THERMAL PRINTER TUP400 Series TECHNICAL MANUAL [ FIFTH EDITION ]
NOTICE • All rights reserved. Reproduction of any part of this manual in any form whatsoever, without STAR’s express permission is forbidden. • The contents of this manual are subject to change without notice. • All efforts have been made to ensure the accuracy of the contents of this manual at the time of going to press. However, should any errors be detected, STAR would greatly appreciate being informed of them. • The above notwithstanding, STAR can assume no responsibility for any errors in this manual.
INTRODUCTION This manual was created as a reference for maintenance of the Thermal Printer TUP400 Series for personnel who are responsible for periodic inspections or troubleshooting of that equipment. This manual was written for maintenance personnel, and was not intended to be used by the general operator. This manual is organized into the following chapters.
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CHAPTER 1 SPECIFICATIONS AND OPERATION 1. General Specifications ....................................................................................... 3 2. External Appearance ........................................................................................ 10 3. DIP-Switch Settings .......................................................................................... 12 4. Print-Density Adjustment ................................................................................. 15 5.
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1. General Specifications Printing method Resolution Printable width Printing speeds Paper Width Thickness Roll diameters Interface MCBF Head longevity Cutter longevity Power supply Power consumption Operating environment Storage environment External Dimensions Weight Line thermal direct 8 dots/mm (H) × 8 dots/mm (V) 50 mm in Line Mode; 80 mm in Page Mode TUP400Z : Max. 80mm / sec TUP400 : Max. 50mm / sec 0 82.5 -1 mm(3.25 inches) General thermal paper 60 to 85 µm External 203 mm max.
Fig.
Fig.
19.2 203 ma x¿ 493 72.4 382 120 ° 45° View A (rear surface) 75 79 151 162 174.6 199 204 254 266 Unit : mm Fig.
4.8 164.2 73.6 6.1 203.6 350 89.2 145.78 10.25 19 2.8 8.25(PAPER WIDETH) 103 148 164.2 16 Unit : mm Fig.
Fig.
Fig.
2. External Appearance Arm Printer head Cutter Fig. 1-2-a Internal Configuration (TUP452) Arm Printer head Presenter Fig.
Arm Printer head Presenter Fig.
3. DIP-Switch Settings DIP switches are located on the interface board and they differ according to the type of interface. (1) Setting the DIP Switches Fig. 1-3 DIP-Switch Settings 1. Turn the power supply OFF. 2. Remove the screw holding the ROM cover in place. (The screw is located at the base of the paper-roll holder.) 3.
2. DIP-switch values (1) RS-232C interface a. Interface board Ver.1 This board has a single 8-bit DIP switch.The factory default settings are all ON.
(2) RS-422A interface This board had two DIP switches: one 8-bit switch and one 4-bit switch. DIP switch #1 (8 bits): Identical to the DIP switch on the RS-232C Ver.1. (Bit 1-7 and 1-8 are disabled.
4. Print-Density Adjustment Adjust the print density in accordance with the sensitivity of the paper being used. Variable Resistor Fig. 1-5 Print-Density Adjustment 1. The variable resistor is located to the left of the interface connector on the back side of the printer. 2. Use a phillips screw driver to rotate the variable resistor to adjust the print density. The variable resistor will rotate approximately 180°. Approx. 90° Approx.
5. Sensor Adjustment You must adjust the paper sensor for the paper quality and the black mark print. VR3 VR4 EPROM Main Logic Board Interface Board Fig. 1-6 Sensor Adjustment 1) Remove the screw on the underside of the paper-roll holder and remove the ROM cover. 2) Turn ON the power supply while holding down the push switch on the Near-end Sensor Board. Remove the push-switch within 3 seconds after the "HU" LED on the Near-end Sensor Board lights.
6. HEX Dump Mode/Test Print You can enter the HEX Dump Mode and run Test Prints by turning ON the power supply while pressing the RESUME switch. The HEX Dump mode prints the data sent from the host computer in HEX data format. 1) Turn ON the power supply while pressing the RESUME switch. 2) Release the RESUME switch using the following timing to set each mode.
7. Changing the Interface Board You can change the printer’s interface by replacing the interface board. Fig. 1-7 Changing the Interface Board 1. 2. 3. 4. Turn the power supply OFF. Remove the 2 Interface Board Screws. Remove the Interface Board. Insert the new Interface Board by pushing it along the guides. Push until the connector is completely inserted. 5. Attach the 2 screws to attach the Interface Board to the printer.
CHAPTER 2 THEORY OF OPERATION This chapter describes the operating principles of the circuitry and printer mechanism. 1. Block Diagram ................................................................................................... 21 2. Main Logic Board .............................................................................................. 23 2-1. Data I/O Circuitry .................................................................................................. 23 2-1-1. RS-232C Interface ...
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1. Block Diagram The following is the block diagram for this printer. Data (Host Computer) Interface Board RS-232C, RS-422A, Parallel Main Logic Board EEPROM Print Mechanism EPROM 128 k x 16 Bit (Ver. 1) 250 k x 16 Bit (Ver. 2) Head Driver Thermal Head PS-RAM 128 x 16 BitPS-RAM Motor Driver Paper Feed Motor S-RAM 8K x 8 BitS-RAM Cutter Driver Cutter Sensor Circuit Sensor Presenter Driver Presenter Gate Array (8) (16) (16) Near-end Sensor Board (8) (16) RESUME Switch Chinese Char.
(1) Main Logic Board The interface board relays data from the host computer to the main logic board. The main logic board’s CPU temporarily stores the data into local RAM. It then reads out the data, edits it according to the control program stored in the board’s ROM, and prints the results by issuing the appropriate drive signals to the printer mechanism. [Block Description] a. CPU: HD641300F, CMOS single-chip computer Controls overall printer operation. b.
2. 2-1. Main Logic Board Data I/O Circuitry The main logic board relays data back and forth to the host computer via the interface board. 2-1-1. RS-232C Interface CN3 IC10 CN1 CN9 Gate Array IC1 IC5 CPU D2O D2I B12 B12 DTR ACK R-CH D1O D1I B14 B14 R1I R1O A15 A15 R2I R2O B15 B15 TXD RXD CTS TXD0 RXD0 RXD1 HD151232FP RS-232C Interface Board Main Logic Board Fig.
2-1-2. RS-422A Interface CN3 IC1 RD (+) R2I + + RD (-) R2I - - CN1 CN9 IC10 Gate D2O A15 A15 Array ERROR CS (+) R1I + + CS (-) R1I - - RS (-) RS (+) ACK D1O B15 B15 D2EN A10 A10 D2I B12 B12 D2O IC5 D2O CPU D1EN SD (-) SD (+) RXD0 D1O D1I B14 B14 D1O TXD0 RXD1 MC34051 RS-422A Interface Board Main Logic Board Fig. 2-3 RS-422A Interface Data flow from host to printer passes from the RD terminal to the IC1 on the interface board and is input to the CPU.
2-1-3. Parallel Interface CN1 CN9 CN3 IC10 IC5 DATA 1 DATA 2 DARA 3 DATA 4 DATA 5 DARA 6 DATA 7 DATA 8 STROBE BUSY ACK A4 A4 B4 B4 A5 A5 B5 B5 A6 A6 B6 B6 A7 A7 B7 B7 A13 A13 A12 A12 B12 B12 CD0 CD1 CD2 CD3 CD4 CD5 CD6 CD7 CSTB BUSY ACK CPU ERROR SELECTED PAPER OUT A10 A10 A11 A11 B11 B11 ERROR SELECT POUT Gate Array LS05 IC1 Parallel Interface Board Main Logic Board Fig.
2-2. Editing and Printing 2-2-1. Editing The CPU reads data sequentially from RAM and edits it in accordance with program instructions stored in EPROM. The edited data undergoes parallel-to-serial conversion in the gate array, and is then output to the thermal head’s drive controller. 2-2-2. Thermal Head The thermal head contains 640 heat elements. Printing is carried out by switching these elements ON or OFF as required. (Note that Line Mode supports 600-dot printing only.
CLOCK SI LATCH t STROBE1 STROBE2 STROBE3 STROBE4 STROBE5 24V COMMON Fig.2-6 Timing Chart 2-2-3. Head Current Control Heat buildup in the head during operation can cause print quality to degrade. To maintain uniform printing quality, the printer varies the energizing time (time that STROBE remains LOW) in accordance with the head temperature. The thermal head’s surface temperature is calculated based on the resistance value of an attached thermistor.
2-3. Feed-Motor Drive Circuit This printer employs a paper feed motor and a stepping motor. The motor rotates through a certain angle each time it receives a pulse from the drive circuit. This printer employs a 4-phase stepping motor and controls the paper feed motor with a phase 1-2 excitation method. The following diagram illustrates the phase 1-2 excitation method. Diagram 2-8 shows the feedmotor drive circuit. ON 1 ON ON 2 ON 3 ON 4 Step 1 2 3 4 5 6 7 8 Forward Feed Reverse Feed Fig.
2-4. Power-On Reset Circuit Immediately following power-on the printer executes a power-on reset, initializing all circuit elements. The power-on reset serves as protection against operational errors. The power-on RESET signal is maintained for approximately 160ms. The reset circuit is illustrated below. +5V +5V IC10 +5V IC4 +5V IC5 : CPU VCC RESET CPU CD RES RESET Gate Array RESO + C2 GND RESET IC DD3 VCC Protection Circuit S-RAM IC1 Fig.
2-5. +5V Line Voltage Detector Circuit The voltage-detection IC detects momentary drops or unstable levels in the +5V line voltage. The following illustrates the equivalence circuit of the voltage detector IC (Fig. 2-9 IC4). VCC 1 SµA typ R1 5 - OUT - + R2 1.25V 3 GND 4 Cd Fig. 2-11 Equivalence Circuit for Voltage Detecting IC The following operation timing chart shows control is performed by the voltage detector IC output. If the +5V line voltage falls below 4.
3. 3-1. Printer Mechanism Thermal Head TSP400 series printers employ thermal line printing. The thermal head consists of a horizontal line of 640 heat elements. These elements print one line of dots at a time as the paper passes over the head. The head is fixed in position; only the paper moves. The printer prints a dot by heating the corresponding heat element. The heated element causes a chemical reaction in the coloring layer of the thermal paper, resulting in the formation of a visible dot.
3-3. Sensor (1) Paper-Out Sensor The paper-out sensor is located at the paper entry slit. The detector consists of a reflective photosensor. The photosensor’s phototransistor remains ON while paper is present. It goes OFF when paper runs out, generating output of a paper-out signal. (2) Black-Mark Sensor This detector senses black marks indicating print start positions. The detector is useful only with specially marked paper.
(4) Head-Up Detector This detector consists of a leaf switch indicating whether the head is closed (in contact with the platen) or open (separated from the platen). The leaf switch is closed when the head is closed; it opens when the head is opened. +5V R Detection Signal Leaf Switch GND Fig.
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CHAPTER 3 PARTS REPLACEMENT AND RELATED ADJUSTMENTS This chapter describes disassembly and reassembly procedures. Please take note of the following. 1. ALWAYS disconnect the power cord from the AC outlet before beginning a disassembly or reassembly procedure. 2. Except where otherwise stated, the reassembly procedure is the reverse of the disassembly procedure. 3. Coat screw heads with locking sealant after completion of reassembly. 4.
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1. Presenter (TUP482) (1) (2) Disconnect the power cord from the AC outlet. Remove: • Screws 4 pcs. [1] • Presenter Holder L and R [2] • Presenter [3] Refer to Step 4 to remove the connector which is connected to the main logic board from the Presenter. (1) (2) Disconnect the power cord from the AC outlet. Remove: • Screws 3 pcs. [1] • Presenter [2] Refer to Step 4 to remove the connector which is connected to the main logic board from the Presenter.
2. Cutter (TUP452 and TUP482) (2) Remove: • The presenter in Step 1. • Screws 5 pcs. [1] • Cutter Holder L and R [2] • Cutter [3] Refer to Step 4 to remove the connector which is connected to the main logic board from the Cutter. (2) Remove: • The presenter in Step 1. • Screw [1] • Presenter Cover [2] • Screws 2 pcs. [3] • Cutter [4] • Fastener [5] Refer to Step 4 to remove the connector which is connected to the main logic board from the Cutter.
3. Printer Mechanism (1) (2) Remove the power supply connector. Remove: • Screws 4 pcs. [1] • Connector [2] Cut the wire band in four places. [1] [2] • Printer Mechanism [3] Refer to Step 4 to remove the connector which is connected to the main logic board from the printer mechanims. [3] 4. Main Logic Board (1) (2) [1] Remove the power supply connector. Remove: • Four screws [1] • Wiring band • Connectors • Screws 4 pcs.
5. Print Head Unit (1) (2) [4] (3) Pull the pressure stay [1] forward to open the head frame unit [2]. Slide the head clamp [3] in the direction indicated by the arrow. Remove the print head unit [4]. Remove the head connector [5]. [2] Note :Be careful to avoid damaging the heat elements when installing the replacement unit. [5] [1] [3] 6. Feed Motor Assembly (1) [1] [2] – 40 – Remove: • Printer mechanism (See 3. above.) • Wiring band holding the lead wire. • Screws 2 pcs.
7. Sensor Unit Old Type (1) [4] [3] [1] Remove: • Printer mechanism (See 3. above.) • Two wire band screws holding the lead wire [1]. • Screws 2 pcs. [1] • Transmit sensor [2] • Screw 1 pc. [3] • Head-up sensor [4] Note: There are two types of transmit sensors. One is for the old type and the other is for the new type.
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CHAPTER 4 MAINTENANCE AND LUBRICATION This chapter explains printer maintenance and lubrication. 1. Maintenance ...................................................................................................... 45 1-1. Cleaning ................................................................................................................ 45 1-2. Checks ................................................................................................................... 45 2. Lubrication ................
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1. Maintenance Proper maintenance is necessary to maintain printer performance and forestall potential problems. Please carry out maintenance as described below. 1-1. Cleaning (1) Surface dirt Clear away dirt with a soft cloth. If necessary, apply a small quantity of alcohol to the cloth to improve cleaning power. NEVER use thinner, trichlene, or ketone solvents, as these can cause damage to plastic components.
2. Lubrication Proper lubrication is essential for maintaining the printer’s performance level and preventing breakdowns or other problems. 2-1. Lubricants Choice of lubrication can significantly affect the printer’s performance, longevity, and low-temperature characteristics. We recommend the following lubricant for the TUP400 series. Type Name Manufacturer Grease Molykote EM-30L Dow Corning 2-2.
[1] [8] B [7] [1] [6] [6] C C A D B A D [4] [2] [3] [5] Fig.
[9] Fig.
CHAPTER 5 PARTS LIST (1) (2) (3) (4) (5) (6) (7) 1. 2. 3. 4. 5. 6. HOW TO USE PARTS LIST DRWG. NO. This column shows the drawing number of the illustration. REVISED EDITION MARK This column shows a revision number. Part that have been added in the revised edition are indicated with "#" Part that have been abolished in the revised edition are indicated with "*" #1:First edition → Second edition *1:First edition → Second edition PARTS NO.
1. Printer Assembly 1-1. TUP412/452/482 1-1-1. Disassembly Drawing A.
B.
C.
1-1-2. Parts List Printer Assembly TUP412/452/482 DRWG.NO. REV. PARTS NO.
1-2. TUP492 1-2-1.
1-2-2. Parts List Printer Assembly TUP492 DRWG.NO. REV. PARTS NO.
2. Printer Mechanism 2-1. TMP412/452 2-1-1. Disassembly Drawing A.
B.
2-1-2. Parts List Printer Mechanism TMP412/452 DRWG.NO. REV. PARTS NO.
2-2. TMP492W-24N 2-2-1. Disassembly Drawing 13-14 13-10 13-6 15 13-7 13-13 13-5 13-8 13-12 13-13 13-4 13-3 13-12 13-9 13-7 13-11 13-10 B 13 13-14 19 13-12 13-6 19 14 16 13-9 13-2 16 C C 13-1 A 12 4 9 28 13-15 13-12 7 11 24 D 1-2 1-3 B 28 A 6 1 D 11 28 1-4 1-1 6 5 17 10 22 3 2 20 2-1 Note: Printer mechanism TMP492W-24N includes Presenter-Assembly. Please see "Presenter-Assembly PR242-24" on page 63.
2-2-2. Parts List Printer Mechanism TMP492W-24N DRWG.NO. REV. PARTS NO.
3. Presenter-Assembly 3-1. PR112-24 3-1-1.
3-1-2. Parts List Presenter-Assembly PR112-24 DRWG.NO. REV. PARTS NO. 1 37517000 2 37514010 2-1 33120210 2-2 *3 33101410 #3 33101411 2-3 32012010 2-4 30520510 2-5 04020017 2-6 02206002 3 37513010 3-1 04300781 4 37512010 5 37510010 5-1 32041020 5-2 01903064 6 33215010 7 32025010 8 *3 30045040 #3 30045041 9 30045011 10 04033001 11 04020010 12 00930609 13 00820304 14 #2 04991225 PARTS NAME DETECTOR BOARD UNIT SLIP GEAR UNIT SLIP WHEEL SLIP GEAR SLIP GEAR SLIP PLATE SPRING C111-080-0090 STOP RING SE5.
3-2. PR242-24 3-2-1.
3-2-2. Parts List Presenter-Assembly PR242-24 DRWG.NO. REV. PARTS NO.
4. Wiring Scheme of Printer 4-1.
4-2.
4-3.
– 68 – [R101] 220 MARK PE LABEL VCC 3 1 3 1 [VR1] 47K [VR2] 4.7K CN1 53014-0710 7 6 5 4 3 2 1 [R135] 220 2 2 VCC 1 2 3 4 5 5 8 VCC C9 33P 93C46 GND VCC IC8 C134 0.1U R25 10K VH DQ7 FN1A4P VCC ZD2 RD4.
VB – 69 – C100 33P C3 33P C5 33P R102 10K C12 33P C133 33P VB D8 D9 D10 D11 D12 D13 D14 D15 D8 D9 D10 D11 D12 D13 D14 D15 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 28 20 22 27 11 12 13 15 16 17 18 19 16 22 24 29 1 13 14 15 17 18 19 20 21 11 30 20 2 19 18 17 16 15 14 13 12 10 9 8 7 6 5 4 3 VPP VCC A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 CE2 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 IC1 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12
C – 70 – C105 33P × 9 3 1 R9 R6 R10 R8 R7 R5 R4 R12 R13 R14 R123 33 × 9 VCC 10K × 2 C103 C101 C107 C119 C104 C102 C106 C108 VCC 2 X1 CST9.83MT 3 FL3 TU02M C11 0.1U C118 0.1U R122 3.3K 2 1 C125 0.
– 71 – C136 (IC10) 5273-04A CN3 C138 (IC11) 1 2 3 4 C116 (IC6) C132 (IC9) + C1 1000U 35V C112 (IC7) 1 2 3 2 RC VI 3 C124 (IC5) 4 G N D 1 0 9 VR VO 8 6 4 A 2 4 D 2 VCC C115 (IC4) A 1 A 0 5 3 2 IC2 HLD051R2M D 1 D 0 R117 10K 8 D 4 6 A 4 7 A 5 7 D 5 8 A 6 6 D 6 2 3 D 9 3 A 1 9 4 D 1 0 4 A 1 8 3 1 POWER BLOCK 2 D 8 ZD1 RD7.5EB1 1 9 A 7 1 5 BUS BLOCK C117 33P D 7 VCC 0.
5-2. Parts List Main Logic Board (TUP400 Ver.1) DRWG.NO. REV. PARTS NO.
Main Logic Board (TUP400 Ver.1) DRWG.NO. REV. PARTS NO.
Main Logic Board (TUP400 Ver.1) DRWG.NO. REV. PARTS NO.
6. 6-1. Main-Logic Board (TUP400 Ver. 2 and TUP400Z) Circuit Diagram Main Logic Board TUP400 Ver.
Main Logic Board TUP400 Ver.
Main Logic Board TUP400 Ver.
Main Logic Board TUP400 Ver.
Main Logic Board TUP400 Ver.
6-2.
6-3. Parts List Main Logic Board (TUP400 Ver.2 and TUP400Z) DRWG.NO. REV. PARTS NO.
Main Logic Board (TUP400 Ver.2 and TUP400Z) DRWG.NO. REV. PARTS NO.
Main Logic Board (TUP400 Ver.2 and TUP400Z) DRWG.NO. REV. PARTS NO.
F-GND MOUNT-HOLE GND GND TXD RXD CTS DTR RCH MP-DTR MP-TXD RTS FAULT – 84 – V- TR4 A1179 PSW PEXT 1 PEXT 2 VEXT VEXT F-GND MOUNT-HOLE 52065-6645 CN2 V+ TR2 C3875 DBLD-J255AF-21L91 CN3 6 2 5 3 4 1 0 R5 33K L9 1 0 L1 R2 3.3K L4 L8 L5 7 13 B-01R × 9 2 3 5 20 11 16 15 4 14 VCC R3 1K L2 L6 L7 L3 R4 3.3K R1 10K TR3 FN1A4P VCC DCB010 ×2 D1 D2 C6 1U 50V + + VR1 EVN-D2A-10K TR5 FA1A4P TR1 FA1A4P C4 0.
7-2. Parts List RS-232C Interface Board (Ver. 1) DRWG.NO. REV. PARTS NO. C1-2 05051057 C3 05002213 C4 05751045 C5-6 05051057 R1 06751031 R2 06753324 R3 06751021 R4 06753324 R5 06753334 VR1 06451033 TR1 07603016 TR2 07238754 TR3 07603017 TR4 07011793 TR5 07603016 D1-2 08000047 IC1 *1 08200155 *3 08200157 #3 08200201 DSW1 *2 09090034 #2 09090068 CN1 09100611 CN2 09100421 CN3 09100483 L1-9 09990705 PARTS NAME CHEM. CAPA. 1UF 50V CHEM. CAPA. 220UF 6.3V CERA. CAPA. CHIP 0.1UF 50V CHEM. CAPA.
8. RS-232C Interface Board (Ver. 2) 8-1.
8-2. Component Layout 8-3. Parts List RS-232C Interface Board (Ver.2) DRWG.NO. REV. PARTS NO.
RS-232C Interface Board (Ver.2) DRWG.NO. REV. PARTS NO.
9. 9-1.
9-2. Component Layout 9-3. Parts List RS-422A International Board DRWG.NO. REV. PARTS NO. C1 05751045 C2 05002213 R1-2 06751014 R3-4 06751031 VR1 06451033 TR1 07603016 IC1 08200127 DSW1 *2 09090034 #2 09090068 DSW2 *2 09090033 #2 09090069 CN1 09100611 CN2 09100421 CN3 09100483 L1-10 09990705 PARTS NAME CERA. CAPA. CHIP 0.1UF 50V CHEM. CAPA. 220UF 6.
– 91 – F-GND MOUNT-HOLE GND EXT-GND RETURN-GND VCC CPL SLCT-IN PE SLCT ERROR ACK BUSY STROBE DATA1 DATA2 DATA3 DATA4 DATA5 DATA6 DATA7 DATA8 INIT 52065-6645 PSW PEXT 1 PEXT 2 VEXT VEXT F-GND MOUNT-HOLE 57RE-40360-BD29 CN2 CN3 6 2 5 3 4 1 0 17 0 16 33 19 18 34 36 12 13 32 10 11 1 2 3 4 5 6 7 8 9 31 RA1 4.7K × 8 -30 L1 B-01R C1 0.1U VCC 2 3 4 5 6 7 8 9 1 VCC RA2 1.8K × 6 VCC C4 0.
10-2. Parts List Parallel Interface Board (Ver. 1) DRWG.NO. REV. PARTS NO. C1 05751045 C2 05002213 C3 05751025 C4 05751045 R1 06751021 R2-9 06754721 R10 06751031 R11 06751014 RA1 06584729 RA2 06581824 VR1 06451033 TR1 07603016 IC1 *3 08210142 #3 08210126 CN1 09100611 CN2 09100421 CN3 09100482 L1 09990705 PARTS NAME CERA. CAPA. CHIP 0.1UF 50V CHEM. CAPA. 220UF 6.3V CERA. CAPA. CHIP 1000PF 50V CERA. CAPA. CHIP 0.1UF 50V CHIP RESISTOR 1 K-OHM 1/10W CHIP RESISTOR 4.
11. Parallel Interface Board (Ver. 2) 11-1.
11-2. Component Layout 11-3. Parts List Parallel Interface Board (Ver.2) DRWG.NO. REV. PARTS NO. BC1-2 05751045 C1 05751025 C2-3 C4 05051057 C5 05751045 R1-8 06753304 R9 06751021 R10 06751014 R11 06751031 R12 06751021 R13 06751031 R14 06751021 R15 06754721 VR1 06451033 RA1 RA2 06581826 RA3 06581039 DQ1 07603016 IC1-2 08210126 DSW1 *2 09090033 #2 09090069 CN1 09100611 CN2 09100421 CN3 09100482 L1 09990738 L2 09990705 L3-4 09990738 PARTS NAME CERA. CAPA. CHIP 0.1UF 50V CERA. CAPA.
12. Near-End Sensor Board 12-1. Circuit Diagram +5V +5V (CN2) 5483-04A R7 4.7K NEB 4 NEB PS6002 C2 0.022 R11 330 GND 3 NEA 2 +5V 1 TR2 C1740 +5V R13 330 R9 4.7K +5V +5V R6 4.7K CN1 53014-0910 ER 7 PO 6 OL 5 R10 330 R12 330 R8 4.7K +5V R4 8 HU C1 0.022 TR1 C1740 NEB 3 NEA 2 +5V 9 NEA PS6002 LED4 R3 +5V LED2 R2 LED3 (R5) (LED5) (R1) (LED1) GND 4 LED2~4 : LT-1D11A (GL3HS8) 330 × 5 SW-FEED 1 SW SKHHAL 12-2. Parts List DRWG.NO. REV. PARTS NO.
13. Paper-End Sensor Board 13-1. Circuit Diagram CN1 VCC MARK PE GND 4 3 2 1 PS2 PS60002 (PE) PS1 PS60002 (MARK) (51015-0400) R1 220 R2 220 13-2. Parts List DRWG.NO. REV. PARTS NO.
14. Transit Board 14-1. Circuit Diagram CN4 CN1 5483-06A FEED MOTOR φ2 6 8 φ4 φ3 5 7 4 6 φ1 3 5 CMN 2 4 CMN 1 3 CN2 5483-02A HEAD-UP DETECTOR SW 2 2 GND 1 1 CN3 53014-0710 PAPER SENSOR R1 4.7K CN5 VLED 7 GND 6 6 LABEL 5 5 7 +5V 4 4 MARK 3 3 PE 2 2 GND 1 1 14-2. Parts List DRWG.NO. REV. PARTS NO. R1 06054725 CN1 09100267 CN2 09100270 CN3 09100370 PARTS NAME RD RESISTOR 4.
15. Presenter Sensor Board 15-1. Circuit Diagram 51004-0500 +5V PR-sig S-GND 1 4 5 PS1 PS6002 R3 3.3K TR1 C1740 C1 223 R2 560 R1 12K SENSOR BOARD 2 M PRESENTER DC MOTOR 3 15-2. Parts List DRWG.NO. REV. PARTS NO. C1 05532234 R1 06051235 R2 06055614 R3 06053324 TR1 07227853 PS1 08300082 PARTS NAME CAPACITOR 0.022UF 25V RD RESISTOR 12 K-OHM 1/6W RD RESISTOR 560 OHM 1/6W RD RESISTOR 3.
ELECTRONIC PRODUCTS DIVISION STAR MICRONICS CO., LTD. 536 Nanatsushinya, Shimizu, Shizuoka, 424-0066 Japan Tel : 0543-47-0112 Fax: 0543-48-5013 OVERSEAS SUBSIDIARY COMPANIES STAR MICRONICS AMERICA, INC. 1150 King Georges Post Road, Edison, NJ 08837-3729 U.S.A. Tel : 732-623-5555 Fax: 732-623-5590 http://www.starmicronics.com STAR MICRONICS U.K. LTD. Star House, Peregrine Business Park, Gomm Road, High Wycombe, Bucks, HP13 7DL, U.K. Tel : 01494-471111 Fax: 01494-473333 http://www.starmicronics.co.
