. Verify the photometer lamp is on and stable, if not replace it. Switch the instrument off, take out all cuvettes, in case they are wet carefully dry them with a clean soft cloth. Run a Gain Calibration cycle. Verify that the reagent used for the method, whose results are out of control, is not expired. Verify that the control used for the method, whose results are out of control, is not expired and it’s the correct one. Verify that the solution in cuvette is not contaminated by external agents.

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Problem

POOR CUVETTE WASHING, THE CUVETTES ARE WET INSIDE.

Possible Cause 10. Damaged Filter / Filter Wheel:

1. 2.

3.

4. 5.

POOR CUVETTE WASHING, THE CUVETTES ARE DIRTY INSIDE.

1.

2.

3.

THE INSTRUMENT DOESN’T RESETS OR DOESN’T CORRECTLY WARM UP WHEN POWERED ON

Section 7 T

1. 2.

Corrective Action Run a Gain Calibration cycle and, in case of filter alarm replace the filter. Check the Filter wheel if correctly and firmly fixed on its axis and on the belt. Waste tubing: Verify that the external Waste tubing is not bended or obstructed and well fastened to its side fittings. Aspiration tubing of the Washing Verify that the aspiration Teflon® and Station: Tygon® tubing, placed under the Washing Station protecting Cap, are undamaged and without leakages. If damaged replace them. Aspiration Pumps: Verify that both Aspiration Pumps works during washing. Check absence of obstructions of the valves into the head. If not working, try to clean or replace the part. Drying Tip: Verify that the Washing Station drying tip is undamaged. If damaged, replace the part. Washing Station aspiration needles: Verify that the longest needles of the Washing Station are clean and not damaged nor occluded. If not clean them. Check the Washing Station Yaxis calibration (white tip must touch the bottom of cuvette). Peristaltic Pumps worn away or not Verify the Peristaltic Pump heads: if working: worn, change them. Verify the Peristaltic Pump motor: they must turn during washing. If not moving, replace them. Washing Station dispensing tubing: Verify that the aspiration Teflon® tubing, placed under the Washing Station protecting Cap, are undamaged and without leakages. If damaged, replace them. Washing Station dispensing needles: Verify that the shortest needles of the Washing Station are clean and not damaged nor occluded. If not clean them. Check the Washing Station Yaxis calibration (white tip must touch the bottom of cuvette). Serial link failure: Verify that the serial cable connecting the instrument and the PC is correctly fastened on both sides. Power On problem: Check the cover is closed at power up. Switch the instrument off and keep it off for 2 minutes; then power it on again. If not enough, power off the system (PC and instrument) for 2 minutes and power it on once more.

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Problem EXTERNAL PRINTER NOT WORKING THE SAMPLING PROBE WASHING SINK DOESN’T GET EMPTY DURING WORKING SESSIONS

THE SOFTWARE DOESN’T START AT THE START UP:

Section 7 T

Possible Cause 1. Absence of link:

Corrective Action Verify the connection between instrument and external PC and the correct installation of the printer driver in the PC. 1. Emptying Diagphram Pump worn or Verify the Pump head: if occluded, not working: dismount it and clean valves and membrane with distilled water. Pay attention in reassembling parts. Verify the Pump motor: it must turn during washing. If not moving, replace then pump. 1. Database & its first level back-up Call for service for restoring the copy or some special files could be missing files or dB with the proper corrupted: ones. To avoid this kind of problems, or loss of data, PAY ATTENTION DURING SYSTEM SHUT DOWN: follow always the correct procedure and do not switch the PC off manually before the procedure is completed.

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Performance Messages

The Status menu of the User Interface software constantly shows the performance status of the instrument during operation. The system shows message windows only when an alarm or a warning condition occurs. Status and its meaning is given in the table below: Status LOADING WARMING UP IDLE REFILLING READING AND WASHING CALIBRATING SCHEDULING RUNNING ABORTING IN ALARM IN WARNING PAUSING READING BAR CODE EXTRA WASH REFILLING ISE CLEANING ISE INITIALIZE ISE

Meaning The PC is establishing the serial communication with the instrument and also loading information and data. The system is performing the warming up procedure. It can include a refilling cycle and, after temperature and lamp stabilization, an auto-zero cycle or only a lamp warming up if the instrument OFF time was short. The system is ready to operate and waiting for commands. The system is performing a refill that includes: probes rinsing and cuvette washing and autozero. The system is performing cuvette washing and reading. The system is in calibration cycle; it includes: a refill, a first cuvette washing and reading cycle for filter gains calibration and then an auto-zero cycle. Start analysis has been run, the system is scheduling the analysis in order to proceed with the working session. The system is running a working session. A working session has been interrupted and the system is reading and washing all cuvettes (auto-zero cycle). The system is in alarm status: a message window is at the same time shown; an action is required to proceed. The system is in warning status: a message window is at the same time shown; an action or decision can be asked to the operator. The system has been set in Pause (from a Running condiction); resume the Running by pressing the button Continue. The system is reading reagent or sample barcodes. The system is performing a complete ExtraWash cycle on all cuvettes. The system is calibrating the ISE Module (Bubble Detector, Pumps and electrodes calibrations). The system is running a Calibration cycle. The system is initializing during a run.

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Error Messages and Actions Required

This paragraph provides a list of the error codes, its displayed linked messages, and the actions required in case of any problem occurring during the instrument working: Code 101

Message Warning: Close the cover for running.

102

Warning: Systemic solution is going to finish.

103

Warning: Cleaner solution is going to finish.

104

Warning: Waste tank is getting full.

105

Warning: Some reagents are empty. In the Status menu click on red reagents.

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Cause The Protection defence of the instrument has been open during run.

Action Sampling is arrested. Reading of reactions actually in incubation will be continued up to the end, also with protection defence open. Close the protection defence to restart and continue the working session. Systemic solution is ending. Sampling is arrested. Reactions actually in incubation are anyway carried out also with cover open and concluded. After readings, cuvettes are washed and the system waits for tank refilling. Refill the Systemic solution tank by unfastening the tank cap and keeping the float sensor in the empty position (down): the system then restarts the sampling run. Do not disconnect tubing during run. Cleaner solution is ending. Sampling is arrested. Reactions actually in incubation are anyway carried out also with cover open and concluded. After readings, cuvettes are washed and the system waits for tank refilling. Refill the Cleaner solution tank by unfastening the tank cap and keeping the float sensor in the empty position (down): the system then restarts the sampling run. Do not disconnect tubing during run. Waste tank is almost full. Sampling is arrested. Reactions actually in incubation are anyway carried out also with cover open and concluded. After readings cuvettes, are washed and the system waits for tank refilling. Empty the tank or replace with an empty one AFTER the end of the washing phase and keeping the float sensor in the full position (up): the system then restarts the sampling run. Do not disconnect tubing during cuvette washing or running. Some reagents, used in the Work Click on the RED reagent and List, are finished. A reagent that is follow the instructions on the screen. finished is marked in RED on the Press Retry after replacing the Status menu. bottle; press Abort to skip that type of analysis; press Exit to exit the window without any decision and

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Code

106

Message

Warning: Some samples are empty. In the Status menu click on red reagents.

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Section 7 T

Cause

Some samples are finished. A sample (or standards or controls) that is finished is marked in RED on the Status menu.

Action change. To change the bottle: click on Pause and wait that ARMs stops, open the protection defence and replace the bottle; close the protection defence and click on Continue, then click on Retry. In case of Sample: Click on the RED sample and follow the instructions on the screen. Press Retry after refilling the sample; press Abort to skip the hanging analyses; press Exit to exit the window without any decision and change. To refill the sample: click on Pause and wait that ARM stops, open the cover and refill the tube; close the protection defence and click on Continue, then click on Retry. In case of Standard: Click on the RED standard and follow the instructions on the screen. Press Retry after replacing Standard; press Abort to skip standardization, controls and analyses related to that standard; press Ignore to skip standard and to use old Factor in memory for computing results (for control and analyses); press Exit to exit the window without any decision and change. To refill the standard: click on Pause and wait that ARM stops, open the protection defence and refill the cup; close the protection defence and click on Continue, then click on Retry. In case of Control: Click on the RED control and follow the instructions on the screen. Press Retry after replacing Control; press Abort to skip controls and related analyses; press Ignore to skip control and to process anyway the related analysis; press Exit to exit the window without any decision and change. To refill the control: click on Pause and wait that ARM stops, open the protection defence and refill the cup; close the protection defence and click on Continue, then click on Retry.

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Code 107

Section 7 T

Message Alarm: Refill Systemic solution tank and in Status menu press Continue button. Alarm: Refill Cleaner solution tank and in Status menu press Continue button. Alarm: Empty Waste tank and in Status menu press Continue button. Alarm: Internal hardware communication error. In run press Continue button else restart the System.

Cause Systemic solution is over; the system is blocked.

Action Refill the tank and then press the button Continue in the Status menu.

Cleaner solution is over; the system is blocked.

Refill the tank and then press the button Continue in the Status menu.

Waste is full; the system is blocked.

111

Alarm: Washing station not working. In run press Continue button else restart the System.

The Washing Station isn’t properly working, it didn’t enter cuvettes.

112

Alarm: Cuvette wheel encoder not working. In run press Continue button else restart the System.

The cuvette wheel motion fails positioning.

113

Alarm: Sample ARM is crashing. In run press Continue button else restart the System.

The Sampling ARM crashed against an obstacle during its way down.

115

Alarm: Serial communication error. Check the cable.

Error due to serial link hardware failure between the external PC and the instrument.

117

Alarm: Problem on filter xxx. Run a Calibration Cycle.

Filter xxx could be damaged.

Empty the tank and then press the button Continue in the Status menu after replacing it. Press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected check if the instrument is ON. Shutdown the program, the PC and the instrument and then restart the system. Verify the absence of obstacles under the washing station needles. Press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and then restart the system. Press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and then restart the system. Remove any obstacle on the probes way down, i.e.: sample caps, etc. Press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and then restart the system. If the problem persists check if the probe is entering the correct positions (tips of washing sinks, cuvettes, …) and calibrate position [X and Y]. Shutdown the program, the PC and the instrument and verify that the serial cable is fastened on both ends and that is undamaged otherwise change it. Restart the system. If the problem persists check internal serial cable and Main Controller. In case the alarm is again detected, shutdown the program, the PC and the instrument and restart the system. Run a Calibration cycle. If the problem persists check filter calibration.

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Code 118

Message Alarm: X-Sample ARM motion not properly working. In run press Continue button else restart the System.

Cause The Sampling ARM doesn’t rotate correctly.

119

Alarm: Y-Sample ARM motion not properly working. In run press Continue button else restart the System.

The Sampling ARM doesn’t rise and descend correctly.

120

Alarm: Diluter Sample ARM motion not properly working. In run press Continue button else restart the System.

The sampling ARM diluter fails during motions.

121

Alarm: X-Reagent ARM motion not properly working. In run press Continue button else restart the System.

The Reagent ARM doesn’t rotate correctly.

122

Alarm: Y-Reagent ARM motion not properly working. In run press Continue button else restart the System.

The Reagent ARM doesn’t rise and descend correctly.

123

Alarm: Diluter Reagent ARM motion not properly working. In run press Continue button else restart the System.

The reagent ARM diluter fails during motions.

124

Alarm: Reagent wheel

The reagent wheel fails during

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Section 7 T

Action Verify the absence of obstacles on the working area. Press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and restart the system. If the problem persists check calibration. Verify the absence of obstacles on the working area. Press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and restart the system. If the problem persists check calibration. Verify the absence of obstacles or particles into the Diluter transparent head; press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and restart the system. If the problem persists check calibration. Verify the absence of obstacles on the working area. Press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and restart the system. If the problem persists check calibration. Verify the absence of obstacles on the working area. Press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and restart the system. If the problem persists check calibration. Verify the absence of obstacles or particles into the Diluter transparent head; press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and restart the system. If the problem persists check calibration. Verify the absence of obstacles on

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Code

Message motion not properly working. In run press Continue button else restart the System.

Section 7 T

Cause motions.

125

Alarm: Sample wheel motion not properly working. In run press Continue button else restart the System.

The sample wheel fails during motions.

126

Alarm: Washing station motion not properly working. In run press Continue button else restart the System.

The Washing Station is not properly working, the motion has problems.

127

Warning: Hardware over temperature. Shutdown the system and control ambient temperature.

The temperature of electronics environment is too high.

128

Warning: Incubation temperature out of range.

Incubation temperature out of limits.

129

Warning: Bar-code reader out of order.

Barcode communication out of order.

130

Warning: Check Photometer lamp.

Photometer lamp doesn’t work properly.

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Action its working area and the free movement of the wheel. Press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and restart the system. If the problem persists check calibration. Verify the absence of obstacles on its working area and the free movement of the wheel. Press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and restart the system. If the problem persists check calibration. Verify the absence of obstacles under the needles. Press the button Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and then restart the system. If the problem persists, check calibration. Shutdown the program, the PC and the instrument and verify that the operating ambient temperature is within specification. If not, do not operate the instrument. If it’s within the range, wait for 30 minutes and restart the system. If the problem persists check calibration. Verify that the operating ambient temperature is within specification. If not, do not operate the instrument. If it’s within the range, shutdown the program, the PC and the instrument and restart the system after 10 minutes. If the problem persists check calibration. Pay attention that instrument is still connected. Shutdown the program, the PC and the instrument and restart the system. If the problem persists check wiring and device. Check that the lamp is on and stable. Shutdown the program, the PC and the instrument and restart the system. If the problem persists change the lamp and run a

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Code

Message

131

Alarm: Client-Server TCP/IP error. Restart the system. Problem during WL scheduling process. Try again.

PC internal software error.

Communication error. Command cannot be send to server. Try again. Database error. Restart the system.

Temporary Client/Server error.

135

Database not found. Call for service.

Internal database error.

136

Problem during filing process. Not all patient data registered. Alarm: Filter motor not properly working. In run press Continue button else restart the System.

Error during filing of patients in archive.

Warning: unknown method loaded by smart card.

A method not included in the list has been loaded by smart card and its memorization in the database failed.

132

133 134

137

142

143

144 145

146

It can be activated only within instrument operating under smart-card. Alarm: the original database was not found. The system has restored the last automatic back up. Please restart the system. Alarm: critical internal error. Please try to restart the system. Warning: Ise module communication lost. In Status page click on Ise icon. Warning: Ise module purge A error. In Status page click on Ise icon.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Cause

Error during Work List scheduling.

Internal database error.

The filter wheel fails during motion.

The database is missing or corrupted.

The software or pert of it could be missing or corrupted.

Action calibration cycle. Shutdown and restart the system. If the problem persists reload SW. At the end of the actual working session, select Clean WL form the Status menu and repeat the procedure. Retry after some seconds. At the end of the actual working session shutdown and restart the system. If the problem persists check database presence. At the end of the actual working session shutdown and restart the system. If the problem persists check database presence. None, results are lost. Press Continue in the Status menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and restart the system. If the problem persists check calibration. Memorize method.

The system has restored the last automatic back up copy of the database. Some results has been be lost. Restart the system. Try to restart the system. Check SW versions.

The ISE Module doesn’t respond. It Check if the ISE module is in ON could be OFF or its wiring isn’t condition. properly fixed or it’s damaged. Check that wiring is properly fixed on the back of the ISE Module and on the mother-board. Some air is in the Calibrant A Reinitialize ISE Module from ISE tubing or the Calibrant A is finished. module conf menu. Do it more times if required. Change Reagent pack and initialize ISE Module from ISE module conf menu. If the problem persists help to pull up

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Code

Message

Section 7 T

Cause

147

Warning: Ise module purge B error. In Status page click on Ise icon.

148

Warning: Ise module pump cal Calibration of pump motors failed. error. In Status page click on Air in fluids or hardware failure. Ise icon.

149

Warning: Ise module bubble cal error. In Status page click on Ise icon.

Air in fluids or fluid leakage or hardware failure.

150

Warning: Ise module air in urine. In Status page click on Ise icon.

Air detected into urine sample or pump tubing obstructed.

151

Warning: Ise module ISE Calibration was not successful. calibration error. In Status page Values out of range or difference click on Ise icon. between the two consecutive calibrations out of range. Warning: Ise module air in cal Calibrant A is segmented with air or A. In Status page click on Ise fibrine is plugging the electrode icon. flow-path.

152

153

Some air is in the Calibrant B tubing or the Calibrant B is finished.

Warning: Ise module air in cal Calibrant B is segmented with air or B. In Status page click on Ise fibrine is plugging the electrode icon. flow-path.

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Action fluid from the pack with a syringe. Reinitialize ISE Module from ISE module conf menu. Do it more times if required. Change Reagent pack and initialize ISE Module from ISE module conf menu. If the problem persists help to pull up fluid from the pack with a syringe. Check for liquid leakages in the ISE Module and check that tubing are free. Check for electrodes properly seated. Re-initialize ISE Module from ISE module conf menu. Do it more times if required. If the problem persists check Ycalibration in the inlet cup. Check for liquid leakages in the ISE Module and check that tubing are free. Check for electrodes properly seated. Re-initialize ISE Module from ISE module conf menu. Do it more times if required. If the problem persists check for bubbles into the tubing or change the sensor. Check the sample it must be free of bubbles. Repeat the sample. Check for liquid leakages in the ISE Module and check that tubing are free. Check for electrodes properly seated. Re-initialize ISE Module from ISE module conf menu. Repeat calibration by re-initializing ISE Module from ISE module conf menu. Do it more times if needed. Check for electrodes properly seated. Check for electrodes properly seated and compressed. Check compression plate, spring and seal. Remove and reassemble electrodes (verify that electrodes and o-rings are properly installed). Run a cleaning procedure from ISE module conf menu (command Clean cycle). Re-initialize ISE Module from ISE module conf menu. Check for electrodes properly seated and compressed. Check compression plate, spring and seal. Remove and reassemble electrodes (verify that electrodes and o-rings are properly installed).

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Code

Message

Section 7 T

Cause

154

Warning: Ise module air in Cleaning solution is segmented with cleaner. In Status page click on air or fibrine is plugging the Ise icon. electrode flow-path.

155

Warning: Ise module air in segment. In Status page click on Ise icon.

Air in segment.

156

Warning: Ise module no flow. In Status page click on Ise icon.

No flow in the path or fibrine is plugging the electrode flow-path.

157

Warning: Ise module dallas reading error. In Status page click on Ise icon.

Reagent Pack chip damaged or reagent pack connector not properly plugged.

158

Warning: Ise module dallas writing error. In Status page click on Ise icon.

Reagent Pack chip damaged or reagent pack connector not properly plugged.

159

Alarm: Internal memory error. System memory data not congruent.

160

Warning: L.I.S. module client error. Please restart the application. Warning: some controls are out of range. Please verify in status menu.

161

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Error on the L.I.S. MIURA interface. Some controls set in Work List are out of range.

Action Run a cleaning procedure from ISE module conf menu (command Clean cycle). Re-initialize ISE Module from ISE module conf menu. Check the cleaning bottle it must be free of bubbles. Check for electrodes properly seated and compressed. Check compression plate, spring and seal. Remove and reassemble electrodes (verify that electrodes and o-rings are properly installed). Run a cleaning procedure from ISE module conf menu (command Clean cycle). Check samples to be free of bubbles. Check for liquid leakages in the ISE Module and check that tubing are free. Check for electrodes properly seated and the o-ring are in place. Re-initialize ISE Module from ISE module conf menu. Check for electrodes properly seated and compressed. Check compression plate, spring and seal. Remove and reassemble electrodes (verify that electrodes and o-rings are properly installed). Run a cleaning procedure from ISE module conf menu (command Clean cycle). Check Reagent Pack connection properly installed and fixed to the reagent connector. Change the Reagent Pack. If the problem persists check proper crimping of the wires or change the pack. Check Reagent Pack connection properly installed and fixed to the reagent connector. Change the Reagent Pack. Restart the system. If the problem persists contact service. Restart the system. Click on the RED control and follow the instructions on the screen. Press Retry to repeat Control; press Abort to skip controls and analyses related to that control; press Ignore to ignore control result and to run anyway analyses; press Exit to exit the window

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Code

Message

Section 7 T

Cause

162

Warning: Miura LIS Server not LIS interface not answering. active or not enabled.

163

Alarm: the version of the firmware is wrong. Alarm: Fatal error from firmware. Call for service

164 165

Alarm: barcode not properly working. Call for service.

166

Alarm: flash memory corrupted. Call for service.

167

Alarm: communication lost with MASTER controller. In run press "Continue" button, else restart the system. Alarm: communication lost with ARM 1 controller. In run press "Continue" button, else restart the system. Alarm: communication lost with R&W controller.In run press "Continue" button, else restart the system. Alarm: Cuvette tray motion not properly working. In run press Continue button, else restart the system.

168

170

171

172

Action without any decision and change. Restart the system. If the problem persists check the Ethernet connection. Update the firmware.

The firmware version programmed on controller boards is not updated. Firmware internal error: missing of Restart the system (instrument + PC). congruency. If the problem persists check controller boards. Barcode reader not working. Restart the system (instrument + PC). If the problem persists replace the reader. Error during parameters loading or Restart the system (instrument + PC). down loading. If the problem persists replace the Main Controller board. Main Controller board not properly Restart the system (instrument + PC). working. If the problem persists replace the Main Controller board. ARM1 Controller board not properly working.

Restart the system (instrument + PC). If the problem persists replace the ARM1 Controller board.

R&W Controller board not properly Restart the system (instrument + PC). working. If the problem persists replace the R&W Controller board.

The cuvette tray motion fails during Press the button Continue in the Status motion. menu to retry, the system should recover. In case the alarm is again detected, shutdown the program, the PC and the instrument and then restart the system. Verify if some obstacles is into cuvette tray to stop the rotation. If the problem persists check the belt. Warning: Invalid ISE Reagent The Reagent Pack is allowed to run. Reagent Pack not enabled. Pack Call for service.

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Section 8

ADDITIONAL INFORMATION

8.

Parts for Maintenance and Service

Section 8 ADDITIONAL INFORMATION

The following paragraphs list the main parts considered as spare and consumable for MIURA and MIURA 200 system. Also

8.1.

Spare Parts and Consumables

The following kits should be available at service site: SPARE PARTS Item

Code

P/N

Kit

Board, Step motor driver ver. 00 for sample and reagent wheels Board, Step motor driver ver. 01 for sample and reagent arm diluters Board, Step motor driver ver. 02 for sample and reagent arms Board, Step motor driver ver. 03 for cuvette and filter wheels Board, Step motor driver ver. 04 for washing station Board, Step motor driver ver. 05 for washing station and filter wheel Board, Step motor driver ver. 06 for cuvette wheel and the ARM diluter Board, PWR driver module 9x1A on Pumps & Driver Assy Board, photodiode module Board, Main controller ver. 01 Board, ARM 1 controller Board, ARM 2 controller Board, Read&wash controller Miura Controller Assembly (including boards) Miura 200 Controller Assembly (including boards) Board, Controller Assembly power supply Controller Assembly Mother Board Board, LHP Power for refrigeration, lamp and heater strip Assembly, diluter Assembly, stepping motor 1,75NB1,8 for sample and reagent wheel Assembly, stepping motor 1,17NB1,8 for cuvette wheel Assembly, stepping motor 1,17NB1,8 for cuvette wheel Assembly, stepping motor 0,48NB1,8 for X movement of ARM 1/2 Assembly, stepping motor 0,48NB1,8 for X movement of ARM 1/2 Assembly, stepping motor 1,17NB0,9 for filter wheel Assembly, stepping motor 1,17NB0,9 for filter wheel Assembly, incubation heater strip Assembly, opto sensor ver. 00 for home of wheels, arms X and washing station motors Assembly, opto sensor ver. 01 for home of reagent arm Y motor Assembly opto sensor ver. 02 for home of sample arm Y motor Assembly opto sensor ver. 03 Assembly, LM35 temp. sensor ver. 01 for reagent wheel Assembly, LM35 temp. sensor ver. 02 for int. electronic and cuvette wheel temp. Assembly, 2-way electrovalve Assembly, stepping motor 0,20NB1,8 for washing station Assembly, stepping motor 0,20NB1,8 for washing station Wiring, main PWR supply Assembly, Buzzer Assembly, diluter pump Assembly, perist. pump SR10/30 ver. 01 55ml for needles 2-5 of the washing station

P3140000058 P3140000059 P3140000060 P3140000061 P3140000062 P3140000157 P3140000158 P3140000049 P3140000048 P3140000028 P3140000029 P3140000030 P3140000031 P3140000032 P3140000160 P3140000033 P3140000073 P3140000118 P3140000063 P3140000034 P3140000044 P3140000167 P3140000042 P3140000182 P3140000045 P3140000183 P3140000047 P3140000035

10002-00-A 10002-01-A 10002-02-A 10002-03-A 10002-04-A 10002-05-A 10002-06-A 10006-00-C 10011-00-B 10012-01-C 10012-02-C 10012-03-C 10012-04-C 10016-00-C 10016-01-C 10028-01-A 10030-00-C 10762-00-A 10036-00-A 10039-00-A 10040-00-A 10040-01-A 10041-00-A 10041-01-A 10042-00-A 10042-01-A 10043-00-A 10045-00-A

1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs

P3140000036 P3140000037 P3140000150 P3140000038 P3140000039

10045-01-A 10045-02-A 10045-03-A 10050-01-A 10050-02-A

1 pcs 1 pcs 1 pcs 1 pcs 1 pcs

P3140000119 P3140000046 P3140000181 P3140000085 P3140000053 P3140000125 P3140000051

10051-00-B 10055-00-A 10055-01-A 10057-00-A 10058-00-A 10059-00-A 10060-01-A

1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs

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Section 8 ADDITIONAL INFORMATION

SPARE PARTS Item

Code

P/N

Kit

Assembly, perist. pump SR10/30 ver. 03 only for needle 1 of the washing station Aspiration Pump Ver.00 for washing sation aspiration needles Aspiration Pump Ver.00 for washing sation drying tip Wiring, for internal serial connection Assembly, fan 24V (92x92mm)) Assembly, fan 12V (92x92mm) Assembly, fan 12V (60x60mm) Wiring, cooler fans Assembly, NF10 washing sink pump Wiring, 10x-flat ver. 00 for stepping driver module boards Wiring, 10x-flat ver. 01 for connection pump - mother board (short) Wiring, 10x-flat ver. 02 for connection pump - mother board (long) Wiring, for motors Wiring, for photodiode board Wiring, for sensors Wiring, for barcode Wiring, for barcode Wiring, for PWR supply VDPS-TB for fuse holder Wiring, for PWR supply 24VDC-&AUXPS Wiring, for sampling arm ARM1 ver. 00 Wiring, for sampling arm ARM2 ver. 01 Assembly, ARM module complete with liquid detector Assembly, ARM Coil heater Assembly, washing station head with probes Assembly stepping motor 0,43NB1,8 for Y movement of ARM 1/2 Assembly ON-OFF button ver. 00 power on switch (green) Assembly ON-OFF button ver. 01 cooler power on (blue) Assembly power supply Systemic solution 20lt tank Cleaner solution 5lt tank Waste 25lt tank MGND reagent tray brush Wiring, for pump & driver PWR supply Assembly, cover reed sensor Wiring, assieme dei 10x-flat ver. 00 for driver motors Cuvette wheel 12-bit encoder Washing sink Manifold for washing station Aspiration probe of washing station Dispensation probe of washing station Tips for washing station Drying tip with probe for washing station Kit of asp. and disp. probes for washing station Fitting diam. 2,3mm Fitting diam. 3mm NUT (big) 20281-00-A NUT (small) 23-08-010A Ferrule 1/8 yellow, P-300 Ferrule 1/8 blue, P-200 Wiring, M100 ON/OFF Switches Wiring, M100 Line Filter Wiring, M100 DC Output Wiring, M100 Power Supply Wiring, M100 Flat Cables Wiring, M100 Sensors

P3140000052

10060-03-A

1 pcs

P3140000145 P3140000146 P3140000084 P3140000066 P3140000148 P3140000147 P3140000149 P3140000127 P3140000007 P3140000008 P3140000009 P3140000010 P3140000011 P3140000012 P3140000129 P3140000172 P3140000017 P3140000078 P3140000014 P3140000015 P3140000040 P3140000041 P3140000074 P3140000043 P3140000070 P3140000071 P3140000101 P3140000027 P3140000023 P3140000104 P3140000128 P3140000080 P3140000065 P3140000088 P3140000132 P3140000072 S3141000489 P3140000005 P3140000006 P3140000097 P3140000050 P3140000098 P3140000024 P3140000026 P3140000089 P3140000090 P3140000106 P3140000107 P3140000151 P3140000152 P3140000153 P3140000154 P3140000155 P31400000156

10938-00-A 10938-01-A 10062-00-A 10110-00-A 10111-00-A 10112-00-A 10113-00-A 10142-00-A 10145-00-A 10145-01-A 10145-02-A 10146-00-A 10148-00-A 10153-00-B 10155-00-A 10155-01-A 10159-00-A 10161-00-C 10204-00-A 10204-01-A 10205-00-C 10209-00-A 10211-00-A 10252-00-A 10368-00-A 10368-01-A 10369-00-A 10405-00-B 10406-00-B 10407-00-B 10413-00-A 10514-00-A 10570-00-A 10632-00-A 10747-00-A DMC-20046 DMC-20066 DMC-20077 DMC-20078 DMC-20169 DMC-20239 DMC-20261 N.A. N.A. N.A. N.A. N.A. N.A. 10774-00-A 10775-00-A 10776-00-A 10777-00-A 10778-00-A 10779-00-A

1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 kit 10 pcs 10 pcs 10 pcs 10 pcs 20 pcs 20 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs

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Section 8 ADDITIONAL INFORMATION

SPARE PARTS Item Wiring, M100 ARM Wiring, LHP Power Supply Board, Controller Mother Board M100 Diluter Microswitch cover sensor Peristaltic Pump 80ml APN 20 pump assembly Peristaltic Pump 38ml

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

Code

P/N

Kit

P3140000164 P3140000144 P3140000159 P3140000161 P3140000162 P3140000163 P3140000175 P3140000176

10781-00-A 10940-00-A 10803-00-B 10911-00-A 10943-00-A 10946-00-A 10947-00-A 10638-00-A

1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs

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Item

Section 8 ADDITIONAL INFORMATION

ACCESSORIES AND CONSUMABLES Code

P/N

Kit

Adapter for reagent bottle R2 -20 ml Adaptors for sample cups 3 ml Cups for diluition (250 pcs) Halogen lamp 12 V 20 W Head for perist. pump SR10/30 Kit of fuses Kit of tubes (El-Valve & washing station) Kit tubes for cleaner sol. tank (5 lt - blue) Kit tubes for systemic sol. tank (20lt - green) Kit tubes for waste tank (25lt - red) Cleaner solution 6x2 lt Serial cable RS-232 Primary tubes sample cups Reading cuvettes Reading plate with 80 cuvettes Reagent bottle R1 with cap - 50 ml Reagent bottle R2 with cap - 20 ml Rinse solution (Ew Cvt) 6x50 ml Rinse solution (Ew Prb) 6x20 ml Sample cups 3 ml Sampling probe Systemic solution 6x50 ml Tool for cuvette exrtaction

P3140000091 P3140000018 P3140000003 P3140000105 P3140000025 P3140000075 P3140000076 P3140000083 P3140000082 P3140000081 P3140000112 S3141000110 P3140000100 P3140000093 P3140000103 P3140000019 P3140000086 P3140000113 P3140000115 P3140000001 P3140000016 P3140000087 P3140000077

N.A. N.A. N.A. 10749-00-A N.A. N.A. N.A. 10648-00-B 10647-00-B 10649-00-B N.A. N.A. N.A. N.A. N.A. N.A. N.A. N.A. N.A. N.A. N.A. N.A. N.A.

NA electrode for ISE module K electrode for ISE module Cl electrode for ISE module Li eletrode for ISE module Reference electrode Spacer electrode Reagent pack (Cal A, Cal B, Waste) Urine diluent 500 ml Urine diluent 125 ml Cleaning solution 90 ml Pump tubing kit Fluid tubing kit Tubing adapter

S3141000284 S3141000285 S3141000286 S3141000287 S3141000288 S3141000289 S3141000290 S3141000291 S3141000351 S3141000292 S3141000293 S3141000294 S3141000295

5201

50 pcs 50 pcs 250 pcs 1 pcs 1 pcs 1 kit 1 kit 1 pcs 1 pcs 1 pcs 6x2 lt 1 pcs 1000 pcs 200 pcs 1 kit 50 pcs 50 pcs 6x50 ml 6x20 ml 1000 pcs 1 pcs 6x50 ml 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 kit 1 kit 1 pcs

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

5202 5203 5205 5204 5206 5420 5408 5412 5421 5610 5611 5612

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8.2.

Section 8 ADDITIONAL INFORMATION

Technical Assistance Kits for Service

Distributors must stock in-house at least one Technical Assistance Kit any 10 instruments installed on the field. It speeds up service operations and also assures a fast and reliable maintenance in most of cases. Ask the Producer for this kit. Item

Technical Assistance Kit for MIURA Code

Halogen lamp 12 V 20 W Sampling needle Reading plate with cuvettes Serial cable Head for perist. pump SR10/30 50 ml Washing station with needles Kit fuses Kit tubes WSV Kit tubes for waste (25lt) red (new) Kit tubes for tank systemic sol. (20lt) green Kit tubes for tank for cleaning sol. (5lt) blue Fitting diam. 2,3 x Miura Fitting diam. 3 x Miura NUT (big) 20281-00-A NUT (small) 23-08-010A Ferrule 1/8 yellow, P-300 Ferrule 1/8 blu, P-200 Board Main controller ver. 01 Board ARM 1 controller Board ARM 2 controller Board Read&wash controller Board CNT power supply ver. 01 Assembly opto sensor ver. 00 Assembly opto sensor ver. 01 Assembly opto sensor ver. 02 Assembly LM35 temp. sensor ver. 01 Assembly LM35 temp. sensor ver. 02 Assembly ARM module complete Board photodiode module Board PWR driver module 9x1A Board Step motor driver ver. 00 Board Step motor driver ver. 01 Board Step motor driver ver. 02 Board Step motor driver ver. 03 Board Step motor driver ver. 04 Assembly diluter Assembly Diluter electrovalve Drying tip with probe for washing station Head for peristaltic pump 38 ml Assembly vacuum pump ver. 00 for the probes of WS Assembly vacuum pump ver. 01 for the Washing stat. tip Assembly, NF 10 washing sink pump LHP power board Assembly power supply

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P3140000105 P3140000016 P3140000103 S3141000110 P3140000025 P3140000074 P3140000075 P3140000076 P3140000081 P3140000082 P3140000083 P3140000024 P3140000026 P3140000089 P3140000090 P3140000106 P3140000107 P3140000028 P3140000029 P3140000030 P3140000031 P3140000033 P3140000035 P3140000036 P3140000037 P3140000038 P3140000039 P3140000040 P3140000048 P3140000049 P3140000058 P3140000059 P3140000060 P3140000061 P3140000062 P3140000063 P3140000119 P3140000050 P3140000173 P3140000145 P3140000146 P3140000125 P3140000118 P3140000101

P/N

Kit

10749-00-A N.A. N.A. N.A. N.A. 10211-00-A N.A. N.A. 10649-00-B 10647-00-B 10648-00-B N.A. N.A. N.A. N.A. N.A. N.A. 10012-01-C 10012-02-C 10012-03-C 10012-04-C 10028-01-A 10045-00-A 10045-01-A 10045-02-A 10050-01-A 10050-02-A 10205-00-C 10011-00-B 10006-00-C 10002-00-A 10002-01-A 10002-02-A 10002-03-A 10002-04-A 10036-00-A 10051-00-B N.A. N.A. 10938-00-A 10938-01-A 10059-00-A 10762-00-A 10369-00-A

1 pcs 1 pcs 1 kit 1 pcs 1 pcs 1 kit 1 kit 1 kit 1 pcs 1 pcs 1 pcs 10 pcs 10 pcs 10 pcs 10 pcs 20 pcs 20 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs

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Item

Section 8 ADDITIONAL INFORMATION

Technical Assistance Kit for MIURA 200 Code

Halogen lamp 12 V 20 W Sampling needle Reading plate with cuvettes Serial cable Head for perist. pump SR10/30 50 ml Washing station with needles Kit fuses Kit tubes WSV Kit tubes for waste (25lt) red (new) Kit tubes for tank systemic sol. (20lt) green Kit tubes for tank for cleaning sol. (5lt) blue Fitting diam. 2,3 x Miura Fitting diam. 3 x Miura NUT (big) 20281-00-A NUT (small) 23-08-010A Ferrule 1/8 yellow, P-300 Ferrule 1/8 blu, P-200 Board Main controller ver. 01 Board ARM 1 controller Board Read&wash controller Board CNT power supply ver. 01 Assembly opto sensor ver. 00 Assembly opto sensor ver. 01 Assembly opto sensor ver. 02 Assembly LM35 temp. sensor ver. 01 Assembly LM35 temp. sensor ver. 02 Assembly ARM module complete Board photodiode module Board PWR driver module 9x1A Board Step motor driver ver. 00 Board Step motor driver ver. 01 Board Step motor driver ver. 02 Board Step motor driver ver. 03 Board Step motor driver ver. 04 Assembly diluter Assembly Diluter electrovalve Drying tip with probe for washing station Head for peristaltic pump 38ml Assembly vacuum pump ver. 00 for the probes of WS Assembly vacuum pump ver. 01 for the Washing stat. tip Assembly, NF 10 washing sink pump LHP power board Assembly power supply

I.S.E. S.r.l. – Sistemi Intelligenti Elettronici MNM-10646-01-B Rev.B ENG

P3140000105 P3140000016 P3140000103 S3141000110 P3140000025 P3140000074 P3140000075 P3140000076 P3140000081 P3140000082 P3140000083 P3140000024 P3140000026 P3140000089 P3140000090 P3140000106 P3140000107 P3140000028 P3140000029 P3140000031 P3140000033 P3140000035 P3140000036 P3140000037 P3140000038 P3140000039 P3140000040 P3140000048 P3140000049 P3140000058 P3140000059 P3140000060 P3140000061 P3140000062 P3140000063 P3140000119 P3140000050 P3140000173 P3140000145 P3140000146 P3140000125 P3140000118 P3140000101

P/N

Kit

10749-00-A N.A. N.A. N.A. N.A. 10211-00-A N.A. N.A. 10649-00-B 10647-00-B 10648-00-B N.A. N.A. N.A. N.A. N.A. N.A. 10012-01-C 10012-02-C 10012-04-C 10028-01-A 10045-00-A 10045-01-A 10045-02-A 10050-01-A 10050-02-A 10205-00-C 10011-00-B 10006-00-C 10002-00-A 10002-01-A 10002-02-A 10002-03-A 10002-04-A 10036-00-A 10051-00-B N.A. N.A. 10938-00-A 10938-01-A 10059-00-A 10762-00-A 10369-00-A

1 pcs 1 pcs 1 kit 1 pcs 1 pcs 1 kit 1 kit 1 kit 1 pcs 1 pcs 1 pcs 10 pcs 10 pcs 10 pcs 10 pcs 20 pcs 20 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs 1 pcs

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