- Computers & electronics
- Print & Scan
- Print & scan accessories
- Trays & feeders
- Sharp
- MX-LCX3
- Service manual
- 34 Pages
SHARP MX-LCX3 Large Capacity Tray Service Manual
The SHARP MX-LCX3 Large Capacity Tray is a high-capacity paper feed tray that can hold up to 3,000 sheets of paper. This eliminates the need to constantly refill the paper tray, making it ideal for high-volume printing applications. The tray also features a variety of paper handling capabilities, including support for different paper sizes, types, and weights. The MX-LCX3 also has a number of features that help to ensure reliable and efficient paper feeding, including a paper empty detection sensor and a paper jam detection system.
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SERVICE MANUAL CODE: 00ZMXLCX3/S1E DIGITAL FULL COLOR MULTIFUNCTIONAL SYSTEM OPTION LARGE CAPACITY TRAY MODEL MX-LCX3 CONTENTS [1] PRODUCT OUTLINE. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 [2] SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 [3] UNPACKING AND INSTALLATION * For unpacking and installation, refer to the installation manual( [3] ). [4] EXTERNAL VIEWS AND INTERNAL STRUCTURES . . . . . . . . . . . . . . 4-1 [5] OPERATIONAL DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1 [6] DISASSEMBLY AND ASSEMBLY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1 [7] MAINTENANCE. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 [8] ADJUSTMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1 [9] SIMULATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1 [10] SELF DIAG MESSAGE AND TROUBLE CODE . . . . . . . . . . . . . . . . . 10-1 [11] ELECTRICAL SECTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-1 Parts marked with " " are important for maintaining the safety of the set. Be sure to replace these parts with specified ones for maintaining the safety and performance of the set. SHARP CORPORATION This document has been published to be used for after sales service only. The contents are subject to change without notice. CONTENTS [1] PRODUCT OUTLINE. . . . . . . . . . . . . . . . . . . . . . . . 1-1 [2] SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 [3] UNPACKING AND INSTALLATION * For unpacking and installation, refer to the installation manual( [3] ). [4] EXTERNAL VIEWS AND INTERNAL STRUCTURES 1. Motor, clutch, solenoid . . . . . . . . . . . . . . . . . . . . 4-1 2. PWB, sensor, switch, heater . . . . . . . . . . . . . . . . 4-2 [5] OPERATIONAL DESCRIPTION 1. Lift operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1 2. Paper feed operation . . . . . . . . . . . . . . . . . . . . . 5-2 3. Paper empty detection . . . . . . . . . . . . . . . . . . . . 5-3 [6] DISASSEMBLY AND ASSEMBLY 1. Maintenance parts replacement procedures. . . . 6-1 2. Each unit removal . . . . . . . . . . . . . . . . . . . . . . . . 6-1 3. Major parts removal . . . . . . . . . . . . . . . . . . . . . . 6-3 [7] MAINTENANCE 1. Maintenance system table . . . . . . . . . . . . . . . . . 7-1 [8] ADJUSTMENTS 1. List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1 2. Details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1 [9] SIMULATION 1. List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1 2. Details of trouble code . . . . . . . . . . . . . . . . . . . . 9-1 [10] SELF DIAG MESSAGE AND TROUBLE CODE 1. Self diag . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-1 2. Trouble code list . . . . . . . . . . . . . . . . . . . . . . . . 10-2 3. Trouble code details . . . . . . . . . . . . . . . . . . . . . 10-2 [11] ELECTRICAL SECTION 1. Wiring diagram . . . . . . . . . . . . . . . . . . . . . . . . . .11-1 2. Block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . .11-3 3. Circuit diagram . . . . . . . . . . . . . . . . . . . . . . . . . .11-5 MX-LCX3 [1] PRODUCT OUTLINE Service Manual This model is a large capacity paper feed tray installed to the main unit. It stores 3,000 sheets, eliminating troublesome paper supply. MX-LCX3 MX-LCX3 PRODUCT OUTLINE 1 – 1 MX-LCX3 [2] SPECIFICATIONS Service Manual Model Transport reference Heat reserving heater Domestic Overseas Paper capacity Normal paper(64g/m2 ,17 lbs bond) Normal paper(80g/m2 ,21 lbs bond) Paper size/type/weight Paper size detection Paper type setting Changeover by user Changeover by service man (Adjustment of guide and entry of size) Domestic Overseas, Inch series Overseas, AB series Paper size change system Factory setting of paper size Remaining paper detection Up Down Tray lift time Troubleshooting of paper jam Reliability Life Power source Power consumption Dimensions(W×D×H) Occupying area(W×D) Weight Installation/Maintenance Maintenance parts Optional detection Bundled item Table 1:Paper size, type, weight Paper size Thin paper Kind/weight of applicable paper Normal paper Cardboard 1(including gloss paper) Cardboard 2 Envelope A3W A3 B4 A4 A4R B5 B5R A5R 12×18 11×17 8.5×14 8.5×13 8.5×11 8.5×11R 7.25×10.5R 5.5×8.5R 8K * 16K * 16KR Postcard Envelope Special 55-59g/m2 15-16- lbs bond 60-105g/m2 16-28 lbs bond 106-209g/m2 28+-56- lbs bond 210-256g/m2 56-68 lbs bond 75-90g/m2 20-24 lbs bond OHP paper Label paper Tab paper * : Available for products for China only. AB Series Yes Yes Yes Yes Yes Yes No No Yes Yes Yes Yes Yes Yes No No No No No No No No Inch Yes Yes Yes Yes Yes Yes No No Yes Yes Yes Yes Yes Yes No No No No No No No No Large capacity tray Center reference Domestic: Heater kit support Overseas: Service parts support 3500 sheets 3000 sheets Refer to Table 1 Not provided (Manually setting from the control panel of the main unit) Refer to Table 2 Yes (Changeover by manager is allowed) No A3 11x17 A3 Paper empty and 6 steps (100% ,83.3% ,66.7% ,50% ,33.3% ,16.7% ,Paper empty) max. 30 sec. max. 15sec. Can be corrected without separating the unit. MCBJ:Conforms to the main unit MCBF:Conforms to the main unit Conforms to the main unit Supplied from the main unit Normal operation:50.4W Lift up:40.8W 670×570×525mm, 26 3/8 × 22 7/16 × 20 21/32 inch 670×570mm, 26 3/8 × 22 7/16 inch * The rear cabin motor restrictor (10mm) is not included. Approx. 50kg, 110.1 lbs Implemented by service man Paper feed roller Automatic detection Parts for installation Table2:Paper type setting Normal paper Printed paper Recycled paper Letter head Perforated paper Color paper Cardboard 1 Paper type Cardboard 2 Thin paper Label paper OHP Tab paper Envelope Use type 1 to 7 No Yes Yes No No No No No MX-LCX3 SPECIFICATIONS 2 – 1 Yes Yes Yes Yes Yes Yes Yes No No No No No No Yes MX-LCX3 Manual [4] EXTERNAL VIEWS AND INTERNAL Service STRUCTURES 1. Motor, clutch, solenoid 1 Code LPFM Signal name LPFM Name Transport motor Type Brushless motor Parts Function/Operation Drives the paper feed, and the paper transport section. 2 LLM LLM Lift motor Brush motor Lifts or lowers the paper feed table. 3 LPFS LPFS Paper feed solenoid Presses the paper pickup roller onto paper. 4 LTLS LTLS Tray lock solenoid Controls ON/OFF of the tray lock. 5 LTRC LTRC Transport clutch Controls ON/OFF of the transport roller. 6 LPFC LPFC Paper feed clutch Controls ON/OFF of the paper feed roller. 7 LFAN LFAN Separation assist fan No. Brushless motor Assists feeding of paper. Active condition CN-G 5pin → Motor rotation clock 4pin → Sync signal: Normal HIGH 3pin → Enable signal: LOW when rotating CN-B Lifting: 10pin "24V", 15pin "L" Lowering: 10pin "L", 15pin "24V" CN-E 8pin ON: "L" OFF: "24V" CN-D Lock: "L" ("24V" after 0.5sec) Release: "L" ("24V" after 0.5sec) CN-F 15pin ON: "L" OFF: "24V" CN-F 11pin ON: "L" OFF: "24V" CN-D 15, 16pin ON: "L" OFF: "5V" MX-LCX3 EXTERNAL VIEWS AND INTERNAL STRUCTURES 4 – 1 2. PWB, sensor, switch, heater 4 5 3 6 2 1 7 8 9 10 11 12 14 13 15 No. Parts 1 Code LPUD Signal name LPUD Name LCC paper front surface sensor Type Function/Operation Detects paper front surface position 2 LUD LUD Upper limit sensor Detects the paper upper limit position. 3 LPFD LPFD Transport sensor Detects paper transport. 4 LTOD LTOD The main unit connection sensor Detects connection to the main unit. 5 LDSW LDSW Upper open/close switch Detects open/close of the upper door. 6 LLSW LLSW Upper limit switch Protects the paper feed unit from breakage due to lifting the tray too much. 7 LPED LPED Paper presence/empty sensor Detects paper presence/empty on the paper tray. 8 9 A3-LCC PWB LCSW — LCSW A3-LCC PWB unit Cassette detection switch Controls and drives the LCC. The tray insertion is detected. 10 LRE LRE Lift motor encoder The lift motor rotation is detected. 11 LWRSW LWRSW LCC reverse-winding detection switch Detects lift motor reverse-winding 12 LTLD LTLD Tray lock sensor Detects the tray lock 13 LDD LDD Lower limit sensor The lower limit of the tray is detected. 14 15 DOWN SW PWB LTLLED — LTLLED Lowering SW PWB unit Tray LED Shifts the tray to the paper supply position. The tray state is displayed with LED. MX-LCX3 EXTERNAL VIEWS AND INTERNAL STRUCTURES 4 – 2 Active condition CN-C 8pin Paper detected: "L" Paper not detected: "H" CN-E 5pin Upper limit: "H" Other than Upper limit: "L" CN-E 11pin Paper detected: "L" Paper not detected: "H" CN-F 19pin Connected: "L" Not connected: "H" CN-F 4pin 6pin Open: "L" Close: "24V" CN-F 7pin Normal: "24V" Detection: "L" CN-E 2pin Paper present: "L" Paper empty: "H" CN-B 7pin Cassette insertion: "24V" Cassette puling out: "L" CN-C 4pin Pulse CN-B 14pin Normal: "24V" Detection: "L" CN-C 7pin Lock: "H" Release: "L" CN-C 3pin Lower limit: "H" Other than Lower limit: "L" MX-LCX3 [5] OPERATIONAL DESCRIPTION Service Manual 1. Lift operation B. Lowering operation by paper empty detection or pressing the tray SW A. Lifting by insertion of the tray When insertion of the tray is detected, the tray is locked by the tray lock solenoid so that the tray cannot be pulled out. When tray lock is settled by turning ON the tray lock sensor (LTLD), the lift motor is turned ON to lift the tray. When the tray is lifted, the tray LED blinks and stops at the paper feed position (upper limit) by turning ON the upper limit sensor (LUD). When the tray stops at the paper feed position (upper limit), the tray LED turns on. When the paper empty sensor (LPED) turns ON within 1097 pulses of the encoder signal from start of the tray lifting, the lift motor is turned OFF to stop the tray, and the paper feed solenoid (LPFS) is turned ON to lower the pick roller. After that, the lift motor is turned ON again to lift the tray and stop it at the upper limit sensor (LUD) ON position. When the paper empty sensor (LPED) does not turn ON within 1097 pulses, the paper feed solenoid (LPFS) is turned ON with the lift motor ON to lower the pick roller. The lift motor is stopped at the upper limit sensor (LUD) ON position and the paper feed solenoid is turned OFF. Lifting (When LPED turns ON within 1097 pulses during lifting) When the paper empty sensor (LPED) turns OFF with the tray at the paper feed position (upper limit) or when the tray SW (LTLSW) is pressed, the tray is lowered by 542 pulses of the encoder signal and stopped at the paper supply position. When the lower limit sensor (LDD) turns ON before lowering the tray by 542 pulses of the encoder signal, the lift motor is turned OFF to stop the tray. When the tray is moving down, the tray LED blinks. When the tray is stopped at the paper supply position, the tray LED turns OFF. When the tray is stopped at the paper supply position, the tray lock solenoid releases the lock so that the tray can be pulled out. When the tray is lowered with the paper empty sensor (LPED) OFF, the tray remains at the paper supply position and the tray lock is kept released. When the tray is lowered by pressing the tray SW (LTLSW), if the tray is not pulled out from the paper supply position for 90sec, the tray lock solenoid locks the tray. When the tray is locked securely, the lift motor is turned ON to lift the tray. When the tray is lifting, the tray LED blinks. When the upper limit sensor (LUD) is turned ON, the tray stops at the paper feed position (upper limit). When the tray stop at the paper feed position (upper limit), the tray LED turns ON. 200msec Lowering operation (when paper empty is detected) LLM (Lift motor output) LDD (Lower limit sensor) LLM (Lift motor output) LDD (Lower limit sensor) LUD (Upper limit sensor) LUD (Upper limit sensor) LPED (Paper empty detection) LPSL (Solenoid) LPED (Paper empty detection) Within 1097 pulses LTLSW (Tray SW) LRE (Encoder signal) Lifting (When LPED does not turn ON within 1097 pulses during lifting) LLM (Lift motor output) LDD (Lower limit sensor) LUD (Upper limit sensor) LPED (Paper empty detection) LRE (Encoder signal) Lowering operation (when tray SW is pressed) LLM (Lift motor output) LDD (Lower limit sensor) LUD (Upper limit sensor) LPSL (Solenoid) 542 LRE (Encoder signal) LPED (Paper empty detection) 1097 LTLSW (Tray SW) LRE (Encoder signal) MX-LCX3 OPERATIONAL DESCRIPTION 5 – 1 Less than 542 C. Lowering operation by paper supply If the tray is pulled out when it is at the paper supply position, the tray lock solenoid keep the lock released. When the tray is pulled out, the tray LED turns OFF. When the paper front surface sensor (LPUD) is turned ON for 2sec while the tray is pulled out, the lift motor is turned ON to lower the tray. When the paper front surface sensor (LPUD) is turned OFF while the tray is lowered, the lift motor is turned OFF to stop the tray. When the lower limit sensor (LDD) is turned ON while the tray is lowered, the lift motor is turned OFF to stop the tray regardless of the state of the paper front surface sensor (LPUD). Lowering operation (when paper is supplied or when the paper front surface sensor is turned ON) LLM (Lift motor output) LDD (Lower limit sensor) LPUD (Paper front surface sensor) 2 [sec] LRE (Encoder signal) Lowering operation (when paper is supplied or when the lower limit sensor is turned ON) LLM (Lift motor output) LDD (Lower limit sensor) LPUD (Paper front surface sensor) 2 [sec] LRE (Encoder signal) 2. Paper feed operation When the tray is stationary at the paper feed position (upper limit sensor: LUD ON position) and there is paper on the tray, paper feed operation can be performed. Paper feed operation is performed by the transport motor (LPFM), the transport clutch (LTRC), the paper feed clutch (LPFC), and the paper feed solenoid (LPFS) at the following timing. When the transport clutch (LTRC) is turned ON with the transport motor (LPFM) ON (rotating), the transport roller rotates. When the paper feed clutch (LPFC) is turned on under this state, the paper feed roller and the take-up roller rotate. When the paper feed solenoid (LPFS) is turned ON, the take-up roller is pushed down to press paper. Paper feed time chart Paper feed start LPFM (Transport motor) LTD (Transport sensor) LPFS (Paper feed solenoid) Clearance-betweenpapers control timer Clearance-betweenpapers control timer Clearance-betweenpapers control timer Clearance-betweenpapers control timer PIC drop timer PIC drop timer PIC drop timer PIC drop timer Paper feed clutch OFF timer Paper feed clutch OFF timer Paper feed clutch OFF timer Paper feed clutch OFF timer Paper feed clutch OFF timer LPFC (Paper feed clutch) LTRC (Transport clutch) TRC-LCC (Main unit synchronous signal) Preliminary paper feed start First sheet Resist stop Resist stop Resist stop Resist stop Preliminary Preliminary Preliminary Preliminary paper feed start paper feed start paper feed start paper feed start Second sheet Third sheet Fourth sheet Fifth sheet Preliminary paper Preliminary paper Preliminary paper Preliminary paper Preliminary paper feed complete feed complete feed complete feed complete feed complete Paper feed start Paper feed start Paper feed start Paper feed start Paper feed start MX-LCX3 OPERATIONAL DESCRIPTION 5 – 2 1 5 6 7 2 1 2 3 4 5 6 7 3 4 Paper feed roller clutch Take-up roller Paper feed roller Paper feed solenoid Transport clutch Transport motor Lift-up motor 3. Paper empty detection When the tray lifts and stops at the paper feed position and during paper feed operation, paper presence/empty is detected by the paper presence/empty sensor (LPED). When paper empty is detected in the tray during paper feeding, paper feeding is stopped. MX-LCX3 OPERATIONAL DESCRIPTION 5 – 3 MX-LCX3 [6] DISASSEMBLY AND ASSEMBLY Service Manual 1. Maintenance parts replacement procedures 2. Each unit removal A. Paper feed roller 1) Pull out the tray. 2) Remove the screw, and remove the left front cabinet. 3) Open the upper cover, and remove the screws. 4) Remove the upper cabinet. 1) Pull the lever, and open the upper cover. 2) Remove the screw, and remove the sheet. 3) Remove the pawl, and remove the pickup roller and the paper feed roller. 4) Loosen the screw, and remove the paper guide block. 5) Remove the pawl, and remove the reverse roller. A. Paper feed unit MX-LCX3 DISASSEMBLY AND ASSEMBLY 6 – 1 5) Disconnect the connectors. C. Lift drive unit 6) Remove the screws, and remove the paper feed unit. 1) Check that there is no paper, and lower the paper feed table to the lower limit with the main unit simulation mode. 2) Remove the screws, and remove the rear cabinet. 3) Remove the connectors. 4) Remove the screws, and remove the lift drive unit. B. Paper feed tray 1) Pull out the tray. 2) Remove the upper cabinet. (Refer to "A. Paper feed unit") 3) Remove the left front cabinet. (Refer to "A. Paper feed unit") 4) Remove the harness. 5) Remove the screws from the left and right rail sections, and remove the tray unit from the rail. MX-LCX3 DISASSEMBLY AND ASSEMBLY 6 – 2 3. Major parts removal 4) Remove the ring, and remove the pulley. A. Motor (Main) 1) Remove the rear cabinet. (Refer to "2. Each unit removal") 2) Disconnect the connector. 3) Remove the screws, and remove the motor. * Applying grease at maintenance A: Apply MOLYKOTE (BR-2 PLUS) B: Apply FLOIL (G313S) A A B. Lift motor 1) Remove the lift drive unit. (Refer to "2. Each unit removal") 2) Remove the screws, the E-ring, the bearing, and remove the gear unit. B C. Paper feed solenoid 3) 1) Remove the paper feed unit. (Refer to "2. Each unit removal") 2) Remove the cover. 3) Remove the screw, and remove the unit. Remove the screws, and remove the lift motor. Disconnect the connector. MX-LCX3 DISASSEMBLY AND ASSEMBLY 6 – 3 4) Remove the screws, and remove the solenoid. 5) Remove the E-ring, and remove the torque limiter. 1 2 3 4 D. Torque limiter 1) Remove the paper feed unit. (Refer to "2. Each unit removal") 2) Remove the screw, and remove the paper guide block. E. Transport roller 1) Remove the paper feed unit. (Refer to "2. Each unit removal") 2) Loosen the screws, and remove the paper guide block. 3) Remove the rear cover, and disconnect the connector. (Refer to "D. Torque limiter") 4) Remove the screw and the E-ring, and remove the parts. Remove the transport roller. 3) Remove the screws, and remove the rear cover. F. Handling solenoid 4) 1) Check that there is no paper, and lower the paper feed table to the lower limit with the main unit simulation mode. 2) Pull out the tray. 3) Remove the screws. Disconnect the connector. MX-LCX3 DISASSEMBLY AND ASSEMBLY 6 – 4 4) Remove the front cabinet, and disconnect the connector. 4) Disconnect the connector, and remove the harness. Remove the drive frame. 5) Remove the connector and the screw. 5) Remove the clutch unit. Remove the E-ring, and remove the clutch. 6) Remove the screws, and remove the solenoid. 2 3 1 G. Clutch 1) Remove the upper cabinet. 2) Remove the rear cabinet. 3) Remove the left rear cabinet. MX-LCX3 DISASSEMBLY AND ASSEMBLY 6 – 5 [7] MAINTENANCE MX-LCX3 Service Manual 1. Maintenance system table ✕ : Checking (clean, replace or adjust as required) No. Part name When calling { : Cleaning â–² : Replace ∆ : Adjust Main unit maintenance cycle 1 Pick-up roller/each paper feed roller ✕ { 2 Torque limiter ✕ ✕ 3 4 5 6 Each transport rollers Each transport paper guides Each gears Each belts ✕ { ✕ { { ✕ ✕ 7 Each sensors ✕ ✕ ✩ : Lubricate † : Position shift Remarks As a rough guide, these rollers should be replaced when the LCC paper feed counter reaches a value of 100K (Sim22-9) or when one year has elapsed since the start of use. As a rough guide, the torque limiter should be replaced when the LCC paper feed counter reaches a value of 800K (Sim22-9). MX-LCX3 MAINTENANCE 7 – 1 MX-LCX3 [8] ADJUSTMENTS Service Manual Each adjustment item in the adjustment item list is indicated with its JOB number. Perform the adjustment procedures in the sequence of Job numbers from the smallest to the greatest. However, there is no need to perform all the adjustment items. Perform only the necessary adjustments according to the need. Unnecessary adjustments can be omitted. Even in this case, however, the sequence from the smallest to the greatest JOB number must be observed. If the above precaution should be neglected, the adjustment would not complete normally or a trouble may occur. 1. List Job No. ADJ 1 ADJ 2 Adjustment item list Print off-center adjustment Resist amount adjustment ADJ 2A ADJ 2B Change in the resist amount adjustment/deflection amount correction value Adjustment of the print lead edge adjustment Simulation to be used 50-10 51-02 50-05 2. Details [Switching of screen] ADJ 1 Print off-center adjustment 1) Execute SIM.50-10 by the key operation of the machine. Then, the displays shown on the right side appear. 2) The print off-center adjustment value can be set for each tray. 3) Press the [↓] key on the touch panel to select “G:50:LCC”. 4) Then, enter your desired adjustment value with the [10] key. (Default: 50 0 TEST PAPER CENTER OFFSET SETUP G: 50 㨇 㨉 Adjustment range: from 1 to 99) * If the adjustment value is decreased by 1, the main scanning print position is shifted to the front side by 0.1mm. * If the adjustment value is increased by 1, the main scanning print position is shifted to the rear side by 0.1mm. 5) 6) CLOSE SIMULATION NO50-10 When the [EXECUTE] button is pressed, the [EXECUTE] button is highlighted, currently set value is saved into the EEPROM and the RAM, and printing for adjustment pattern image is started. After printing is finished, the [EXECUTE] button returns to the normal display status. A㧦100 㧧 B㧦 50 㧧 MFT BK-MAG C㧦 50 㧧 CS1 D㧦 50 㧧 CS2 E㧦 50 㧧 CS3 F㧦 50 㧧 CS4 G㧦 50 㧧 LCC H㧦 50 㧧 ADU I㧦 1 㧧 MULTICOUNT J㧦 2 㧧 PAPER㧦CS1 K㧦 1 㧧 DUPLEX㧦NO OK EXECUTE Check the adjustment pattern image position. Measure the dimensions of the void area in the adjustment pattern front and rear frame directions, and ensure that they satisfy the conditions shown below. 10 Key EXECUTE EXECUTE Printing is finished A 0 TEST CLOSE SIMULATION NO50-10 PAPER CENTER OFFSET SETUP + 3.0mm A-B = 0 - G: 60 㨇 B If condition of A - B = 0±3.0mm is satisfied, no adjustment is necessary. If it does not satisfy the condition above, execute the procedures shown below. 7) Change the adjustment value. Repeat the steps from 4) to 6) until the condition described in the step 6) is satisfied. 8) After the adjustment is finished, escape from the simulation mode with the reset key. MX-LCX3 ADJUSTMENTS 8 – 1 㨉 A㧦 100 㧧 BK-MAG B㧦 50 㧧 MFT C㧦 50 㧧 CS1 D㧦 50 㧧 CS2 E㧦 50 㧧 CS3 F㧦 50 㧧 CS4 G㧦 50 㧧 LCC H㧦 50 㧧 ADU I㧦 1 㧧 MULTICOUNT J㧦 2 㧧 PAPER㧦CS1 K㧦 1 㧧 DUPLEX㧦NO EXECUTE OK <<Description of items>> Item A B Display item and details BK-MAG MFT C D E F G H I J CS1 CS2 CS3 CS4 LCC ADU MULTI COUNT PAPER K DUPLEX MFT CS1 CS2 CS3 CS4 LCC YES NO Descriptions Main scanning print magnification BK Print off-center adjustment value (manual) Print off-center adjustment value (cassette 1) Print off-center adjustment value (cassette 2) Print off-center adjustment value (cassette 3) Print off-center adjustment value (cassette 4) Print off-center adjustment value (LCC) Print off-center adjustment value (ADU) Number of printed sheets Cassette selection Manual Cassette 1 Cassette 2 Cassette 3 Cassette 4 LCC Double sided print selection Select Not select ADJ 2 Resist amount adjustment 2-A Changing resist amount adjustment/ deflection amount correction value 1) Execute SIM.51-2 by the key operation of the machine. Then, the displays shown on the right side appear. Default 100 50 Writing Yes Yes 1 to 99 1 to 99 1 to 99 1 to 99 1 to 99 1 to 99 1 to 999 50 50 50 50 50 50 1 2 (CS1) Yes Yes Yes Yes Yes Yes No No 1(NO) No 1 to 6 0 to 1 [Switching of screen] 0 TEST REGIST ROLLER ADJUSTMENT ; MANUAL HEAVY PAPER1(L) ; MANUAL OHP1 P: 50 ; MANUAL ENV Q: 50 ; ADU PLAIN PAPER(S) R: 50 ; ADU PLAIN PAPER(L) Then, enter your desired adjustment value with the [10] key. S: 50 ; ADU HEAVY PAPER1(S) (Default: 50 T: 50 ; ADU HEAVY PAPER1(L) U: 50 ; A4LCC V: 50 ; A3LCC(S) W: 50 ; A3LCC(L) X: 50 ; A3LCC HEAVY PAPER‚P(S) Y: 50 ; Select the [ENGIN] button. Press the [↓] key on the touch panel to select “V:50:A3LCC (S)”. V: 50 㨇 㨉 Ajustment range: from 1 to 99) * As the adjustment value is increased, the deflection amount is also increased. As the adjustment value is decreased, the deflection amount is also decreased. (If the adjustment value is changed by “1”, the stop timing is changed by 0.1mm (1.0msec).) 6) CLOSE SIMULATION NO51-02 O: 50 3) 5) 1 2 3 4 5 6 0 1 N: 50 2) 4) Setting range 60 to 140 1 to 99 After the adjustment value is entered, press the [OK] key on the touch panel to save the set value. REGI2 REGI1 A3LCC HEAVY PAPER‚P(L) ENGIN After the adjustment is finished, escape from the simulation mode with the reset key. 㪈㪇 OK Key OK 0 TEST CLOSE SIMULATION NO51-02 REGIST ROLLER ADJUSTMENT V: 60 㨇 REGI1 MX-LCX3 ADJUSTMENTS 8 – 2 㨉 REGI2 N: 50 ; MANUAL HEAVY PAPER1(L) O: 50 ; MANUAL OHP1 P: 50 ; MANUAL ENV Q: 50 ; ADU PLAIN PAPER(S) R: 50 ; ADU PLAIN PAPER(L) S: ; ADU HEAVY PAPER1(S) T: 50 ; ADU HEAVY PAPER1(L) U: 50 ; A4LCC V: 60 ; A3LCC(S) W: 50 ; A3LCC(L) X: 50 ; A3LCC HEAVY PAPER‚P(S) Y: 50 ; A3LCC HEAVY PAPER‚P(L) 50 ENGIN OK <<Setting range and defaults of set values>> Item Button A B C D E F G H I J K L M N O P Q R S T U V W X Y ENGIN Item to be displayed TRAY1(S) TRAY2(S) TRAY3 PLAIN PAPER (S) TRAY3 PLAIN PAPER (L) TRAY3 HEAVY PAPER1 (S) TRAY3 HEAVY PAPER1 (L) TRAY4 PLAIN PAPER (S) TRAY4 PLAIN PAPER (L) TRAY4 HEAVY PAPER1 (S) TRAY4 HEAVY PAPER1 (L) MANUAL PLAIN PAPER (S) MANUAL PLAIN PAPER (L) MANUAL HEAVY PAPER1 (S) MANUAL HEAVY PAPER1 (L) MANUAL OHP1 MANUAL ENV ADU PLAIN PAPER (S) ADU PLAIN PAPER (L) ADU HEAVY PAPER1 (S) ADU HEAVY PAPER1 (L) A4LCC A3LCC (S) A3LCC (L) A3LCC HEAVY PAPER1 (S) A3LCC HEAVY PAPER1 (L) Host machine tray 1, deflection adjustment value (small size) Host machine tray 2, deflection adjustment value (small size) Host machine tray 3, deflection adjustment value (normal paper, small size) Host machine tray 3, deflection adjustment value (normal paper, large size) Host machine tray 3, deflection adjustment value (Cardboard 1, small size) Host machine tray 3, deflection adjustment value (Cardboard 1, large size) Host machine tray 4, deflection adjustment value (Normal paper, small size) Host machine tray 4, deflection adjustment value (Normal paper, large size) Host machine tray 4, deflection adjustment value (Cardboard 1, small size) Host machine tray 4, deflection adjustment value (Cardboard 1, large size) Not more than LT size Not more than LT size Setup range 1 to 99 1 to 99 Not more than LT size 1 to 99 50 Not less than LT size 1 to 99 50 Not more than LT size 1 to 99 50 Not less than LT size 1 to 99 50 Not more than LT size 1 to 99 50 Not less than LT size 1 to 99 50 Not more than LT size 1 to 99 50 Not less than LT size 1 to 99 50 Manual tray, deflection adjustment value (Normal paper, small size) Not more than LT size 1 to 99 50 Manual tray, deflection adjustment value (Normal paper, large size) Not less than LT size 1 to 99 50 Manual tray, deflection adjustment value (Cardboard1, small size) Not more than LT size 1 to 99 50 Manual tray, deflection adjustment value (Cardboard1, large size) Not less than LT size 1 to 99 50 Manual tray, deflection adjustment value (OHP1) Manual tray, deflection adjustment value (Envelope) ADU, deflection adjustment value (normal paper, small size) ADU, deflection adjustment value (normal paper, large size) Not more than LT size Not less than LT size 1 to 99 1 to 99 1 to 99 1 to 99 50 50 50 50 ADU, deflection adjustment value (Cardboard1, small size) Not more than LT size 1 to 99 50 ADU, deflection adjustment value (Cardboard1, large size) Descriptions (Mode, original, paper feeed speed) Feed direction Default 50 50 Not less than LT size 1 to 99 50 A4LCC, deflection adjustment value A3LCC deflection adjustment value (Normal paper, small size) A3LCC deflection adjustment value (Normal paper, large size) Not more than LT size Not less than LT size 1 to 99 1 to 99 1 to 99 50 50 50 A3LCC deflection adjustment value (Cardboard, small size) Not more than LT size 1 to 99 50 A3LCC deflection adjustment value (Cardboard, large size) Not more than LT size 1 to 99 50 <Notation of (Large size), (Small size)> (Small size): Length of paper in the feeding direction is not more than LT size (216mm). (Large size): Length of paper in the feeding direction exceeds LT size (216mm). MX-LCX3 ADJUSTMENTS 8 – 3 2-B Print lead edge adjustment 1) Execute SIM.50-5 by the key operation of the machine. Then, the displays shown on the right side appear. 2) Press the [↓] key on the touch panel to select “E:PAPER”. 3) Then, enter the adjustment value 6 with the [10] key, and press the [OK] button. (Adjustment value 6: LCC) 4) 5) When the [EXECUTE] button is pressed, the [EXECUTE] button is highlighted, and printing for adjustment pattern image is started with the currently set value. After printing is finished, the [EXECUTE] button returns to the normal display status. [Switching of screen] 0 CLOSE SIMULATION NO50-05 TEST LEAD EDGE ADJUSTMENT VALUE(PRINTER) A: [ 30 1 㨪 99 A㧦 30 㧧 B㧦 20 㧧 DEN-B C㧦 20 㧧 FRONT/REAR ] DEN-C D㧦 1 㧧 MULTI COUNT E㧦 2 㧧 PAPER : CS1 F㧦 1 㧧 DUPLEX : NO Check the adjustment pattern image position. Measure the dimensions of the void area in the adjustment pattern right and left frame directions, and ensure that they satisfy the conditions shown below. A EXECUTE OK EXECUTE + 2.0mm A = 4.0 + 2.0mm B = 4.0 - EXECUTE Printing is finished 0 B TEST If condition of A=4.0±2.0mm, B=4.0±2.0mm is satisfied, no adjustment is necessary. If it does not satisfy the condition above, execute the procedures shown below. 6) CLOSE SIMULATION NO50-05 LEAD EDGE ADJUSTMENT VALUE(PRINTER) A: 㨇 1㨪 40 99 㨉 Change the adjustment values of the adjustment items A(DEN-C) and B(DEN-B). A㧦 40 㧧 B㧦 20 㧧 DEN-B C㧦 20 㧧 FRONT/REAR DEN-C D㧦 1 㧧 MULTI COUNT E㧦 2 㧧 PAPER : CS1 F㧦 1 㧧 DUPLEX : NO * As the adjustment value of the item A(DEN-C) is decreased by 1, the print start position is moved to the lead edge side of paper against the paper feed direction by 0.1mm. * As the adjustment value of the item B(DEN-B) is decreased by 1, the print range is increased to the trailing edge side of paper against the paper feed direction by 0.1mm. 7) Repeat the steps from 4) to 6) until the condition shown in the step 5) is satisfied. 8) After the adjustment is finished, escape from the simulation mode with the reset key. MX-LCX3 ADJUSTMENTS 8 – 4 EXECUTE OK <Description of items> Item Display items and details Descriptions Setup range Default Writing A DEN-C Print lead edge adjustment 1 to 99 30 Yes B DEN-B Sub scanning direction print area adjustment 1 to 99 20 Yes C FRONT/REAR FRONT/REAR void amount adjustment 1 to 99 20 Yes D MULTI COUNT Number of printed sheets 1 to 999 1 No 2 (CS1) No 1 (NO) No E PAPER F DUPLEX MFT CS1 CS2 CS3 CS4 LCC YES NO Cassette selection Double-sided print selection Manual 1 Cassette 1 Cassette 2 Cassette 3 Cassette 4 LCC Selected Not selected 1 to 6 0 to 1 1 2 3 4 5 6 0 1 * The item name for the items J and K is detailed display. Example: PAPER: CS1 MX-LCX3 ADJUSTMENTS 8 – 5 Remarks Adjustment value for matching to the print lead edge for printer. As the adjustment value of this item is decreased by 1, the print start position against the paper feeding direction is moved to the leading edge side by 0.1mm. Amount of void to be created at the trailing edge of paper. As the adjustment value of the item B(DENB) is decreased by 1, the sub scanning print range adjustment value is decreased by 0.1mm. Amount of void to be created at the right and left edges of paper. As the value is increased, the void amount is increased. MX-LCX3 [9] SIMULATION Service Manual 1. List Code Main Function (purpose) Sub 2 4 3 15 Purpose Used to check the operations of the sensors and detectors in the large capacity tray (LCC) and the control circuit. Used to check the operations of the loads in the large capacity tray (LCC) and the control circuit. Operation test/Check Operation test/Check 5 Used to check the operations of the clutch (LTRC) in the LCC and the monitor. Operation test/Check - Used to cancel the self-diag "U6-09 (large capacity paper feed tray)" trouble. Clear/cancel (Trouble etc.) 2. Details of trouble code Section Large capacity tray (LCC) Large capacity tray (LCC) Large capacity tray (LCC) LCC 4-3 Operation test/Check Purpose 4 Function (Purpose) Used to check the operations of the loads in the large capacity tray (LCC) and the control circuit. 4-2 Function (Purpose) Used to check the operations of the sensors and detectors in the large capacity tray (LCC) and the control circuit. The operating conditions of the sensors and detectors are displayed. Sensors and detectors which are turned on are highlighted. TEST LCC transport sensor LCC tray upper limit detection LCC tray lower limit detection LCC tray paper empty detection LCC tray insertion detection LCC upper open/close detection SW LCC lift motor encoder detection LCC 24V power monitor LCC upper limit SW LCC paper upper surface detection SW LCC reverse winding detection SW LCC tray lift SW LCC tray lock sensor LCC illegal paper detection SW LCC main unit connection sensor 2) Press [EXECUTE] key. MX-LCX3 LPFM LLM LPFC LPFS LTRC LTLED LTLC LFAN TEST LCC transport motor LCC lift motor LCC paper feed clutch LCC paper feed solenoid LCC transport clutch LCC tray LED lamp LCC tray lock clutch LCC separation auxiliary fan CLOSE SIMULATION NO.04-03 LCC LOAD CHECK LPFM LLM LPFC LPFS LTRC CLOSE SIMULATION NO.04-02 LCC SENSOR CHECK LPFD 1) Select a target of the operation check with the touch panel. When [EXECUTE] is pressed, the operation is stopped. Operation/Procedure <MX-LCX3> LPFD LUD LDD LPED LCD LDSW LRE L24VM LLSW LPUSW LRRSW LTLSW LTLD LIPSW LTOD Operation/Procedure The selected load is operated. Large capacity tray (LCC) Section Large capacity tray (LCC) Section Operation test/Check Purpose LUD LDD LPED LCD LDSW LRE L24VM LLSW LTOD EXECUTE 1/1 MX-LCX3 SIMULATION 9 – 1 1/1 4-5 15 Operation test/Check Purpose Function (Purpose) Used to check the operations of the clutch (LTRC) in the LCC and the monitor. Large capacity tray (LCC) Section 15-Clear/cancel (Trouble etc.) Purpose Function (Purpose) Used to cancel the self-diag "U6-09 F3-12, F3-22(large capacity paper feed tray, paper feed tray1, 2)" trouble. Operation/Procedure 1) Press LTRC key to check the sync signal. When normal: ON When abnormal: OFF LCC Section 2) Press the highlighted LTRC key to check the sync signal. Operation/Procedure When normal: OFF When abnormal: ON 1) Press [EXECUTE] key. 2) Press [YES] key to execute cancellation of the trouble. TEST SIMULATION NO.04-05 CLOSE LCC SYNCRONIZING SIGNAL CHECK LTRC TEST : CLOSE SIMULATION NO.15 LTRC OFF LCC TROUBLE CANCELLATION ARE YOU SURE? 1/1 MX-LCX3 SIMULATION 9 – 2 YES NO EXECUTE Service Manual [10] SELF DIAG MESSAGE AND TROUBLE CODE MX-LCX3 1. Self diag Monitors the machine conditions. A. General When a trouble occurs in the machine or when the life of a consumable part is nearly expired or when the life is expired, the machine detects and displays it on the display section or notifies to the user or the serviceman by voice messages. This allows the user and the serviceman to take the suitable action. In case of a trouble, this feature notifies the occurrence of a trouble and stops the machine to minimize the damage. B. Function and purpose 1) Securing safety. (The machine is stopped on detection of a trouble.) 2) The damage to the machine is minimized. (The machine is stopped on detection of a trouble.) 3) By displaying the trouble content, the trouble position can be quickly identified. (This allows to perform an accurate repair, improving the repair efficiency.) 4) Preliminary warning of running out of consumable parts allows to arrange for new parts in advance of running out. (This avoids stopping of the machine due to running out the a consumable part.) C. Self diag message kinds The self diag messages are classified as shown in the table below. Class 1 User Serviceman Class 2 Other Warning Trouble Other Warning of troubles which can be recovered by the user. (Paper jam, consumable part life expiration, etc.) Warning of troubles which can be recovered only by a serviceman. (Motor trouble, maintenance, etc.) — Warning to the user, not a machine trouble (Preliminary warning of life expiration of a consumable part, etc.) Warning of a machine trouble. The machine is stopped. — D. Self diag operation Detects/analyzes the content. Warning Trouble/Warning Trouble The machine is stopped. The content is displayed. Trouble/Warning Warning Trouble Troubleshoot the cause. Repair Cancel the selfdiagnostic message with the diagnostics (test commands). Reset Standby state (1) Self diag operation The machine always monitors its own state. When the machine recognizes a trouble, it stops the operation and displays the trouble message. A warning message is displayed when a consumable part life is nearly expired or is expired. When a warning message is displayed, the machine may be or may not be stopped. The trouble messages and the warning messages are displayed by the LCD. Some trouble messages are automatically cleared when the trouble is repaired. Some other troubles must be cleared by a simulation. Some warning messages of consumable parts are automatically cleared when the trouble is repaired. Some other warning messages must be cleared by a simulation. MX-LCX3 SELF DIAG MESSAGE AND TROUBLE CODE 10 – 1 A consumable part has reached its lifetime. YES Replace or supply the consumable part. NO 2. Trouble code list MAIN CODE U6 SUB CODE 09 20 21 22 23 24 51 Title (Content) Lift motor trouble Communication trouble Transport motor trouble 24V trouble Tray descending trouble Tray lock trouble LCC incompatibility trouble Section LCC LCC LCC LCC LCC LCC LCC Operation mode Countermeasure (Remedy) When the tray is working LCC communication Paper feed Power ON When the tray is working When the tray is working Power ON Note Check connection. Turn OFF/ON the power. Check connection. Check connection. Check connection. Check connection. Check connection. 3. Trouble code details U6-09 LCC lift motor trouble Trouble content Section Case 1 Cause Check and Remedy U6-20 LCC communication trouble Trouble content Section Case 1 Cause Check and Remedy U6-21 Cause Check and Remedy U6-22 LCC communication error. Communication line test error after turning ON the power or canceling the exclusive simulation. LCC and machine model codes discrepancy error PCU Connector and harness connection trouble or disconnection, LCC control PWB trouble, control (PCU) PWB trouble, malfunction due to electrical noises Turn OFF/ON the power to cancel the trouble. Check the connector and the harness of the communication line. LCC transport motor trouble Trouble content Section Case 1 • The encoder input value is not changed in 0.2sec (1st time)/0.5sec (2nd time and later) after rotation of the motor. • The motor is rotated for 48sec or more. PCU Sensor trouble, LCC control PWB trouble, gear breakage, lift motor trouble Use SIM4-2 and 4-3 to check the operation of the sensor and the lift motor. Use SIM15 to cancel the trouble. After passing 1 sec from turning ON the motor, the lock state of the motor lock signal is detected continuously for 1 sec. PCU Motor lock, motor RPM abnormality, an overcurrent to the motor, LCC control PWB trouble Use SIM4-3 to check the operation of the transport motor. LCC 24V power abnormality Trouble content Section Case 1 Cause Check and Remedy DC24V power is not supplied to LCC. PCU Connector and harness connection trouble or disconnection, LCC control PWB trouble, power unit trouble Check the connector and the harness of the power line. Check that the power unit and the LCC control PWB is of 24V. U6-23 LCC tray descending trouble (reverse winding detection) Trouble content Section Case 1 Cause Check and Remedy Case 2 Cause Check and Remedy Case 3 Cause Check and Remedy U6-24 Case 2 Case 3 Cause Check and Remedy Cause Check and Remedy Cause Check and Remedy U6-51 Reverse winding detection SW-ON, reverse winding detection SW trouble, LCC control PWB trouble Replace the reverse winding SW and the LCC control PWB. Malfunction of the LCC tray lock mechanism is detected. PCU Tray lock mechanism trouble Check the tray lock mechanism. Connector and harness connection trouble Check connection of the connector and the harness. Tray lock detection sensor trouble, LCC control PWB trouble Replace the tray lock detection sensor and the LCC control PWB. LCC incompatibility trouble Trouble content Section Case 1 Connector and harness connection trouble Check connection of the connector and the harness. LCC tray lock detection trouble Trouble content Section Case 1 Reverse winding of the LCC tray wire is detected. PCU Reverse winding of the wire Check the wire. Cause Check and Remedy Detection of LCC connection which is incompatible with the MX-5500N/6200N/7000N series. PCU Connection of the LCC, which is incompatible with the MX-5500N/6200N/7000N series is detected. Connect the MX-LCX3. MX-LCX3 SELF DIAG MESSAGE AND TROUBLE CODE 10 – 2 M E M O MX-LCX3 SELF DIAG MESSAGE AND TROUBLE CODE 10 – 3 MX-LCX3 [11] ELECTRICAL SECTION Service Manual 1. Wiring diagram Main unit Connected to the main body Heater harness ELR-12V 4 AC-L(H) F.G. 5 12 AC-N(H) ELP-12V 4 5 12 ELR-15V 1 N.C. 2 N.C. TXD-LCC 3 4 RXD-LCC /DTR-LCC 5 6 /DSR-LCC RES-LCC 7 F.G. 8 9 +5V GND 10 +24V 11 GND 12 /TRC-LCC 13 N.C. 14 N.C. 15 ELP-15V 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ELP-02V 1 2 MAIN PW ELR-02V 1 2 Heater Safty earth Cassete detection switch LPISW LCD(24V) LCD CN-A PAP-12V-S 1 1 2 2 3 3 4 4 5 5 6 6 77 8 8 9 9 10 10 11 11 12 12 Main unit relay harness A3 PS-187-2V 1 2 3 CN-B <Cassette unit> Reverse-winding detection switch LWRSW +24V ON LWRSW(24V) LLM+ LLM- Lift motor 1 2 Lower limit sensor Paper front surface sensor LTLLED LTLSW +5VR LTLLED LTLSW GND LTLS LFAN1 GND LTLD +5V SMR-03V-N 1 2 3 SMP-03V-NC 1 2 3 179228-3 SMR-04V-N SMP-04V-NC 11 2 2 3 3 4 4 PHNR-09-H 1 2 3 SMR-03V-N SMP-03V-NC 1 1 2 2 3 3 1 2 3 4 5 6 1 2 3 4 55 6 7 8 9 6 5 4 3 2 1 PHNR-09-H 9 8 7 6 4 3 2 1 PHNR-16-H 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 PHNR-16-H 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Cassette unit side harness A3 CD SMP-03V-NC 1 2 3 SMR-03V-N 1 2 3 SMP-03V-NC 1 2 3 SMR-03V-N 1 2 3 Cassette unit front harness A3 CD LFAN2 4 B16B-PHDSS LLSW(24V) GND GND LIPSW(24V) GND LIPSW(24V) LCD(24V) GND GND LLM(+) +24V(PS) GND GND LWRSW(24V) LLM(-) GND CN-C Lowering SW PWB relay harness Tray lock sensor PHR-3 PHNR-06-H LTLD 3 4 55 6 7 88 9 10 11 12 13 14 15 16 17 18 1 2 3 +5V LPUD GND PHR-4 1 2 3 4 2 3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 PHR-9 LRE Lock release PWB SNP-18V-NC 1 2 1 2 3 Lift motor encoder input LPUD ELP-03V 1 2 3 1 PHDR-16VS-2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 PHR-3 +5VR GND LDD LDD SMR-18V-N PS-187-3V 1 2 3 ELR-03V 1 2 3 B12B-PASK N.C. /TRC-LCC RES-LCC /DSR-LCC /DTR-LCC RXD-LCC TXD-LCC GND GND +5V GND +24V 1 2 3 4 5 6 7 8 9 6 7 9 10 11 12 13 14 15 16 17 18 1 2 3 4 5 6 7 8 9 B9B-PH-K-S +5VR GND LDD LRE GND +5VR +5V LPUD GND CN-D SMR-11V-N 1 22 33 44 5 6 7 8 9 10 11 Cassette unit rear harness A3 CD MX-LCX3 ELECTRICAL SECTION 11 – 1 SMP-11V-NC 1 5 6 7 8 9 10 11 Cassette relay harness CD PHDR-18VS-2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 B18B-PHDSS +5VR LTLLED LTLSW GND +5V GND LTLD N.C. 24V-ICP LTLSL N.C. LTLSU 24V 24V LFAN1 LFAN2 GND GND MAIN PWB <Paper feed unit> CN-E +5V /LPED GND GND /LUD +5V +24V LPFS +5V GND /LPFD CN-A 1 2 3 4 5 6 8 9 10 11 12 B12B-PASK N.C. /TRC-LCC RES-LCC /DSR-LCC /DTR-LCC RXD-LCC TXD-LCC GND GND +5V GND +24V B11B-PH-K-S 1 2 3 4 5 6 7 8 9 10 11 SMP-18V-NC 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 PHR-11 1 2 3 4 5 6 7 8 9 10 11 CN-F ICP-N15 CN-B 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 B16B-PHDSS LLSW(24V) GND GND LIPSW(24V) GND LIPSW(24V) LCD(24V) GND GND LLM(+) +24V(PS) GND GND LWRSW(24V) LLM(-) GND B20B-PHDSS 1 +24V(PS) 2 GND GND 3 LDSW(24V) 4 5 GND 6 LDSW(24V) 7 LLSW(24V) 8 GND GND 99 LDSW(24V)-ICP 10 LPFC 11 GND 12 GND 13 LDSW(24V)-ICP 14 15 LTRC GND 16 GND 17 +5VR 18 LTOD 19 GND 20 PHDR-20VS-2 1 2 3 4 5 6 7 8 Paper feed side 10 11 12 13 14 15 16 17 18 19 20 SMR-18V-N 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Paper feed unit harness A3 B9B-PH-K-S +5VR GND LDD LRE GND +5VR +5V LPUD GND SMP-03V-NC 1 2 3 1 1 1 2 2 2 3 3 3 SMP-03V-NC SMR-03V-N SMR-03V-N LPED Tray paper sensor GND /LUD +5V LUD Tray upper limit sensor LPFS SMP-04V-NC 11 22 3 Paper feed solenoid 179228-3 1 +5V 2 /LPFD 3 GND 3 SMR-04V-N LPFD Paper feed sensor Transport sensor relay harness A3 main harness Transport sensor harness A3 CD Transport sensor relay harness A3 CD FPS-187 1 +24V 1 LDSW Upper open/close switch LLSW Upper limit switch LPFC Paper feed clutch LTRC Paper transport clutch LTOD Main unit communication sensor LDSW(24V) PS-187-3V 1 LDSW(24V) 2 NC 3 LLSW(24V) CZHR-03V-S 1 +24V 2 N.C. 3 LPFC CZHR-03V-S 1 +24V 2 N.C. 3 LTRC 179228-3 +5VR 1 LTOD 2 3 GND CN-G B5B-PH-K-S 1 +24V 2 GND 3 LPFM 4 LPFM-T LPFM-CLK 5 PHR-5 1 +24V 2 GND1 3 LPFM 4 LPFM-T 5 LPFM-CLK PHR-5 1 2 3 4 5 CN-D 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 +5V /LPED GND 1 1 2 2 SMP-02V-BC SMR-02V-B CN-C 1 2 3 4 5 6 7 8 9 179228-3 1 2 3 PHR-3 1 2 3 B18B-PHDSS +5VR LTLLED LTLSW GND +5V GND LTLD N.C. 24V-ICP LTLSL N.C. LTLSU 24V 24V LFAN1 LFAN2 GND GND MX-LCX3 ELECTRICAL SECTION 11 – 2 LPFM LCC transport motor 2. Block diagram Main unit RXD-LCC TXD-LCC DSR-LCC Communication buffer circuit DTR-LCC RES-LCC TRC-LCC Input circuit 5V 5V Xtal GND2 7.37MHz +24V 24V GND1 Onboard writing circuit F.G. Communication writing circuit EEPROM DOWN SW PWB LCC tray LED(LTLLED) LED drive circuit LCC tray SW(LTLSW) Sensor input circuit +24V LCC separation auxiliary fan(FAN1) Buffer circuit LCC separation auxiliary fan(FAN2) LDSW(24V)-ICP LCC paper feed clutch(LPFC) IC protector +24V ICP-N15 IC protector ICP-N20 IC protector LCC paper feed clutch(LTRC) LCC tray lock solenoid Lock release(LTLSU) Solenoid clutch drive circuit Lock(LTLSL) LCC paper feed solenoid(LPFS) ICP-N15 A3-LCC P A3-LCC MX-LCX3 ELECTRICAL SECTION 11 – 3 +24V 24V monitor circuit LCC transport motor(LPFM) LCC upper open/close detection switch(LDSW) LDSW(24V)-ICP Poly switch1.1A CPU(H8/3687) Upper door detection monitor circuit LCC upper limit switch(LLSW) Calculating section Upper limit detection monitor circuit LCC illegal paper detection switch(LIPSW) Illegal paper detection monitor circuit LCC cassette detection switch(LCSW) Cassete detection monitor circuit LCC reverse-winding detection switch(LWRSW) Reverse-winding detection monitor circuit Rising circuit Lowering circuit Lift motor drive circuit LCC lift motor(LLM) Current limt circuit LCC paper front surface sensor(LPUD) LCC tary upper limit sensor(LUD) LCC tary lower limit sensor(LDD) LCC tary paper empty sensor(LPED) LCC transport sensor(LPFD) Sensor input circuit LCC main unit connection sensor(LTOD) LCC lift motor encoder sensor(LRE) LCC tray lock sensor(LTLD) C PWB C MX-LCX3 ELECTRICAL SECTION 11 – 4 3. Circuit diagram 7 1 3 5 7 9 11 13 15 GND LIPSW(24V) LIPSW(24V) GND LLM(+) GND LWRSW(24V) GND LLSW(24V) GND GND LCSW:LC7 , LCD:LCX3 GND 24V(PS) GND LLM(-) VD DAN202K R30 10KJ x 3 R31 1SS133 ZD1 CN-B D D13 10KJ TP49 1 3 5 7 9 11 13 15 D8 1SS133 ZD2 RT1N141C R21 10KJ NO ASSEMBLY TP5 HZ16BP Q7 RT1N141C LLM(-) D9 B16B-PHDSS-B DAN202K TP4 HZ16BP 2 4 6 8 10 12 14 16 LLM(+) R20 D12 R32 Q6 D7 5 TP8 R46 10KJ TP9 R47 10KJ TP7 R48 10KJ NO ASSEMBLY R53 1MJ TP50 1SS133 ZD3 R22 10KJ TP6 Q5 RT1N141C HZ16BP IC5 1 2 3 4 TP51 Xin VDD Xout S0 S1 FSOUT LF VSS TP30 3 2 4 6 8 10 12 14 16 6 C15 C16 C17 FS781 1 8 R64 3.3KJ X1 222Z/50V x 3 C30 103Z 2 CSTLS7M37G53 TP29 NO ASSEMBLY 1SS133 15KF TP54 TP58 TP59 +5V +5V R17 TP2 +5V R18 2.4KJ R14 1KJ 4.7KJ OUT1 Vcc -IN1 OUT2 +IN1 -IN2 GND +IN2 8 7 6 5 R15 1KJ Q2 C2 47uF/16V 2SD2162 R12 1KJ E TP55 2SD2162 E R13 1KJ C11 104Z/16V C9 BA10393F TP1 R16 TP14 TP15 1SR153-400 x 2 D6 C10 R11 0.22J(1W) D3 C8 103Z/50V YOBI_1 YOBI_2 LLUM LLDM 100J TP16 TP17 TP10 TP18 TP11 VD 1 2 3 4 10KJ A0 Vcc A1 WP A3 SCL Vss SDA 8 7 6 5 R38 R39 R40 R37 TP12 TP13 4.7KJ 4.7KJ 0J 0J LCSW 17 LWRSW18 YOBI_1 19 N.C._I/O20 N.C._I/O21 YOBI_2 22 LLUM 23 LLDM 24 /LTLSW 25 SDA 26 SCLK 27 N.C._I/O P36 P37 P52/WKP2 P53/WKP3 P54/WKP4 P55/WKP5/ADTRG P10/TMOW P11 P12 P56/SDA P57/SCL P74/TMRIV P75/TMCIV P76/TMOV P24 P63/FTIOD0 28 /LDD 29 /LPUD 30 LTLSU 31 N.C._I/O32 CAT24WC04 C18 C19 104Z/16V 222Z/50V +5V CN-C 1 2 3 4 5 6 7 8 9 R1 VD 220J(1/4W) D2 R5 4.7KJ R7 10KJ R4 10KJ R74 4.7KJ TP40 TP19 TP22 TP20 B +5VR GND /LDD LRE GND +5V +5V /LPUD GND P17/IRQ3/TR P16/I P15/I P14/I P72/TX P71/RX DSR_LCC LTLLED /NMI LPFM-CLK /LED LFAN DTR_LCC /TRC_LCC EM_P85 EM_P86 EM_P87 N.C._I/O TXD_LCC RXD_LCC LTLSL N.C._I/O D1 DAN202K +5V 1 2 3 4 5 6 7 8 9 IC6 H8/3687 VD R41 R42 DAP202K B9B-PH-K-S C3 10KJ 10KJ Q20 C2 C4 /LRE NO ASSEMBLY C34 222Z/50V D14 DAN202K 1 222Z/50V x 3 SW1 3 T3B-SQ / JM-2W-96 +5V D15 C22 DAP202K VD Q12 R45 4.7KJ R35 4.7KJ R44 4.7KJ 222Z/50V TP57 10KJ 4.7KJ 4.7KJ 1KJ 4 7KJ +24V +5V ICP1 ICP-N20 1 3 5 7 9 11 13 15 17 +5V R8 R9 10KJ R10 10KJ Q8 220J(1/4W) R36 R73 10KJ 10KJ R56 R63 R62 R61 R52 CN-D Q11 C5 222Z/50V +5V C6 222Z/50V /RESET_LCC 104Z/16V 222Z/50V 2 4 6 8 10 12 14 16 18 Q9 C20 104Z/16V R2 1KJ Q15 RT1N141C x 2 /LTLLED GND GND N.C. /LTLSL /LTLSU +24V /FAN2 GND 8 1 3 5 7 9 11 13 15 17 +5VR /LTLSW +5V /LTLD +24V-ICP N.C. +24V /FAN1 GND Q14 7 6 MX-LCX3 ELECTRICAL SECTION 11 – 5 RES_LCC /TXD_LCC GND GND +5V +5V /RES_LCC /NMI P85 P86 P87 TXD_LCC RXD_LCC N.C. 5 VD 1 3 5 7 9 11 13 A RT1N141C x 3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 CN-W B14B-PHDSS-B 2 4 6 8 10 12 14 R3 1KJ C29 C27 B18B-PHDSS-B 2 4 6 8 10 12 14 16 18 10KJ x 4 R60 R59 R58 R50 R51 2 RT1N141C /LTLSL /LTLSU PB5/ PB4/ PB0/ PB1/ PB2/ PB3/ 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 +5V 104Z/16V P62/FTIOC0 P61/FTIOB0 NMI P60/FTIOA0 P64/FTIOA1 P65/FTIOB1 P66/FTIOC1 P67/FTIOD1 P85 P86 P87 P20/SCK3 P21/RXD P22/TXD P23 P70/SCK3_2 R33 IC3 TP25 TP27 104Z/16V + C21 TP60 TP3 R19 510J C24 104Z/16V LLM(-) LLM(+) C +5V 1SR153-400 x 2 B 683K/50V(2012) C12 C Q4 IC1 1 2 3 4 C B C14 473K/50V(2012) LLDM 2SB1431 D5 TP53 TD62503 C C R6 TP24 1KJ R34 C13 473K/50V(2012) D11 TP23 D4 B 2SB1431 TP31 VD TP28 TP26 100J JP1 B R55 0J R57 R28 16 15 14 13 12 11 10 9 I1 O1 I2 O2 I3 O3 I4 O4 I5 O5 I6 O6 I7 O7 GND N.C. R23 2.4KJ(1/4W) R24 2.4KJ(1/4W) IC2 1 2 3 4 5 6 7 8 R54 0J NO ASSEMBLY L1 MMZ1608S121AT Q1 N.C._IN L24VM 1SS133 15KF R27 E LIPSW LPFC LPFS LTRC LLUM +24V E Q3 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 100J R25 2.4KJ(1/4W) 47uF/35V 10KJ R29 R26 2.4KJ(1/4W) + C7 47uF/35V P35 P34 P51/WKP1 P50/WKP0 Vcc OSC1 OSC2 Vss TEST RES Vcl X1 X2 AVcc PB7/AN7 PB6/AN6 + C1 D10 +5V 5 4 3 2 +5V 1 2 4 6 8 10 12 14 16 18 20 ICP2 ICP-N15 +24V 20 18 16 14 12 10 8 6 4 2 +24V R6 10KJ ZD4 MTZJ20BT VD NO ASSEMBLY R53 1MJ TP50 IC5 1 2 3 4 TP51 R64 3.3KJ X1 YOBI_1 104Z/16V YOBI_2 FS781 1 3 TP30 C25 8 7 6 5 Xin VDD Xout S0 S1 FSOUT LF VSS C30 103Z/50V I1 O1 I2 O2 I3 O3 I4 O4 I5 O5 I6 O6 I7 O7 GNDCOM PS1 RXE110 16 15 14 13 12 11 10 9 D /LTLSU /LPFS /LTLSL 1SS133 x 2 2 TP29 R88 TP31 10KJ R65 TP23 TP24 10KJ x 3 C26 47uF/16V TP25 104Z/16V /LPFS Q21 D22 D23 DAN202K x 2 RT1N141C x 3 TP47 TP56 R83 N.C._IN L24VM LIPSW LPFC LPFS LTRC CN-E B11B-PH-K-S ICP3 ICP-N15 TP48 VD + C21 V ZD5 R87 Q18 TP52 24 R86 10KJ x 3 VD T +24V ZD6 ZD7 R79 R81 +5V R78 220J(1/4W) Q17 TP43 TP46 TP44 TP45 +5V R78 +5V R78 LC7:220J 1/4W LCX3:JUMPER 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 10KJ x 4 C33 C31 C32 P35 P34 P51/WKP1 P50/WKP0 Vcc OSC1 OSC2 Vss TEST RES Vcl X1 X2 AVcc PB7/AN7 PB6/AN6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 IC6 H8/3687 222Z/50V x 3 D24 PB5/AN5 PB4/AN4 PB0/AN0 PB1/AN1 PB2/AN2 PB3/AN3 P30 P31 P32 P33 P17/IRQ3/TRGV P16/IRQ2 P15/IRQ1 P14/IRQ0 P72/TXD_2 P71/RXD_2 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 LDSW LLSW /LUD /LPFD /LPED N.C._IN LPFM /LPFM-T /LPFD1 N.C._I/O N.C._I/O /LTLD /LRE /LTOD N.C._I/O N.C._I/O TP32 TP33 TP34 TP35 TP36 R66 R67 R68 R69 R70 10KJ 10KJ 10KJ 10KJ 10KJ TP37 TP38 TP39 R71 R72 10KJ 10KJ D26 R80 R77 R82 R84 C37 C39 C40 D25 D27 C38 NO ASSEMBLY +5V DAP202K x 2 TP41 TP42 R75 /LRE 10KJ 222Z/50V x 4 R85 220J(1/4W) CN-H 3 2 1 +5V 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 B3B-PH-K-S DSR_LCC LTLLED /NMI LPFM-CLK /LED LFAN DTR_LCC /TRC_LCC EM_P85 EM_P86 EM_P87 N.C._I/O TXD_LCC RXD_LCC LTLSL N.C._I/O R89 10KJ TP21 TP27 C41 B R57 1KJ VD VD CN-G 10KJ x 4 R60 R59 R58 R50 R43 220J(1/4W) 4.7KJ x 2 Q13 R76 R49 RT1N141C x 2 Q19 Q16 LED1 LED Q10 D15 222Z/50V TP57 D17 /LPFM-CLK /LPFM-T /LPFM GND LOSW(24V) RT1N141C x 2 D19 +5V DAN202K x 2 R56 R63 R62 R61 R52 Q8 5 4 3 2 1 5 4 3 2 1 B5B-PH-K-S +5V 10KJ 4.7KJ 4.7KJ 1KJ 4.7KJ C22 DAP202K GND /LPFD1 5VR 222Z/50V R51 D14 DAN202K 3 2 1 +24V TP28 TP26 VD 10KJ TP19 TP22 TP20 40 C DAN202K x 2 P62/FTIOC0 P61/FTIOB0 NMI P60/FTIOA0 P64/FTIOA1 P65/FTIOB1 P66/FTIOC1 P67/FTIOD1 P85 P86 P87 P20/SCK3 P21/RXD P22/TXD P23 P70/SCK3_2 P36 P37 P52/WKP2 P53/WKP3 P54/WKP4 P55/WKP5/ADTRG P10/TMOW P11 P12 P56/SDA P57/SCL P74/TMRIV P75/TMCIV P76/TMOV P24 P63/FTIOD0 +5V /LPED GND GND /LUD +5V +24V /LPFS +5VR GND /LPFD 11 10 9 8 7 6 5 4 3 2 1 Y R55 0J D21 HZ16BP x 3 /RESET_LCC R54 0J 1 2 3 4 5 6 7 8 9 10 11 +24V TD62003AP D16 7G53 +24V(PS) GND GND LLSW(24V) GND /LPFC GND /LTRC GND /LTOD C23 222Z/50V IC4 1 2 3 4 5 6 7 8 1 3 5 7 9 11 13 15 17 19 19 17 15 13 11 9 7 5 3 1 NO ASSEMBLY CN-F B20B-PHDSS-B GND LDSW(24V) LDSW(24V) GND LDSW(24V)-ICP GND LDSW(24V)-ICP GND +5V GND +24V Q11 + C35 47uF/16V D18 C36 223K/50V(1608) + C42 47uF/35V D20 DAP202K x 2 C29 C27 104Z/16V 222Z/50V C28 104Z/16V N141C x 3 5 1 2 3 4 5 6 7 8 9 10 11 12 1 3 5 7 9 11 13 VD CN-W B14B-PHDSS-B B12B-PASK CN-A 2 4 6 8 10 12 14 S_LCC D_LCC D D V V S_LCC MI 5 6 7 D_LCC D_LCC . 4 1 2 3 4 5 6 7 8 9 10 11 12 N.C. /TRC_LCC RES_LCC /DSR_LCC /DTR_LCC /RXD_LCC /TXD_LCC GND GND +5V GND +24V 3 MX-LCX3 ELECTRICAL SECTION 11 – 6 A 2 1 LEAD-FREE SOLDER The PWB’s of this model employs lead-free solder. The “LF” marks indicated on the PWB’s and the Service Manual mean “Lead-Free” solder. The alphabet following the LF mark shows the kind of lead-free solder. Example: <Solder composition code of lead-free solder> Lead-Free 5mm Solder composition code (Refer to the table at the right.) a Solder composition Solder composition code Sn-Ag-Cu a Sn-Ag-Bi Sn-Ag-Bi-Cu b Sn-Zn-Bi z Sn-In-Ag-Bi i Sn-Cu-Ni n Sn-Ag-Sb s Bi-Sn-Ag-P Bi-Sn-Ag p (1) NOTE FOR THE USE OF LEAD-FREE SOLDER THREAD When repairing a lead-free solder PWB, use lead-free solder thread. Never use conventional lead solder thread, which may cause a breakdown or an accident. Since the melting point of lead-free solder thread is about 40°C higher than that of conventional lead solder thread, the use of the exclusive-use soldering iron is recommendable. (2) NOTE FOR SOLDERING WORK © Since the melting point of lead-freeCOPYRIGHT solder is about 220°C, which is about 40°C higher than that of conventional lead solder, and its soldering XXXX BYSHARP CORPORATION capacity is inferior to conventional one, it is apt to keep the soldering iron in contact with the PWB for longer time. This may cause land separation or may exceed the heat-resistive temperature components. Use enough care to separate the soldering iron from the PWB when ALLofRIGHTS RESERVED. completion of soldering is confirmed. Since lead-free solder includes a greater quantity of tin, the iron tip may corrode easily. Turn ON/OFF the soldering iron power frequently. If different-kind solder remains on the soldering iron tip, it is melted together with lead-free solder. To avoid this, clean the soldering iron tip after completion of soldering work. No part of this publication may be reproduced, in a retrieval orfile transmitted If the soldering iron tip is discolored black stored during soldering work,system, clean and the tip within steel wool or a fine filer. any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without prior written permission of the publisher. * Applicable to battery-operated equipment * Applicable to battery-operated equipment SHARP CORPORATION Digital Document System Group CS Promotion Center Yamatokoriyama, Nara 639-1186, Japan 2006 June Printed in Japan
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Key Features
- Capacity of 3,000 sheets
- Paper size, type, and weight support
- Paper empty detection sensor
- Paper jam detection system
- Tray lock
- Lift operation
- Paper feed operation
- Troubleshooting of paper jam
- Self diagnostic message and trouble code