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EPX-SERISE SERVICE MANUAL Rev. E
EPX-Series Diagnostic X-ray Systems Service Manual
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EPX-SERISE SERVICE MANUAL Rev. E
SERVICE CHAPTER
1. CALIBRATION------------------------------------------------------------------------------------------- 7 2. DIP SWITCH SETTING--------------------------------------------------------------------------------31 3 .HARD-WIRED hand switch control---------------------------------------------------------------32 4. COLLIMATOR-------------------------------------------------------------------------------------------33 5. TROUBLE SHOOTING-------------------------------------------------------------------------------35 6. SERVICE CHECK LIST-------------------------------------------------------------------------------36
REVISON HISTORY 3
EPX-SERISE SERVICE MANUAL Rev. E Revision Number
Date
Description
A
SEP 11, 2013
First Edition
B
SEP 30, 2014
European Authorized Representative Change
C
JAN 12, 2015
Manual Updates
D
SEP 01, 2015
Manual Updates
E
JUN 21, 2016
Manual Updates
F
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EPX-SERISE SERVICE MANUAL Rev. E
Service chapter This manual is designed to ensure correct use and operation of EPX model diagnostic x-ray units. Please read all the lines thoroughly before you use the equipment. Incorrect use and operation exceeding described conditions in this manual may cause damage of the equipment and shorten its life. Particular attention must be paid to all the warnings, cautions and notes incorporated herein. This equipment should be used only by the legally qualified persons and practitioners. Regarding the AC cable and software, only the ones developed and supplied by Ecotron Inc. should be used. Only trained maintenance staff may remove the covers of the x-ray system. Do not modify the equipment at your discretion and in case any modification is required unavoidably, ask the help of Ecotron or its authorized dealer for the service. Information for repair will be provided by Ecotron. (Circuit diagram, Component part list, descriptions, Calibration instructions, or other information) No responsibility is taken by Ecotron for any infringement of patients or other rights of the third parties which many results from the use of this manual. Always keep the manual at hand for your reference.
NOTE: If the output calibration is needed after periodical inspections or repairs, please observe following rules and methods described in this manual.
CAUTION The ionizing radiation is dangerous for the operator if the following safety measures are not strictly observed.
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EPX-SERISE SERVICE MANUAL Rev. E
1. Calibration 1.1 EPX-F1600 1.1.1 Line Power Switch Line switch should be at off position. Connect power line cord to the power outlet. Turn on the line switch. The FND on the control panel should illuminate. 1.1.2 Calibration Procedure 1.1.2.1 Tube voltage confirmation and calibration. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. Connect the channel one probe of the oscilloscope to TP8 (IP F/B). d. Connect the channel two probe of the oscilloscope to TP11 (EP F/B). e. Connect the ground to TP13 or TP14 (GND) on the OP board. f. Turn on the line switch. g. Set the kV and the mAs at 40KV and 5mAs(30mA), respectively. h. Then observe the KV waveform of the oscilloscope channel 2. i. If it is not 2V, adjust KV by turning VR3 on the OP board.
j. Set the kV and the mAs at 90KV and 5mAs(16mA), respectively. k. Then observe the KV waveform of the oscilloscope channel 2. l. If it is not 4.5V, adjust KV by turning VR3 on the OP board.
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EPX-SERISE SERVICE MANUAL Rev. E
1.1.2.2
Tube current confirmation and calibration.
a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. Connect the channel one (1) probe of the oscilloscope to TP8 (IP F/B). d. Connect the channel two (2) probe of the oscilloscope to TP11 (EP F/B). e. Connect the ground to TP13 or TP14 (GND) on the OP board. f. Turn on the line switch. g. Set the kV and the mAs at 40kV and 5mAs(30mA), respectively. h. Then observe the mA waveform of the oscilloscope channel 1. i. If it is not 6V, adjust mA using the calibration data on the OP BOARD. j. DIP SWITCH #4 on the OP BOARD PCB is set to ON position.
Then the display should indicate as follows,
Where, C00~C09 are calibration code of tube current at AC110V model and C10~C19 are calibration code of tube current at AC220V model. C00 or C10 is calibration code of tube current (30mA at 40kV~50kV) at AC110V or AC220V and 30.0 is calibration data of tube current (30mA at 40kV~50kV). a. Adjust mA by using the mAs Up-Down switch (see operation sheet).
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b. After it is adjusted, push the STORE button during 3sec(see operation sheet). c. DIP SWITCH #4 on the PCB OP BOARD should be set to OFF position and the expose X-ray. e. If it is not 6V, set the calibration data again. f. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. g. Then push the kV UP switch (see operation sheet). h. The display should indicate as follows,
Where, C01 or C11 is calibration code of tube current (25mA at 40kV~50kV) and 25.0 is calibration data of tube current (25mA at 40kV~50kV). i. Adjust mA by using the mAs Up-Down switch (see operation sheet). j. After it is adjusted, push the STORE switch during 3sec(see operation sheet). k. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then expose X-ray.
l. If it is not 5V, set the calibration data again.
Filament preheat calibration This is preheating filament for making tube current. The overshooting or the undershooting may occur from the tube current if the Preheat calibration data is set by mistake. Changing the calibration data is possible in accordance with the tube condition. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. DIP SWITCH #4 on the PCB OP BOARD is set to ON position. d. Turn on the line switch. f. Push APR S/W ① and then the display should indicate as follows,
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Where, P00~P07 are calibration code of filament preheat current at AC110V, P08~P15 are calibration code of filament preheat current at AC220V, P00 or P08 is Filament preheat calibration code (Preheat calibration code of 30mA), and 1.50 or 1.40 is Filament preheat calibration data (Preheat calibration data of 30mA). g. Adjust data by using the mAs Up-Down switch (see operation sheet). h. After it is adjusted, push the STORE button during 3sec(see operation sheet). i. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then expose X-ray.
j. If overshooting or undershooting occurs in the waveform, set the calibration data again. k. Then push the KV UP switch (see operation sheet). l. The display should indicate as follows,
Where, P01 or P09 is Filament preheat calibration code (Preheat calibration code of 25mA) and 1.45 or 1.35 is Filament preheat calibration data (Preheat calibration data of 25mA). m. Adjust data by using the mAs Up-Down switch on the Control Panel. n. After it is adjusted, push the Store switch during 3sec(see operation sheet). o. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then exposure X-ray. p. If overshooting or undershooting occurs in the waveform, set the calibration data again.
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1.2 EPX-F2400 1.2.1 Line Power Switch Line switch should be at off position. Connect power line cord to the power outlet. Turn on the line switch. The FND on the control panel should illuminate. 1.2.2 Calibration Procedure 1.2.2.1 Tube voltage confirmation and calibration. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. Connect the channel one probe of the oscilloscope to TP8 (IP F/B). d. Connect the channel two probe of the oscilloscope to TP11 (EP F/B). e. Connect the ground to TP13 or TP14 (GND) on the OP board. f. Turn on the line switch. g. Set the kV and the mAs at 40KV and 5mAs(40mA), respectively. h. Then observe the KV waveform of the oscilloscope channel 2. i. If it is not 2V, adjust KV by turning VR3 on the OP board.
j. Set the kV and the mAs at 100KV and 5mAs(20mA), respectively. k. Then observe the KV waveform of the oscilloscope channel 2. l. If it is not 5V, adjust KV by turning VR3 on the OP board.
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EPX-SERISE SERVICE MANUAL Rev. E
1.2.2.2
Tube current confirmation and calibration.
a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. Connect the channel one (1) probe of the oscilloscope to TP8 (IP F/B). d. Connect the channel two (2) probe of the oscilloscope to TP11 (EP F/B). e. Connect the ground to TP13 or TP14 (GND) on the OP board. f. Turn on the line switch. g. Set the kV and the mAs at 40kV and 5mAs(40mA), respectively. h. Then observe the mA waveform of the oscilloscope channel 1. i. If it is not 6V, adjust mA using the calibration data on the OP BOARD. j. DIP SWITCH #4 on the OP BOARD PCB is set to ON position.
Then the display should indicate as follows,
Where, C00~C07 are calibration code of tube current at AC110V model and C08~C15 are calibration code of tube current at AC220V model. C00 or C08 is calibration code of tube current (40mA at 40kV~60kV) at AC110V or AC220V and 40.0 is calibration data of tube current (40mA at 40kV~60kV).
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a. Adjust mA by using the mAs Up-Down switch (see operation sheet). b. After it is adjusted, push the STORE button during 3sec(see operation sheet). c. DIP SWITCH #4 on the PCB OP BOARD should be set to OFF position and the expose X-ray. e. If it is not 6V, set the calibration data again. f. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. g. Then push the kV UP switch (see operation sheet). h. The display should indicate as follows,
Where, C01 or C09 is calibration code of tube current (35mA at 40kV~60kV) and 35.0 is calibration data of tube current (35mA at 40kV~60kV). i. Adjust mA by using the mAs Up-Down switch (see operation sheet). j. After it is adjusted, push the STORE switch during 3sec(see operation sheet). k. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then expose X-ray.
l. If it is not 5.25V, set the calibration data again.
Filament preheat calibration This is preheating filament for making tube current. The overshooting or the undershooting may occur from the tube current if the Preheat calibration data is set by mistake. Changing the calibration data is possible in accordance with the tube condition. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. DIP SWITCH #4 on the PCB OP BOARD is set to ON position. d. Turn on the line switch. f. Push APR S/W ① and then the display should indicate as follows,
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Where, P00~P04 are calibration code of filament preheat current at AC110V, P05~P09 are calibration code of filament preheat current at AC220V, P00 or P05 is Filament preheat calibration code (Preheat calibration code of 40mA), and 0.70 or 0.72 is Filament preheat calibration data (Preheat calibration data of 40mA). g. Adjust data by using the mAs Up-Down switch (see operation sheet). h. After it is adjusted, push the STORE button during 3sec(see operation sheet). i. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then expose X-ray.
j. If overshooting or undershooting occurs in the waveform, set the calibration data again. k. Then push the KV UP switch (see operation sheet). l. The display should indicate as follows,
Where, P01 or P06 is Filament preheat calibration code (Preheat calibration code of 35mA) and 0.67 or 0.69 is Filament preheat calibration data (Preheat calibration data of 35mA). m. Adjust data by using the mAs Up-Down switch on the Control Panel. n. After it is adjusted, push the Store switch during 3sec(see operation sheet). o. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then exposure X-ray. p. If overshooting or undershooting occurs in the waveform, set the calibration data again.
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1.3 EPX-F2800 1.3.1 Line Power Switch Line switch should be at off position. Connect power line cord to the power outlet. Turn on the line switch. The FND on the control panel should illuminate. 1.3.2
Calibration Procedure
1.3.2.1 Tube voltage confirmation and calibration. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. Connect the channel one probe of the oscilloscope to TP8 (IP F/B). d. Connect the channel two probe of the oscilloscope to TP11 (EP F/B). e. Connect the ground to TP13 or TP14(GND) on the OP board. f. Turn on the line switch. g. Set the kV and the mAs at 40KV and 5mAs(35mA), respectively. h. Then observe the KV waveform of the oscilloscope channel 2. i. If it is not 2V, adjust KV by turning VR3 on the OP board.
j. Set the kV and the mAs at 120KV and 5mAs(16mA), respectively. k. Then observe the KV waveform of the oscilloscope channel 2. l. If it is not 6V, adjust KV by turning VR3 on the OP board.
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1.3.2.2 Tube current confirmation and calibration. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. Connect the channel one (1) probe of the oscilloscope to TP8 (IP F/B). d. Connect the channel two (2) probe of the oscilloscope to TP11 (EP F/B). e. Connect the ground to TP13 or TP14 on the OP board. f. Turn on the line switch. g. Set the kV and the mAs at 40kV and 5mAs(35mA), respectively. h. Then observe the mA waveform of the oscilloscope channel 1. i. If it is not 6V, adjust mA using the calibration data on the OP BOARD. j. DIP SWITCH #4 on the OP BOARD PCB is set to ON position.
Then the display should indicate as follows,
Where, C00~C15 are calibration code of tube current at AC110V model and C16~C31 are calibration code of tube current at AC220V model. C00 or C16 is calibration code of tube current (35mA at 40kV~60kV) at AC110V or AC220V and 35.0 is calibration data of tube current (35mA at 40kV~60kV).
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a. Adjust mA by using the mAs Up-Down switch (see operation sheet). b. After it is adjusted, push the STORE button during 3sec(see operation sheet). c. DIP SWITCH #4 on the PCB OP BOARD should be set to OFF position and the expose X-ray. e. If it is not 6V, set the calibration data again. f. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. g. Then push the kV UP switch (see operation sheet). h. The display should indicate as follows,
Where, C01 or C17 is calibration code of tube current (30mA at 61kV~70kV) and 30.0 is calibration data of tube current (30mA at 61kV~70kV). i. Adjust mA by using the mAs Up-Down switch (see operation sheet). j. After it is adjusted, push the STORE switch during 3sec(see operation sheet). k. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then expose X-ray.
l. If it is not 5.15V, set the calibration data again.
Filament preheat calibration This is preheating filament for making tube current. The overshooting or the undershooting may occur from the tube current if the Preheat calibration data is set by mistake. Changing the calibration data is possible in accordance with the tube condition. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. DIP SWITCH #4 on the PCB OP BOARD is set to ON position. d. Turn on the line switch. f. Push APR S/W ① and then the display should indicate as follows,
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where, P00~P06 are calibration code of filament preheat current at AC110V, P07~P13 are calibration code of filament preheat current at AC220V, P00 or P07 is Filament preheat calibration code (Preheat calibration code of 35mA), and 0.70 or 0.70 is Filament preheat calibration data (Preheat calibration data of 35mA). g. Adjust data by using the mAs Up-Down switch (see operation sheet). h. After it is adjusted, push the STORE button during 3sec(see operation sheet). i. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then expose X-ray.
j. If overshooting or undershooting occurs in the waveform, set the calibration data again. k. Then push the KV UP switch (see operation sheet). l. The display should indicate as follows,
Where, P01 or P08 is Filament preheat calibration code (Preheat calibration code of 30mA) and 0.67 or 0.67 is Filament preheat calibration data (Preheat calibration data of 30mA). m. Adjust data by using the mAs Up-Down switch on the Control Panel. n. After it is adjusted, push the Store switch during 3sec(see operation sheet). o. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then exposure X-ray. p. If overshooting or undershooting occurs in the waveform, set the calibration data again.
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1.4 EPX-F3200 1.4.1 Line Power Switch Line switch should be at off position. Connect power line cord to the power outlet. Turn on the line switch. The FND on the control panel should illuminate. 1.4.2
Calibration Procedure
1.4.2.1 Tube voltage confirmation and calibration. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. Connect the channel one probe of the oscilloscope to TP8 (IP F/B). d. Connect the channel two probe of the oscilloscope to TP11 (EP F/B). e. Connect the ground to TP13 or TP14 on the OP board. f. Turn on the line switch. g. Set the kV and the mAs at 40KV and 5mAs(60mA), respectively. h. Then observe the KV waveform of the oscilloscope channel 2. i. If it is not 2V, adjust KV by turning VR3 on the OP board.
j. Set the kV and the mAs at 100KV and 5mAs(30mA), respectively. k. Then observe the KV waveform of the oscilloscope channel 2. l. If it is not 5V, adjust KV by turning VR3 on the OP board.
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1.4.2.2
Tube current confirmation and calibration.
a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. Connect the channel one (1) probe of the oscilloscope to TP8 (IP F/B). d. Connect the channel two (2) probe of the oscilloscope to TP11 (EP F/B). e. Connect the ground to TP13 or TP14 or on the OP board. f. Turn on the line switch. g. Set the kV and the mAs at 40kV and 5mAs(60mA), respectively. h. Then observe the mA waveform of the oscilloscope channel 1. i. If it is not 6.0 V, adjust mA using the calibration data on the OP BOARD. j. DIP SWITCH #4 on the OP BOARD PCB is set to ON position.
Then the display should indicate as follows,
Where, C00~C07 are calibration code of tube current at AC110V model and C08~C15 are calibration code of tube current at AC220V model. C00 or C08 is calibration code of tube current (60mA at 40kV~50kV) at AC110V and 60.0 is calibration data of tube current (60mA at 40kV~50kV). a. Adjust mA by using the mAs Up-Down switch (see operation sheet). b. After it is adjusted, push the STORE button during 3sec(see operation sheet).
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c. DIP SWITCH #4 on the PCB OP BOARD should be set to OFF position and the expose X-ray. e. If it is not 6.0V, set the calibration data again. f. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. g. Then push the kV UP switch (see operation sheet). h. The display should indicate as follows,
Where, C01 or C09 is calibration code of tube current (50mA at 51kV~60kV) and 50.0 is calibration data of tube current (50mA at 51kV~60kV). i. Adjust mA by using the mAs Up-Down switch (see operation sheet). j. After it is adjusted, push the STORE switch during 3sec(see operation sheet). k. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then expose X-ray.
l. If it is not 5.0V, set the calibration data again.
Filament preheat calibration This is preheating filament for making tube current. The overshooting or the undershooting may occur from the tube current if the Preheat calibration data is set by mistake. Changing the calibration data is possible in accordance with the tube condition. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. DIP SWITCH #4 on the PCB OP BOARD is set to ON position. d. Turn on the line switch. f. Push APR S/W ① and then the display should indicate as follows,
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Where, P00~P05 are calibration code of filament preheat current at AC110V, P06~P11 are calibration code of filament preheat current at AC220V, P00 or P06 is Filament preheat calibration code (Preheat calibration code of 60mA), and 1.65 or 1.65 is Filament preheat calibration data (Preheat calibration data of 60mA). g. Adjust data by using the mAs Up-Down switch (see operation sheet). h. After it is adjusted, push the STORE button during 3sec(see operation sheet). i. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then expose X-ray.
j. If overshooting or undershooting occurs in the waveform, set the calibration data again. k. Then push the KV UP switch (see operation sheet). l. The display should indicate as follows,
where, P01 or P07 is Filament preheat calibration code (Preheat calibration code of 50mA) and 1.60 or 1.60 is Filament preheat calibration data (Preheat calibration data of 50mA). m. Adjust data by using the mAs Up-Down switch on the Control Panel. n. After it is adjusted, push the Store switch during 3sec(see operation sheet). o. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then exposure X-ray. p. If overshooting or undershooting occurs in the waveform, set the calibration data again.
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1.5 EPX-F4000 1.5.1 Line Power Switch Line switch should be at off position. Connect power line cord to the power outlet. Turn on the line switch. The FND on the control panel should illuminate. 1.5.2
Calibration Procedure
1.5.2.1 Tube voltage confirmation and calibration. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. Connect the channel one probe of the oscilloscope to TP8 (IP F/B). d. Connect the channel two probe of the oscilloscope to TP11 (EP F/B). e. Connect the ground to TP13 or TP14 on the OP board. f. Turn on the line switch. g. Set the kV and the mAs at 50KV and 5mAs(80mA), respectively. h. Then observe the KV waveform of the oscilloscope channel 2. i. If it is not 2.5V, adjust KV by turning VR3 on the OP board.
j. Set the kV and the mAs at 110KV and 5mAs(25mA), respectively. k. Then observe the KV waveform of the oscilloscope channel 2. l. If it is not 5.5V, adjust KV by turning VR3 on the OP board.
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1.5.2.2
Tube current confirmation and calibration.
a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. Connect the channel one (1) probe of the oscilloscope to TP8 (IP F/B). d. Connect the channel two (2) probe of the oscilloscope to TP11 (EP F/B). e. Connect the ground to TP13 or TP14 on the OP board. f. Turn on the line switch. g. Set the kV and the mAs at 50kV and 5mAs(80mA), respectively. h. Then observe the mA waveform of the oscilloscope channel 1. i. If it is not 5.44V, adjust mA using the calibration data on the OP BOARD. j. DIP SWITCH #4 on the OP BOARD PCB is set to ON position.
Then the display should indicate as follows,
Where, C00~C14 are calibration code of tube current at AC110V model and C15~C29 are calibration code of tube current at AC220V model. C00 or C15 is calibration code of tube current (80mA at 50kV) at 80.0 is calibration data of tube current (80mA at 50kV). a. Adjust mA by using the mAs Up-Down switch (see operation sheet). b. After it is adjusted, push the STORE button during 3sec(see operation sheet). 24
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c. DIP SWITCH #4 on the PCB OP BOARD should be set to OFF position and the expose X-ray. e. If it is not 4V, set the calibration data again. f. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. g. Then push the kV UP switch (see operation sheet). h. The display should indicate as follows,
Where, C01 or C16 is calibration code of tube current (70mA at 50kV) and 70.0 is calibration data of tube current (70mA at 50kV). i. Adjust mA by using the mAs Up-Down switch (see operation sheet). j. After it is adjusted, push the STORE switch during 3sec(see operation sheet). k. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then expose X-ray.
l. If it is not 3.0V, set the calibration data again.
Filament preheat calibration This is preheating filament for making tube current. The overshooting or the undershooting may occur from the tube current if the Preheat calibration data is set by mistake. Changing the calibration data is possible in accordance with the tube condition. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. DIP SWITCH #4 on the PCB OP BOARD is set to ON position. d. Turn on the line switch. f. Push APR S/W ① and then the display should indicate as follows,
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Where, P00~P09 are calibration code of filament preheat current at AC110V, P10~P19 are calibration code of filament preheat current at AC220V, P00 or P10 is Filament preheat calibration code (Preheat calibration code of 80mA), and 2.50 or 2.50 is Filament preheat calibration data (Preheat calibration data of 80mA). g. Adjust data by using the mAs Up-Down switch (see operation sheet). h. After it is adjusted, push the STORE button during 3sec(see operation sheet). i. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then expose X-ray.
j. If overshooting or undershooting occurs in the waveform, set the calibration data again. k. Then push the KV UP switch (see operation sheet). l. The display should indicate as follows,
Where, P01 or P11 is Filament preheat calibration code (Preheat calibration code of 70mA) and 2.20 or 2.20 is Filament preheat calibration data (Preheat calibration data of 70mA). m. Adjust data by using the mAs Up-Down switch on the Control Panel. n. After it is adjusted, push the Store switch during 3sec(see operation sheet). o. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then exposure X-ray. p. If overshooting or undershooting occurs in the waveform, set the calibration data again.
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1.6 EPX-F5000 1.6.1 Line Power Switch Line switch should be at off position. Connect power line cord to the power outlet. Turn on the line switch. The FND on the control panel should illuminate. 1.6.2
Calibration Procedure
1.6.2.1 Tube voltage confirmation and calibration. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. Connect the channel one probe of the oscilloscope to TP8 (IP F/B). d. Connect the channel two probe of the oscilloscope to TP11 (EP F/B). e. Connect the ground to TP13 or TP14 or on the OP board. f. Turn on the line switch. g. Set the kV and the mAs at 40KV and 5mAs(100mA), respectively. h. Then observe the KV waveform of the oscilloscope channel 2. i. If it is not 2V, adjust KV by turning VR3 on the OP board.
j. Set the kV and the mAs at 110KV and 5mAs(40mA), respectively. k. Then observe the KV waveform of the oscilloscope channel 2. l. If it is not 5.5V, adjust KV by turning VR3 on the OP board.
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1.6.2.2
Tube current confirmation and calibration.
a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. Connect the channel one (1) probe of the oscilloscope to TP8 (IP F/B). d. Connect the channel two (2) probe of the oscilloscope to TP11 (EP F/B). e. Connect the ground to TP13 or TP14 or on the OP board. f. Turn on the line switch. g. Set the kV and the mAs at 40kV and 5mAs(100mA), respectively. h. Then observe the mA waveform of the oscilloscope channel 1. i. If it is not 5.1V, adjust mA using the calibration data on the OP BOARD. j. DIP SWITCH #4 on the OP BOARD PCB is set to ON position.
Then the display should indicate as follows,
Where, C00~C20 are calibration code of tube current at AC110V model and C21~C41 are calibration code of tube current at AC220V model. C00 or C21 is calibration code of tube current (100mA at 50kV) at A0.0(=100) is calibration data of tube current (100mA at 50kV). a. Adjust mA by using the mAs Up-Down switch (see operation sheet).
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EPX-SERISE SERVICE MANUAL Rev. E
b. After it is adjusted, push the STORE button during 3sec(see operation sheet). c. DIP SWITCH #4 on the PCB OP BOARD should be set to OFF position and the expose X-ray. e. If it is not 5.1V, set the calibration data again. f. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. g. Then push the kV UP switch (see operation sheet). h. The display should indicate as follows,
Where, C01 or C22 is calibration code of tube current (80mA at 50kV) and 80.0 is calibration data of tube current (80mA at 50kV). i. Adjust mA by using the mAs Up-Down switch (see operation sheet). j. After it is adjusted, push the STORE switch during 3sec(see operation sheet). k. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then expose X-ray.
l. If it is not 4.08V, set the calibration data again.
Filament preheat calibration This is preheating filament for making tube current. The overshooting or the undershooting may occur from the tube current if the Preheat calibration data is set by mistake. Changing the calibration data is possible in accordance with the tube condition. a. Turn off the line switch. b. Detach the control panel from the unit to access the PCB OP BOARD. c. DIP SWITCH #4 on the PCB OP BOARD is set to ON position. d. Turn on the line switch. f. Push APR S/W ① and then the display should indicate as follows,
29
EPX-SERISE SERVICE MANUAL Rev. E
Where, P00~P08 are calibration code of filament preheat current at AC110V, P09~P15 are calibration code of filament preheat current at AC220V, P00 or P09 is Filament preheat calibration code (Preheat calibration code of 100mA), and 2.40 or 2.40 is Filament preheat calibration data (Preheat calibration data of 100mA). g. Adjust data by using the mAs Up-Down switch (see operation sheet). h. After it is adjusted, push the STORE button during 3sec(see operation sheet). i. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then expose X-ray.
j. If overshooting or undershooting occurs in the waveform, set the calibration data again. k. Then push the KV UP switch (see operation sheet). l. The display should indicate as follows,
Where, P01 or P10 is Filament preheat calibration code (Preheat calibration code of 80mA) and 2.25 or 2.25 is Filament preheat calibration data (Preheat calibration data of 80mA). m. Adjust data by using the mAs Up-Down switch on the Control Panel. n. After it is adjusted, push the Store switch during 3sec(see operation sheet). o. DIP SWITCH #4 on the PCB OP BOARD is set to OFF position then exposure X-ray. p. If overshooting or undershooting occurs in the waveform, set the calibration data again.
30
EPX-SERISE SERVICE MANUAL Rev. E
2. DIP Switch setting
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off) For normal operation, only the DIP SW#1 must be set to ON position.
31
EPX-SERISE SERVICE MANUAL Rev. E
3. Hard-wired hand switch control 3.1 Introduction The Exposure Hand Switch consists of a two step hand switch. The first (1) stage of the hand switch is called the “Preparation (Prep or READY)” stage. The second (2) stage of the hand switch is called the “Exposure (Exp or X-Ray Out)“ stage.
SWITCH 1 SWITCH 2
3.2 Exposure process There are two ways to use the hand switch to get the exposure.
a. Press and hold the Switch #1 for longer than 1 second, which will get the “Prep or Ready” status on, then press Switch #2 to get the “Exposure”.
b. Press and hold the Switch #1 and Switch #2 simultaneously for longer than 1 second. This action will result in “Prep or Ready” status and “Exposure” at the same time.
32
EPX-SERISE SERVICE MANUAL Rev. E
4. Collimator a. Halogen Lamp * 1 b. Laser pointer * 2 c. Horizontal and vertical lighting range control i. Block diagram
ii. Layout a. External Layout
33
EPX-SERISE SERVICE MANUAL Rev. E
b. Internal Layout
c. Knob Layout
34
EPX-SERISE SERVICE MANUAL Rev. E
5. Trouble shooting If you have any error message when you are using portable x-ray, please check below service check list
5.1 EPX-F1600/F2400/F2800/F3200/F4000/F5000 Error Code Table ERROR Code
Description
Indication
2
THERMAL ERR(INTERLOCK)
Excess from 60℃
7
READY SW ERR
READY switch malfunction
8
EXPOSURE SW ERR
EXPOSURE switch malfunction
10
standby FIL FB ERROR
Excess from 200mA (10% of max. current, 2A)
11
standby EP FB ERROR
Excess from 12KV (10% of max. voltage, 120KV)
12
standby IP FB ERROR
Excess from 3.5mA (10% of MAX current, 35mA)
14
run FIL FB ERR
Out of range from reference±10%
15
run EP FB or AC POWER LOW ERR
Out of range from reference-10% or AC power line poor
16
run IP FB HIGH ERR
Out of range from reference+10%
17
run EP FB HIGH ERR
Out of range from reference+10%
18
run IP FB LOW ERR
Out of range from reference-10%
28
Pulse by Pulse ERR
FET board fault(Hardware)
29
INC_OC ERR
Feedback error
30
KV_OVP ERR
kV over voltage(Hardware)
31
FIL_OC ERR
FIL over current(Hardware)
32
IP_OCP ERR
mA over current(Hardware)
35
EPX-SERISE SERVICE MANUAL Rev. E
6. Service Check List 6.1 EPX-F1600 Please fill in the blank. kV/mAs condition(When error is occurred)
Product S/N
Error code
※ Open upper cover of portable x-ray below picture.
6.1.1 Voltage check 1) Turn on AC switch
VDC Range Pass/Fail
TP26
TP24
TP25
TP6
4.8V~5.0V
11.5V~12.5V
-11.5V~-12.5V
+3V~3.6V
Pass
Fail
Pass
Fail
Measured Voltage If it is fail case
36
Pass
Fail
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E
6.1.2. kV, mA waveform check 1) Turn off AC switch 2) Please connect probe to EP_FB (kV feedback_TP11), IP_FB (mA feedback_TP8) test point on operation board below picture. 3)Turn on AC switch.
4) 40kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 40kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 40kV Pass/Fail Measured kV feedback voltage
40msec/div
EP_FB 2V Pass
IP_FB 6V Fail
If kV, mA waveforms are fail, please attach your kV, mA waveform
37
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 5) 50kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 50kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 50kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 2.5V Pass
IP_FB 6V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
6) 60kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 60kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 60kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 3V Pass
IP_FB 5V Fail
are fail, please attach your kV, mA waveform
38
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 7) 70kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 70kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 70kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 3.5V Pass
IP_FB 4V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
8) 80kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 80kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 80kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
100msec/div
EP_FB 4V Pass
IP_FB 3.6V Fail
are fail, please attach your kV, mA waveform
39
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 9) 90kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 90kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 90kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
100msec/div
EP_FB 4.5V Pass
IP_FB 3.1V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
6.1.3. Waveform of poor AC power condition If AC power is under 100V or 200VAC, you have below abnormal waveform. Error 015,016,017,018 is occurred by poor AC power.
40
EPX-SERISE SERVICE MANUAL Rev. E
6.1.4 kV, mA PWM frequency check 1) Turn off AC swtich 2) Please connect probe to 200kHz(TP15), 140kHz(TP16) test point on operation board below picture. 3) Turn on AC switch.
4) kV / mA PWM frequency CH 1: kV
2V/div
CH Frequency Pass/Fail Measured frequency
CH 2 : mA
2V/div
4μsec/div
CH 1 mA PWM 200kHz Pass
41
Fail
CH 2 kV PWM 140kHz Pass Fail
EPX-SERISE SERVICE MANUAL Rev. E
6.1.5 mA calibration data check.
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off) For normal operation, only the DIP SW#1 must be set to ON position. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. Then the display should indicate as follows,
3) Turn on AC switch.
Calibration code
Input data
Up/Down switches increase and decrease C00~C09(AC110V), C10~C19(AC220V) Please check Input data.
42
EPX-SERISE SERVICE MANUAL Rev. E Input data and Tube current should be the same. Tube Current Parameter
Tube Voltage
mAs
Tube Current
INPUT DATA
AC110V
AC220V
KV
MIN
MAX
mA
mA
C00
C10
40~50 (1)
0.4
20
30.0
30.0
C01
C11
40~50 (2)
25
32
25.0
25.0
C02
C12
51~60 (1)
0.4
20
25.0
25.0
C03
C13
51~60 (2)
25
32
20.0
20.0
C04
C14
61~70 (1)
0.4
20
20.0
20.0
C05
C15
61~70 (2)
25
32
15.0
15.0
C06
C16
71~80 (1)
0.4
20
18
18
C07
C17
71~80 (2)
25
32
14
14
C08
C18
81~90 (1)
0.4
20
16
16
C09
C19
81~90 (2)
25
32
12
12
4) If mA calibration is done, Please dip switch 4 set to OFF position.
6.1.6 Filament Preheat Calibration Code and Data check 1) Turn off
AC switch
2) Dip switch on op board
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off)
43
EPX-SERISE SERVICE MANUAL Rev. E For normal operation, only the DIP SW#1 must be set to ON position. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. Then the display should indicate as follows,
3) Turn on AC switch. 4) In mA calibration mode, Press the number 1 switch as shown in figure. Mode is converted.
P_Calibration code
Input data
Up/Down switches increase and decrease P00~P07(AC110V), P08~P15(AC220V) Please check Input data. Input data and Tube current should be the same.
Fill in the blank below table because P_DATA is different for each product.
Model
1.6kW
Current(mA)
P_Mode(110V)
P_Mode(220V)
30
P00
P08
25
P01
P09
20
P02
P10
18
P03
P11
16
P04
P12
15
P05
P13
14
P06
P14
12
P07
P15
5) If Preheat calibration is done, Please dip switch 4 set to OFF position.
44
P_DATA
EPX-SERISE SERVICE MANUAL Rev. E
6.2 EPX-F2400 Please fill in the blank. kV/mAs condition(When error is occurred)
Product S/N
Error code
※ Open upper cover of portable x-ray below picture.
6.2.1 Voltage check 1) Turn on AC switch
VDC Range Pass/Fail
TP26
TP24
TP25
TP6
4.8V~5.0V
11.5V~12.5V
-11.5V~-12.5V
+3V~3.6V
Pass
Fail
Pass
Fail
Measured Voltage If it is fail case
45
Pass
Fail
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E
6.2.2. kV, mA waveform check 1) Turn off AC switch 2) Please connect probe to EP_FB (kV feedback_TP11), IP_FB (mA feedback_TP8) test point on operation board below picture. 3)Turn on AC switch.
4) 40kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 40kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 40kV Pass/Fail Measured kV feedback voltage
40msec/div
EP_FB 2V Pass
IP_FB 6V Fail
If kV, mA waveforms are fail, please attach your kV, mA waveform
46
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 5) 50kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 50kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 50kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 2.5V Pass
IP_FB 6V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
6) 60kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 60kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 60kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 3V Pass
IP_FB 6V Fail
are fail, please attach your kV, mA waveform
47
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 7) 70kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 70kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 70kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 3.5V Pass
IP_FB 4.5V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
8) 80kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 80kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 80kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 4V Pass
IP_FB 4.5V Fail
are fail, please attach your kV, mA waveform
48
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 9) 90kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 90kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 90kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 4.5V Pass
IP_FB 3.75V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
10) 100kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 100kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 100kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 5V Pass
IP_FB 3V Fail
are fail, please attach your kV,mA waveform
49
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E
6.2.3. Waveform of poor AC power condition If AC power is under 100V or 200VAC, you have below abnormal waveform. Error 015,016,017,018 is occurred by poor AC power.
6.2.4 kV, mA PWM frequency check 1) Turn off AC swtich 2) Please connect probe to 200kHz(TP15), 140kHz(TP16) test point on operation board below picture. 3) Turn on AC switch.
50
EPX-SERISE SERVICE MANUAL Rev. E 4) kV / mA PWM frequency CH 1: kV
2V/div
CH 2 : mA
2V/div
CH Frequency Pass/Fail Measured frequency
4μsec/div
CH 1 mA PWM 200kHz Pass
Fail
6.2.5 mA calibration data check.
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off) For normal operation, only the DIP SW#1 must be set to ON position. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. Then the display should indicate as follows,
51
CH 2 kV PWM 140kHz Pass Fail
EPX-SERISE SERVICE MANUAL Rev. E 3) Turn on AC switch.
Calibration code
Input data
Up/Down switches increase and decrease C00~C07(AC110V), C08~C15(AC220V) Please check Input data.
Input data and Tube current should be the same.
Tube Current Parameter
mAs
Tube Voltage
Tube Current
INPUT DATA
AC110V
AC220V
KV
MIN
MAX
mA
mA
C00
C08
40~60(1)
0.4
64
40.0
40.0
C01
C09
40~60(2)
80
100
35.0
30.0
C02
C10
61~70(1)
0.4
100
30.0
25.0
C03
C11
71~80(1)
0.4
32
30.0
30.0
C04
C12
71~80(2)
40
80
25.0
25.0
C05
C13
81~90(1)
0.4
40
25.0
25.0
C06
C14
81~90(2)
50
80
20.0
20.0
C07
C15
91~100(1)
0.4
80
20.0
20.0
4) If mA calibration is done, Please dip switch 4 set to OFF position.
52
EPX-SERISE SERVICE MANUAL Rev. E
6.2.6 Filament Preheat Calibration Code and Data check 1) Turn off
AC switch
2) Dip switch on op board
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off) For normal operation, only the DIP SW#1 must be set to ON position. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. Then the display should indicate as follows,
3) Turn on AC switch. 4) In mA calibration mode, Press the number 1 switch as shown in figure. Mode is converted.
P_Calibration code
Input data
Up/Down switches increase and decrease P00~P04(AC110V), P05~P09(AC220V) Please check Input data. Input data and Tube current should be the same.
53
EPX-SERISE SERVICE MANUAL Rev. E Fill in the blank below table because P_DATA is different for each product.
Model
2.4kW
Current(mA)
P_Mode(110V)
P_Mode(220V)
40
P00
P05
35
P01
P06
30
P02
P07
25
P03
P08
20
P04
P09
5) If Preheat calibration is done, Please dip switch 4 set to OFF position.
54
P_DATA(A)
EPX-SERISE SERVICE MANUAL Rev. E
6.3 EPX-F2800 Please fill in the blank. kV/mAs condition(When error is occurred)
Product S/N
Error code
※ Open upper cover of portable x-ray below picture.
6.3.1 Voltage check 1) Turn on AC switch
VDC Range Pass/Fail
TP26
TP24
TP25
TP6
4.8V~5.0V
11.5V~12.5V
-11.5V~-12.5V
+3V~3.6V
Pass
Fail
Pass
Fail
Measured Voltage If it is fail case
55
Pass
Fail
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E
6.3.2. kV, mA waveform check 1) Turn off AC switch 2) Please connect probe to EP_FB (kV feedback_TP11), IP_FB (mA feedback_TP8) test point on operation board below picture. 3)Turn on AC switch.
4) 40kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 40kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 40kV Pass/Fail Measured kV feedback voltage
40msec/div
EP_FB 2V Pass
IP_FB 6V Fail
If kV, mA waveforms are fail, please attach your kV, mA waveform
56
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 5) 50kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 50kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 50kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 2.5V Pass
IP_FB 6V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
6) 60kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 60kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 60kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 3V Pass
IP_FB 6V Fail
are fail, please attach your kV, mA waveform
57
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 7) 70kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 70kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 70kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 3.5V Pass
IP_FB 4.5V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
8) 80kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 80kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 80kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 4V Pass
IP_FB 5.25V Fail
are fail, please attach your kV, mA waveform
58
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 9) 90kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 90kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 90kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 4.5V Pass
IP_FB 4.5V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
10) 100kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 100kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 100kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 5V Pass
IP_FB 3.75V Fail
are fail, please attach your kV,mA waveform
59
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 11) 110kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 110kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 110kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 5.5V Pass
IP_FB 2.7V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
12) 120kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 120kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 120kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
100msec/div
EP_FB 6V Pass
IP_FB 2.4V Fail
are fail, please attach your kV,mA waveform
60
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E
6.3.3. Waveform of poor AC power condition If AC power is under 100V or 200VAC, you have below abnormal waveform. Error 015,016,017,018 is occurred by poor AC power.
6.3.4 kV, mA PWM frequency check 1) Turn off AC swtich 2) Please connect probe to 200kHz(TP15), 140kHz(TP16) test point on operation board below picture. 3) Turn on AC switch.
61
EPX-SERISE SERVICE MANUAL Rev. E 4) kV / mA PWM frequency CH 1: kV
2V/div
CH 2 : mA
2V/div
CH Frequency Pass/Fail Measured frequency
4μsec/div
CH 1 mA PWM 200kHz Pass
Fail
6.3.5 mA calibration data check.
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off) For normal operation, only the DIP SW#1 must be set to ON position. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. Then the display should indicate as follows,
62
CH 2 kV PWM 140kHz Pass Fail
EPX-SERISE SERVICE MANUAL Rev. E 3) Turn on AC switch.
Calibration code
Input data
Up/Down switches increase and decrease C00~C015(AC110V), C16~C31(AC220V) Please check Input data.
Input data and Tube current should be the same.
Tube Current Parameter
Tube Voltage
mAs
Tube Current
INPUT DATA
AC110V
AC220V
KV
MIN
MAX
mA
mA
C00
C16
40~60
0.4
100
35.0
35.0
C01
C17
61~70(1)
0.4
64
30.0
30.0
C02
C18
61~70(2)
80
100
25.0
25.0
C03
C19
71~80(1)
0.4
10
35.0
35.0
C04
C20
71~80(2)
13
32
30.0
30.0
C05
C21
71~80(3)
40
80
25.0
25.0
C06
C22
81~90(1)
0.4
10
30.0
30.0
C07
C23
81~90(2)
13
40
25.0
25.0
C08
C24
81~90(3)
50
80
20.0
20.0
C09
C25
91~100(1)
0.4
13
25.0
25.0
C10
C26
91~100(2)
16
50
20.0
20.0
C11
C27
91~100(3)
64
80
16.0
16.0
C12
C28
101~110(1)
0.4
32
18.0
18.0
C13
C29
101~110(2)
40
64
16.0
16.0
C14
C30
111~120(1)
0.4
20
16.0
16.0
C15
C31
111~120(2)
25
50
14.0
14.0
4) If mA calibration is done, Please dip switch 4 set to OFF position.
63
EPX-SERISE SERVICE MANUAL Rev. E
6.3.6 Filament Preheat Calibration Code and Data check 1) Turn off
AC switch
2) Dip switch on op board
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off) For normal operation, only the DIP SW#1 must be set to ON position. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. Then the display should indicate as follows,
3) Turn on AC switch. 4) In mA calibration mode, Press the number 1 switch as shown in figure. Mode is converted.
P_Calibration code
Input data
Up/Down switches increase and decrease P00~P06(AC110V), P07~P13(AC220V) Please check Input data. Input data and Tube current should be the same.
64
EPX-SERISE SERVICE MANUAL Rev. E Fill in the blank below table because P_DATA is different for each product.
Model
2.8kW
Current(mA)
P_Mode(110V)
P_Mode(220V)
35
P00
P07
30
P01
P08
25
P02
P09
20
P03
P10
18
P04
P11
16
P05
P12
14
P06
P13
5) If Preheat calibration is done, Please dip switch 4 set to OFF position.
65
P_DATA(A)
EPX-SERISE SERVICE MANUAL Rev. E
6.4 EPX-F3200 Please fill in the blank. kV/mAs condition(When error is occurred)
Product S/N
Error code
※ Open upper cover of portable x-ray below picture.
6.4.1 Voltage check 1) Turn on AC switch
VDC Range
TP26
TP24
TP25
TP6
4.8V~5.0V Pass Fail
11.5V~12.5V Pass Fail
-11.5V~-12.5V Pass Fail
+3V~3.6V Pass Fail
Pass/Fail Measured Voltage If it is fail case
66
EPX-SERISE SERVICE MANUAL Rev. E
6.4.2. kV, mA waveform check 1) Turn off AC switch 2) Please connect probe to EP_FB (kV feedback_TP11), IP_FB (mA feedback_TP8) test point on operation board below picture. 3)Turn on AC switch.
4) 40kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 40kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 40kV Pass/Fail Measured kV feedback voltage
20msec/div
EP_FB 2V Pass
IP_FB 6V Fail
If kV, mA waveforms are fail, please attach your kV, mA waveform
67
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 5) 50kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 50kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 50kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
20msec/div
EP_FB 2.5V Pass
IP_FB 6V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
6) 60kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 60kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 60kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
20msec/div
EP_FB 3V Pass
IP_FB 5V Fail
are fail, please attach your kV, mA waveform
68
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 7) 70kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 70kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 70kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 3.5V Pass
IP_FB 4V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
8) 80kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 80kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 80kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 4V Pass
IP_FB 4V Fail
are fail, please attach your kV, mA waveform
69
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 9) 90kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 90kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 90kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 4.5V Pass
IP_FB 3V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
10) 100kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 100kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 100kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 5V Pass
IP_FB 3V Fail
are fail, please attach your kV,mA waveform
70
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E
6.4.3. Waveform of poor AC power condition If AC power is under 100V or 200VAC, you have below abnormal waveform. Error 015,016,017,018 is occurred by poor AC power.
6.4.4 kV, mA PWM frequency check 1) Turn off AC swtich 2) Please connect probe to 200kHz(TP15), 140kHz(TP16) test point on operation board below picture. 3) Turn on AC switch.
71
EPX-SERISE SERVICE MANUAL Rev. E 4) kV / mA PWM frequency CH 1: kV
2V/div
CH 2 : mA
2V/div
CH Frequency Pass/Fail Measured frequency
4μsec/div
CH 1 mA PWM 200kHz Pass
Fail
6.4.5 mA calibration data check.
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off) For normal operation, only the DIP SW#1 must be set to ON position. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. Then the display should indicate as follows,
72
CH 2 kV PWM 140kHz Pass Fail
EPX-SERISE SERVICE MANUAL Rev. E 3) Turn on AC switch.
Calibration code
Input data
Up/Down switches increase and decrease C00~C07(AC110V), C08~C15(AC220V) Please check Input data.
Input data and Tube current should be the same.
Tube Current Parameter
mAs
Tube Voltage
Tube Current
INPUT DATA
AC110V
AC220V
KV
MIN
MAX
mA
mA
C00
C08
40~50
0.4
100
60.0
60.0
C01
C09
51~60
0.4
80
50.0
50.0
C02
C10
61~70
0.4
100
40.0
40.0
C03
C11
71~80(1)
0.4
32
40.0
40.0
C04
C12
71~80(2)
40
80
35.0
35.0
C05
C13
81~90
0.4
80
30.0
30.0
C06
C14
91~100(1)
0.4
50
30.0
30.0
C07
C15
91~100(2)
64
80
25.0
25.0
4) If mA calibration is done, Please dip switch 4 set to OFF position.
73
EPX-SERISE SERVICE MANUAL Rev. E
6.4.6 Filament Preheat Calibration Code and Data check 1) Turn off
AC switch
2) Dip switch on op board
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off) For normal operation, only the DIP SW#1 must be set to ON position. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. Then the display should indicate as follows,
3) Turn on AC switch. 4) In mA calibration mode, Press the number 1 switch as shown in figure. Mode is converted.
P_Calibration code
Input data
Up/Down switches increase and decrease P00~P05(AC110V), P06~P11(AC220V) Please check Input data. Input data and Tube current should be the same.
74
EPX-SERISE SERVICE MANUAL Rev. E Fill in the blank below table because P_DATA is different for each product.
Model
Current(mA)
P_Mode(110V)
P_Mode(220V)
60
P00
P06
50
P01
P07
40
P02
P08
35
P03
P09
30
P04
P10
25
P05
P11
3.2kW
5) If Preheat calibration is done, Please dip switch 4 set to OFF position.
75
P_DATA(A)
EPX-SERISE SERVICE MANUAL Rev. E
6.5 EPX-F4000 Please fill in the blank. kV/mAs condition(When error is occurred)
Product S/N
Error code
※ Open upper cover of portable x-ray below picture.
6.5.1 Voltage check 1) Turn on AC switch
VDC Range Pass/Fail
TP26
TP24
TP25
TP6
4.8V~5.0V
11.5V~12.5V
-11.5V~-12.5V
+3V~3.6V
Pass
Fail
Pass
Fail
Measured Voltage If it is fail case
76
Pass
Fail
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E
6.5.2. kV, mA waveform check 1) Turn off AC switch 2) Please connect probe to EP_FB (kV feedback_TP11), IP_FB (mA feedback_TP8) test point on operation board below picture. 3)Turn on AC switch.
4) 50kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 50kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 50kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
20msec/div
EP_FB 2.5V Pass
IP_FB 5.44V Fail
are fail, please attach your kV, mA waveform
77
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 6) 60kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 60kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 60kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
20msec/div
EP_FB 3V Pass
IP_FB 4.08V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
7) 70kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 70kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 70kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
20msec/div
EP_FB 3.5V Pass
IP_FB 3.4V Fail
are fail, please attach your kV, mA waveform
78
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 8) 80kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 80kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 80kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
20msec/div
EP_FB 4V Pass
IP_FB 3.4V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
9) 90kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 90kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 90kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 4.5V Pass
IP_FB 2.72V Fail
are fail, please attach your kV, mA waveform
79
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 10) 100kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 100kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 100kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 5V Pass
IP_FB 2.38V Fail
Pass
Fail
are fail, please attach your kV,mA waveform
11) 110kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 110kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 110kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 5.5V Pass
IP_FB 2.04V Fail
are fail, please attach your kV,mA waveform
80
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E
6.5.3. Waveform of poor AC power condition If AC power is under 100V or 200VAC, you have below abnormal waveform. Error 015,016,017,018 is occurred by poor AC power.
6.5.4 kV, mA PWM frequency check 1) Turn off AC swtich 2) Please connect probe to 200kHz(TP15), 140kHz(TP16) test point on operation board below picture. 3) Turn on AC switch.
81
EPX-SERISE SERVICE MANUAL Rev. E 4) kV / mA PWM frequency CH 1: kV
2V/div
CH 2 : mA
2V/div
CH Frequency Pass/Fail Measured frequency
4μsec/div
CH 1 mA PWM 200kHz Pass
Fail
6.5.5 mA calibration data check.
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off) For normal operation, only the DIP SW#1 must be set to ON position. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. Then the display should indicate as follows,
82
CH 2 kV PWM 140kHz Pass Fail
EPX-SERISE SERVICE MANUAL Rev. E 3) Turn on AC switch.
Calibration code
Input data
Up/Down switches increase and decrease C00~C014(AC110V), C15~C29(AC220V) Please check Input data.
Input data and Tube current should be the same.
Tube Current Parameter
Tube Voltage
mAs
Tube Current
INPUT DATA
AC 110V
AC 220V
KV
MIN
MAX
mA
mA
C00
C15
50 (1)
0.4
16
80.0
80.0
C01
C16
50 (2)
20
32
70.0
70.0
C02
C17
50 (3)
40
100
60.0
60.0
C03
C18
51~60 (1)
0.4
32
60.0
60.0
C04
C19
51~60 (2)
40
100
50.0
50.0
C05
C20
61~70 (1)
0.4
32
50.0
50.0
C06
C21
61~70 (2)
40
100
40.0
40.0
C07
C22
71~80 (1)
0.4
10
50.0
45.0
C08
C23
71~80 (2)
13
80
40.0
40.0
C09
C24
81~90 (1)
0.4
32
40.0
35.0
C10
C25
81~90 (2)
40
80
30.0
30.0
C11
C26
91~100 (1)
0.4
32
35.0
30.0
C12
C27
91~100 (2)
40
80
25.0
25.0
C13
C28
101~110 (1)
0.4
32
30.0
25.0
C14
C29
101~110 (2)
40
80
20.0
20.0
4) If mA calibration is done, Please dip switch 4 set to OFF position.
83
EPX-SERISE SERVICE MANUAL Rev. E
6.5.6 Filament Preheat Calibration Code and Data check 1) Turn off
AC switch
2) Dip switch on op board
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off) For normal operation, only the DIP SW#1 must be set to ON position. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. Then the display should indicate as follows,
3) Turn on AC switch. 4) In mA calibration mode, Press the number 1 switch as shown in figure. Mode is converted.
P_Calibration code
Input data
Up/Down switches increase and decrease P00~P09(AC110V), P10~P19(AC220V) Please check Input data. Input data and Tube current should be the same.
84
EPX-SERISE SERVICE MANUAL Rev. E Fill in the blank below table because P_DATA is different for each product.
Model
4.0KW
Current(mA)
P_Mode(110V)
P_Mode(220V)
80
P00
P10
70
P01
P11
60
P02
P12
50
P03
P13
45
P04
P14
40
P05
P15
35
P06
P16
30
P07
P17
25
P08
P18
20
P09
P19
5) If Preheat calibration is done, Please dip switch 4 set to OFF position.
85
P_DATA
EPX-SERISE SERVICE MANUAL Rev. E
6.6 EPX-F5000 Please fill in the blank. kV/mAs condition(When error is occurred)
Product S/N
Error code
※ Open upper cover of portable x-ray below picture.
6.6.1 Voltage check 1) Turn on AC switch
VDC Range Pass/Fail
TP26
TP24
TP25
TP6
4.8V~5.0V
11.5V~12.5V
-11.5V~-12.5V
+3V~3.6V
Pass
Fail
Pass
Fail
Measured Voltage If it is fail case
86
Pass
Fail
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E
6.6.2. kV, mA waveform check 1) Turn off AC switch 2) Please connect probe to EP_FB (kV feedback_TP11), IP_FB (mA feedback_TP8) test point on operation board below picture. 3) Turn on AC switch.
4) 40kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 40kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 40kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
20msec/div
EP_FB 2V Pass
IP_FB 5.1V Fail
are fail, please attach your kV, mA waveform
87
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 5) 50kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 50kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 50kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
20msec/div
EP_FB 2.5V Pass
IP_FB 5.1V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
6) 60kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 60kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 60kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
20msec/div
EP_FB 3V Pass
IP_FB 4.08V Fail
are fail, please attach your kV, mA waveform
88
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 7) 70kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 70kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 70kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
20msec/div
EP_FB 3.5V Pass
IP_FB 3.57V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
8) 80kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 80kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 80kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
20msec/div
EP_FB 4V Pass
IP_FB 3.06V Fail
are fail, please attach your kV, mA waveform
89
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 9) 90kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 90kV/5mAs CH 1: kV
2V/div
CH 2 : mA
2V/div
Setting value Ref voltage 90kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
40msec/div
EP_FB 4.5V Pass
IP_FB 2.04V Fail
Pass
Fail
are fail, please attach your kV, mA waveform
10) 100kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 100kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 100kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 5V Pass
IP_FB 1.79V Fail
are fail, please attach your kV,mA waveform
90
Pass
Fail
EPX-SERISE SERVICE MANUAL Rev. E 11) 110kV/5mAs waveform Please set kV, mAs below table and take exposure Exposure condition : 110kV/5mAs CH 1: kV
2V/div
CH 2 : mA
Setting value Ref voltage 110kV Pass/Fail Measured kV feedback voltage If kV,mA waveforms
2V/div
40msec/div
EP_FB 5.5V Pass
IP_FB 1.53V Fail
Pass
Fail
are fail, please attach your kV,mA waveform
6.6.3. Waveform of poor AC power condition If AC power is under 100V or 200VAC, you have below abnormal waveform. Error 015,016,017,018 is occurred by poor AC power.
91
EPX-SERISE SERVICE MANUAL Rev. E
6.6.4 kV, mA PWM frequency check 1) Turn off AC swtich 2) Please connect probe to 200kHz(TP15), 140kHz(TP16) test point on operation board below picture. 3) Turn on AC switch.
4) kV / mA PWM frequency CH 1: kV
2V/div
CH Frequency Pass/Fail Measured frequency
CH 2 : mA
2V/div
4μsec/div
CH 1 mA PWM 200kHz Pass
92
Fail
CH 2 kV PWM 140kHz Pass Fail
EPX-SERISE SERVICE MANUAL Rev. E
6.6.5 mA calibration data check.
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off) For normal operation, only the DIP SW#1 must be set to ON position. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. Then the display should indicate as follows,
3) Turn on AC switch.
Calibration code
Input data
Up/Down switches increase and decrease C00~C20(AC110V), C21~C41(AC220V) Please check Input data.
93
EPX-SERISE SERVICE MANUAL Rev. E Input data and Tube current should be the same.
Tube Current Parameter AC110V AC220V
Tube Voltage
mAs
Tube Current
INPUT DATA
KV
MIN
MAX
mA
mA
C00
C21
50(1)
0.4
10
100
100
C01
C22
50(2)
13
32
80
80
C02
C23
50(3)
40
100
70
70
C03
C24
51~60(1)
0.4
10
80
80
C04
C25
51~60(2)
13
32
70
70
C05
C26
51~60(3)
40
100
60
60
C06
C27
61~70(1)
0.4
10
70
70
C07
C28
61~70(2)
13
32
60
60
C08
C29
61~70(3)
40
100
50
50
C09
C30
71~80(1)
0.4
10
60
60
C10
C31
71~80(2)
13
32
50
50
C11
C32
71~80(3)
40
100
40
40
C12
C33
81~90(1)
0.4
10
50
50
C13
C34
81~90(2)
13
32
40
40
C14
C35
81~90(3)
40
100
30
30
C15
C36
91~100(1)
0.4
10
45
45
C16
C37
91~100(2)
13
32
40
40
C17
C38
91~100(3)
40
100
30
30
C18
C39
101~110(1)
0.4
10
40
40
C19
C40
101~110 (2)
13
32
30
30
C20
C41
101~110 (3)
40
100
20
20
4) If mA calibration is done, Please dip switch 4 set to OFF position.
94
EPX-SERISE SERVICE MANUAL Rev. E
6.1.6 Filament Preheat Calibration Code and Data check 1) Turn off
AC switch
2) Dip switch on op board
DIP Switches are used for following setting. SW #1: ERROR Enable (ON)/Disable (OFF) SW #2: Reserved SW #3: Initialize memories (reserved) SW #4: Calibration mode (ON)/Normal mode (Off) For normal operation, only the DIP SW#1 must be set to ON position. DIP SWITCH #4 on the OP BOARD PCB is set to ON position. Then the display should indicate as follows,
3) Turn on AC switch. 4) In mA calibration mode, Press the number 1 switch as shown in figure. Mode is converted.
P_Calibration code
Input data
Up/Down switches increase and decrease P00~P04(AC110V), P05~P09(AC220V) Please check Input data. Input data and Tube current should be the same.
95
EPX-SERISE SERVICE MANUAL Rev. E Fill in the blank below table because P_DATA is different for each product.
Model
5kW
Current(mA)
P_Mode(110V)
P_Mode(220V)
100
P00
P09
80
P01
P10
70
P02
P11
60
P03
P12
50
P04
P13
45
P05
P14
40
P06
P15
30
P07
P16
25
P08
P17
5) If Preheat calibration is done, Please dip switch 4 set to OFF position.
96
P_DATA(A)