® EPSON LQ-200 TM ActionPrinter 3000 Service Manual Revision Level I@ Printed on recycled paper.
FCC Compliance Statement For American Users This equipment has been tested and found to comply with limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.
Important Notice Disclaimer of Warranty Epson America makes no representations or warranties, either express or implied, by or with respect to anything in this manual, and shall not be liable for any implied warranties of merchantability and fitness for a particular purpose or for any indirect, special, or consequential damages. Some states do not allow exclusion of incidental or consequential damages, of this exclusion may not apply to you. Copyright Notice All rights reserved.
Chapter 1 General Description Features ........................................................................................... l-l Specifications ................................................................................... 1-3 Hardware Specifications ............................................................ l-3 Firmware Specifications (ESCYP)............................................... l-9 Parallel Interface .............................................................................
Chapter 3 Disassembly and Assembly General Repair Information ............................................................ Tools ........................................................................................... Small Parts ................................................................................ Service Checklist ....................................................................... Disassembly and Assembly .............................................................
Appendix A-1 Connector Summary........................................................................ Circuit Diagrams ............................................................................. A-3 Circuit Board Component Layout ................................................... A-7 Exploded Diagrams.......................................................................... A-8 A-12 Case Outline Drawings....................................................................
Chapter 1 General Description Features ........................................................................................... Specifications ................................................................................... Hardware Specifications ............................................................ Firmware Specifications (ESCYP) ............................................... Parallel Interface .............................................................................
1-31 Figure 1-15. Transformer .............................................................. 1-32 .............................. Model 5ClO Printer Mechanism Figure 1-16. Figure 1-17. Housing..................................................................... 1-33 Tables Table Table Table Table Table Table Table Table 1-1. 1-2. 1-3. 1-4. 1-5. 1-6. 1-7. 1-8. Table Table Table Table 1-9. 1-10. 1-11. 1-12. Table Table Table Table Table Table 1-13. 1-14. 1-15. 1-16. 1-17. 1-18. 1-2 Optional Units ......
General Description 1 Features ® TM The Epson LQ-200/ActionPrinter 3000 (AP3000) is a small, light-weight, lowcost printer similar to the LQ-500.
General Description Table l-l lists the optional units available for the printer and Figure l-l shows the printer. Table 1-1. Optional Units Model Description 7341 Cut sheet feeder (CSF) Figure 1-1.
General Description Specifications This section provides the specifications for the LQ-200/AP3000. Hardware Specifications Printing Method Serial, impact, dot matrix Pin Configuration 24 wires; 12 x 2 staggered, diameter 0.008 inches (0.2 mm) Figure 1-2. Pin Configuration Feeding Methods Friction feed, tractor feed Line Spacing 1/6 inch or programmable in units of 1/180 inch Paper Insertion From rear or bottom Paper Feed Speed 100 ms/line at 1/6-inch line feed 2.
General Description Table 1-2. Specifications for Single Sheet Paper Table 1-3. Specifications for Continuous Paper Table 1-4.
General Description Printable Area Figure 1-3. Printable Area for Single Sheet Paper Notes: 1) . . . 0.12 inches (3 mm) or more using 7.2 to 9.0 inch (182 to 229 mm) wide paper. 1.08 inches (27 mm) or more using 10.1 inch (257 mm) wide paper. The lowest print position (0.54 inches or 13.5 mm) is only for reference. Printing is possible approximately 1.48 inches (37 mm) from the bottom edge of the paper when you press the AUTO LOAD button to load a single sheet.
General Description Figure 1-4. Printable Area for Continuous Paper Notes: *1) 0.52 inches (13 mm) or more using 4.0 to 9.5 inch (101 to 242 mm) wide paper. 1.04 inches (26 mm) or more using 10.0 inch (254 mm) wide paper. ‘2) 0.52 inches (13 mm) or more using 4.0 to 9.5 inch (101 to 242 mm) wide paper. 1.04 inches (26 mm) or more using 10.0 inch (254 mm) wide paper.
General Description Ink Ribbon Type Black ribbon cartridge #7753 Film ribbon cartridge #7768 Color Black Life 2 million characters at 48 dots/character (black ribbon) 0.2 million characters using LQ characters (film ribbon) Dimensions of Ribbon Cartridge 11.72 inches (width) x 1.36 inches (height) x 2.
General Description Electrical Specifications Power Conditions 120 VAC * 10% Frequency Range 49.5 to 50.5 Hz (50 Hz model) 59.5 to 60.5 Hz (60 Hz model) Current Rating 1.
General Description Firmware Specifications (ESC/P) Control Codes ESC/P level ESC/P 84 (Epson Standard Code for Printers) Printing Direction Bidirectional (text) Bidirectional (bit image) when DIP switch 2-5 is on Unidirectional (bit image) when DIP switch 2-5 is off Input Data Buffer 8KB when DIP switch 2-4 is on 1KB when DIP switch 2-4 is off (When DIP switch 2-4 is on, you cannot define user-defined characters.
General Description Printing Modes You can select and mix any of the following printing modes, except you cannot select 15 cpi and condensed printing at the same time. l l l l l l l l l l l l l l Draft or letter quality printing Character pitch (10 cpi, 12 cpi, 15 cpi, or proportional printing) Condensed Double-width Double-height Emphasized Double-strike Italic Underlined Double-underlined Overscore Strike-through Outline Shadow Printing Speed See Table 1-6. Printing Columns See Table 1-6.
General Description Table 1-6. Printing Modes Notes: l Max is the value appropriate for the maximum width character. l Min is the value appropriate for the minimum width character. . - means that the printer automatically selects LQ mode when you select proportional pitch.
General Description Table 1-7. Character Matrix and Character Size Notes: l l l . HDD is the horizontal dot density in dots per inch. The face matrix and character size indicate the size of the maximum character. This value depends on the paper, the ribbon, and other variables. Unit ESC SP indicates the minimum length to be added to the right of the character specified using ESC SP. You can also send Unit Esc SP followed by the character string CHR$ (&h20).
General Description (Normal character) Figure 1-5.
General Description Parallel Interface This section provides the specifications for the standard parallel interface. Data Format 8-bit parallel Synchronization -STROBE signal Handshaking BUSY and -ACKNLG signal Signal Level TTL compatible Adaptable Connector 57-30360 (Amphenol) or equivalent Data Transmission Timing See Figure 1-6. Figure 1-6.
General Description Table 1-8 shows the connector pin assignments and signal functions of the 8-bit parallel interface. Table 1-8.
General Description Table 1-9. Connector Pin Assignments and Signal Functions (cont.) Notes: DIR refers to the direction of signal flow as viewed from the printer. Return Pin No. denotes a twisted pair return line. The cable must be shielded to prevent noise. All interface conditions are based on TTL levels. The rise and fall times of all signals must be less than 0.2 ,us. You can set the -AUTO FEED-XT signal to LOW using DIP switch 2-4. You can set the -SLCT-IN signal to LOW using jumper 6.
General Description Table 1-9 shows the handshaking (DC1/DC3) protocol. Table 1-9. Handshaking (DC1/DC3) Protocol Notes: 1. Table 1-9 assumes that no *ERROR status exists other than that due to off line mode. 2. When the printer receives a DC3 code, it ignores input data. When the printer receives a DC1 code, data transmission continues. 3. The DC1 and DC3 codes are enabled only when the SLCT-IN signal (pin number 36) is HIGH and the printer is initialized. 4.
DIP Switches and Jumpers This section describes the functions of the DIP switches and jumpers. DIP Switches The LQ-200/AP3000 has two sets of DIP switches underneath the cartridge slot cover. Tables 1-10 through 1-15 describe the functions of these DIP switches. The printer reads the DIP switch settings only at power on or after receiving the -INIT signal. Table 1-10. Dip Switch Set 1 Notes: l 1. When DIP switch 2-4 is on, you cannot create user defined characters. l 2.
General Description Table 1-12. International Character Set and Character Table Selection Table 1-13.
General Description Table 1-14. Page Length Selection Table 1-15. Character Pitch Selection Jumpers Jumper 6, located underneath the cartridge slot cover, is user selectable. If you connect jumper 6, the -SLCT-IN signal is LOW and the printer ignores the DC1/DC3 control codes.
General Description Operating Instructions This section explains how to use SelecType, the self test, the demonstration, the hexadecimal dump, and other functions. SelecType The SelecType function allows you to easily choose any of the seven built-in LQ fonts when the printer is on line and not printing. To select a font, you press the FORM FEED button until the two SelecType indicator lights match the desired font.
General Description Demonstration To start the demonstration, turn on the printer while holding down the LINE FEED and ON LINE buttons. THE EPSON® LQ-200 The Epson LQ-200 is the affordable, versatile, narrow carriage 24pin dot matrix printer for home and small business combining excellent high resolution printing, convenient paper handling, and a new standard for economical printing. LOOK AT WHAT THE LQ-200 CAN n DO FOR YOU! Outstanding 24-pin print quality m Sharp180 x 360 DPI graphics.
General Description Hexadecimal Dump Function You use the hexadecimal dump function to check the data the printer is receiving from the host. To turn on hexadecimal dump mode, turn on the printer while holding down the LINE FEED and FORM FEED buttons. In hexadecimal dump mode, the printer prints the hexadecimal representation of the input data and the corresponding ASCII characters. If input data is a control code instead of a character code, the printer prints a period (.) in the ASCII column.
General Description Bit Image Printing The LQ-200/AP3000 has four standard print densities. They are listed below in dots per inch (dpi), including half dots. 120 dpi at triple speed 180 dpi at double speed 240 dpi at one and a half speed 360 dpi at normal speed Tables 1-16 and 1-17 show how the firmware handles the print densities. Table 1-16. Print Density Table 1-17.
General Description Error Conditions If any of the following error conditions occurs, the printer goes off line. The printer cannot detect the home position at printer mechanism initialization. The printer detects the home position during printing. You press the ON LINE button when the printer is on line, and the printer goes off line. The printer detects a paper-out signal and form over-ride is finished.
General Description Printer Initialization There are two initialization methods: hardware initialization and software initialization. Hardware initialization Hardware initialization takes place when you turn on the printer (and the AC power cord is plugged in) or when the printer receives the -1NIT signal. During hardware initialization, the printer: 0 Initializes the printer mechanism. l Clears the input data buffer. l Clears the downloaded character set. l Clears the print buffer.
General Description Default Values When the printer is initialized, the following default values take effect: Page Position The current paper position becomes the top-of-form position.
General Description Head Adjust Lever You must move the head adjust lever to the position appropriate for your paper’s thickness. See Table 1-18 and Figure 1-10. Table 1-18. Head Adjust Lever Note: If the print density is light, move the head adjust lever one step lower. Figure 1-10.
General Description Printhead Protection During Heavy Duty Printing The printhead is protected from overheating and voltage drops to the printhead driver. If the printhead temperature exceeds the upper limit, printing stops automatically until the printhead temperature drops to the required value. If heavy duty printing causes the printhead driver voltage to drop below the lower limit, printing stops. When the power supply voltage increases to the required level, the printer prints the rest of the line.
General Description C064 MAIN PCB The µPD7810HG CPU on the CO64 MAIN PCB simplifies the circuit design of the main control board and controls all of the printer’s main functions. Figure 1-12. C064 Main PCB Control Panel PCB The control panel PCB is the control panel. It includes the indicator LEDs, the control panel buttons, and the buzzer. Figure 1-13.
General Description PEBFIL-II PCB The PEBFIL-II PCB filter board eliminates noise from the AC line to the printer and from the printer to the outer line. The fuse on this board prevents overheating. Figure 1-14. PEBFiL-II PCB Transformer The transformer converts the input AC from the filter circuit into 28 VAC output to supply the required voltage to the control circuit board. Figure 1-15.
General Description Model 5Cl0 Printer Mechanism The model X10 printer mechanism is designed specifically for the LQ-200/AP3000. Its components include the carriage motor, carriage mechanism, paper feed motor, paper feed mechanism, ribbon feed mechanism, printhead, and sensors. Figure 1-16.
General Description Housing The housing consists of the upper and lower cases. The upper case houses the control panel. The lower case contains the printer mechanism and the main control board. Figure 1-17.
Chapter 2 Principles of Operation Overview ......................................................................................... 2-1 2-1 Connector Summary .................................................................. Overview of Printer Mechanism Operation .............................. 2-3 Sensors ................................................................................. 2-4 2-6 Motors .................................................................................. 2-6 Printhead ........
Figures Figure 2-1. Figure 2-2. Figure 2-3. Figure 2-4. Figure 2-5. Figure 2-6. Figure 2-7. Figure 2-8. Figure 2-9. Figure 2-10. Figure 2-11. Figure 2-12. Figure 2-13. Figure 2-14. Figure 2-15. Figure 2-16. Figure 2-17. Figure 2-18. Figure 2-19. Figure 2-20. Figure 2-21. Figure 2-22. Figure 2-23. Figure 2-24. Figure 2-25. Figure 2-26. Figure 2-27. Figure 2-28. Figure 2-29. Figure 2-30. Figure 2-31. Figure 2-32. Figure 2-33. Figure 2-34. Figure 2-35. Figure 2-36. Figure 2-37. Figure 2-38. Figure 2-39.
Figure 2-50. Relationship Between the Head Driver Voltage and the Print Driving Pulse Width.. ..................... Figure 2-51. A/D Converter Circuit .............................................. Figure 2-52. Host Interface ........................................................... Figure 2-53. Ribbon Feed Mechanism .......................................... 2-51 2-53 2-55 2-57 Tables Table Table Table Table Table Table Table Table 2-1. 2-2. 2-3. 2-4. 2-5. 2-6. 2-7. 2-8. Table 2-9. Table 2-10.
Principles of Operation 2 Overview This chapter describes the signals at the connectors that link the printer’s primary components, including the printer mechanism, the power supply circuits, and the control circuits. This chapter also describes how the printer’s circuitry and the printer mechanism operate. Connector Summary Figure 2-1 shows how the primary components are connected. Table 2-1 lists and describes the connectors. Table 2-1.
Principles of Operation Figure 2-1.
Principles of Operation Overview of Printer Mechanism Operation The model 5ClO printer mechanism is a serial, impact, dot matrix printer mechanism that prints at 180 dots per inch (dpi) in both the horizontal and vertical directions. Figure 2-2 is a block diagram of the printer mechanism. Figure 2-2.
Principles of Operation Sensors The printer mechanism contains the following sensors: l Paper end (PE) sensor l Home position (HP) sensor l Thermal sensor Paper end sensor The paper end sensor switch goes on when the paper runs out. One switch detects when the paper is out for both the rear and bottom paper slots. Figure 2-3 illustrates the paper end sensor. Paper out --t on + LOW level Paper present -+ off + HIGH level Figure 2-3.
Principles of Operation Home position sensor The home position sensor switch is on when the carriage is at the home position. This sensor determines the reference position for the carriage drive. Figure 2-4 illustrates the home position sensor. Home position + on + LOW level Other position + off + HIGH level Figure 2-4. Home Position Sensor Thermal sensor The thermal sensor in the printhead monitors the printhead’s temperature.
Motors The LQ-200/AP3000 has the following motors: l Carriage motor (stepper motor) l Paper feed motor (stepper motor) Carriage motor The carriage motor moves the carriage right and left along the platen. It is a fourphase, 48-step motor that uses either 1-2 or 2-2 phase excitation. An open loop system controls the carriage motor. Paper feed motor A four-phase, 48-step motor feeds paper. It advances the paper 1/180th of an inch for each step (phase switch), using 2-2 phase excitation.
Principles of Operation Circuit Overview Figure 2-7 is a block diagram of the printer’s circuitry. Figure 2-7.
Principles of Operation Firmware Overview The printer uses a µPD7810HG CPU with 64KB of address space. Figure 2-8 shows a memory map of the address space. Figure 2-8. Memory Map (64 KB.
Principles of Operation Principles of Operation This section describes the operation of the printer’s components, including the power supply circuit, the reset circuit, the carriage mechanism, the paper feed mechanism, and the printhead. Power Supply Circuit This section describes how the power supply circuit operates. Power supply circuit block diagram 120 VAC is applied through the filter circuit to the step down transformer, which generates 26 VAC.
Principles of Operation Figure 2-9. Power Supply Circuit Block Diagram Table 2-2.
Principles of Operation Chopper-type switching regulator circuit The power supply circuit includes a chopper-type switching regulator. The step down circuit operates as follows: Figure 2-10. Step Down Circuit Figure 2-10 shows the chopper-type step down switching regulator circuit. When the transistor is on, voltage Vi is applied to coil L and capacitor C. Load current I1 flows and electromagnetic energy Wl accumulates in choke coil L.
Principles of Operation Thus, Vo can be held constant by controlling Ton. Figure 2-11 shows the step down timing. Figure 2-11.
Principles of Operation Filter circuit The AC line voltage passes through the power switch and is input to the filter circuit. The PEBFIL-II board includes a fuse, Fl. The filter circuit attenuates external noise and inhibits the noise generated in the printer from propagating through the AC line. Cl or C2 drains leakage current between the primary coil and the case. Figure 2-12 shows the filter circuit. Figure 2-12.
Principles of Operation Transformer The 120 VAC that passes through the filter circuit is transformed into 26 VAC and supplied to the main board. Figure 2-13 is a schematic drawing of the power transformer.
Principles of Operation Rectifier and smoothing circuit Diode bridge DB1 full wave rectifies the 26 VAC from the transformer’s secondary coil. Then smoothing capacitor C40 converts the 26 VAC into approximately 36 VDC. The +24 and +5 VDC voltages are converted from this DC voltage. The DC voltage is used as the power supply voltage for the switching regulator circuit at the next stage. Figure 2-14.
Principles of Operation +5 VDC regulator circuit An NJM2355 switching regulator circuit is used for constant-frequency pulse width modulation. The rectifier and smoothing circuit employs an NJM2355 circuit configured as a chopper-type switching regulator circuit. Figure 2-15 illustrates the +5 VDC regulator circuit. Figure2-15.
Principles of Operation The +5 VDC regulator circuit has a built-in oscillator. External components connected to pins 2 and 3 determine the oscillation frequency. R105 and C34 cause the circuit to oscillate at about 30 KHz. Figure 2-16 shows the oscillator waveform. Figure 2-16. Oscillator Waveform AMP1 in the +5 VDC regulator circuit is an error amplifier that monitors the output voltage. Figure 2-17 shows the constant voltage control circuit.
Principles of Operation Figure 2-18 shows the output from AMP1. When the voltage at pin 4 becomes higher than that at pin 5 (over-voltage), pulse width modulation modulates the AMP1 output current and reduces the circuit’s output voltage. R108 and C35 compensate for phase lag in the error amplifier, preventing abnormal oscillation. (The next section describes pulse width modulation.) Figure 2-18.
Principles of Operation Pulse width modulation circuit This section describes how the pulse width modulation (PWM) comparator operates. Figure 2-19 shows the internal circuitry of the NJM2355 integrated circuit. In circuit 1, the output from AMP1 flows into the negative terminal of PWM comparator 1. In circuit 2, the outputs from AMP2 and AMP3 flow into the negative terminal of PWM comparator 2 without wired OR. The dead-time control voltage is input to additional negative terminals of both comparators.
Principles of Operation As shown in Figure 2-20, the dead-time control voltage controls the potential at the NJM2355 circuit when it is lower than the preset voltage or current value. When it exceeds the preset voltage, the error amplifier lowers it below the preset voltage. Figure 2-20.
Principles of Operation +24 VDC regulator circuit The +24 VDC regulator circuit has approximately the same function and employs the same oscillation circuit as the +5 VDC regulator circuit. In the +24 VDC regulator circuit, error amplifier AMP2 is used for over-current control and AMP3 is used for constant voltage control. Figure 2-21 shows the +24 VDC regulator circuit. Figure 2-21.
Principles of Operation Error amplifier AMP3 operates as follows. The negative terminal of AMP 3 receives Vref (5 V) and the voltage applied to the positive terminal is adjusted to 5 V. As shown in Figure 2-22, the output voltage is: ~(Rl14+R115) = 2 4z Jhms (9.1 K ohms + 2.4K ohms) = 23.96 V Figure 2-22. Constant Voltage Control (+24 KDC) AMP 2 controls over current as follows. +24 V is applied to the negative terminal.
Principles of Operation If the current exceeds this value, over-current protection goes on to reduce the output voltage. Figure 2-23 illustrates over-current protection. Because pin 3 of IC1 is grounded, dead time does not apply in this case. Figure 2-23.
Principles of Operation Vx voltage supply circuit When the +24 V power supply line reaches 18.6 V (18 V + 0.6 V), transistors Q25 and Q26 go on and Vx (+5 v) is output. If the +24 V power supply line drops below 18.6 V, Q25 and Q26 go off and the Vx voltage is extinguished. The Vx voltage prevents abnormal operation when you turn the printer on or off. When you turn the printer on or off: l l l The Vx voltage circuitry is reset and does not drive the printer until the power supply stabilizes.
Principles of Operation Reset Circuit The reset circuit sends the -RESET signal to the -RESET terminal of CPU µPD7810HG (4B). The -RESET signal acts as a hardware initialization signal. Figure 2-25 shows the reset circuit. The reset circuit outputs the -RESET signal when any of the following occur: l You turn the printer on or off. 0 The host interface or an optional interface inputs the -INIT signal. Figure 2-25.
Principles of Operation Power on or off D14, R69, and C26, shown in Figure 2-25, comprise an on/off reset circuit. This circuit causes the CPU to begin operation from address 0000H when you turn on the, power and it prevents CPU malfunctions when you turn off the power. The rising edge of the Vx voltage cancels the -RESET signal following a constanttime delay (R69 x C26) produced by the gate array, resistor R69, and capacitor C26.
Principles of Operation ROM cartridge installation and removal Figure 2-27 shows the -RESET pulse generation process after you install a ROM cartridge. A LOW signal flows into the -CAR terminal of the gate array (6C, the -DISC terminal (1) outputs a LOW signal, and the -Rout terminal (2) outputs a -RESET signal. As the -DISC terminal goes LOW, capacitor C26 discharges at a time constant of R70 x C26 (3).
Principles of Operation Figure 2-28 shows the -RESET pulse oscillation process after you remove a ROM cartridge. The -CAR terminal of the gate array (6C) receives a HIGH signal, the -DISC terminal outputs a LOW signal (1), and the -Rout terminal outputs a -RESET signal (2). The rest of the process is similar to what occurs after ROM cartridge installation. See the description above. Figure 2-28.
Principles of Operation Address Decoder and Bank Register This section describes the address decoder and bank register. Address decoder The address decoder in gate array E01A05 (6C) outputs a chip select signal to the internal PROM (3C), 4MCG (5C), 1MCG (2C), RAM (2C), and HEAD gate array (7A) via address lines AB12 through AB15 and bank lines 7 and 6 in the gate array. The chip select for -CS is generated with the -RD signal and the chip select for the RAM is generated with the -ALE signal.
Principles of Operation Carriage Operation This section describes the carriage. Carriage mechanism The carriage mechanism includes the printhead, the carriage, the timing belt, the carriage motor, and the platen. Figure 2-29 shows the carriage mechanism. The timing belt is connected to the bottom of the carriage. It is driven by the carriage motor and moved via the belt-driven pulley. The printhead is mounted on the carriage. The entire unit moves right and left along the guide shaft and guide plate.
Principles of Operation Carriage motor specifications Drive Voltage Coil Resistance Current 4-phase, 48pole stepper motor 24 V f 10% 21 ohms f 7% at 77O F (25’ C) 0.34 A, maximum (rush current) 0.3 A, typical (triple speed, 24 VI Driving: 0.23 A, typical (double speed, 1.5 speed, normal speed, 24 VI 0.17 A f 20% Holding: Carriage motor drive circuit block diagram Figure 2-30 is a block diagram of the carriage motor drive circuit. The CPU does not directly execute phase switching for the carriage motor.
Principles of Operation Gate array E0lA05 in the carriage motor drive circuit Gate array E0lA05 (6C) implements phase switching for the carriage motor, which is a stepper motor. The gate array first sets the excitation type (2-2 or 1-2 phase) and rotation direction (clockwise or counterclockwise). When the CPU outputs a pulse to the gate array’s TM terminal, the gate array executes auto phase switching, which drives the stepper motor. Figure 2-31 shows this process. Figure 2-31.
Principles of Operation Carriage motor drive circuit The LQ-200/AP3000 includes an STK-6981B, a hybrid integrated circuit used to drive stepper motors. The STK-6981B (ICSC) circuit drives the stepper motor under a constant current. An external voltage level determines the value of the current. STK-6981B operation is divided into equivalent phases AB and CD. This section describes phase CD. Figure 2-32 shows the carriage motor drive circuit. Figure 2-33 shows the STK-6981B circuit diagram. Figure 2-32.
Principles of Operation Figure 2-33. STK-6981B Circuit Diagram Note: Phase AB is equivalent to phase CD, which is shown in the figure above.
Principles of Operation Reference voltage generation circuit Figure 2-34 shows the reference voltage generation circuit. Table 2-3 shows the reference voltages. Figure 2-34. Reference Voltage Generation Circuit Table 2-3. Reference Voltages 1 L LQ-200/AP3000 1 H 1 0.
Principles of Operation Constant current drive circuit The carriage motor drive current is given by the following equation: When the carriage stops, CPU port PB5 is set to HIGH, the input to the chopping circuit becomes 0 V, and current is applied from the +5 V line to the motor via resistance Rl and diode Dl. This current is given by the following equation: Figure 2-35 shows the constant current control circuit. Table 2-4 lists the current values for the reference voltages. Figure 2-35.
Principles of Operation Table 2-4. Current Values for Reference Voltages Positive feedback through R9 generates a hysteresis in the comparator of ICl. The upper limit of the hysteresis is the reference voltage. The comparator works like a Schmitt trigger, sensing a difference when the inverse terminal feedback is slightly larger or smaller than the hysteresis level. The comparator in ICl compares reference voltage a! and the feedback voltage.
Principles of Operation Figure 2-37. Schmitt Trigger Circuit Carriage motor software control This section describes the carriage motor software control. Excitation type Firmware determines the excitation. As shown in Table 2-5, the excitation is executed according to the carriage speed. Tables 2-6 and 2-7 show the motor drive sequence for each excitation system. Table 2-5.
Principles of Operation Table 2-6. Drive Sequence 2-2 Phase Excitation) Table 2-7.
Principles of Operation The stepper that controls the carriage can hold the carriage at any position and freely switch its direction. An open loop system controls the carriage motor and switches the phase according to the set speed. The drive chopping current is switched at the carriage motor drive frequency. Figure 2-38 shows the relationship between drive speeds and switching current values. Figure 2-38.
Principles of Operation Home position seek The home position seek function causes the carriage to move to the home position when the power goes on. Figure 2-39 shows how the home position seek function operates. When power is first applied, the printer executes 2-2 phase excitation for 20 or 30 ms (regardless of the phase switch setting). Meanwhile, the printer checks the -HOME signal to determine whether the starting position is 1 or 2.
Principles of Operation Printing area The printing area starts 22 phase switches from the home position. Figure 2-40. Printing Area and Print Timing Abnormal carriage operation The LQ-200/AP3000 does not have a print timing signal PTS) sensor and cannot detect abnormal carriage operation. Therefore, an error does not occur if external forces hinder carriage movement. An error occurs only if the printer receives the -HOME signal in the printing area. If this occurs, the carriage stops.
Principles of Operation Paper Feeding This section describes how the printer feeds paper. Paper feed mechanism The LQ-200/AP3000 friction feeds single sheet paper and sprocket feeds continuous paper. The printer cover and the spring force of the two paper feed rollers hold the paper against the platen. To release the paper, move the paper release lever forward. Friction feeding The paper feed motor rotates the platen gear, via the paper feed reduction gear, in the direction shown in Figure 2-41.
Principles of Operation Sprocket feeding You place the holes in the paper over the sprocket pins on the sprocket wheel. The paper feed motor rotates the gears, via the pinion on the shaft of the motor, in the direction shown in Figure 2-42. The gear rotation causes the sprocket wheels to rotate and advances the paper in the direction shown in Figure 2-42. Figure 2-42.
Principles of Operation Paper feed motor specifications Drive Voltage Coil Resistance Phase Excitation Current Driving Frequency 4-phase, 48pole stepper motor 24 VDC + 10% 58 ohms f 7% at 77O F (25O C) 2-2 phase excitation 1.1 A, maximum (rush current) 0.30 A, typical Driving: 0.06 A 5 20 mA Holding: 400 pulses per second Paper feed motor drive circuit Figure 2-43 shows the paper feed motor drive circuit. When the paper feed signal PB2 goes LOW, Q27 goes on and supplies +24 V to the motor.
Principles of Operation Paper feed motor software control The paper feed motor is a 48-pole stepper motor. An open loop system controls the paper feed motor under 2-2 phase excitation. The motor feeds paper 1/180th of an inch for each step. Table 2-8 shows the paper feed motor excitation system when the motor is driven clockwise for forward paper feeding. Table 2-8. Excitation Sequence (Clockwise for Forward Paper Feeding) Note: If the paper feed motor is driven counterclockwise, it feeds paper backward.
Principles of Operation Printhead This section describes how the printhead operates. Printing This section describes how a dot wire prints. Figure 2-45 illustrates the printing operation. When the printing process begins, the actuating plate is engaged to the dot wire. When the dot wire’s head driving coil is energized, the actuating plate is attracted to the iron core. This drives the dot wire toward the platen. The dot wire strikes the ribbon and the paper against the platen, printing a dot.
Principles of Operation Printhead specifications Solenoids Wire Diameter Pin Arrangement Drive Voltage Coil Resistance 24 solenoids 0.008 inch (0.20 mm) 12 x 2, staggered 24 VDC f 10% 19.1 k 1.0 ohms at 77O F (25O C) Printhead drive circuit block diagram Gate array E05A02 is used as an 8-bit x 3 data latch. By monitoring the printhead drive power (+24 V line), the CPU determines the pulse width for the head wire drive pulses from gate array E05A02.
Principles of Operation Gate array E05A02 in the printhead drive circuit The E05A02 gate array includes circuitry to interface the CPU and the printhead. This general purpose gate array has special commands that lighten the CPU’s load during printhead data output. Figure 2-47 is a block diagram of gate array E05A02. Gate array operation centers around the three 8-bit data latches. The gate array also supports functions (commands) that can efficiently write data to any of the data latch bits. Figure 2-47.
Principles of Operation Printhead drive circuit CPU port PC6 adjusts the drive pulse width. The Vx voltage pulls up the output signals from the gate array to prevent printhead malfunctions. Figure 2-48.
Principles of Operation Printhead software control At 960 pps, one print cycle is performed at each phase switch step to meet the printhead’s specifications. (The printhead’s solenoid drive frequency is 960 Hz). The drive pulse width is adjusted using an A/D converter to detect the drive voltage. The drive pulse width is kept within the range indicated by the oblique lines in Figure 2-50. Figure 2-49. Print Timing Drive Voltage(V) Figure 2-50.
Principles of Operation A/D Converter Circuit Figure 2-51 shows the A/D converter circuit. The converter has the following functions: l Monitors the +24 V line to determine the drive pulse width for the printhead. l Monitors the temperature (the resistance) of the printhead. l Reads the initial DIP switch settings. l Reads the bidirectional adjustment setting. Shunt regulator TL431CLPB and resistors R37 and R55 regulate reference voltage Vref as follows: Vref = g (R55+R37) = 4.
Principles of Operation Figure 2-51.
Principles of Operation Table 2-9 shows the relationship between the scan lines and the DIP switches.
Principles of Operation Host Interface Figure 2-52 shows the host interface circuit. -STROBE pulses from the host computer pass through the low-pass filter formed by R32 and C21 and then flow into the -STRB terminal. These pulses latch the parallel data and set the BUSY signal HIGH, inhibiting subsequent data transfer. The -STROBE signal automatically outputs the gate array’s -PINT terminal to request a CPU interrupt. When the CPU receives the interrupt request, it reads the data latched in the gate array.
Principles of Operation Ribbon Feed Mechanism The ribbon feed mechanism consists of the ribbon cartridge and the ribbon feed section. Table 2-10 describes the ribbon feed gear train. Regardless of the timing belt direction, the gear train setup assures that the ribbon driving gear rotates only counterclockwise. Table 2-10. Ribbon Feed Gear Train Figure 2-53 shows the ribbon feed mechanism. The ink ribbon is an endless loop partly contained in the cartridge case.
Principles of Operation Figure 2-53.
Chapter 3 Disassembly and Assembly General Repair Information ................................................................. 3-1 Tools ........................................................................................... 3-2 Small Parts ................................................................................ 3-3 Service Checklist ................................................................................... 3-5 Disassembly and Assembly .................................................
Figure 3-19. Figure 3-20. Figure 3-21. Figure Figure Figure Figure Figure Figure Figure Figure Figure Figure Figure 3-22. 3-23. 3-24. 3-25. 3-26. 3-27. 3-28. 3-29. 3-30. 3-31. 3-32. Assembling the Platen Unit..................................... Bottom of the Printer Mechanism ........................... Removing the Carriage Guide Shaft Ground Plate ..................................................... Removing the Carriage Guide Shaft.. ...................... Removing the Carriage Guide Plate.. ........
Disassembly and Assembly 3 General Repair Information This chapter describes how to disassemble and assemble the printer’s main components. WARNING l l I Always disconnect the AC power cord before you disassemble or assemble the printer. When you disassemble or assemble the printer, wear gloves so that you do not cut your hands on the printer mechanism or the edge of a plate, such as the ground plate.
Disassembly and Assembly Tools Tables 3-1 and 3-2 list tools and measuring instruments you need when you disassemble, assemble, or repair the printer. Table 3-1.
Disassembly and Assembly Table 3-2. Measuring Instruments For optimal printer performance, always perform the necessary lubrication, adhesive application, cleaning, and maintenance procedures after you assemble and adjust the printer. (Chapter 4 describes adjustment procedures and Chapter 6 provides maintenance instructions.) Small Parts Table 3-3 lists the abbreviations this manual uses for small parts.
Disassembly and Assembly Table 3-4 shows the screw shapes and names. Table 3-4.
Disassembly and Assembly Service Checklist Before you deliver the printer, check the table below to ensure that you repaired it properly. The table is designed to help you maintain service quality standards. Table 3-5.
Disassembly and Assembly Disassembly and Assembly This chapter describes how to disassemble the printer. To assemble the printer, follow the disassembly steps in reverse. Special assembly notes describe any extra information you need to assemble the printer. Adjustment required notes describe any adjustments that are necessary. WARNING Before you disassemble the printer, read the section on general repair information at the beginning of this chapter.
Disassembly and Assembly Removing the Printhead 1. Make sure that you have removed the paper and the ribbon cartridge. Then remove the printer cover. 2. Unlock (pull down) the two levers that secure the printhead to the carriage. Then lift up and remove the printhead. Figure 3-1. Removing the Printhead 3. Disconnect the head cable from the connector on the printhead.
Disassembly and Assembly Removing the Case This section describes how to remove the upper case and the control panel. Removing the upper case 1. Remove the printer cover and the paper guide. 2. Remove the pull tractor assembly. 3. Insert a standard screwdriver into each of the two holes at the front of the lower case and push to unlock each notch. Then lift up the upper case. Figure 3-2.
Disassembly and Assembly 4. While lifting up the upper case, disconnect the control panel’s flexible flat cable (FFC) from connector CN4 on the CO64 MAIN board. Then remove the upper case. Figure 3-3.
Disassembly and Assembly Removing the control panel 1. Remove the upper case as described earlier in this chapter. 2. Turn the upper case upside down and push in the two notches that secure the control panel to the upper case. Then remove the control panel from the upper case. CAUTION When you install and remove the control panel, be careful not to damage the FFC on the control panel with the FFC guide on the upper case. Figure 3-4.
Disassembly and Assembly Removing the Circuit Boards This section describes how to remove the C064 MAIN board, the PEBFIL-II board, and the transformer. Removing the C064 MAIN board 1. Remove the upper case as described earlier in this chapter. 2. Disconnect connectors CN5, CN6, CN7, CN8, CN9, and CN10 on the C064 MAIN board. (These connectors connect the printer’s main components to the CO64 MAIN board.) CAUTION To disconnect the connectors, pull them out slowly and gently while holding the board.
Disassembly and Assembly 5. Using a screwdriver, loosen the six bent tabs on the lower case. (These tabs secure the board to the case.) Then remove the CO64 MAIN board. CAUTION When you remove the CO64 MAIN board from the lower case, do not bend the tabs too much. When you push the tabs, be careful not to break them or damage any of the board’s components. Removing the PEBFIL-II board 1. Remove the upper case as described earlier in this chapter. 2. Disconnect connector CN1 on the PEBFIL-II board.
Disassembly and Assembly Removing the transformer 1. Remove the upper case as described earlier in this chapter. 2. Disconnect connector CNl on the PEBFIL-II board. (CNl connects the transformer to the PEBFIL-II board.) 3. Disconnect connector CNlO on the CO64 MAIN board. (CNlO connects the transformer to the CO64 MAIN board.) 4. Remove the CB(0) (M4 x 8) screw that secures the transformer ground terminal. 5.
Disassembly and Assembly Removing the Printer Mechanism This section describes how to remove the platen unit, the paper guide, and the printer mechanism. You remove the platen unit and the paper guide to facilitate removing the printer mechanism. Figure 3-8.
Disassembly and Assembly Removing the platen unit and the paper guide 1. Remove the upper case as described earlier in this chapter. 2. Remove the ground spring hook under the paper feed motor at the right side of the platen unit. Then remove the spring from the platen unit. 3. Turn the shaft holders at the left and right sides of the platen unit as shown in Figure 3-9. Then lift the platen unit to remove it. Figure 3-9. Removing the Platen Unit 4.
Disassembly and Assembly 5. Facing the back of the printer mechanism, unlock the two paper guide notches by pushing them toward the front of the printer. Then remove the paper guide. Notches Figure 3-10. Back of the Printer Mechanism Assembly Notes l l 3-16 Connect the end of the paper end sensor arm to the bottom paper end lever. To install the ground spring, first attach it to the hook at the front and insert it into the platen shaft. Then attach it to the hook near the paper feed motor.
Disassembly and Assembly Figure 3-11. Paper-End Sensor Arm Adjustment Required If any problems (such as non-uniform print density) occur after you install or replace the platen unit, adjust the platen gap as described in Chapter 4. Removing the printer mechanism 1. Remove the platen unit and the paper guide as described in the preceding section. 2. Disconnect the cables from connectors CN5, CN6, CN7, and CN8 on the C064 MAIN board. (See Figure 3-5.) 3.
Disassembly and Assembly CAUTION When you loosen the tabs, push them gently to avoid damaging the lower case or the printer mechanism. a. Loosen tabs 1 and 2. Then lift the left side of the frame about a half inch (1 cm) up from the lower case. b. Loosen tab 3. Then lift the frame’s left side up another 2 inches (5 cm). C. Slide the printer mechanism in the direction indicated by the arrow in Figure 3-12 and remove it from tabs 4 and 5. Use tab 6 as a fulcrum. Figure 3-12.
Disassembly and Assembly Disassembling the Printer Mechanism This section describes how to remove the components from the printer mechanism. When you follow the instructions in this section, see Figure A-7, the exploded diagram of the printer mechanism, and Table A-2, the component list. Removing the paper feed mechanism 1. Remove the printer mechanism as described earlier in this chapter. 2. The paper release lever’s notch is inside the frame. Push the notch and remove the paper release lever.
Disassembly and Assembly 3. Push the paper feed roller shaft downward and slide it approximately an inch (2 cm) to the left. Then lift it up and remove it. Figure 3-14.
Disassembly and Assembly 4. Use a screwdriver to loosen the two tabs that secure the paper guide plate and the paper guide spacer to the frame. Push the tabs out from the frame.) Then lift up and remove the paper guide plate and spacer. Figure 3-15.
Disassembly and Assembly Assembly Note Figure 3-16 shows the direction in which to install the paper guide plate and spacer. Figure 3-16.
Disassembly and Assembly Removing the paper feed motor 1. Remove the printer mechanism as described earlier in this chapter. 2. Disconnect the motor cable from the paper feed motor. 3. Loosen the tab that secures the paper feed motor to the frame by pushing it in with a screwdriver. To remove the paper feed motor, rotate it in the direction shown by the arrow in Figure 3-17. Use point A as the fulcrum. Figure 3-17.
Disassembly and Assembly Removing the paper end sensor 1. Remove the platen unit and the paper guide as described earlier in this chapter. 2. Loosen the tab that secures the paper end sensor to the paper guide. To remove the paper end sensor, rotate it in the direction shown by the arrow in Figure 3-18. Use point A as the fulcrum. Notch Figure 3-18. Removing the Paper End Sensor Disassembling the platen unit 1. Remove the platen unit as described earlier in this chapter. 2.
Disassembly and Assembly Assembly Notes l l When you assemble the platen unit, see Figure 3-19 to ensure that you install the flat spring and the shaft holder properly and that the gap between the platen and the platen gear is the correct size. When you attach the ground spring to the platen unit, engage the long hook first and then the short hook. Figure 3-19.
Disassembly and Assembly Removing the carriage unit 1. Remove the printer mechanism as described earlier in this chapter. 2. Remove the printhead as described earlier in this chapter. 3. Turn the printer mechanism upside down. Then manually move the carriage unit to the cutout in the carriage motor frame. (Move the carriage unit until you see the carriage unit and the timing belt join through the cutout.) Figure 3-20. Bottom of the Printer Mechanism 4.
Disassembly and Assembly 5. Lift portion A (in Figure 3-21) of the carriage guide shaft ground plate and remove it frorn the notch in the carriage motor frame. Slide the plate so that you can remove it from the frame through the plate cutout at B. Figure 3-21. Removing the Carriage Guide Shaft Ground Plate 6. Turn the printer mechanism right side up. Rotate the left carriage guide shaft lever fully counterclockwise and pull it out through cutout A.
Disassembly and Assembly 7. Push the notch that secures the carriage guide plate to the frame. Then slide the carriage guide plate to the left and remove it. Figure 3-23. Removing the Carriage Guide Plate 8. 3-28 Lift up and remove the carriage unit, the carriage guide shaft, and the head adjust lever.
Disassembly and Assembly Assembly Notes l Before you install the carriage guide shaft and the head adjust lever, position them as shown in Figure 3-24. Figure 3-24. Carriage Guide Shaft and Head Adjust Lever l l The left carriage guide shaft lever is gray and the right one is black. For each lever, slide the hole onto the corresponding shaft end. When you connect the head cable, be sure to pass it through the FFC guide at the frame correctly.
Disassembly and Assembly Removing the carriage motor 1. Follow steps 1 through 5 of the preceding section on removing the carriage unit. 2. Disconnect the motor cable from the carriage motor. Disconnect the home position sensor’s lead wire from the molded clip at the bottom of the frame. (See Figure 3-25.) 3. Loosen the four tabs that secure the carriage motor frame to the chassis frame. Remove the carriage motor frame. Figure 3-25.
Disassembly and Assembly Remove the belt tension spring from the carriage motor frame. Remove the 0.092 inch (2.3 mm) E-type retaining ring on the carriage motor. Then remove the plain washer, belt pulley flange, belt pulley shaft holder, belt pulley, and timing belt. 4. Figure 3-26. Removing the Carriage Motor To remove the carriage motor, move it in the direction indicated by the arrow in Figure 3-26. 5.
Disassembly and Assembly Removing the home position sensor 1. To remove the carriage motor Came, follow steps 1 through 3 of the preceding section on removing the carriage motor. 2. Push in the notch on the home position sensor and remove the sensor from the carriage motor frame. Figure 3-27.
Disassembly and Assembly Disassembling the ribbon feed mechanism 1. 2. Remove the printer mechanism as described earlier in this chapter. Turn the printer mechanism upside down. Without removing the ribbon gear cover, use a screwdriver to loosen the four bent tabs of the ribbon gear cover slightly. (Do not remove the ribbon gear cover while the printer mechanism is upside down, because the gears will scatter.> Figure 3-28. Removing the Ribbon Gear Cover 3.
Disassembly and Assembly Disassembling the tractor unit 1. Use a screwdriver to loosen the three tabs on the sprocket mounting plate. Remove the side covers. (You can remove the left and right side covers at the same time.) Figure 3-29. Removing a Side Cover 2. Push open the two sprocket gear tabs and remove the sprocket shaft from the sprocket gear. 3. Remove the sprocket transmission gear. Then remove the sprocket mounting plate from the sprocket shaft.
Disassembly and Assembly 4. Use a screwdriver to loosen the sprocket mounting plate tab. Then pull out the sprocket guide shaft. Figure 3-30.
Disassembly and Assembly 5. Pull out the sprocket assembly and paper guide roller from the sprocket shaft and the sprocket guide shaft. The T-shaped notch on the paper guide roller indicates the direction in which to move it along the sprocket shaft. Assembly Note When you assemble the paper guide roller, insert the sprocket shaft from the side with the T-shaped notch. Figure 3-31.
Disassembly and Assembly Assembly Notes When you attach the paper guide roller to the sprocket shaft, move the roller in the same direction in which you removed it. (See Figure 3-32.) Place the sprocket wheels on the sprocket shaft so that their markings are on the left. Align the markings on the two wheels. Figure 3-32.
Chapter 4 Adjustment Adjustment Overview...................................................................... 4-1 Adjusting the Platen Gap ..................................................................... 4-1 Adjusting the Bidirectional Printing Alignment............................. 4-4 VR1 and VR2 Specifications ......................................................... 4-5 Adjustment Procedures ............................................................. 4-6 Draft mode .............................
Adjustment 4 Adjustment Overview This chapter describes adjustment procedures. To ensure proper operation, you need to adjust the printer after you repair or replace any parts. Adjusting the Platen Gap If you rotated or assembled the carriage guide shaft or shaft levers or if printing is abnormal, you need to adjust the gap between the platen and the printhead. Follow these steps: 1. Remove the printer mechanism as described in Chapter 3. 2.
3. Remove the printhead. To remove the ribbon mask, use tweezers to pull it slightly toward the front of the printer and then lift it up. Figure 4-1. Removing the Ribbon Mask 4. Reinstall the printhead. 5. Move the head adjust lever to the second position and move the paper release lever to the tractor position. 6. Manually move the carriage to column 10.
Adjustment 7. Place the gap gauge between the platen and printhead. Using the left and right carriage guide shaft levers, adjust the gap so that the 0.017 inch (0.42 mm) gauge can pass smoothly while the 0.018 inch (0.45 mm) gauge cannot pass at all. Rotate the left carriage guide shaft lever clockwise to widen the platen gap or counterclockwise to close it. Rotate the right carriage guide shaft lever counterclockwise to widen the platen gap or clockwise to close it. Figure 4-2.
Adjustment 8. Adjust the platen gap at the 10th and 70th column positions and at the middle of the platen. When the gaps at all three positions match, the adjustment is complete. Figure 4. Platen Gap Adjustment Positions Adjusting the Bidirectional Printing Alignment If lines or characters are misaligned during bidirectional printing, perform this adjustment. Also perform this adjustment whenever you replace the CO64 MAIN board or the printer mechanism.
Adjustment VR1 and VR2 Specifications Use variable resistors VR1 or VR2 on the C064 MAIN board to perform the bidirectional printing alignment adjustment. Use VR1 in draft mode and VR2 in LQ mode. Tables 4-1 and 4-2 show the specifications for VR1 and VR2. Misalignment usually occurs when the carriage moves from right to left. Table 4-1.
Table 4-2. VR2 Specifications Adjustment Procedures To facilitate adjustment, VR1 and VR2 have standard positions. The standard position is the point at which the variable resistor stops when you turn it counterclockwise. To adjust the alignment, first move VR1 or VR2 to its standard position. Then rotate VR1 or VR2 as described in the following sections. l Select tractor feeding, load continuous paper, and install the ink ribbon. 0 Move the head adjust lever to the second position.
Adjustment Draft mode 1. Turn on the printer while holding down the ON LINE, FORM FEED, and LINE FEED buttons. 2. Press the ON LINE button. 3. Press the LINE FEED button. The printer prints five test patterns. The pattern corresponding to the current value of VR1 is the middle pattern. For example, in Figure 4-5, VR1 equals -4 (pattern 3). Figure 4-5. Draft Mode Test Patterns 4.
Adjustment Table 4-3. Selecting the Best-Aligned Test Pattern 5. Press the ON LINE button to print the pattern you select. 6. Check the alignment of the printed pattern. If it is not satisfactory, return to step 4. 7. To set VR1 for the best-aligned pattern, turn VRl until the buzzer sounds. 8. Turn off the printer. LQ mode The LQ mode adjustment is similar to the draft mode adjustment described above. 1. Turn on the printer while holding down the ON LINE, FORM FEED, and LINE FEED buttons. 2.
Adjustment 3. Press the FORM FEED button. The printer prints five test patterns. The pattern corresponding to the current value of VR2 is the middle pattern. For example, in Figure 4-6, VR2 equals +4 (pattern 3). Figure 4-6. LQ Mode Test Patterns 4. Select the best-aligned pattern as described here: a If the best-aligned pattern is just above the middle pattern, press the FORM FEED button once. If it is the top pattern, press the FORM FEED button twice. (See Table 4-3.
Chapter 5 Troubleshooting Procedure for Troubleshooting the Printer ..................................... Unit Replacement............................................................................ Repair of the Main Board ................................................................ Repair of the Printer Mechanism.................................................... 5-1 5-1 5-10 5-17 Figures Figure 5-1. Figure 5-2. Troubleshooting Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Troubleshooting 5 Procedure for Troubleshooting the Printer Printer problems may produce a variety of symptoms that complicate the task of troubleshooting. However, you can simplify this process by following the procedure outlined in the flowchart below. Figure 5-1. Troubleshooting Procedure Unit Replacement For most problems, it is sufficient for you to determine the difficulty to the unit level.
Table 5-1.
Troubleshooting The Printer Does Not Operate when the Power Switch is Turned On.
Troubleshooting Abnormal Carriage Operation LQ-2OO/AP3000
Troubleshooting Normal Carriage Operation but Incorrect Printing (During Self-Test) LQ-2OO/AP3000 5-5
Troubleshooting Figure 5-2.
Abnormal Paper Feed (but Normal Printing) LQ200/AP3000 5-7
Troubleshooting Abnormal Operation of the Control Panel 5-8 LQ-200/AP3000
Troubleshooting Incorrect Printing in On-line Mode Note: It is assumed that the host computer is operating normally.
Repair of the Main Board This section provides instructions for repairing a defective main board. The section describes various symptoms, likely causes, and checkpoints. Checkpoints refer to proper waveforms, resistance values, and other values that should be checked to evaluate the operation of any potentially bad component. Check these values and take the appropriate action. Table 5-2.
Table 5-2. Repair of the Main Board (cont.
Table 5-2. Repair of the Main Board (cont.
Table 5-2. Repair of the Main Board (cont.
Troubleshooting Table 5-2. Repair of the Main Board (cont.
Table 5-2. Repair of the Main Board (cont.
Troubleshooting Table 5-2. Repair of the Main Board (cont.
Troubleshooting Repair of the Printer Mechanism For detailed procedures for replacing or adjusting parts, refer to Chapter 3, Disassembly and Reassembly, and Chapter 4, Adjustment. If a problem or system recurs after you have attempted to repair the printer, refer to the tables above to find other potential causes. Table 5-3.
Troubleshooting Table 5-3. Repair of the Printer Mechanism (cont.
Troubleshooting Table 5-3. Repair of the Printer Mechanism (cont.
Chapter 6 Maintenance Preventive Maintenance ................................................................. 6-1 Lubrication and Adhesive Application............................................ 6-1 Figures Figure 6-1. Figure 6-2. Correct Adhesive Application .................................. 6-3 LQ-200/AP3000 Lubrication Points ......................... 6-4 Tables Table 6-1. Table 6-2. Table 6-3. LQ-2OO/AP3000 Application of Lubricants and Adhesive.. ................ 6-2 Lubrication Points ........
Maintenance Maintenance 6 Proper maintenance is essential to assure optimal printer performance for the longest possible period and to minimize malfunction frequency. Preventive Maintenance Preventive maintenance includes regular cleaning of the case exterior (using denatured alcohol), as well as occasional vacuuming of the mechanism’s interior to remove dust and paper debris. After cleaning the unit, check that it is adequately lubricated (as described below).
Maintenance Table 6-1. Application of Lubricants and Adhesive E: Epson-exclusive product Table 6-2. Lubrication Points (Refer to Figure 6-2.) Note: Lubrication must be applied during the reassembly process.
Table 6-3. Adhesive Application Point (Refer to Figure 6-l.) Figure 6-1.
Maintenance Figure 6-2.
Appendix Connector Summary........................................................................ Circuit Diagrams ............................................................................. Circuit Board Component Layout ................................................... Exploded Diagrams.......................................................................... Case Outline Drawings....................................................................
Appendix Appendix Connector Summary The figure below illustrates the interconnection of the primary components. Table A-l describes the function and size of the connectors. Figure A-l.
Appendix Table A-l.
Circuit Diagrams Figure A-2.
Appendix Figure A-3.
Appendix Figure A-4.
LQ-200/AP3000 Figure A-5.
Appendix Exploded Diagrams Figure A-6 LQ-200/AP3000 Exploded Diagram LQ-200/AP3000
Appendix Figure A-7.
Appendix A-10 Figure AS.
Table A-2.
Appendix Case Outline Drawings Figure A-9 LQ-200/AP3000 Case Outline Drawing A-12 LQ-2OO/AP3000
Appendix Figure A-10.
Appendix Table A-3.
Appendix Table A-3. Connector CN3 on the C064 MAIN Board (cont.) Table A-4.
Appendix Table AS.
Appendix Table A-6 Connector CN6 on the C064 MAlN Board Table A-7.
Appendix Table A-7. Connector CN7 on the C064 MAlN Board (cont.) Table A-8.
