Oki 3320 manual

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Table of contents for the manual

  • Page 1

    All specifications are subject to change without notice. MICROLINE 3320/3321 PRINTER Maintenance Manual ¡[...]

  • Page 2

    iii PREF ACE This maintenance manual describes how to maintain the Microline 3320/3321 printer in the field. This manual is for customer engineers. For further information, refer to the Users Manual for handling or operating the equipment.[...]

  • Page 3

    i T ABLE OF CONTENTS 1. CONFIGURATION 1.1 Standard Printer Configuration 1.2 Options 2. THEORY OF OPERATION 2.1 Electrical Operation 2.1.1 Summary 2.1.2 Microprocessor and the Peripheral Circuit 2.1.3 Initialization 2.1.4 Parallel Interface Control 2.1.5 Print Control 2.1.6 SP/LF Motor Control 2.1.7 Operation Panel 2.1.8 Alarm Circuit 2.1.9 Power S[...]

  • Page 4

    ii 3.3.9 Carriage Cable 3.3.10 Backup Roller Holder Assy 3.3.11 Platen Assy 3.3.12 Driver Board (SDDV) 3.3.13 LF Motor 3.3.14 Operation Panel PCB (LEOP) 3.3.15 Control/Power Supply Board (SDCT) 3.3.16 Transformer Assy 3.3.17 Change Lever and Gears 3.3.18 Carriage Shaft 3.3.19 Paper Pan 3.3.20 Rear Tractor Assy 3.3.21 Rear Pressure Assy 3.3.22 Switc[...]

  • Page 5

    1. CONFIGURA TION[...]

  • Page 6

    1 – 1 1. CONFIGURA TION 1.1. Standard Printer Configuration This printer consists of the following assemblies: Figure 1-1 Configuration Sheet guide assy Platen knob Access cover assy Upper cover T ransformer assy Pull-up roller assy Operation panel assy Main chassis assy Driver board Control/Power supply assy[...]

  • Page 7

    1 – 2 1.2 Options (1) Cut sheet feeder unit (CSF) (Narrow and wide versions available) Dual-bin CSF Single-bin CSF Attachment assy (2) Pull-tractor assy[...]

  • Page 8

    1 – 3 (3) Bottom push tractor unit (5) Serial I/F • RS232C • RS422A • Current Loop (4) Roll paper stand (Narrow only)[...]

  • Page 9

    2. THEOR Y OF OPERA TION[...]

  • Page 10

    2 – 1 2. THEOR Y OF OPERA TION 2.1 Electrical Operation The electrical operation of the printer circuit is described in this section. 2.1.1 Summary Fig. 2-1 shows the block diagram of the printer. The control board is made up of the microprocessors, peripheral circuits, drive circuits, sensors and interface connectors. The power to the control bo[...]

  • Page 11

    2 – 2 Figure 2-1 12.288 MHz 4 Vcc-Level TSD AUTO-LF AI INT Release-SW Bottom-Sensor PE-SENSOR OPERATION PANEL Serial Rectifier circuit 40 volt 8 volt 5 volt Transformer Reset circuit Print-IPT I/F-IPT EEPROM 1 Kbits 67 x 640 ADDRESS ROM AD-BUS DRAM 4*64 Kbit*2 LSI RESET 5VD Vcc-Level Fuse 40 V LF driver SP driver SP alarm HD-Alarm Head driver 2P [...]

  • Page 12

    2 – 3 (2) Program ROM This is a 256 × 16 bits (4M bit) [MAX] EPROM with the control program for the printer stored. The MPU executes instructions under this program. The program ROM is assigned to the program memory area of the MPU and is fetched by the PSEN signal of the MPU. The following shows the operation of the memory access. MPU CLOCK A0~[...]

  • Page 13

    2 – 4 (3) RAM (MSM51C464A-80RS) The RAM is CMOS dynamic RAM with (64K × 4-bit) × 2 configuration, and used as buffers (such as receiving buffer, printing buffer, DLL buffer and working buffer). The following shows the examples of the memory access operation. A0~A7 RAM 1 (Q3) MPU P03 CS1 RD OE D4~D7 D0~D3 RAS CAS[...]

  • Page 14

    2 – 5 (4) EEPROM The EEPROM is a CMOS serial I/O type memory which is capable of electrically erasing and writing 1,024 bits. The EEPROM contains menu data. The following shows the memory access operation. MPU EEPROM EEDIN-P EECS-P EEDOUT-P EECLK-P P24 P27 P25 P26 D1 CS DO SK Ready Bus twp D0 D15 A0 A5 1 1 0 Start code Operation code Address Data[...]

  • Page 15

    2 – 6 (5) LSI This LSI detects and controls the SP motor speeds by monitoring the two phase sensor signals obtained from the DC motors and modifying the excitation phases as appropriate. This LSI is connected in multiplex to the MPU. P07 MPU A/D bus LSI RD WRL P01 ALE RDN WRL LSIC Clockout* A0~A19 LSICS ALE D0~D15 (Read) RD D0~D15 (Write) WRL Add[...]

  • Page 16

    2 – 7 2.1.3 Initialization This printer is initialized when the power is turned on or when the I-PRIME-N signal is input from the host side via the parallel interface. For the initialize operation, the RST-N signal is first output from the reset circuit to reset the MPUs and LSIs. When resetting ends, the program starts and the LSIs are reset by [...]

  • Page 17

    2 – 8 2.1.4 Parallel Interface Control The parallel data input from the host to the interfaced LSI is latched to its internal register at the falling edge of the STROBE-N signal. At the same time, the LSI sets the BUSY signal to the high level to inform the host that the data is being processed, and outputs the RXD signal to inform the MPU of dat[...]

  • Page 18

    2 – 9 2.1.5 Print Control Print data is transmitted as parallel data (HEAD1~HEAD9) from LSI to print head. LSI generates print timing and drive time. HEAD DRIVE TIMING CHART DT1 DT2 HEAD DRIVE CURRENT Print Data MPU LSI DRIVER HEAD1-N~ HEAD9-N Print Data Print Head Control/Power Supply Board A/D bus HEAD1~ HEAD9?[...]

  • Page 19

    2 – 10 (d) Simultaneous Compensation of the number of impact pins The MPU is provided with the compensation table for each pin to make necessary compensation. Print Compensation Control The print compensation can be made as shown below: (a) Voltage compensation (See 2.1.8 “Alarm Circuit.”) (b) Temperature compensation (See 2.1.8 “Alarm Circ[...]

  • Page 20

    2 – 11 Head Gap Range 1 2 3 4 5 Print speed 100% 95% 85% 85% 80% Drive time Short Long (e) Print mode compensation According to the thickness of the printing medium, the print mode is compensated as shown in the table below: (Drive time lengthens at each step.)[...]

  • Page 21

    2 – 12 2.1.6 SP/LF Motor Control (1) Space motor control The SP motor driver (HA13412) drives the three-phase brushless motor based on the phase signal (SPU, SPV and SPW) and the speed instruction data from the LSI. The MPU can identify the current speed of the space motor by measuring through the LSI the pulse length of the output (øA, øB) of [...]

  • Page 22

    2 – 13 (2) Encoder disk In the operation of the spacing motor, the PHASE-A and PHASE-B signals are generated when the encoder disk interrupts the photo sensor. The LSI divides these edge pulse signals in accordance with the print pitch, and sends the IPT signal to provide dot-on timing and carriage position detection timing. 1/720" 1/120&quo[...]

  • Page 23

    2 – 14 (3) LF motor control The LF motor driver (MTD2005F) drives the LF motor in two-phase or 1-2 phase bipolar, based on the phase changeover data and the output current data from the LSI. The data from the LSI is processed by a specific register contained in the LF motor driver to measure the overdrive time and to change the phase. [FORWARD] P[...]

  • Page 24

    2 – 15 2.1.7 Operation Panel The clock synchronization OPCLK of LSI is used to input the switch data and output the LED data through the operation panel control LSI (IC1: BU5148S). LSI OPTXD OPCLK OPCLR-N OPRXD 77 78 80 OPTD OPCK NPA2 OPRD Command and Data  latch LED driver Switch controller +[...]

  • Page 25

    2 – 16 Note: From the illustration above, you can see that the command and the command response are output at the same time. This is because the bit 0 to bit 3 of OPRXD are fixed so that the response can be returned before decoding the command. OPTXD OPCLK OPRXD OPCLR-N 1 2 3 2 3 1 6 7 5 or 8 bit0 bit7[...]

  • Page 26

    2 – 17 2.1.8 Alarm Circuit (1) Head drive time alarm circuit This circuit monitors the drive time using the HDALM signal interlocked with the overdrive signal of each drive circuit. If the drive time of any drive circuit exceeds the specified time, the drive fault alarm circuit sends an ALARM-N signal to turn on the SCR (SO). This cause the secon[...]

  • Page 27

    2 – 18 Mode Speed Pass Direction 1 100% 1 Bi 2 85% 1 Bi 3 70% 1 Bi 4 55% 1 Bi 5 40% 1 Bi 6 30% 1 Bi 1.5 Sec Stop (7) Stop • When the temperature is between α° C and 119 ° C, the mode switches sequentially to higher level. When the temperature falls below ß ° C, the mode switches to lower level. • When the temperature exceeds 119 ° C, pr[...]

  • Page 28

    2 – 19 2.1.9 Power Supply Circuit This power supply circuit supplies the +5VDC, +8VDC, +40VDC, 10VAC. SW Fuse Noise filter circuit Trans- former Control Board Rectifier Rectifier Regulation Circuit +40V +8V +5V AC10V The uses of output voltages and signals are described below. Voltage/signal Use +5V Logic IC/LED drive voltage +8V Serial interface[...]

  • Page 29

    2 – 20 2.2 Mechanical Operation 2.2.1 Printhead Mechanism and Operation (See Figure 2-2.) The printhead is a spring charged 9-pin driving head using a permanent magnet. It is attached to the carriage, which moves in parallel with the platen. Electrically, this unit is connected to the control circuits through the control board. Figure 2-2 Arrange[...]

  • Page 30

    2 – 21 (2) Operation of printhead (See Figure 2-3.) (a) When the printhead is idle, the armature is attracted by a permanent magnet and the spring fixing the armature is compressed. The print wires fixed to each armature are thus concealed under the wire guide. (b) When a signal for a character to be printed is detected, a current flows through t[...]

  • Page 31

    2 – 22 (2) When not printing (1) When printing Paper Print wire Platen Paper Print wire Armature assembly Thermistor Wire guide Yoke Magnet assembly Spacer Paper Figure 2-3 Printhead[...]

  • Page 32

    2 – 23 2.2.2 Spacing Operation (See Figure 2-4.) The spacing mechanism consists of a carriage shaft mounted in parallel with the platen, and a carriage frame that moves along the shaft. It is driven by a DC motor mounted on the bottom of the carriage frame. Items included in the spacing mechanism are as follows: (a) DC motor with motor gear (b) C[...]

  • Page 33

    2 – 24 Figure 2-4 Print Head Carriage shaft Space rack Encoder sensor Encoder disk Carriage frame Motor gear Slider Guide rail[...]

  • Page 34

    2 – 25 2.2.3 Head Gap Adjusting (See Figure 2-5.) The head gap adjusting lever moves back and forth to tilt the carriage frame, altering the gap between the printhead and the platen. The adjusting screw, which is connected to the adjusting gear rotates when the adjusting lever is moved creating a fine gap adjustment. If the adjusting gear is push[...]

  • Page 35

    2 – 26 Figure 2-5 Platen Range Adjusting lever Idler gear Adjusting gear Carriage shaft Printhead Adjusting screw Adjusting cam Adjusting screw C.C.W. Printhead Narrows Platen Guide rail Widens C.W. 1 2 3 4 Range from 5 to 1 Range from 1 to 5 5[...]

  • Page 36

    2 – 27 2.2.4 Ribbon Drive (See Figure 2-6.) The ribbon driver mechanism moves the ribbon in synchronization with the space motor operation. The ribbon drive mechanism consist of the following items: (a) Ribbon drive gear assembly (b) Ribbon gear (space motor) (c) Ribbon cartridge (1) Ribbon cartridge An endless ribbon with a single direction feed[...]

  • Page 37

    2 – 28 Ribbon cartridge Drive gear Ink tank Figure 2-6[...]

  • Page 38

    2 – 29 2.2.5 Paper Feed Operation Feeding of the paper is performed by turning the platen and the pin tractor, which is driven by the LF pulse motor. Item of the paper feed mechanism are as follows: (a) Pulse motor with gears (b) Decelerating gear (c) Platen (d) Tractor feed unit (e) Pressure roller[...]

  • Page 39

    2 – 30 (1) Cut sheet and continuous sheet switching mechanism (See Figure 2-8.) Three different paper paths can be selected and set by the change lever. (a) TOP (for cut sheet) When the cut sheet is used in the manual mode or fed by the CSF (option), set the change lever at the position marked TOP. [Operation] The driving force of the platen gear[...]

  • Page 40

    2 – 31 (c) BOTTOM (Continuous sheet from bottom feeder) (option) When the change lever is set in the BOTTOM position, the rotation of the platen is transmitted to the drive gear of the bottom tractor feed unit through the idle gear to feed the sheet which has been set in the bottom tractor feed. At the same time, the switch lever turns on the bot[...]

  • Page 41

    2 – 32 Control Power supply Assy Release shaft Change arm Change lever Change gear shaft Figure 2-8 TOP Platen REAR BOTTOM Change lever Tractor gear Change gear Reset spring Platen gear (R) Idle gear (Bottom tractor unit) Rear switch Switch lever Bottom switch[...]

  • Page 42

    2 – 33 (2) Cut-sheet feeder operation (See Figure 2-9.) The pulse motor used for the paper feed mechanism is mounted on the left of the frame, and the rotation of the motor is transmitted through decelerating gears (LF idle gear, platen gear) to the platen. When using cut-sheet paper, the change lever must be in the TOP position to grab the paper[...]

  • Page 43

    2 – 34 (3) Continuous paper feed operation (Rear) (See Figure 2-10.) The force transmitted to the platen, rotates the tractor gear through platen gear, the idler gear and the change gear. The rotation of the tractor gear makes the pin tractor belt rotate through a sheet feeder shaft, feeding the continuous paper. Paper Idle gear Platen gear Tract[...]

  • Page 44

    2 – 35 Figure 2-11 Drive gear Pull tractor Idle gear Push tractor Platen gear Platen (4) Push and pull tractor mechanism (Option) (See Figure 2-11). This mechanism consist of an optional pull tractor and a standard push tractor mechanism. This mechanism can perform forward and reverse feed by setting continuous sheets to the push tractor and pull[...]

  • Page 45

    2 – 36 (5) Pull tractor mechanism (option) (See Figure 2-12.) Bottom feed of continuous sheets is possible only when an optional pull tractor unit is installed. The rotation of the platen is transmitted to the idle gear of the pull tractor unit through the platen gear at the left end of the platen. The rotation of the idle gear is transmitted to [...]

  • Page 46

    2 – 37 (6) Bottom push feed operation (Option) (See Figure 2-13.) The bottom push feed of the continuous sheet is possible only when the bottom tractor feed unit is installed. When the platen rotates, the rotational force of the platen is transmitted through the tractor idle gear and the tractor change gear to the tractor drive gear of the bottom[...]

  • Page 47

    2 – 38 (7) Paper clamp mechanism (See Figure 2-14.) When setting the change lever to the BOTTOM , TOP or REAR position, the operation of the front release gear arm changes according to the position of the release cam. And at the same time, the position of the cam installed to the front release gear shaft changes, and the open and close of the pre[...]

  • Page 48

    2 – 39 Figure 2-14 Change lever Release cam Platen Front release gear arm TOP BOTTOM REAR[...]

  • Page 49

    2 – 40 2.2.6 Paper Detection Mechanism (See Figure 2-15.) (1) Cut sheet detection When the cut sheet is inserted, the point A is pushed backward and the paper near end lever B rotates counter clockwise (CCW). At this time, the rear sensor lever rotates counterclockwise (CCW), the rear sensor lever and pulls out of the rear and top paper end senso[...]

  • Page 50

    2 – 41 Paper end sensor Sensor lever Shaded portion A B Paper end lever Bottom paper end lever Figure 2-15[...]

  • Page 51

    2 – 42 (4) Top line print mechanism (See Figure 2-16.) The front edge of the sheet is protected by the ribbon protector so that it can stop at a position just near to the print head (0 tear off position) to start printing at the front end of the sheet, without causing the sheet to crumple or curl up. The printing starts at the front end of the sh[...]

  • Page 52

    2 – 43 Platen Figure 2-16 Ribbon protector Printhead Carriage frame assembly[...]

  • Page 53

    2 – 44 Time out Time selected on the menu Sheet setting PE Detection timer LF action REAR BOTTOM TOP BOTTOM REAR TOP SW1 SW2 Figure 2-17 2.2.7 Automatic Sheet Feed This function is used to feed in the sheet automatically up to the print start position when the cut sheet or the continuous sheet is used. [Operational procedure] (1) When using the c[...]

  • Page 54

    2 – 45 (2) When using the continouos paper 1) Set the change lever either to the rear side or the bottom side position. (See Figure 2-17.) 2) Set a sheet of paper either to the push tractor or the bottom tractor. 3) Press the “FF/LOAD” switch. 4) The LF motor starts its operation to feed the paper up to the print start position. 5) The paper [...]

  • Page 55

    2 – 46 2.2.8 Paper Park Function (Continuous paper) Continuous sheets which have been inserted can be reversed automatically by using the “PARK” button on the operation panel. 1) Press the “PARK” button on the operation panel. 2) Reverse LF is started and paper is fed in reverse until paper end occurs or 19 inches maximum have been fed. 3[...]

  • Page 56

    3. ASSEMBL Y/DISASSEMBL Y[...]

  • Page 57

    3 – 1 AC input plug AC receptacle AC cable Interface cable 3. ASSEMBL Y/DISASSEMBL Y This section explains the procedures for removing and installing various assemblies and units in the field. Description is mainly limited to the removal procedure; installation should basically be performed in the reverse sequence of the removal procedure. 3.1 Pr[...]

  • Page 58

    3 – 2 3.2 Service Tools Table 3.1 lists the tools necessary for replacing printed circuit boards and parts of units in the field. Table 3.1 Service tools 1 No. 1-100 Phillips 1 Screws screwdriver 2.6 mm 2 No. 2-200 Phillips 1 Screws screwdriver 3-5 mm 3 No. 3-100 1 screwdriver 4 Spring hook 1 5 J-YX4025–83335-3 1 Head gap adjustment 6 Volt/ohmm[...]

  • Page 59

    3 – 3 Control/Power supply board Upper cover assy Transformer assy Operation panel board Printhead Printer unit Driver board 3.3 Disassembly/Reassembly Procedure This section explains the assembly replacement procedures according to the following disassembly system. [Parts Layout] Figure 3-1 Printer unit[...]

  • Page 60

    3 – 4 [How to Change Parts] This section explains how to change parts and assemblies appearing in the disassembly diagram below. Printer unit 3.3.1 Printhead 3.3.2 Ribbon protector 3.3.3 Pull-up roller assy 3.3.4 Upper cover, access cover and sheet guide 3.3.5 Gear case assy 3.3.6 PC connector 3.3.7 Space motor and guide roll[...]

  • Page 61

    3 – 5 3.3.1 Printhead (1) Open the access over. (2) Pull up and rotate the head clamp 1 to unclamp the printhead 2 as shown fig. 3.3.1. (3) Disconnect the printhead 2 from PC connector 3 . (4) To install, follow the removal steps in the reverse order. Notes on installation: (1) Insert the printhead 2 into the PC connector 3 while pushing it again[...]

  • Page 62

    3 – 6 3.3.2 Ribbon Protector (1) Remove the printhead (see 3.3.1). (2) Open the pull-up roller cover 1 . (3) Raise and remove the ribbon protector 2 . (4) To install, follow the removal steps in the reverse order. 1 2[...]

  • Page 63

    3 – 7 3.3.3 Pull-up Roller Assy (1) Open the access cover 1 . (2) Lift up the sheet guide Assy 4 to remove. (3) Tilting the pull-up roller Assy 2 toward the front, remove from the shaft of platen Assy 3 . (4) To install, follow the removal steps in the reverse order. Note: Remove the sheet guide Assy 4 before installing or removing the pull-up ro[...]

  • Page 64

    3 – 8 1 3 4 5 2 A 3.3.4 Upper Cover Assy, Access Cover Assy and Sheet Guide Assy (1) Pull off the platen knob 1 . (2) Turn the change lever 2 toward the bottom position. (3) Insert a flat-blade screwdriver into grooves (5 places) (4 places for narrow type) of frame and twist to disengage claws of upper cover 3 . (4) Raise the front side of upper [...]

  • Page 65

    3 – 9 3.3.5 Gear Case Assy (1) Remove the printhead (see 3.31). (2) Remove the upper cover (see 3.3.4 (1) – (5)). (3) Move the carriage Assy to right hand side, remove two screws 1 , then the space motor 2 . (4) Disconnect a carriage cable. (5) Disengage claws (4 places). Using a flat-blade screwdriver, push to widen the claw for easy disengage[...]

  • Page 66

    3 – 10 3.3.6 PC Connector (1) Remove the printhead (see 3.3.1). (2) Remove the upper cover (see 3.3.4 (1) – (5)). (3) Remove the gear case Assy (see 3.3.5). (4) Remove the PC connector 1 from the space motor Assy 2 . (5) To install, follow the removal steps in the reverse order. Note on installation: (1) Do not touch the space motor 2 or termin[...]

  • Page 67

    3 – 11 D 3.3.7 Space Motor, Guide Roller Assy (1) Remove the printhead (see 3.3.1). (2) Remove the upper cover (see 3.3.4 (1) – (5)). (3) Remove the gear case Assy (see 3.3.5). (4) Remove the PC connector (see 3.3.6). (5) Remove screw 2 , then the guide roller Assy 3 from the space motor 1 . (6) To install, follow the removal steps in the rever[...]

  • Page 68

    3 – 12 3.3.8 Space Rack (1) Remove the printhead (see 3.3.1). (2) Remove the upper cover (see 3.3.4 (1) – (5)). (3) Remove the gear case Assy (see 3.3.5). (4) Remove the space motor (see 3.3.7). (5) Remove the spring 1 . (6) Disengage the claw on left side of space rack 2 from the frame, and remove the space rack 2 in upper direction. (7) To in[...]

  • Page 69

    3 – 13 3.3.9 Carriage Cable (1) Remove the printhead (see 3.3.1). (2) Remove the upper cover (see 3.3.4 (1) – (5)). (3) Remove the gear case Assy (see 3.3.5). (4) Remove the space motor (see 3.3.7). (5) Remove the space rack (3.3.8). (6) Remove two screws 1 , release the driver board 2 and PCB sheet 9 by lifting clamp 8 , and disconnect cable f[...]

  • Page 70

    3 – 14 3.3.10 Backup Roller Holder Assy (1) Remove the printhead (see 3.3.1), (2) Remove the upper cover (see 3.3.4 (1) – (5)). (3) Remove the gear case Assy (see 3.3.5). (4) Remove the space motor (see 3.3.7). (5) Remove the backup roller spring 2 . Disengage claws (2 places) of roller holder from the carriage frame 1 , and remove the backup r[...]

  • Page 71

    3 – 15 3.3.11 Platen Assy (1) Remove the printhead (see 3.3.1). (2) Remove the ribbon protector (see 3.3.2). (3) Remove the pull-up roller Assy (see 3.3.3). (4) Remove the upper cover (see 3.3.1 (1) – (5)). (5) Turn the change lever 1 to the bottom position. (6) Push in the lock levers 2 on both sides to unlock from the frame, then rotate them [...]

  • Page 72

    3 – 16 3.3.12 Driver Board (SDDV) (1) Remove the upper cover (see 3.3.4 (1) – (5)). (2) Remove two screws 1 , and release the driver board 2 and PCB sheet 5 by lifting clamp 4 . (3) Disconnect all cables from driver board 2 . (4) To install, follow the removal steps in the reverse order. Note on installation: (1) Insert one sensor lever 3 betwe[...]

  • Page 73

    3 – 17 3.3.13 LF Motor (1) Remove the printhead (see 3.3.1). (2) Remove the ribbon protector (see 3.3.2). (3) Remove the pull-up roller Assy (see 3.3.3). (4) Remove the upper cover (see 3.3.4 (1) – (5)). (5) Remove the platen Assy (see 3.3.11). (6) Remove the driver board (see 3.3.12). (7) Remove the left FG plate 1 . (8) Release the lock A to [...]

  • Page 74

    3 – 18 3.3.14 Operation Panel PCB (LEOP) (1) Remove the upper cover (see 3.3.4 (1) – (5)). (2) Disconnect the cable 1 from connector 3 of Driver board 2 . (3) Disengage claws on both sides from the frame, and remove the operation panel 4 . (4) Open claws (8 places) and remove the operation panel PCB 5 from the operation panel 4 . (5) To install[...]

  • Page 75

    3 – 19 3.3.15 Control/Power Supply Board (SDCT) (1) Remove the upper cover (see 3.3.4 (1) – (5)). (2) Disconnect two flexible cable 3 from the connector 2 the Control/Power Supply Board 1 . (3) Remove the cable 5 from the connector 4 on the Control/Power Supply board 1 . (4) Remove two screws 6 , and remove the Control/Power Supply Board 1 . (5[...]

  • Page 76

    3 – 20 3.3.16 Transformer Assy (1) Remove the upper cover (see 3.3.4 (1) – (5)). (2) Remove AC inlet 1 and AC switch 2 from the frame guide. (3) Disconnect the cable 3 from the connector 4 on the Control/Power Supply Board 5 . (4) Remove a screw 6 and disconnect ground cable 7 . (5) Remove two screws 8 and shift the transformer Assy 9 to the le[...]

  • Page 77

    3 – 21 3.3.17 Change Lever and Gears (1) Remove the upper cover (see 3.3.4 (1) – (5)). (2) Remove the reset spring 1 , then remove the idle gear 2 , the tractor gear 4 and the change gear 5 . (3) Push back the protrusion of the Change Gear Shaft 6 with a flatblade screw driver to remove the change lever 3 . (4) To perform mounting, follow the r[...]

  • Page 78

    3 – 22 3.3.18 Carriage Shaft (1) Remove the printhead (see 3.3.1). (2) Remove the upper cover (see 3.3.4 (1) – (5)). (3) Remove the driver board (see 3.3.12). Remove the FG plate (L) 2 . (4) Slide the carriage shaft 1 to the left side (in the direction of the arrow) to remove. (5) To perform mounting, follow the reverse procedure of removal. No[...]

  • Page 79

    3 – 23 3.3.19 Paper Pan (1) Remove the printhead (see 3.3.1). (2) Remove the ribbon protector (see 3.3.2). (3) Remove the pull-up roller assy (see 3.3.2). (4) Remove the upper cover assy (see 3.3.4 (1) – (5)). (5) Remove the platen assy (see 3.3.11). (6) Release claws A . (7) Lift up the paper chute assy 1 and remove. (8) To perform mounting, f[...]

  • Page 80

    3 – 24 3.3.20 Rear Tractor Assy (1) Remove the printhead (see 3.3.1). (2) Remove the ribbon protector (see 3.3.2). (3) Remove the pull-up roller assy (see 3.3.3) (4) Remove the upper cover (see 3.3.4 (1) – (5)). (5) Remove the reset spring (see 3.3.17 (3)) (6) Remove the tractor gear 1 . (7) Shift the drive shaft 2 to the right side to remove ([...]

  • Page 81

    3 – 25 3.3.21 Rear Pressure Assy (1) Remove the upper cover (see 3.3.4 (1) – (5)). (2) Remove the change lever and gears (see 3.3.17). (3) Remove the paper pan (see 3.3.19). (4) Remove the rear pressure roller 1 . (5) Rotate the release shaft 2 and move it to the left to detach the release shaft 2 . Match the Main Frame Rib A with the protrusio[...]

  • Page 82

    3 – 26 3.3.22 Switch Lever (1) Remove the upper cover (see 3.3.4 (1) – (5)). (2) Remove the change lever and gears (see 3.3.17). (3) Remove the paper pan (see 3.3.19). (4) Remove the rear pressure assy (see 3.3.21). (5) Pull the Switch Lever toward you and remove it upward. (6) To install, follow the removal step in the reverse order. Remark on[...]

  • Page 83

    4. ADJUSTMENT[...]

  • Page 84

    4 – 1 4. ADJUSTMENT (1) Be sure to carry out this adjustment with the printer mechanism mounted on the lower cover. (2) Be sure to carry out this adjustment operation on a level and highly rigid work table (flatness: less than 0.039 inch or 1 mm) so as to minimize adjustment error.[...]

  • Page 85

    4 – 2 Item No. Specification Drawing Adjustment method Gap between the plat- en and the print head 1 ) Parallelism ad- justment 4–1–1 Variation of value at the left, the center and the right shall be less than 0.02 mm It shall be measured at 3 points: the left end, the center and the right end of the platen. Adjustment method (1) Gap between [...]

  • Page 86

    4 – 3 Item No. Specification Drawing Adjustment method Note 1) The head gap shall be measured with the change lever set to rear position. Note 2) The head gap shall be measured positioning the platen gear (R) craw on the top. Note 3) Move the adjust screw in clockwise direction (in direction B) to measure. Measure variation of gap when range is c[...]

  • Page 87

    4 – 4 Item No. Specification Drawing Adjustment method Gap between the con- tact and the monitor 0.3mm or more Touching Adjust lever Contact Motor PCB Confirm followings. Make sure that the gap between the con- tact and the motor PCB is 0.3 mm or more. At the time of printing test, make sure that the contact touches the motor PCB and it becomes r[...]

  • Page 88

    4 – 5 Item No. Specification Drawing Adjustment method 4–2 1 ± 0.5 Confirm followings. (1) When the change lever is set at Friction position, the gap between the platen and the paper pan at the rear side shall be 1 ± 0.5mm. (2) When the change lever is set at Rear or Bottom position, the gap between the pla- ten and the paper pan at the front[...]

  • Page 89

    4 – 6 Item No. Specification Drawing Adjustment method Rotation of the push tractor 4–4–1 To confirm: The tractor gear shall rotate smoothly when the change lever is set at Friction posi- tion. Backlash between gears 4–4–2 Approx. 0.05 to 0.11 mm To confirm: There shall be slight backlash between gears to allow smooth rotation of gears. ([...]

  • Page 90

    4 – 7 Item No. Specification Drawing Adjustment method Ribbon feed 4–5–1 To confirm: Ribbon shall be fed smoothly when the carriage is moved from side to side. Running load to spac- ing mechanism 4–5–2 To confirm: Make sure that the power is turned off at the time of measure- ment. 250g or less without a rib- bon cartridge Ribbon feeding [...]

  • Page 91

    4 – 8 Item No. Specification Drawing Adjustment method 4–6 To confirm: The idle gear of the LF motor and the platen gear (L) and the bias gear of the platen shall be in mesh in such way that the platen gear (L) and the bias gear rotate against each other to pinch the teeth of idle gear. The idle gear stays in mesh with the platen gear (L) and t[...]

  • Page 92

    5. CLEANING AND LUBRICA TION[...]

  • Page 93

    5 – 1 5. CLEANING AND LUBRICA TION 5.1 Cleaning [Cautions] 1. Be sure to turn OFF the AC POWER switch before cleaning. Remove the AC power cord from the printer. 2. Avoid dust inside the printer mechanism when cleaning. 3. If a lubricated part has been cleaned, be sure to apply lubricating oil to that portion after cleaning. (1) Cleaning time Whe[...]

  • Page 94

    5 – 2 Carriage shaft[...]

  • Page 95

    5 – 3 5.2 Lubrication This printer is designed to be maintenance free and requires no lubrication during normal operation. However it is necessary to apply lubricant in case the printer is disassembled, reassembled, cleaned or parts have been changed. (1) Cleaning time Remarks: 1) Turn off the power before cleaning. 2) Make sure that paper dust w[...]

  • Page 96

    5 – 4 (5) Lubrication point 1. Ribbon feed gear Assy. 2. Space rack Idle gear shaft (upper and lower) PM-B (0.006 ± 0.002g) Space rack Rack upper side Approx. 30 (greasing range) Planetary gear shaft (upper and lower) EM-30L-A Drive gear shaft (upper and lower) PM-B (0.006 ± 0.002g) Approx. 35 (greasing range) EM-30L-A[...]

  • Page 97

    5 – 5 3. Platen Assy. Bias gear Contact face of platen shaft and platen FG spring EM-30-L-B Grease the contact face of platen gear (L) and bias gear PM-B Platen gear (L)[...]

  • Page 98

    5 – 6 4. Tractor driving mechanism 5. Tractor drive shaft Change lever Change arm Reset spring Sliding surface of reset spring and gear EM-30L-A Sliding surface of change lever and gear EM-30L-A A-A Arrow view Sliding surface of change arm and change lever EM-30L-A Tractor gear bearing portion EM-30L-A Idle gear teeth EM-30L-A Gear bearing portio[...]

  • Page 99

    5 – 7 6. Pressure roller Sliding portion of release shaft and change arm EM-30L-A Change arm Release shaft Front pressure roller Support spring Controller holder Sliding portion of rear roller holder and release shaft cam surface (release shaft plane portion) EM-30L-A Bearing portion of front roller holder and pressure roller EM-30L-B Shaft Rear [...]

  • Page 100

    5 – 8 7. Pull up roller Assy. Pull-up roller frame Pull-up roller shaft All bearing portions of pull-up roller shaft and pull-up roller frame EM-30L-B Gear and post EM-30L-A[...]

  • Page 101

    5 – 9 Models N ML3320 W ML3321 8. Main chassis Assy. Grease portion Grease portion at rib (N: 9 portions W: 13 portions) EM-30L-A Grease portion (N: 3 portions, W: 5 portions) rear side EM-30L-A[...]

  • Page 102

    5 – 10 9. Carriage Assy. NK2-10-SUS Bearing portion of guide roller EM-30L-B[...]

  • Page 103

    6. TROUBLESHOOTING AND REP AIR[...]

  • Page 104

    6 – 1 6. TROUBLESHOOTING AND REP AIR 6.1 Items to Check Before Repair (1) Check the inspection items specified in the instruction manual. (2) Find out as many details of the trouble as possible from the customer. (3) Inspect in the conditions as close as possible to those at the time the trouble occurred. (4) Proceed with the repair as follows: C[...]

  • Page 105

    6 – 2 Note: BLINK1 : 400ms ON, 400ms OFF BLINK2 : 200ms ON, 200ms OFF — : LED is kept in Current Condition (no change) (2) Fault alram display When the printer detects any of the various alarm states, the information is displayed as shown below on the operation panel. The alarm is specified by lamp combination of PRINT QUALITY and CHARACTER PIT[...]

  • Page 106

    6 – 3 ALARM CATEGORY ALARM LED DISPLAY ALARM 10 12 15 17 20 PROP HSD UTL NLQ REMARKS TROUBLESHOOTING MAIN CONTROL ALARM FIRMWARE DETECTION ALARM SERIAL INTERFACE ALARM MPU internal RAM alarm Program ROM alarm RAM on Control Board alarm EEPROM alarm WDT[...]

  • Page 107

    6 – 4 ALARM CATEGORY ALARM LED DISPLAY ALARM 10 12 15 17 20 PROP HSD UTL NLQ REMARKS TROUBLESHOOTING SPACING ALARM Spacing alarm Print Head homing alarm Print Head A/D alarm Space IPT is not occurred within in specified timing. : LED Blink (200ms ON, 200ms OFF) : LED Li[...]

  • Page 108

    6 – 5 LF motor Control/Power supply board AC connector Transformer Driver board Operation panel board Centro-connector Switch Printhead Space motor[...]

  • Page 109

    6 – 6 6.4 Connection Circuit Check for Printhead and SP/LF Motor (1) Printhead Signal Connector pin number CN1 1 #1 2 #2 3 #4 4 #6 5 #8 6 7 8 9 10 11 #9 12 #7 13 #5 14 #3 15 Thermistor HEAD1 HEAD2 HEAD4 HEAD6 HEAD8 EL HTEMP +40V +40V +40V HEAD9 HEAD7 HEAD5 HEAD3[...]

  • Page 110

    6 – 7 (2) Line Feed Motor Resistance of each coil should be about 7.6 Ω . Signal Connector pin number LF1 LF2 LF3 LF4 CN6 LF motor[...]

  • Page 111

    6 – 8 (3) Space Motor Resistance of each coil should be about 5 Ω . Signal Connector pin number SP-U SP-V SP-W SPA SPB +5V EL CN2 SP Motor øA øB DA Vcc DK G 200 Ω 3 5 2 20 10 11 18 R1[...]

  • Page 112

    6 – 9 6.5 Troubleshooting flow chart 1 Power is not supplied. Is the AC cable connected correctly? Yes No Connect the AC cable correctly. Is fuse F1 on the transformer assy/or F1 on the control/power supply board blown? No Yes Replace fuse (with same type and rating). Remedied? No Yes End Does DC + 8V out? No Yes Remove Printhead. (Turn power off[...]

  • Page 113

    6 – 10 Driver Board CN2 20 •••••••••••• 1 No Yes Replace Driver board. Replace Transformer assy. Remedied? No Yes End Replace Control/Power supply board. Pin No. 20 19 18 17 16 15 14 13 10 9 8 7 6 5 Signal +8V EP +40V A C E L +5V (F.G) 10V (0V)[...]

  • Page 114

    6 – 11 2 No spacing operation (The alarm LED Blinks) Is carriage assembly binding or jammed? No Yes Check around space motor to repair the mechanism of space rack, back up roller, ribbon feed mechanism, and carriage frame etc. Replace Space motor assy. Remedied? No Yes End Replace Driver board. Remedied? No Yes End Replace Carriage cable.[...]

  • Page 115

    6 – 12 3 Homing does not end normally Yes No Check around space motor to repair the mechanism. (Space rack, ribbon feed assembly back up roller, carriage frame, support protector and ribbon protector.) Remedied? No Yes End Replace Space motor assy. Replace Space motor assy. Remedied? No Yes End Replace Carriage cable. Remedied? No Yes End Replace[...]

  • Page 116

    6 – 13 4 Paper jam while paper insertion Jam 1 Check around pressure roller mechanism. • Front pressure springs are narrow: 3 pcs; wide: 5 pcs) mounted properly or not. • Tension of all of front pressure rollers is properly. • Make sure of the fitting position of change gear shaft, change arm shaft and release shaft are correct. Check the r[...]

  • Page 117

    6 – 14 5 Smearing/missing dots Does ALARM LED blink and display alarm? No Yes See Tables 6.2 and 6.3 for troubleshooting information. Replace Printhead. Remedied? No Yes End Replace Driver board. Remedied? No Yes End Replace Carriage cable or Space motor assy.[...]

  • Page 118

    6 – 15 6 Faint or dark print Is the print head gap set properly? Yes No Adjust the printhead gap (see section 5). Remedied? No Yes End Replace Printhead. Remedied? No Yes End Replace Driver board. Remedied? No Yes End Replace Ribbon feed mechanism.[...]

  • Page 119

    6 – 16 7 Ribbon feed trouble Remove the ribbon cartridge. Move carriage to left and right. Does the ribbon drive shaft rotate? No Yes Change Ribbon cartridge. Remove Ribbon feed mechanism. Move carriage to left and right. Does the ribbon drive shaft rotate? No Yes Replace Ribbon feed mechanism. Replace Space motor assy.[...]

  • Page 120

    6 – 17 8 Line feed trouble Turn the power off, and rotate the platen manually. Does the platen rotate smoothly? Yes No Is the platen gear (L) broken? No Yes Replace Platen assembly. Is the LF motor idle gear broken? No Yes Replace the LF motor assembly or LF idle gear. Is the platen gear (R), idle gear or change gear broken? No Yes Replace the ge[...]

  • Page 121

    6 – 18 9 Malfunction of switch on operation panel Is the CN1 of Operation panel connected to the CN3 on the driver board? Yes No Connect the cable properly. Replace Operation panel board. Remedied? No Yes End Replace Driver board.[...]

  • Page 122

    6 – 19 0 Data receiving failure Is the SEL LED blinking? No Yes Printer went into the print suppress mode. Wait until printer to receives DC1 code, or change the menu item “Print suppress-Ineffective” when the function is not required. Is the I/F RS232C? No Yes To step 10-2 Does the SEL LED light up? Yes No Press SEL key. Remedied? No Yes Doe[...]

  • Page 123

    6 – 20 10-2 (RS232C I/F) Printer I/F pin assignment. Is the correct cable used? TXD 2 pin, RXD 3 pin, Yes No SSD 11 pin, DTR 20 pin, Change I/F cable. DSR 6 pin. Is ALARM LED blinking? No Yes See tables 6.2 and 6.3 for the troubleshooting. Make sure of the parameters for RS232C in the menu are correct. Baud rate Bit length Parity Protocol Busy si[...]

  • Page 124

    6 – 21 Replace RS232C board. Remedied? N o Y e s End Replace Driver board.[...]

  • Page 125

    APPENDIX A[...]

  • Page 126

    APPENDIX A – 1 APPENDIX A BIT IMAGE GRAPH IS — DOT DENSITY (No adjacent dots allowed) 1/144 inch Double speed quad density Double speed double density Double Single D 1/60 inch DOT D/2 1/120 inch DOT D/2 1/120 inch DOT D/4 1/240 inch DOT D = 1/60 inch[...]

  • Page 127

    A – 1 A. PCB LA YOUT PCB list (1) Circuit board SDCT (Control/Power Supply) (2) Circuit board SDDV (Driver) (3) Circuit board LEOP-3 (Operation Panel) (1) (2) (3)[...]

  • Page 128

    APPENDIX B[...]

  • Page 129

    B – 1 B. SP ARE P ARTS LIST Quantity per year: Indicates the recommended number of each part that should be ordered for routine maintenance for one year for 500 units of printers and assuming that the printers are operated for 2 hours/day of 600 hours/year. The following codes are used to indicate the number of printers for which maintenance part[...]

  • Page 130

    B – 2 Figure 11-1 Upper Cover Assy 1 2 3[...]

  • Page 131

    B – 3 Figure 11-1 Upper Cover Assy No. Part No. Description Q'ty Q'ty Remarks Required 1 1PP4128-1186P6 Upper cover (N) 1 2 For ML3320 For INT 1PP4128-1186P4 Upper cover (N) 1 2 For ML3320 For OEL 1PP4128-1186P2 Upper cover (N) 1 2 For ML3320 For ODA 1PP4128-1231P6 Upper cover (W) 1 2 For ML3321 For INT 1PP4128-1231P4 Upper cover (W) 1 [...]

  • Page 132

    B – 4 Figure 11-2 Printer General Assy 6 9 8 2 7 4 5 3 10 1[...]

  • Page 133

    B – 5 No. Part No. Description Q'ty Q'ty Remarks Required 1 2PP4025-2871P21 Platen Knob 1 1 2 4YA4042-1543G301 Control/power supply 1 9 For ODA board (SDCT) 4YA4042-1543G302 Control/power supply 1 9 For OEL board (SDCT) 4YA4042-1543G303 Control/power supply 1 9 For INT board (SDCT) 3 4YA4042-1549G1 Driver board (SDDV) 1 9 ROM 4 4YA4042-[...]

  • Page 134

    B – 6 Figure 11-3 Printer Unit 1 2 3 4 5 6 7 8 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 30 36 9 33 34 35 32 31 29[...]

  • Page 135

    B – 7 Figure 11-3 Printer Unit No. Part No. Description Q'ty Q'ty Remarks Required 1 3PA4044-5002G2 Main chassis assy (N) 1 2 For ML3320 3PA4044-5152G2 Main chassis assy (W) 1 2 For ML3321 2 3PP4044-5012P1 Bottom paper end lever 1 1 3 4PP4044-5019P2 Pressure spring (F) 3 2 For ML3320 4PP4044-5019P1 Pressure spring (F) 5 4 For ML3321 4 4[...]

  • Page 136

    B – 8 No. Part No. Description Q'ty Q'ty Remarks Required 23 3PA4044-5025G2 Platen assy (N) 1 3 For ML3320 3PA4044-5159G2 Platen assy (W) 1 3 For ML3321 24 3PP4044-5010P1 Space rack gear (N) 1 3 For ML3320 3PP4044-5156P1 Space rack gear (W) 1 3 For ML3321 25 4PB4025-3377P2 Tension spring for space 1 1 rack 26 3PP4044-5008P1 Guide rail p[...]

  • Page 137

    B – 9 Figure 11-4 Carriage Assy 12 9 8 6 14 11 10 1 13 7 5 4 3[...]

  • Page 138

    B – 10 Figure 11-4 Carriage Option Assy No. Part No. Description Q'ty Q'ty Remarks Required 1 4PP4044-5061G1 Carriage frame set 1 2 2 3 4PA4025-3718G1 Back up roller holder assy 1 2 4 4PP4025-3398P1 Guide roller 1 2 5 3PP4044-5065P1 Guide roller holder 1 2 6 4YA4044-5100G1 Space motor assy 1 4 7 3PB4044-5506P1 Head cable (9N) 1 5 For ML[...]

  • Page 139

    B – 11 Figure 11-5 Option Spare Parts 1 2 3 4 5 6 7 [Pull-Tractor] [Bottom-Tractor] [I/F Board][...]

  • Page 140

    B – 12 Figure 11-5 Option Spare Parts No. Part No. Description Q'ty Q'ty Remarks Required 1 4PA4025-3608G1 Pull and bottom 1 2 tractor assy (L) 2 4PA4025-3603G1 Pull and bottom 1 2 tractor assy (R) 3 2PP4128-1239G1 Tractor cover assy (N) 1 3 For ML3320 2PP4128-1243G1 Tractor cover assy (W) 1 3 For ML3321 4 1PA4128-1277G1 Bottom push sta[...]

  • Page 141

    APPENDIX C RS-232C Serial Interface Board (Option)[...]

  • Page 142

    C – 1 APPENDIX C RS-232C SERIAL INTERF ACE BOARD 1. GENERAL This section describes the operation of the RS-232C Serial Interface board installed in the Printer as an option using a start-stop synchronization and serial communications circuit. This serial interface board is capable of transmitting and receiving simultaneously at speeds up to 19,20[...]

  • Page 143

    C – 2 2. OPERA TION DESCRIPTION 2.1 Element Description (1) 80C51 with MASK ROM An eight-bit microprocessor controller that controls the following: (a.) Serial interface protocol and data transfer through a serial port. (b.) Message buffer. (c.) Transmission of parallel data to the printer. (2) SN75189 An RS-232C standard line receiver (3) SN7518[...]

  • Page 144

    C – 3 OCS P1 P2 P0 P3 TD RD IF WR LS245 2764  ROM  8 KB RD TD RAM  8 KB Driver +5 VD 10 VAC +5 V +9 V –9 V +5V 0V ±9 V power supply circuit Serial data control line Bus line Control line ADR latch Receiver DB0 to DB9 ADR/data bus ADR bus 80C51 RST CN1 Figure C-2-1 Block Diagram[...]

  • Page 145

    C – 4 2.2.1 Operation at power on After power is turned on, an RST OUT signal is sent from the printer control board to reset the printer. When the reset is canceled, the 80C51 CPU performs initialization. Initialization consists of setting the 80C51 timer, and setting the serial mode. 2.2.2. RS-232C interface The DTR, SSD, TD and RTS signals out[...]

  • Page 146

    C – 5 Ready/Busy Received one character? Yes Is DSR valid? No Buffer overflow? Error? Parity error No error Store the received character in buffer. Is the printer in DESELECT state or is the paper low? No No Yes Yes No DSR High? Yes Store 40 H in buffer. Yes Yes No Yes Is remaining buffer space < 256? Yes No Turn on the SSD s[...]

  • Page 147

    C – 6 Figure C-2-3 X-ON, X-OFF Received one character? Yes Is DSR valid? No Buffer overflow? Error? Parity error No error Store the received character in buffer. Is the printer in DESELECT state or is the paper low? No No Yes Yes No DSR High? Yes Store 40 H in buffer. Yes Yes No Yes Is remaining buffer space < 256? Yes No Pri[...]

  • Page 148

    C – 7 3. TROUBLESHOOTING FLOWCHART 3.1 Before Repairing a Fault Before servicing the printer, ask the customer in what situation the trouble occurred and record the response. Before starting troubleshooting, operate the printer in the same situation as that at the time of trouble occurrence to see if the same trouble occurs again. If not, perform[...]

  • Page 149

    C – 8 1 The data is not received using a serial interface. (A protocol is set to READY/BUSY state, and BUSY LINE is in SSD + state.) Is the OSC oscillation waveform as specified in Figure C-3-1? No Replace the OSC. Yes Is a RST signal in Q3 is as specified in Figure C-3-2? No Check the RST circuit on the SDCT board. A Figure C-3-1 Figure C-3-2 V [...]

  • Page 150

    C – 9 Figure C-3-4 A Yes Are ALE, PSEN, RD, WR, signals as specified in Figure C-3-3? No Replace the Q3. Yes Are (T1) SELECT and (INTO) BUSY signals low level? No Check Q501 on the SDDV board. Yes Are +9V and -9V input to Q1? No Replace defective component in +9/–9 volt control circuit. Yes Is pin 1 SSD signal of Q3 High level? No Replace the Q[...]

  • Page 151

    C – 10 2 In receiving by serial interface, printing data is omitted or printing operation is not performed. Are RxD and SSD of Q3 as specified in Figure C-3-4? No Replace the Q2. Yes Are, WR, and BUS signals of Q3 pin 3 as specified in Figure C-3-5? No Replace the Q3. Yes Is the level of a BUS signals at Q7 pins 2-9 the same as that of DB0-7 when[...]

  • Page 152

    C – 11 3.3 Local Test 3.3.1 Circuit test mode 3.3.1.1 Setting (1) Diagnostic test (set by menu) (2) Test connector Connect the test connector shown in Figure C-3-6 to the interface connector Figure C-3-6 Test Connector Connection Diagram 3.3.1.2 Function After the settings outlined in Section 3.3.1.1 are completed and power is turned on, the seri[...]

  • Page 153

    C – 12 (1) The program revision using two numerical characters is printed. (2) “LOOP TEST” is printed. (3) Memory is checked for the message buffer. (4) Prints “OK” is printed if the memory check is OK and “BAD” is printed if the memory check fails. (5) Output level to DTR, RTS, and SSD signals is dropped low. If DSR, CTS, or CD signa[...]

  • Page 154

    APPENDIX D CSF (Option)[...]

  • Page 155

    M-521368 1A 4-96 Printed in Japan Oki Systems (Danmark) a.s. Park Alle 382 DK-2625 Vallensbaek Denmark Tel : 436 66500 Fax : 436 66590 Oki Systems (France) S.A. 44-50 Avenue du General de Gaulle 94240 L'Hay les Roses France Tel : 0146 158000 Fax : 0141 240040 Oki Systems (Italia) S.p.A. Centro Commerciale "II Girasole" PAT. Cellini-L[...]