Title DI1 (60 105m/min) Annunciator Function Setting Mode [PDF]

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D A T E:'97.11.29

5.ANNUNCIATOR

Title

DI1(60~105m/min) Annunciator function setting mode

Contents

It is intended to help you operate annunciator properly, explain LCD indication and give you check points when floor height measuring operation has failed during installation and maintenance.

A12E = Floor height measuring operation ** Preparation ** 1. Set the NORMAL/STOP switch on DOC-100 PCB to the STOP position. 2. Check JP1 S/W on DOC-100 PCB. It shall be in a writable area.(Turn OFF R5SC to move JP1 S/W and then turn ON R5SC again.) ** Screen check ** 1. Verify that ACD = 09 after entering "A12E" and press '3'.(This is maintained until bottom FLR DL S/W is inputted.) A E 1 F

C 0 1 H

D = 0 9 0 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 0 1 1 0 0 0 0 1 1 1 0 1 M M D K :

0 4 8 C

1 5 9 D

2 6 A E

3 7 B F

A

1

2

E

①

②

③

④

2.FHM MD is displayed on LCD. 3.When the car has reached the bottom floor and stopped by pressing DL switch, press button #3, the floor height measuring command. 4.The LCD screen state is as follows; A E 1 F

C 0 1 H

D = 0 A 0 0 F L 1 5 M 0 0 - 0 0 1 0 0 0 0 U 0 0 1 1 0 0 0 0 1 1 1 0 1 M S T K :

5.When floor height measuring operation has started, FHM ST displays in row 4. 6.The car will travel until UL switch operates. 7.When floor height measuring has completed, LCD screen state is; A E 1 F

C 0 1 H

D = 0 A 1 6 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 0 1 1 0 0 0 0 1 1 1 0 1 M P A S S K :

8.If FHM is successful, FHM PASS will display. 9.Move JP1 to +5V position with NORMAL/STOP switch on DOC-100 PCB to STOP position, in order to stop the floor height measuring operation. *** Observances *** 10.Enter 'FFFF' to clear the floor height measuring operation mode. 11.LCD screen state is as follows; A C D = 2 7 1 6 F E 0 0 0 - 0 0 1 0 1 1 0 0 1 1 0 0 0 K

L 0 0 M 0 0 0 S 0 1 1 1 0 1 :

12.ACD=27 will display in automatic mode. 13.If FHM has failed, the screen will be; A E 1 F

C 0 1 H

D = 0 9 0 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 0 1 1 0 0 0 0 1 1 1 0 1 M F a i l K :

①.FHM Fail,which means floor height measuring has failure, will display. ②.The car will return to the bottom floor automatically.

Checking points when FHM has failed * Isn't JP1 in 5V area? * Isn't Total[0]($0300H) data different from Top($041CH) data? * Doesn't SD1U operate abnormally after arrival at top floor? * Doesn't UL or DL switch operate abnormally? * Are not input devices(CDS,LDS,SES,etc.) of door operating abnormally?

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D A T E:'97.11.29

Title

DI1(60~105m/min) Annunciator function setting mode

Contents

It is intended to run the car from the top, intermediate and bottom floor by using annunciator, and verify the car is in a normal condition by registering hold type call(continuous operation).

A13E = One bottom floor operation ** Screen check ** 1. Enter 'A13E' and verify that BOT FL will display in row 4. 2. The car returns to the bottom floor and stops. 3. Automatically reset.(Min.: After the car reaches the floor, Max.:35 sec.) 4. If operation is abnormal, check spec. data. (Check for 0420H data. Normal=Bottom floor)

A E 1 B

C 0 1 O

D = 2 7 5 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 0 1 1 0 0 0 0 1 1 1 0 1 T F L K :

A E 1 M

C 0 1 I

D = 2 7 5 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 0 1 1 0 0 0 0 1 1 1 0 1 D F L K :

A E 1 T

C 0 1 O

D = 2 7 1 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 0 1 1 0 0 0 0 1 1 1 0 1 P F L K :

A E 1 B

C 0 1 O

D = 2 7 1 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 0 1 1 0 0 0 0 1 1 1 0 1 T H F L K :

A E 1 M

C 0 1 I

5 F L D = 2 7 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 0 1 1 0 0 0 0 1 1 1 0 1 D H F L K :

A E 1 T

C 0 1 O

A14E = One intermediate floor operation ** Screen check ** 1. Enter 'A14E' and verify that MID FL will display in row 4. 2. The car moves to the intermediate floor and stops. 3. Automatically reset.(Min.: After the car reaches the floor, Max.:35 sec.) 4. If operation is abnormal, check spec. data. (Check for 041EH data. Normal=Intermediate floor)

A15E = One top floor operation ** Screen check ** 1. Enter 'A15E' and verify that TOP FL will display in row 4. 2. The car moves to the top floor and stop. 3. Automatically reset.(Min.: After the car reaches the floor, Max.:35 sec.) 4. If operation is abnormal, check spec. data. (Check for 041CH data. Normal=Top floor)

A16E = Hold-type bottom floor operation ** Screen check ** 1. Enter 'A16E' and verify that BOT H FL will display in row 4. 2. The car moves to the bottom floor and stop. 3. To clear the mode, enter FFFF. 4. If operation is abnormal, check spec. data. (Same as item 4, A13E)

A17E = Hold type intermediate floor operation ** Screen check ** 1. Enter 'A17E' and verify that MID H FL will display in row 4. 2. The car moves to the intermediate floor and stop. 3. To clear the mode, enter 'FFFF'. 4. If operation is abnormal, check spec. data. (Same as item 4, A14E)

A18E = Hold type top floor operation ** Screen check ** 1. Enter 'A18E' and verify that TOP FL will display in row 4. 2. The car moves to the top floor and stop. 3. To clear the mode, enter FFFF.

**Note** Hold type call floor input is used for a successive operation for bottom F, intermediate F, and top F. Ex.:If'A16E' and'A18E' are registered, continuous operation for bottom F and top F If 'A16E', 'A17E' and "A18E" are registered. (continuous operation of bottom floor, intermediate floor, and top floor)

D = 2 7 1 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 0 1 1 0 0 0 0 1 1 1 0 1 P H F L K :

A19E = Specified floor call operation ** Screen check ** 1. Verify that CALL will display in row 4 after registering A19E, and enter a floor. Decimal number is used for floor call. For 8 F call, enter '08E'. For 12 F call, enter '12E'. 2. Automatically reset.(Min.:After the car reaches specified floor, Max.:35sec.)

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A E 1 C

C 0 1 A

D 0 0 L

= 2 7 0 0 F L 0 0 M 0 - 0 0 1 0 0 0 0 S 0 1 1 0 0 0 0 1 1 1 0 1 L K :

D A T E:'97.11.29

Title

DI1(60~105m/min) Annunicator function setting mode It is intended to help you check the data of input/output buffer with READ/WRITE mode by using annunciator during installation and mainterance.

Contents

A21E = READ/WRITE of input and output data ** Preparation ** 1. Move NORMAL/STOP switch on DOC-100 PCB to the STOP position. 2. Check JP1 switch on DOC-100 PCB. ①.JP1 switch should be in +5 area when reading RAM. ②.JP1 switch should be in a writable area when writing RAM. ** Screen check ** 1. Enter 'A21E' and verify that ADDR ; DAT will display in row 4. A E 1 A

C 0 1 D

D 0 0 D

= 0 0 R

0 3 0 0 F L 0 0 M - 0 0 1 0 0 0 0 S 1 1 0 0 0 0 1 1 1 0 1 ; D A T K :

2.Register the six-figure address to read, using HEX. Ex.) if '0100' is registered, LCD screen shows as follows; A E 1 0

C 0 1 1

D 0 0 0

= 0 0 0

0 3 0 0 F L 0 0 M - 0 0 1 0 0 0 0 S 1 1 0 0 0 0 1 1 1 0 1 ; x 1 C K :

Address and data indicated are in hexadecimal value. 'x' in 'x1C' means HEX(Hexadecimal) value and '1C' is actual data. 3.Address increment When reading the data of higher address than the address inputted, register ' 0'. 4.Address decrement When reading the data of lower address than the address inputted, register ' 8'. 5.Address input conversion To read another address when reading data, register 'BBB'. A E 1 A

C 0 1 D

D 0 0 D

= 0 3 0 0 F L 0 0 M 0 - 0 0 1 0 0 0 0 S 0 1 1 0 0 0 0 1 1 1 0 1 R ; D A T K :

6.Data protection release and data input Read the data of the address to make correction and then enter ' AAE'. LCD screen state A E 1 0

C 0 1 1

D 0 0 0

= 0 0 0

0 3 0 0 F L 0 0 M - 0 0 1 0 0 0 0 S 1 1 0 0 0 0 1 1 1 0 1 ; x 1 C K : A A E

7. Enter the two-place data to modify, using HEX. ① Data to enter is a HEX value. Ex.)If the data to correct is '13' of decimal number, enter '0CE'.

A E 1 0

C 0 1 1

D 0 0 0

= 0 0 0

0 3 0 0 F L 0 0 M - 0 0 1 0 0 0 0 S 1 1 0 0 0 0 1 1 1 0 1 ; x 1 C K : 0 C E

8. To escape the mode, enter 'FFFF'.

Check points when writing data * The car should be in operative. * Be sure to verify that JP1 switch is in a writable area. * Do not operate JP1 switch while the car is running. * In data mode, addresses of 0x0000~0xffff can be registered. (Actual address is 40000~4ffff.)

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D A T E:'97.11.29

Title

DI1(60~105m/min) Annunciator function setting mode This is for checking and correcting the data of absolute address the spec. ROM in installation and maintenance with readable/writable mode by using annunicator.

Contents

A31E = SPEC ROM DATA READ ** Preparation ** 1. Set NORMAL/STOP S/W in DOC-100 PCB to STOP position. 2. Check JP1 S/W in DOC-100 PCB.(Move JP1 S/W with R5SC OFF and turn ON R5SC again.) ①.JP1 S/W shall be in +5 area when reading ROM. ②.S/W shall be in a writable area when writing SPEC ROM. 3.Verify that R5SC(for checking safety circuit checking) relay in DOC-100 PCB is OFF when writing SPEC ROM.

** Screen check ** 1. Enter A31E and verify that SPEC ; DAT is displayed in row 4. A E 1 S

C 0 1 P

D 0 0 E

= 0 0 C

0 3 0 1 F L 0 0 0 M - 0 0 1 0 0 0 0 S 1 1 0 0 0 0 1 1 1 0 1 ; D A T K :

2.Enter the four-place address to read, using HEX. Ex.) If '002C' is entered as address, LCD screen state is; A E 1 0

C 0 1 0

D 0 0 2

= 0 0 C

0 3 0 0 F L 0 0 0 M - 0 0 1 0 0 0 0 S 1 1 0 0 0 0 1 1 1 0 1 ; x 0 1 K :

Address and data displayed is in a HEX. 'x' in 'x01' means HEX value and '01' actual data. 3.Address increment When reading the data of the 2 address higher address than the address inputted, enter '0'. 4.Address decrement When reading the data of the 2 address lower address than the address inputted, enter ' 8'. 5.Address input conversion To read another address when reading data, enter 'BBB' . LCD screen state A C D = 0 3 0 0 F L 0 0 0 M **Note** E 0 0 0 - 0 0 1 0 0 0 0 S ⓐ .As SPEC data uses only the lower 8BIT of 16BIT, always use even number only. 1 1 0 0 1 1 0 0 0 0 1 1 1 0 1 ⓑ .If an odd number is entered by mistake, it is S P E C ; D A T K : considered as the appropriate even number. 6.Data protection cancel and data input Read the data of the address to make correction and enter 'AAE'. LCD screen state A C D = 0 3 0 1 F L 0 0 0 M E 0 0 0 - 0 0 1 0 0 0 0 S 1 1 0 0 1 1 0 0 0 0 1 1 1 0 1 0 0 2 C ; x 0 1 K : A A E 7. Enter the two-place data to correct, using HEX. Ex.)If the data to correct is '13' of decimal number, enter '0C'. LCD screen state A E 1 0

C 0 1 0

D 0 0 2

= 0 0 C

0 3 0 1 F L - 0 0 1 0 0 1 1 0 0 0 0 1 ; x 0 1 K : 0

0 0 1 C

0 0 M 0 S 1 0 1 E

If writing data is failed, 'FAIL'is displayed. 8. To escape the mode, enter 'FFFF'.

Check points when writing SPEC fails * Verify that NORMAL/STOP S/W in OC-100 PCB is in STOP position. * Be sure to verify that JP1 S/W is in a writable area. * Do not operate JP1 S/W while E/L is running. * During SPEC write, addresses of 0x0000~3fff may be entered. (Actual address is 50000~53FFF.) * Address moves by 2 addresses during SPEC write/read.

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D A T E:'97.11.29

Title

DI1(60~105m/min) Annunciator function setting mode This is for checking error occurance and operation condition by using annunciator, and checking and correcting by searching TCD, error clearing, and TCD clearing mode, etc. in installation and maintenance.

Contents

A41E = TCD DISPLAY ** Screen check ** 1. Enter A41E. LCD screen state

A E 1 T

C 1 1 0

D 2 0 0

= 1 0 4

2 7 0 1 F L 0 0 M - 9 0 1 0 0 0 0 S 1 1 0 0 0 0 1 1 1 0 1 - 0 0 1 K :

①.Row 2 column 1~Row 2 column 7: Displays the TCD number and operation of the error occurring first. ②.Row 4 column 1~Row 4 column 4: Displays the number of all current errors. ③.Row 2 column 1~Row 2 column 8: Displays '001' which means the error occurred first. 2. TCD search ①. To search all errors in their occurring sequence, enter '0'. ②. To search current error reversely to occurring sequence, enter '8'. 3. To escape from the mode, enter FFFF.

A42E = ERROR LOG TABLE search **Screen check** 1. Enter A42E. LCD screen state

A E 1 T

C 0 1 0

D 2 0 1

= 7 0 6

2 7 0 1 F L 0 0 M - 9 4 1 0 0 0 0 S 1 1 0 0 0 0 1 1 1 0 1 - 0 0 1 K :

①.Row 2 shows TCD code and operation code as well as TCD display. ②.Row 4 shows the total number of TCDs which are stored in LOG TABLE in a T0xx form and indicates how much time the TCD code in row 2 is displayed in a -0xx form. ③.Enter '0' to search back from the content display now, and enter '8' to search forth. ④.Enter "1" to search the first error of all errors which have occurred till now. ⑤.Enter "9" to search the last error of all errors which have occurred till not. ⑥.Up to 16 errors can be searched from ERROR LOG TABLE. ⑦.ERROR LOG TABLE is a FIFO structure. 2. To escape the mode, enter FFFF.

A43E = ERROR LOG CLEAR **Screen check** 1. Enter A43E. LCD screen state

A E 1 L

C 0 1 O

D = 2 7 0 0 F L 0 0 M 5 5 - 0 0 1 0 0 0 0 S 0 0 1 1 0 0 0 0 1 1 1 0 1 G C L E A R

2. Normal MODE(ACD=27) will appear several seconds after LOG CLEAR is displayed in row 4.

A44E = TCD CLEAR **Screen check** 1. Enter A44E. LCD screen state

A E 1 T

C 0 1 C

D = 2 7 0 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 0 1 1 0 0 0 0 1 1 1 0 1 D C L E A R

2. Normal MODE(ACD=27) will appear after TCD CLEAR is displayed in row 4.

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D A T E:'97.11.29

Title

DI1(60~105m/min) annunciator function setting mode This is for checking and correcting during installing & maint. through the mode that can read/write data of DSP memory by using annunciator.

Contents

A51E = DSP MEMORY READ ** Screen check ** 1. After entering A51E, verify row 4 is DSP ADDR. LCD screen state A E 1 D

C 0 1 S

D = 2 7 0 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 0 1 1 0 0 0 0 1 1 1 0 1 P A D D R K :

2.After entering address to read to four places of Hex, enter 'E'. Ex.) If '1000' address is entered, LCD screen state A E 1 D

C 0 0 S

D = 2 7 0 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 0 = x 3 1 2 F A A 5 5 P A D D R K :

ADDRESS and DATA are displayed in row 3. ADDRESS and DATA displayed are Hex. The 'x' in 'x321F AA55' means Hex value, and '321F AA55' is actual DATA. DATA displayed is amount of 4 bytes of Hex. 3.ADDRESS INCREMENT If data of the upper address than the entered address is read, enter '0'. Data of the 4 upper address above already entered address is displayed. 4.ADDRESS DECREMENT If data of the lower address than the entered address is read, enter '8'. Data of the 4 lower address below already entered address is displayed. 5.If mode is released, enter FFFF. A52E = DSP SPEC WRITE ** Cautions ** 1. Switch NORMAL/STOP S/W of DOC-100 PCB to STOP. 2. Switch JP1 S/W of DOC-100 PCB to +5V. 3. Switch J1J JUMPER S/W of DPC-100 PCB to WRITE MODE(set J1J JUMPER S/W to No.3 번,4번). 4. If CTRL spec. or inverter related spec. has been changed, or TCD 60 has been occurred, perform DSP WRITE. [When DSP WRITE not performed, ERROR occurs(=TCD 60)] ** Screed check ** 1. Enter A52E. LCD screen state A E 1 W

C 0 1 A

D 0 0 I

= 0 3 0 3 F L 0 0 M 0 - 0 0 1 0 0 0 0 S 0 1 1 0 0 0 0 1 1 1 0 1 T K :

Below characters are displayed in LCD row 4 in order. DSP SPEC WAIT SUCCESS OR FAIL 2.If mode released, enter FFFF. Check points during SPEC WRITE failure. * Verify NORMAL/STOP S/W in DOC-100 PCB is in STOP. * Verify J1J S/W in DPC-100 PCB is in WRITE MODE(J1J S/W No.3,4). * Do not operate JP1 S/W during elevator running.

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D A T E:'97.11.29

Title

DI1(60~105m/min) annunciator function setting mode This is for checking & correcting during installing & maint. through the mode that can measure and correct NO LOAD POINT & FULL LOAD POINT of differential trs by using annunciator.

Contents

A61E = NO LOAD POINT setting ** Preparation ** 1. Switch NORMAL/STOP S/W of DOC-100 PCB to STOP. 2. Verify JP1 S/W of DOC-100 PCB is WRITE area. 3. Verify R5SC(for checking safety circuit) RELAY of DOC-100 PCB is OFF. ** Screen check ** 1. After entering A61E, if NO LOAD POINT setting is finished, 'SUCCESS' is displayed in row 4. LCD screen state A E 1 S

C 0 1 U

D 0 0 C

= 0 0 C

0 3 0 3 F L 0 0 M - 0 0 1 0 0 0 0 S 1 1 0 0 0 0 1 1 1 0 1 E S S K :

2. When NO LOAD POINT setting failed, 'FAIL' is displayed. LCD screen state A E 1 F

C 0 1 A

D 0 0 I

= 0 3 0 3 F L 0 0 M 0 - 0 0 1 0 0 0 0 S 0 1 1 0 0 0 0 1 1 1 0 1 L K :

If FAIL displayed, set N0 LOAD POINT again. 3. To release MODE, enter FFFF.

Check points during NO LOAD POINT setting failure * Verify NORMAL/STOP S/W in DOC-100 PCB is in STOP. * Verify JP1 S/W is surely in WRITE area. * Check SPEC DATA of 014E. (default=00H)

A62E = FULL LOAD POINT setting ** Preparation ** 1. Switch NORMAL/STOP S/W of DOC-100 PCB to STOP. 2. Verify JP1 S/W of DOC-100 PCB is in WRITE area. 3. Verify R5SC(for checking safety circuit) RELAY of DOC-100 PCB is OFF. 4. After setting NO LOAD POINT, set FULL LOAD POINT. ** Screen check ** 1. Enter A62E. LCD screen state A C D = 0 3 0 3 F E 0 0 0 - 0 0 1 0 1 1 0 0 1 1 0 0 0 K

L 0 0 0 1 1 : A 6

0 0 M 0 S 1 0 1 2 E

2. If setting FULL LOAD POINT finished, 'SUCCESS' is displayed in row 4. LCD screen state A E 1 S

C 0 1 U

D 0 0 C

= 0 0 C

0 3 0 3 F L 0 0 M - 0 0 1 0 0 0 0 S 1 1 0 0 0 0 1 1 1 0 1 E S S K :

3. When FULL LOAD POINT setting failure 'FAIL' is displayed in row 4. A E 1 F

C 0 1 A

D 0 0 I

= 0 3 0 3 F L 0 0 M 0 - 0 0 1 0 0 0 0 S 0 1 1 0 0 0 0 1 1 1 0 1 L K :

4. For releasing MODE, enter FFFF.

Check points during FULL LOAD POINT setting failure * Verify NORMAL/STOP S/W in DOC-100 PCB is in STOP. * Verify JP1 S/W is surely in WRITE area. * After NO LOAD POINT setting, set FULL LOAD POINT. * Check SPEC DATA of 0150. (default=00H)

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D A T E:'97.11.29

Title Contents

DI1(60~105m/min) annunciator function setting mode This is for using night noise restricting function by using the function that sets and changes time through annunciator, which is used in installing & maintenance.

A69E = Time setting MODE ** Cautions ** **주의** 1. Verify DOC-100JP1 PCB의 S/W JP1 of DOC-100 S/W를 WRITE인 PCB is 것을 WRITE. 확인한다. 2. Verify DOC-100NORMAL/STOP PCB의 NORMAL/STOP S/W of DOC-100 S/W를 STOP인 PCB is것을 STOP확인한다. ** Screen 화면 확인 check ** ** 1. After A69E를entering 입력한 후 A69E, 4행에 verify RTC SET row 인 4 is 것을 RTC확인. SET. 2. In 3행에는 row 3,설정된 date and 날짜와 time시간이 set are 표기된다. displayed. 2. To MODE를 release 해제할 MODE, 경우 enter 'FFFF'를 'FFFF'2번 two입력한다. times. 3. When 날짜/시간 changing MODE변경시 date /time 'C'를 MODE, 입력한다. enter 'C'. ①. Year, Month, Day setting screen ** Screen check ** 1. For changing date, enter 'C', and verify row 4 is DateSet. 2. Enter Year, Month, Day to change in order. ** Ex.) 화면 For 확인entering ** Jan. 13. 1998.: Enter 98E,01E,13E. 3. Check Month, 할 Day경우 entered row 4. 1. 날짜를Year, 변경하고자 'C'를to입력하여 4. To release 4행에 MODE, DateSet를 enter FFFF. LDC화면의 확인한다. 5. If setting Month & Day is wrong, key error is displayed. 2. 변경하고자 하는 년(年),월(月),일(日)을 순서대로 입력한다. Ex.) 예)98년1월 13 th month, 13일을 25 입력한다면:98E,01E,13E를 hour, etc. 입력한다. 3. MODE를 해제할 경우 FFFF를 입력한다.

** 화면 확인 ** 1. 시간을 변경하고자 할 Second 경우'C'를입력하여 ②. Hour, Minute, setting screen LCD화면의 4행에 TameSet를 확인한다. 2. 변경하고자 하는 시간,분,초,를 순서대로 입력한다. **예)오후 Screen check ** 3시45분30초 입력한다면:15E,45E,30E를 입력한다. 1. For changing and 2. MODE를 해제할time, 경우 enter FFFF를'C', 입력한다. verify row 4 of LCD screen is TimeSet. 2. Enter Hour, Minute, Second to change in order. Ex.) For entering P.M 03:45, 30 sec : enter 15E,45E,30E. 3. Check hour, minute, second entered in row 4. 4. To release MODE, enter FFFF. 5. If setting time is wrong, Key error is displayed. Ex.) 25 hour,30 minute,62 minute, 65 second, etc.

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A E 9 R

C 0 7 T

D = 20 37 0 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 1 1 2 9 / 1 5 : 0 3 : 1 0 / C S E T K :

A E 9 D

C 0 7 a

D 0 1 t

A E 9 9

C 0 7 8

D = 02 37 0 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 1 1 2 9 #/ 1 5 : 0 3 : 1 0 /# / / K : 0 1 E

A E 9 9

C 0 7 8

D 0 1 /

A E 9 R

C 0 8 T

D = 02 37 0 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 1 1 3 / 1 5 : 0 3 : 1 0 /# C S E T K :

A E 9 R

C 0 78 T

D = 02 37 0 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 01 1 12 93 / 1 5 : 0 3 : 1 0 / C S E T K :

A E 9 TD

C 0 87 ia

D 0 01 mt

A E 9 19

C 0 87 58

D = 02 37 0 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 01 1 12 3 / 1 5 : 0 3 : 1 0 # / / K : 04 51 E

A E 9 19

C 0 87 58

D 0 01 /

A E 9 R

C 0 8 T

D = 02 37 0 0 F L 0 0 M 0 0 - 0 0 1 0 0 0 0 S 0 1 1 3 / 1 5 : 40 53 : 13 0 # C S E T K :

= 0 1 e

= 0 1 0

= 0 1 e

= 0 1 40

20 73 0 0 F L 0 0 M - 0 0 1 0 0 0 0 S 2 #/ 1 5 : 0 3 : 1 0 /# S e t K : 9 8 E

20 2 1

02 12 S

20 12 51

73 0 0 F L 0 0 M 0 0 1 0 0 0 0 S 9 #/ 1 5 : 0 3 : 1 0 /# / K : 1 3 E

73 0 0 F L 0 0 M 0 0 1 0 0 0 0 S 3 / 1 5 : 0 3 : 1 0 # e t K : 91 58 E

73 0 0 F L 0 0 M 0 0 1 0 0 0 0 S 3 / 1 5 : 0 3 : 1 0 # / K : 13 03 E

D A T E:'97.11.29

Title

DI1(60~105m/min) annunciator function setting mode This is a mode to measure POSI characteristics by using annunciator, which is used during installing & maintenance for correct positioning & minimizing shock of positioning.

Contents

A85E = POSI measuring MODE ** Preparation ** 1. Switch MAINT/AUTO of DOC-100 PCB to MAINT. Measuring POSI must be performed in M/C room low speed running mode. 2. Operate UP/DOWN S/W up/down to perform. 3. Switch JP1 S/W of DOC-100 PCB to WRITE.(JP1 S/W moving must be performed in state of R5SC RELAY OFF.) 4. In POSI measuring MODE, car must be in the other floor than top, bottom floors. 5. Car may not be in DOOR ZONE. Performing in any floor has the same result. ** Screen check ** 1. After entering A85E, verify row 4 is POSI TEST.(verify ACD = 04.) LCD screen state A C D = 0 4 0 2 F L 0 0 M E 0 0 0 - 0 0 1 0 0 0 0 S 1 1 0 0 1 1 0 0 0 0 1 1 1 0 1 P O S I T E S T K : ①.If car is in DOOR ZONE, 'POSI TEST' is displayed. ②.If car is out of DOOR ZONE, 'UP Drive' is displayed just after 'POSI TEST' displayed. Move car according to directions of LCD screen. 2.When car is in DOOR ZONE ①.Operate UP/DOWN S/W of DOC-100 PCB up/down to move out of DOOR ZONE. ②.If car moves out of DOOR ZONE, 'UP DRIVE' meaning up-running is displayed. LCD screen state A C D = 0 4 0 2 F L 0 0 M E 0 0 0 - 0 0 1 0 0 0 0 S 1 1 0 0 1 1 0 0 0 0 1 1 1 0 1 U P D r i v e K : ③. If UP DRIVE is displayed, switch UP/DOWN S/W to UP. ④. Measure POSI characteristics passing by DOOR ZONE. ⑤. After measuring finished, 'DN Drive' meaning reverse in car direction is displayed. LCD screen state A C D = 0 4 0 2 F L 0 0 M E 0 0 0 - 0 0 1 0 0 0 0 S 1 1 0 0 1 1 0 0 0 0 1 1 1 0 1 D N D r i v e K : ⑥. If 'DN DRIVE' is displayed, switch UP/DOWN S/W in DOC-100 PCB to DOWN. ⑦. Measure POSI characteristics passing by DOOR ZONE. ⑧. If cat is out of DOOR ZONE, 'STOP' message is displayed. A E 1 S

C 0 1 T

D 0 0 O

= 0 4 0 2 F L 0 0 M 0 - 0 0 1 0 0 0 0 S 0 1 1 0 0 0 0 1 1 1 0 1 P K :

3.If measuring POSI is finished. 'POSI FIN'is displayed in row 4. LCD screen state A E 1 P

C 0 1 O

D 0 0 S

= 0 4 0 2 F L 0 0 M 0 - 0 0 1 0 0 0 0 S 0 1 1 0 0 0 0 1 1 1 0 1 I F I N K :

**Check points during POSI measuring failure** * Is not JP1 S/W in 5V area? * Is not MAINT/AUTO S/W in AUTO? * Is not car in top or bottom floor?

4. If measuring POSI is failed, 'FAIL' is displayed in row 4. If measuring POSI is failed, after releasing MODE(FFFF), re-perform measuring POSI. 5. To release MODE, enter FFFF.

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D A T E:'97.11.29

Title

DI1(60~105m/min) annunciator function setting mode

Contents

This is a fucntion to maximize facility of installation and maintenance by using a mode that can confirm car load through annunciator. (applied to only case of differential trs)

A86E = Differential trs load check ** 1. 2. 3.

Cautions ** Verify DOC-100 PCB is normal. Verify BIT4 of SPEC1 DIP S/W in DOC-100 PCB is ON state. Verify differential trs is a applied E/L. Ex.) Checking ADDRESS of SPEC TABLE. When 1 differential trs applied(=0018H), when 2 differential trs's(=001AH) *Reference for applying differential trs* 60m/min 17 persons(standard type) :DATA of 0018H is '01'. 60m/min 17 Persons :DATA of 0018H is '01', DATA of 001AH is '01' 90m/min 15 Persons or less : DATA of 0018H is '01' 90m/min 15 Persons or more : DATA of 0018H is '01', DATA of 001A is '01' ** Screen check ** 1. Enter A86E, and verify WD:00% in row 4. LCD screen check A E 0 W

C 0 0 D

D = 2 7 0 2 F L 0 0 - 0 0 1 0 0 0 0 0 0 0 0 0 : 2 0 % K :

6 0 M 0 0 U 0 0 0

①. The value displayed in row 4 is % value of load of in-car. 2. To release MODE, enter FFFF.

A88E = LW100% CUT *MODE explanation* This is a function that can run only once with buzzer not buzzed when loading 110% load in car. This is a mode used when elevator superintendent inspects it. ** 1. 2. 3. 4. ** 1. 2.

How to use** If load 110% is loaded, buzzer buzzes and door is maintained in state of opening. Enter target floor, and then enter A88E. E/L runs towards target floor only once. It is reset automatically. Screen check ** If A88E is entered, buzzer sound does not buzz. E/L runs towards target floor. LCD screen state A C D = 2 7 0 1 F E 0 0 0 - 0 0 1 0 1 1 0 0 1 1 0 0 0 K

L 1 5 M 0 0 0 U 0 1 1 1 0 1 :

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KEY INPUT ASSIGN. TAB. BY ANN FUN. MODE

MAIN MODE

SUB MODE

Segment

MAIN MODE

KEY input SUB MODE

OPR

F/H measuring OPR

A12E

Bottom F call input

A13E

Middle F call input

A14E

related

Mode

Top F

Memory Memory mode mode

call input

KEY input KEY input

START

3

H

A16E

Mid.F call input

H

A17E

Top F call input H

A18E

Spec'd call input

A18E

F No. input

DATA READ

A21E

Address INC

0

Address

DEC

8

Address

input

Address

re-input

Address

INC

0

Address DEC

8

A22E A22E

FFFF

Address

SPEC READ

SPEC WRITE

FFFF

A15E

Bot.F call input

DATA WRITE DATA WRITE

Spec mode mode Spec

Mode

A31E

A32E

input

XXE

XXXXE BBB

BBB BBB

release PROTECTION release PROTECTION

AAE

Data input

XXE

Address INC INC

00

Address DEC DEC

8

Address

XXXXE

Address re-input

BBB

INC Address INC

0

Address DEC

8

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FFFF

XXXXE

Address re-input

Address input

FFFF

XXXXE

FFFF FFFF

FFFF

FFFF

Address input PROTECTION

BBB release

Data input Error mode

TCD DISPLAY

ERROR LOG TABLE

DSP mode

A41E

A42E

ERROR LOG CLEAR

A43E

TCD CLEAR

A44E

DSP READ

A51E

Para. mode

A52E

NO LOAD SET

A61E

FULL LOAD SET

A62E

RTC MODE

A69E

TABLE INC

0

TABLE DEC

8

TABLE INC

0

TABLE DEC

8

TABLE

1st error

1

TABLE

last

9

error

Address

INC

0

Address

DEC

8

Address

input

POSI measuring mode

A85E

BBB

Date/time mode change

"

UP )

OS ROM VER

A01E

DPC ROM VER

A51E

FFFF

DOWN FFFF

A88E A90E

FFFF

XXE

UP OPR (SW OPR) OPR (

C

A86E

CRT Rx Reset

FFFF

FFFF

DOWN Dif'l trs val. chk LW11_CUT

FFFF

XXXXE

Data input Other mode

AAE XXE

Address re-input DSP SPEC WRITE

FFFF

VER/Year/Mon/Day Address input

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0320E