Page 1 MGCS010401-C0 (Standard Version) Facsimile UF-E1 UF-E1CN © 2001 Matsushita Graphic Communication Sys- tems, Inc. All rights reserved. Unauthorized copying and distribution is a violation of law. DZSN000123-2...
Page 2 UF-E1 UF-E1CN...
Page 3: Table Of Contents
Contents 1 General Description..................1 1.1. Overview ......................1 1.2. Fax Features and Functions ................1 1.3. Internet Features and Functions ..............2 1.4. Printed Features and Functions..............2 1.5. General Specifications ................... 3 1.6. Scanner Specifications .................. 4 1.7. Printer Specifications ..................5 1.8.
Page 4 5 Test Modes...................101 5.1. Test Mode Table ..................101 5.2. Test Mode 0 (GPM Self Test / Printer Test) ..........102 5.3. Test Mode 1 (Function Parameter Setting) ..........103 5.4. Test Mode 3 (TEST MODE 1-2 List Printout)..........109 5.5. Test Mode 4 (CIS TEST)................111 5.6.
Page 5: General Description
1.1. Overview This section covers the features and specifications of the plain paper facsimile transceiver "Panasonic UF- E1". This facsimile can transmit and receive on the Public Switched Telephone Network (PSTN) in the modes conforming to CCITT Group 3 recommendations.
Page 6: Internet Features And Functions
ISO-8859-1, ISO-8559-2, ISO-8559-5, ISO-8559-6, ISO-8559-7, ISO-8559-8, ISO-8559- 9, ISO-8559-11 characters and documents embedded with such fonts. 1.4. Printed Features and Functions UF-E1 will be served as a colour printer by just pressing [PRINTER] button. For colour printing, colour car- tridge must be purchased in advance.
Page 7: General Specifications
UF-E1 1.5. General Specifications 1. Communication Facility Public Switched Telephone Network (PSTN) 2. Line Coupling Direct Coupling 3. Input Level -5 to -43 dbm (Germany version: -5 to 46 dbm) 4. Output Level 0 to -15 dbm 5. Control Procedure ITU-T/CCITT Rec.T.30...
Page 8: Scanner Specifications
UF-E1 12. Transmission Speed Approx. 3.9 Seconds using ITU-T Image No.1 in Standard Resolution, memory to memory communi- cation. 13. Automatic Dialing Dialing Signal : 10 PPS/20PPS/DTMF Dialing Method Directory Dialing : 120 stations Abbreviated Dialing : Up to 10 stations and 10 addresses for E-Mail...
Page 9: Printer Specifications
UF-E1 1.7. Printer Specifications 1. Recording Paper Size (W × L) Letter : 216 × 279 mm : 210 × 297 mm 2. Recommended Recording Paper Weight 60 to 90 g / m 3. Paper Capacity 70 sheets (Max. of 100 sheets based on Paper Specification) 4.
Page 10: Paper Specification
UF-E1 1.10. Paper Specification Paper Type Size Weight Paper Tray Note Capacity Temperature: 5 to 35 °C Plain Bond Paper A4, Letter 64 to 90 g/m Humidity: 15 to 70% RH Temperature: 20 to 30 °C Recycle Paper A4, Letter...
Page 11 UF-E1 External View...
Page 12 UF-E1 Control Panel...
Page 13: Function Table
UF-E1 1.13. Function Table Items UF-E1 UF-S10 UF-332 / UF-A8310 MAIN SPECIFICATION ← ← Compatibility Modem Speed (kbps) 33.6/31.2/28.8/26.4/24.0/ 9.6/7.2/4.8/2.4 14.4/12.0/9.6/7.2/4.8/2.4 21.6/19.2/16.8/14.4/12.0/ 9.6/7.2/4.8/2.4 Coding Scheme MH/MR MH/MR/MMR (Conforms to ITU-T/ CCITT) ← ← Short Protocol Yes(B) Transmission Speed Approx. 3.9 Seconds Approx.
Page 14 UF-E1 Items UF-E1 UF-S10 UF-332 / UF-A8310 300 × 300 dpi Recording Resolution (Mono) 600 × 600 dpi 600 × 300 dpi 300 × 300 dpi (Colour) 600 × 300 dpi 300 × 300 dpi Recording Speed (Mono) 3.5 ppm...
Page 15 UF-E1 Items UF-E1 UF-S10 UF-332 / UF-A8310 Pulse/Tone change * key ← ← Flash Key ← ← Direct Dialing 1 station (SPEAKERPHONE) (Monitor) ← ← Manual Redialing ← ← Chain Dialing Monitor Dialing Off-Hook Dialing ← Caller ID Display (certain countries only) ←...
Page 16 UF-E1 Items UF-E1 UF-S10 UF-332 / UF-A8310 Fixed Reduction to A4 Yes (93% Fixed) Overlapping Print Receive to Memory Eco Ink Reception Personal Mailbox COPY FUNCTIONS ← ← Single Monochrome Copy Single Color Copy Multiple Monochrome Yes (99 copies) Max. 99 copies...
Page 17 UF-E1 Items UF-E1 UF-S10 UF-332 / UF-A8310 SPECIAL COMMUNICATION FEATURE ← ← Password XMT/RCV (Closed Network) ← Selective Reception (TSI check) ← ← Relay XMT Request ← ← Relay XMT Center ← Confidential XMT ← ← Confidential Comm. Cen- ←...
Page 18 UF-E1 Items UF-E1 UF-S10 UF-332 / UF-A8310 ← Polling Reception Germany only Fax Bulletin Board CONVENIENCE Panel Display 16 x 1 16 characters x 1 line 20 x 2 Alphaneumeric ← Help Function Voice Contact TAM FEATURES Built-in TAM Max. 15 min.
Page 19 UF-E1 Items UF-E1 UF-S10 UF-332 / UF-A8310 Recording Paper Stacker - Directory Sheet Dust Cover Cartridge Holder Printer Driver CD Quick Start Guide Yes(Printer Driver) Internet Set-up Guide Certain countries only CONSUMABLES Recording Paper THM-331E (A4 size) Recording Paper THM-431F...
Page 20 UF-E1 Notes...
Page 21: Disassembly Instruction
UF-E1 2 Disassembly Instruction 2.1. General Disassembly Flowchart Remove the Power Cord, Line Cable, Open the Control Panel Cover. Handset and Recording Paper Tray. Remove the bottom plate. Remove the Control Panel Replace the ADF separator Clean the ADF, Feed Roller.
Page 22: Sc Pc Board(6012), Ncu Pc Board(6013), Printer I/F Pc Board(4002) And Power Supply Pc Board(6009)
UF-E1 2.2. SC PC Board(6012), NCU PC Board(6013), Printer I/F PC Board(4002) and Power Supply PC Board(6009) (1) Disconnect the Power Cord (9008). (2) Disconnect the Line Cord (9016). (3) Remove the Handset (2001) and the Handset Cord (9007). (4) Remove Recording Paper Tray (6016).
Page 23 UF-E1 (11) Three Screws (1Y). (11) (12) Remove Power Supply Assy. (11) (13) Remove one connector. (12) (13) (14) Two Screws (36). (14) (15) Remove Power Supply PCB (6009). (15) (16) Remove Printer I/F Cap. (17) Remove Printer I/F PCB (6011).
Page 24 UF-E1 (20) Remove five connectors. (21) Three Screws (F9). (21) (20) (22) Remove SC PCB (6012). (22) (21) (20)
Page 25: Pnl Pc Board (1015), Lcd Module (1014)
UF-E1 2.3. PNL PC Board (1015), LCD Module (1014) (1) Open the Control Panel. (2) Release the Panel Lock (1026). (3) Two Screws (1Y). (4) Release four latches. (5) Remove Control Panel Assy. (6) Remove one connector. (7) Six Screws (7B).
Page 26 UF-E1 (9) Remove Harness of LCD Module (10) Remove PNL PCB(1015). (10) (10) (11) Remove the Key Unit 4(1004). (12) Remove the Difusion Sheet(1027). (11) (12) (13) Remove the LCD Module(1014). (13)
Page 27: Feed Roller (3003), Cis (3011), Adf Roller(3006), Imd Sensor Pc
UF-E1 2.4. Feed Roller (3003), CIS (3011), ADF Roller(3006), IMD Sensor PC Board(3017), ASF Roller (7006) (1) Remove the Frame TX(1023). (2) Pull up Feed Roller Assy by holding both sides tab. (3) Remove White Plate(2007). (4) Four Screws(C1). (5) Open Pen Cover.
Page 28 UF-E1 (9) Release one latch. (10) Release two latches. (10) (11) Remove a connector. (12) Release four latches. (11) (13) Remove CIS(3011) from its holder (3013). (13) (12) (14) Four Screws(1Y). (14) (15) Remove the Ground Plate (2010). (16) Remove Scanner Unit. .
Page 29 UF-E1 (21) Remove TX Motor Blaket(3008). (22) Remove Three Gears. (21) (22) (23) Remove Shaft Gear(3004). (23) (24) Remove Joint ADF(3005). (24) (25) Remove ADF Roller(3006). (25) (26) Remove the IMD Sensor(3017). (26) (27) Remove two screws (C7). (27) (28) (27) (28) Remove Micro Switch (7014) and connectors.
Page 30 UF-E1 (30) Remove Cover ASF (7009). (30) (31) Remove D Gear C35 (7005). (31) (32) Remove ASF Roller (7006). (32)
Page 31: Pen C Pc Board(4002), Rx Motor(4011), Speaker(6002), Microphone(6017)
UF-E1 2.5. PEN C PC Board(4002), RX Motor(4011), Speaker(6002), Microphone(6017) (1) One Screws (1Y). (2) Remove a cable. (3) Remove a Flat Cable. (4) Remove Printer Unit. (5) Remove three connectors. (6) Remove two Flat Cables by releasing two latches.
Page 32 UF-E1 (15) Remove a Spring(6001). (15) (16) Remove a Speaker(6002). (16) (17) Remove a Microphone(6007). (17) (16) (18) Remove the Cartridge Cap and Blade. (18)
Page 33: Cleaning Scanning Area, Adf Roller, Asf Roller, Feed Roller
UF-E1 2.6. Cleaning Scanning Area, ADF Roller, ASF Roller, Feed Roller (1) Open the Panel Cover (2) Pulling up Feed Roller Assy by holding both sides tabs. (3) Open the White Plate(2007). (4) Clean the scanning area of CIS using soft cloth.
Page 34: Adjusting Pressure Of Adf
UF-E1 2.7. Adjusting pressure of ADF (1) Open the Panel Cover. (2) Adjust the pressure by selecting poisition of puressure level. 2.8. Replacement of ADF Separation Rubber(1025) (3) Open the Panel Cover. (4) Replace the ADF Separation Rubber(1025).
Page 35: Maintenance, Adjustments And Check Points
UF-E1 3 Maintenance, Adjustments and Check Points 3.1. Required Tools Tool Tool Soft Cloth Pliers Isopropyl Alcohol Cotton Swab Phillips Screwdriver (#2) Brush Flat-blade Screwdriver (3/32”) Torx Screwdriver (T8 and T10) Tweezer 3.2. Periodic Maintenance Points ASF Roller Print Cartridge...
Page 36: Periodic Maintenance Check List
UF-E1 3.3. Periodic Maintenance Check List The chart outlined below is a general guideline for maintenance. The example list is for an average usage of 50 transmitted and received documents per day. Needless to say, the environmental conditions and actual use will vary these factors.
Page 37: Program Rom
UF-E1 3.4. Program ROM 3.4.1. Update Firmware This unit is equipped Flash Rom (F-Rom). For updating firmware, it is updated remotely be Remote Diag- nostic Software. 3.4.2. ROM Location IC20 FROM FROM FROM CNP10...
Page 38: Adf Pressure
UF-E1 3.4.3. ROM Label (Example : F140AAS1A001-00) 1. Software for System Control F140 AA S1A XXX Version Fixed Country Code Fixed (Model Code) 2. Software for Printer Control 00.07 Version Note: Patched Versions will increment, whenever the software is modified.
Page 39: General Circuit Diagram
UF-E1 3.6. General Circuit Diagram...
Page 40: Sca Pcb Sc Pcb
UF-E1 3.7. SCA PCB SC PCB IC20 FROM FROM FROM CNP10 CNP10 PIN No. Signal Name Destination Signal Waveform Function +24V Power Supply Unit +24VDC Power Supply +24V CNJ2-1 +24V Power Supply Unit +24VDC Power Supply +24V CNJ2-2 +24V Power Supply Unit...
Page 41 UF-E1 PIN No. Signal Name Destination Signal Waveform Function nCACK PRT PCB centronics (CNJ30-3) nCBUSY PRT PCB centronics (CNJ30-4) nCPEERROR PRT PCB centronics (CNJ30-5) CSELECT PRT PCB centronics (CNJ30-6) nCFAULT PRT PCB centronics (CNJ30-7) CDATA[1] PRT PCB centronics (CNJ30-8) CDATA[2]...
Page 42 UF-E1 PIN No. Signal Name Destination Signal Waveform Function nCAUTOFD PRT PCB centronics (CNJ30-17) nCINT PRT PCB centronics (CNJ30-18) nCSELIN PRT PCB centronics (CNJ30-19) PRT PCB Ground (CNJ30-20) CNP14 PIN No. Signal Name Destination Signal Waveform Function pRSTO PNL PCB Reset Out +3.3V...
Page 43 UF-E1 PIN No. Signal Name Destination Signal Waveform Function PNLD3 PNL PCB panel data[3] +3.3V (CNP40-8) PNL PCB +5VDC Power supply (CNP40-9) PNL PCB +3.3VDC Power supply +3.3V (CNP40-10) PNL PCB Ground (CNP40-11) +5VS PNL PCB +5VDC Power supply (CNP40-12) CNP13 PIN No.
Page 44 UF-E1 PIN No. Signal Name Destination Signal Waveform Function TEMPOUT PENC PCB (CNJ57-36) PENC PCB Ground (CNJ57-35) PWM_REF PENC PCB (CNJ57-34) PWM_OFFSE PENC PCB (CNJ57-33) PENC PCB Ground (CNJ57-32) ENABLE_RT PENC PCB (CNJ57-31) RTEST PENC PCB (CNJ57-30) COLOR PENC PCB...
Page 45 UF-E1 PIN No. Signal Name Destination Signal Waveform Function nSTB0 PENC PCB Printing (CNJ57-21) Printhead select PENC PCB Printhead driver address (CNJ57-20) PENC PCB Printhead driver address (CNJ57-19) PENC PCB Printhead driver address (CNJ57-18) PENC PCB Printhead driver address (CNJ57-17)
Page 46 UF-E1 PIN No. Signal Name Destination Signal Waveform Function ENC_A PENC PCB Encoder (CNJ57-7) SPWMB PENC PCB paper motor PWMB (CNJ57-6) PENC PCB Ground (CNJ57-5) MSDA PENC PCB serial Motor interface (CNJ57-4) Data line SPWMA PENC PCB paper motor PWMA...
Page 47 UF-E1 CNP12 PIN No. Signal Name Destination Signal Waveform Function CIS Unit (CNP4-1) Analog Output Signal CIS Unit (CNP4-2) Ground CIS Unit (CNP4-3) +5VDC power supply CIS Unit (CNP4-4) Serial In Signal CIS Unit (CNP4-5) Clock Signal 768KHz GLED CIS Unit (CNP4-6)
Page 48 UF-E1 CNP16 PIN No. Signal Name Destination Signal Waveform Function nASFP NCU PCB ASF position switch +3.3V (CNJ26-1) nASFA NCU PCB ASF paper detect switch +3.3V (CNJ26-2) SPO2 NCU PCB Speaker 2 (CNJ26-3) +2.2V SPO1 NCU PCB Speaker 1 (CNJ26-4) +2.2V...
Page 49 UF-E1 PIN No. Signal Name Destination Signal Waveform Function nDPMT NCU PCB +24V (CNJ26-14) CNP17 PIN No. Signal Name Destination Signal Waveform Function NCU PCB Ground (CNJ25-1) +24V NCU PCB +24VDC Power Supply +24V (CNJ25-2) NCU PCB +5VDC Power Supply...
Page 50 UF-E1 PIN No. Signal Name Destination Signal Waveform Function nASFB NCU PCB +3.3V (CNJ25-14)
Page 51: Penc
UF-E1 3.8. PENC CNP54 CNP52 CNP51 CNP58 CNJ57 CNJ55 CNJ55 Pin No. Signal Name Destination Signal Waveform Function Print Cartridge Cartridge ID +19V R [48] Print Cartridge Nozzle Firing Pulse [48] +19V R [46] Print Cartridge Nozzle Firing Pulse [46]...
Page 52 UF-E1 Pin No. Signal Name Destination Signal Waveform Function R [32] Print Cartridge Nozzle Firing Pulse [32] +19V R [30] Print Cartridge Nozzle Firing Pulse [30] +19V R [34] Print Cartridge Nozzle Firing Pulse [34] +19V R [28] Print Cartridge...
Page 53 UF-E1 Pin No. Signal Name Destination Signal Waveform Function R [12] Print Cartridge Nozzle Firing Pulse [12] +19V R [6] Print Cartridge Nozzle Firing Pulse [6] +19V R [4] Print Cartridge Nozzle Firing Pulse [4] +19V R [8] Print Cartridge...
Page 54 UF-E1 CNJ56 Pin No. Signal Name Destination Signal Waveform Function Print Cartridge +19 VDC Power Supply +19V R [9] Print Cartridge Nozzle Firing Pulse [9] +19V R [1] Print Cartridge Nozzle Firing Pulse [1] +19V R [7] Print Cartridge Nozzle Firing Pulse [7]...
Page 55 UF-E1 Pin No. Signal Name Destination Signal Waveform Function R [19] Print Cartridge Nozzle Firing Pulse [19] +19V R [23] Print Cartridge Nozzle Firing Pulse [23] +19V R [25] Print Cartridge Nozzle Firing Pulse [25] +19V R [27] Print Cartridge...
Page 56 UF-E1 Pin No. Signal Name Destination Signal Waveform Function R [43] Print Cartridge Nozzle Firing Pulse [43] +19V R [45] Print Cartridge Nozzle Firing Pulse [45] +19V R [47] Print Cartridge Nozzle Firing Pulse [47] +19V TSR1 Print Cartridge Cartridge ID...
Page 57 UF-E1 PIN No. Signal Name Destination Signal Waveform Function Service station stepping signal +19V Motor SSNB Service station stepping signal +19V Motor CNP52 PIN No. Signal Name Destination Signal Waveform Function MOT- RX DC Motor Carriage Moter pulse +19V MOT+...
Page 58: Pnl Pcb
UF-E1 3.9. PNL PCB LED6 LED2 LED1 CNP40 CNJ41 LED3 LED4 LED5 CNP40 PIN No. Signal Name Destination Signal Waveform Function PLED Printer LED LED Enable signal LED OFF LED ON Printer LED +3.3VDC power supply +3.3V BLED Back Light LED LED Enable signal +3.3V...
Page 59 UF-E1 PIN No. Signal Name Destination Signal Waveform Function LCD Module LCD Module LCD Module Enable LCD Module Read/Write LCD Module Register Select VLCD LCD Module LCD Power Supply LCD Module +5VDC Power Supply LCD Module Ground...
Page 60: Ncu Pcb
UF-E1 3.10. NCU PCB CNP23 CNP22 CNP21 CNP29 CNP29 PIN No. Signal Name Destination Signal Waveform Function +5VK Out of INK Sensor +5VDC Power Supply Out of INK Sensor Ground Out of INK Sensor +3.3V CNJ24 PIN No. Signal Name...
Page 61 UF-E1 CNP23 PIN No. Signal Name Destination Signal Waveform Function Speaker Speaker1 +2.2V Speaker Speaker2 +2.2V CNP22 PIN No. Signal Name Destination Signal Waveform Function MIC+ Microphone Microphone+ MIC- Microphone Microphone- CNP21 PIN No. Signal Name Destination Signal Waveform Function...
Page 62 UF-E1 PIN No. Signal Name Destination Signal Waveform Function DATA[2] Centronics DATA[2] DATA[3] Centronics DATA[3] DATA[4] Centronics DATA[4] DATA[5] Centronics DATA[5] DATA[6] Centronics DATA[6] DATA[7] Centronics DATA[7] DATA[8] Centronics DATA[8] nACK Centronics pBUSY Centronics Busy Centronics Perror pSLCT Centronics Select...
Page 63 UF-E1 PIN No. Signal Name Destination Signal Waveform Function Centronics Ground Centronics Ground Centronics Ground Centronics Ground Centronics Ground Centronics Ground Centronics Ground Centronics Ground Centronics Ground Centronics Ground Centronics Ground Centronics Ground nINIT Centronics Init nFAULT Centronics Fault Centronics...
Page 64: Troubleshooting
UF-E1 4 Troubleshooting 4.1. Initial Troubleshooting Flowchart START Plug the Power Cord in. Does the unit power up normally? Does the LCD display function correctly? Troubleshoot Improper LCD Display (Sect. 4.2). Troubleshoot any 3-digit INFO. CODE displayed (Sect. 4.3). Does the unit produce normal...
Page 65: Improper Lcd Display
UF-E1 4.2. Improper LCD Display START Check connectors: CN14 (SC PCB) and CN40 (PNL PCB). Does CN14, pin9, on the SC PCB measure +5VDC? Does CN14, pin10, on the SC Replace the SC PCB. PCB measure +3.3VDC? Does CN14, pin12, on the SC PCB measure +5VDC? Replace the PNL PCB.
Page 66: Information Codes (Info. Codes)
UF-E1 4.3. Information Codes (INFO. CODES) The 3-digit information codes display to show the unit's status. These codes also print on the journal.The following table indicates appropriate sections for troubleshooting. Code Explanation Phase Section Code Explanation Phase Section Recording paper jam 4.3.8...
Page 67 UF-E1 4.3.1. Information Codes: 400, 420 START START Enable the monitoring circuit. Is reception from a reference (Refer to Sect. 5.3 Parameter unit successful? No. 08) Check the line connection from the wall jack to the "Line" on the NCU PCB.
Page 68 UF-E1 4.3.2. Information Codes: 402, 422 START Is communication with the reference unit successful? Replace the SC PCB. Check the remote unit in question. (Remote unit defective)
Page 69 UF-E1 4.3.3. Information Codes: 404, 405, 407 START Is communication with reference unit successful? 1. Replace the SC PCB. 2. Replace the NCU PCB. Change Function Parameter #20: Reduce Tx Attenuation Level Does the problem still occur? Does the problem still occur? Have the telephone line checked.
Page 70 UF-E1 4.3.4. Information Code: 416 START Is communication with reference unit successful? 1. Replace the SC PCB. 2. Replace the NCU PCB. Change Function Parameter #21: Reduce Rx Sensitivity Level Does the problem still occur? Does the problem still occur? Have the telephone line checked.
Page 71 UF-E1 4.3.5. Information Codes: 408, 409, 417, 418, 490 START Is communication with the reference unit successful? 1. Replace the SC PCB. 2. Replace the NCU PCB. Transmitting Is the unit transmitting or receiving? Receiving Does the problem still occur?
Page 72 UF-E1 4.3.6. Information Code: 434 START Is communication with the reference unit successful? Replace the SC PCB. Does the trouble occur regardless of the remote unit? Can the transmitter in question Check the remote unit in question. transmit to the other units? (Remote unit defective) Change the parameter in Test Mode 1.
Page 73 UF-E1 4.3.7. Information Codes: 459, 494, 495 START Check the line connection between the telephone jack on the wall and the NCU PCB. Is communication with the reference unit successful? 1. Replace the SC PCB. 2. Replace the NCU PCB.
Page 74 UF-E1 4.3.8. Information Codes: 001, 002 (Recording Paper Jam) START Is the recording paper size and thickness within specification? Replace with correct paper. Is the recording paper loaded in the paper tray properly? Load the paper correctly. Check the Rx Paper Roller Assembly.
Page 75 UF-E1 4.3.10. Information Codes: 030, 031, (Document Jam) START Is the document path blocked? Remove the blockage. Does the Tx Motor rotate? 1. Replace the Tx Motor. 2. Replace the SC PCB. Does the document feed into the unit? Check all gears and rollers.
Page 76 UF-E1 4.3.11. Information Code: 015 (Out of Ink) START Is there ink in the Print Cartridge? Replace the Print Cartridge. Is the Print Cartridge Nose clean? 1.Clean the Print Cartridge Nose. 2.Replace the Print Cartridge. Is the Print Cartridge Contact clean or not damaged? 1.Clean the Print Cartridge Contacts.
Page 77 UF-E1 4.3.12. Information Code: 016 (Carriage Cannot Move) START Is the recording paper path clear or are there no foreign objects in the carriage path? Remove the jammed paper or the foreign objects Is the Cartridge Cradle movable by hand? 1.Replace the Carriage Rod.
Page 78 UF-E1 4.3.13. Information Code: 630, (Dialing Error) START Is there a dial tone when MONITOR button is pressed? 1. Connect the telephone line correctly. 2. Check the telephone line. Is the remote machine busy? Can the unit dial the reference unit? 1.
Page 79 UF-E1 4.3.15. Information Codes: 712, 795 START Is the User ID correct? Re-enter the User ID. Clean the entered Password. Re-enter the Password. 4.3.16. Information Codes: 716, 717, 720-726, 795, 796 START Print out i-Fax parameter List. Compare all parameters.
Page 80: Printed Copy Quality Problems
UF-E1 4.4. Printed Copy Quality Problems 4.4.1. Recording Paper Creases START Is the recording paper damp? Replace the recording paper. Are there any foreign particles or stains in the paper path? Remove any obstructions and clean the paper path. Is the recording paper skewing?
Page 81: Poor Printed Copy Quality
UF-E1 4.4.2. Poor Printed Copy Quality START Is the printout in Test Mode 0 normal? Try "CLEAN CARTRIDGE" by Function "7', "6". Check the Print Cartridge.(Replace the Print Cartridge or clean the contacts) Check the paper quality.(Try different paper) Check the voltage output at CN50 on PENC PCB.
Page 82: Abnormal Printing
Is the recording paper size and thickness within specification? Replace with correct paper. Is Panasonic Print Cartridge being used? Replace with the Panasonic Print Cartridge. Are all switches and sensors operatingproperly? Adjust, clean or replace. Are there any foreign particles or...
Page 83: Scanned Copy Quality Problems
UF-E1 4.4.4. Scanned Copy Quality Problems START Are there any foreign particles or paper pieces in the scanning area? Remove the foreign particles or paper pieces from the scanning area. Is the scanning area dirty? 1. Clean the Scanning Glass (Sect. 2.4).
Page 84: Document Feeder (Adf)
UF-E1 4.5. Document Feeder (ADF) 4.5.1. No Document Feed START Is the document set properly? Set the document properly. Is the document thickness or size within specification? Make a copy or cut the document to the specification size. Is the pip tone generated when...
Page 85: Document Does Not Feed Or Multiple Feeds
UF-E1 4.5.2. Document does not feed or Multiple feeds START Is the Panel Cover Assembly locked? Close the Panel Cover Assembly firmly. Is the adjustment of the Separation Rubber normal? Is the Separation Rubber worn out? Clean or adjust the Separation Rubber Pressure.
Page 86 UF-E1 4.5.3. Document Jam (030) or Skewing START Is the Panel Cover Assembly closed? Close the Panel Cover Assembly firmly. Does the sensor on the PNL PCB operate normal? Clean or replace the PNL PCB. Does the Feed Roller have drive...
Page 87: Communications
UF-E1 4.6. Communications This section explains general troubleshooting procedures for the 400 series of Information Codes. These errors are primarily caused by poor telephone line quality (loss, noise, echo, etc.). This unit is furnished with Test Mode 1 to assist in troubleshooting line quality problems.
Page 88: Poor Transmitted Copy Quality
UF-E1 4.6.2. Poor Transmitted Copy Quality START Make a copy. Is the printed copy normal? Is the CIS LED Array lit? Does CN10, PIN1, 2 and PIN3 of the SC PCB measure +24 VDC?(CN disconnected) Replace the PSU. Does CN12,PIN6 of the...
Page 89: Dialing Problems
UF-E1 4.6.3. Dialing Problems START Does the unit proceed to Phase B? 1. Set documents on the ADF correctly. 2. Check the telephone line connection. 3. The called party is busy. 4. Refer to Sect. 4.6. Are you using Directory Search dialing or ABBR.
Page 90: Reception Problems
UF-E1 4.6.5. Reception Problems START Does the machine answer the Ringing signal? 1. Check the reception mode. 2. Confirm that the OUT Key Lamp is ON. 3. Check the telephone line connection. 4. Check the Ringer Timing or DRD setting.
Page 91: Information Code Table
UF-E1 4.7. Information Code Table Information Code Code Mode Phase Description of Problem Cause Leadingedge of the recording paper fails Recording paper jam. COPY to reach the Registration Sensor. Registration Sensor abnormal. Recording paper has not completely Recording paper jam.
Page 92 UF-E1 Information Code Code Mode Phase Description of Problem Cause Transmitter sent NSS (or DCS) followed Receiver is defective. (Modem, NCU by TCF three times, but the receiver did PCB, etc.) not respond. (CFR or FTT is usually SC PCB or NCU PCB is defective.
Page 93 UF-E1 Information Code Code Mode Phase Description of Problem Cause Receiver transmitted PIN in response to Line quality is poor. (There are exces- PRI-Q fromtransmitter. (Transmittingop- sive errors in received data) erator requests voice contact) SC PCB or NCU PCB is defective.
Page 94 UF-E1 Information Code Code Mode Phase Description of Problem Cause 544 XMT ECM Stopped Transmission after EOR Trans- Line is faulty. mission. NCU PCB abnormal. No response received within 45 sec Line quality is poor. Try it again. after sending training.
Page 95 UF-E1 Information Code Code Mode Phase Description of Problem Cause Internet Connection error. Compare modem capability with ISP's XMT/RCV one. Check the ISP telephone number. Internet Internet communication error. Try to connect again. XMT/RCV Line quality is poor. Internet PPP certification error.
Page 96: Diagnostic Codes
UF-E1 4.8. Diagnostic Codes The 16-digit Diagnostic Code is provided for the service engineer to analyze how the communication was performed. The code is recorded on the Journal. In order to print Diagnostic Codes, change the Function Parameter No.81(DIAG PRINT) to ON.
Page 97 UF-E1 4.8.1. Content of Diagnostic Code 1st Digit - : Not used/defined Data Definition DCN Rx STOP SW ON DCN Rx, STOP SW ON Auto-Dial Auto-Dial, DCN Rx Auto-Dial, STOP SW ON Auto-Dial, DCN Rx, STOP SW ON 2nd Digit...
Page 98 UF-E1 3rd Digit - : Not used/defined Data Definition Short Protocol B 4th Digit - : Not used/defined Data Definition Polling Rcv...
Page 99 UF-E1 5th Digit - : Not used/defined Data Definition G3 Standard G3 Standard, ITU-T ECM G3 Standard, ITU-T ECM, V.34 G3 Non-Standard G3 Non-Standard, ITU-T ECM G3 Non-Standard, ITU-T ECM, V.34 6th Digit - : Not used/defined Data Definition Modem Speed:2400bps...
Page 100 UF-E1 7th Digit - : Not used/defined Data Definition Normal (Resolution), MH Fine (Resolution), MH Super Fine (Resolution), MH Normal (Resolution), MR Fine (Resolution), MR Super Fine (Resolution), MR 8th Digit - : Not used/defined Data Definition Trellis Encording Short Training...
Page 101 UF-E1 9th Digit - : Not used/defined Data Definition Rec. Capability :20 msec/line Rec. Capability :15 msec/line Rec. Capability :10 msec/line Rec. Capability :40 msec/line Rec. Capability :0 msec/line 10th Digit - : Not used/defined Data Definition Paper Width:A4, Paper Length:A4...
Page 102 UF-E1 11th Digit - : Not used/defined Data Definition 12th Digit - : Not used/defined Data Definition V.34 Symbol Rate:2400 sr V.34 Symbol Rate:2743 sr V.34 Symbol Rate:2800 sr V.34 Symbol Rate:3000 sr V.34 Symbol Rate:3200 sr V.34 Symbol Rate:3429 sr...
Page 103 UF-E1 13th Digit - : Not used/defined Data Definition 14th Digit - : Not used/defined Data Definition...
Page 104 UF-E1 15th Digit - : Not used/defined Data Definition 16th Digit - : Not used/defined Data Definition...
Page 105: Test Modes
UF-E1 5 Test Modes 5.1. Test Mode Table The following test modes are provided to assist you in setting operational functions of the unit and determin- ing the condition of the unit. Test Mode Description Test Pattern Printout Prints out a test pattern to check the printer mecha- nism.
Page 106: Test Mode 0 (Gpm Self Test / Printer Test)
UF-E1 5.2. Test Mode 0 (GPM Self Test / Printer Test) A test Patterns printed out to check the printer mechanism by the following procedure. 5.2.1. Nozzle Check Step Operation or Unit Condition LCD Display Standby. 12-MAY 15:00 Press “FUNCTION”.
Page 107: Test Mode 1 (Function Parameter Setting)
UF-E1 5.3. Test Mode 1 (Function Parameter Setting) Use the following procedure to change the function parameters. Step Operation or Unit Condition LCD Display Standby. 12-MAY 15:00 Press “FUNCTION”. DEFERRED XMT? Press “#”, “ ”, “#”, “#”. TEST MODE Press “1” and “START”.
Page 108 UF-E1 Function Parameter Parameter Selection Default Description Value NOT USED TX JAM CHECK Document length determined as a jam Off : Unlimited length On : Up to 1m HEADER PRINT Header printing position In : inside of the original picture area...
Page 109 UF-E1 Parameter Selection Default Description Value G3 RX EQL 0 dB 8 dB Cable equalizer in G3 reception mode (Note 1) 4 dB 8 dB 12 dB G3 TX EQL 0 dB 0 dB Cable equalizer in G3 transmission mode...
Page 110 UF-E1 Parameter Selection Default Description Value ERR LINE % Error Line Percentage (Note 3) Wen the machine detects the error lines equal to or more than the percentage set, the machine will disconnect the line. ERR DETECT Error detection method (Note 4) CNT: Determined by the Error Line Counter.
Page 111 UF-E1 Parameter Selection Default Description Value DTMF DETECT DTMF detection in Remote Reception Detect DTMF generated by the external telephone set while the calling and called parties are talking over the telephone. : DTMF will be ignored. : DTMF will be detected.
Page 112 UF-E1 Parameter Selection Default Description Value TIME ZONE -1200 Depending Select time difference from G.M.T for your country. -1130 country +0000 +1130 +1200 PRIN UNREC. Select whether the error message is printed or not when the machine detected unrecog- nized character set in the mail header.
Page 113: Test Mode 3 (Test Mode 1-2 List Printout)
UF-E1 5.4. Test Mode 3 (TEST MODE 1-2 List Printout) TEST MODE 1-2 Parameter can be printed by the following procedure. Step Operation or Unit Condition LCD Display Standby. 12-MAY 15:00 Press “FUNCTION”. DEFERRED XTM? Press “#”, “ ”, “#”, “#”.
Page 114 UF-E1 Function Parameter List (Sample) Note: 1. [ ]-Factory Default 2. The contents of the Function Parameter List may vary depending on the country's regulations. 3. " " mark will be shown on the left side of number when setting was changed from default.
Page 115: Test Mode 4 (Cis Test)
UF-E1 5.5. Test Mode 4 (CIS TEST) This test mode is used to check the binary signal output Step Operation or Unit Condition LCD Display Standby. 12-MAY 15:00 Press “FUNCTION”. DEFERRED XMT? Press “#”, “ ”, “#”, “#”. TEST MODE (< >) Press “4”...
Page 116: Test Mode 5 (Tonal Signal & Binary Signal Generation)
UF-E1 5.6. Test Mode 5 (Tonal Signal & Binary Signal Generation) This test mode is used to check the tonal signal output. Signals can be output to the line using the following procedure. Step Operation or Unit Condition LCD Display Standby.
Page 117: Test Mode 6 (Ram Initialization)
UF-E1 5.7. Test Mode 6 (RAM Initialization) Initializes RAM and restore Function Parameter to their default values. Note: This operation should be performed when the unit is first installed. Step Operation or Unit Condition LCD Display Standby. 12-MAY 15:00 Press “FUNCTION”.
Page 118: Test Mode 7 (Dtmf Signal Generation)
UF-E1 5.8. Test Mode 7 (DTMF Signal Generation) This test mode is used to check the DTMF (Dual Tone Multi Frequency) signal output. The DTMF signal can be generated using the following procedure. Step Operation or Unit Condition LCD Display Standby.
Page 119: Test Mode 9 (Ram Test)
UF-E1 5.9. Test Mode 9 (RAM Test) This test mode is used to check RAM by writing and reading the document memory. Step Operation or Unit Condition LCD Display Standby. 12-MAY 15:00 Press “FUNCTION”. DEFERRED XMT? Press “#”, “ ”, “#”, “#”.
Page 120: Test Mode 10 (Led/Lcd Test)
UF-E1 5.10. Test Mode 10 (LED/LCD Test) This test mode is used to check the LEDs, LCD and CCD. Use the following procedure. Step Operation or Unit Condition LCD Display Standby. 12-MAY 15:00 Press “FUNCTION”. DEFERRED XMT? Press “#”, “ ”, “#”, “#”.
Page 121: Test Mode 11:Id No Setting
UF-E1 5.11. Test Mode 11:ID No Setting This test mode is only for the countries where service personnel is to enter the ID number. If the operation of entering the ID number is not listed in the User's Guide attached, follow the procedure below to enter the ID number.
Page 122: Test Mode 12 (Bi-Directional Alignment Test Pattern)
UF-E1 5.12. Test Mode 12 (Bi-directional Alignment Test Pattern) A test pattern is printed for checking the bi-directional print alignment using the following procedure. (Bi-directional Alignment Test Pattern) Step Operation or Unit Condition LCD Display Standby. 12-MAY 15:00 Press “FUNCTION”.
Page 123: Test Mode 15: Cis Training
UF-E1 5.13. Test Mode 15: CIS Training In case of CIS, it is required to measure and store AGC data of shading and halftone into flash memory by this Test Mode due to no white level for scanning. Test Mode 15 Operation...
Page 124: Test Mode 19 (Received Files Deletion)
UF-E1 5.14. Test Mode 19 (Received Files Deletion) Test Mode 19 Operation Step Operation or Unit Condition LCD Display Standby. 12 - JUL 15:00 Press “FUNCTION”. DEFERRED XMT? Press “#”, “ ”, “#”, “#”. TEST MODE (< >) Press “1”, “9”, and “START/SET”.
Page 125: Test Mode 21 (Check Sum Calculation)
UF-E1 5.15. Test Mode 21 (Check Sum Calculation) Test Mode 21 Operation Step Operation or Unit Condition LCD Display Standby. 12 - JUL 15:00 Press “FUNCTION”. DEFERRED XMT? Press “#”, “ ”, “#”, “#”. TEST MODE (< >) Press “2”, “1”, and “START/SET”.
Page 126: Test Mode 25 (Adjust Pen Voltage)
UF-E1 5.16. Test Mode 25 (Adjust Pen Voltage) Test Mode 25 Operation Step Operation or Unit Condition LCD Display Standby. 12 - JUL 15:00 Press “FUNCTION”. DEFERRED XMT? Press “#”, “ ”, “#”, “#”. TEST MODE (< >) Press “2”, “5”, and “START/SET”.
Page 127: Test Mode 26 (Ppp Log Print)
UF-E1 5.17. Test Mode 26 (PPP LOG PRINT) Test Mode 26 Operation Step Operation or Unit Condition LCD Display Standby. 12 - JUL 15:00 Press “FUNCTION”. DEFERRED XMT? Press “#”, “ ”, “#”, “#”. TEST MODE (< >) Press “2”, “6”, and “START/SET”.
Page 128: Test Mode 31 (Data Modem Signal Transmission)
UF-E1 5.18. Test Mode 31 (Data Modem Signal Transmission) Test Mode 31 Operation Step Operation or Unit Condition LCD Display Standby. 12 - JUL 15:00 Press “FUNCTION”. DEFERRED XMT? Press “3”, “1” and “START”. V.34 33600bps Press “<” or “>”.
Page 129: System Description
UF-E1 6 System Description 6.1. Mechanical Operation The mechanical units are installed in a single unit body. The mechanical block consists of the following mechanisms: Transmit Mechanism Receive Mechanism Covers and Enclosures Control Panel 6.1.1. Transmit Mechanism The Transmit Mechanism consists of components which feed, scan and eject documents, as well as send signals.
Page 130 UF-E1 ADF Roller (3006) The ADF Roller feeds documents page by page into the scanning area from the ADF Tray. Separation Rubber (1025) The Separation Rubber separates documents placed on the ADF Tray and prevents multiple feeding. Transmission Driving System The Transmission Driving System feeds in the documents through the transmitting mechanism.
Page 131 UF-E1 6.1.2. Receive Mechanism The Receive Mechanism consists of components which feed, record and eject the recording paper. The components and their functions are as follows: Print Cartridge Paper Separate Roller (ASF Roller) Pressure Plate Rx Eject Roller Paper Feed Roller...
Page 132 UF-E1 6.1.3. Mechanical Operation (Transmission) Document Set ↓ 1. ADF Sensor is activated. ↓ START button is pressed. (If built-in dialer is used for dialing, this step is not required.) 2. Document feeds and activates the Scanning Point Sensor.:TX Motor rotates clockwise.
Page 133: Electrical Circuit
UF-E1 6.2. Electrical Circuit 6.2.1. Block Diagram...
Page 134: Signal Routing
UF-E1 6.2.2. Signal Routing Binary Signal FRIP4 IC16 Facsimile Coded Data Modulated Signal (1) Serial Comm. (2) DMA ch.0 Printer (3) DMA ch.1 Line Memory (4) Parallel Comm. Asic Working Area MODEM IC15 IC13 (DRAM) MODEM Copy Mode Binary Signal...
Page 135 UF-E1 Binary Signal FRIP4 IC16 Facsimile Coded Data Modulated Signal (2) Read & Write (3) Read Line Memory Printer (4) Write (5) DMA ch.0 Asic (ECM) Buffer Memory (6) Parallel Comm. MODEM Working Area IC15 IC13 (DRAM) MODEM Reception Binary Signal...
Page 136 UF-E1 Binary Signal FRIP4 IC16 Facsimile Coded Data Modulated Signal (1) Serial Comm. (2) DMA ch.0 Document Memory Printer (3) Read IC6 (FLASH) (4) Write Line Memory Asic MODEM Working Area IC13 (DRAM) IC15 MODEM Scan into Memory Binary Signal...
Page 137: Memory Transmission
UF-E1 Binary Signal FRIP4 IC16 Facsimile Coded Data Modulated Signal (1) Read Document Memory (2) Write IC6 (FLASH) Printer (3) Read & Write Asic (4) Read Line Memory (5) Write (ECM) Buffer Memory (6) Read MODEM Working Area IC27 (DRAM)
Page 138 UF-E1 6.2.3. CIS Drive Circuit and Shading Circuit The scanning section of the hand-scanner is composed of optical parts for equal size scanning and is com- posed of: LED light source, rod-lens array, contact-type linear image sensor, and encoder. Circuit Diagram...
Page 139 UF-E1 6.2.4. NCU/TEL Circuit • The NCU circuit consists of the network control section, which connects the circuit and detects circuit conditions, and connection switching control section for the extension telephone. • The telephone circuit section is composed of circuits extending from the NCU circuit via T1 transformer to the analog circuits in the SC circuit.
Page 140 UF-E1 • When the PB is set, AFE (IC2) of the modem outputs the PB signal. When DP is set, PDL port of the CPU (IC15) controls the RL3 and outputs the dialing pulses. 2. Operation when calling from the extension phone •...
Page 141 UF-E1 6.2.5. Sensor Motor Driver ASF B point 2AE7-0001 sensor IC18 Gear sensor Motor DZAC000263 Driver ASIC Motor Operational Description The sensor motor driver (IC1) for the driving mechanisms is installed on the SC board and is driven by bi- polar constant current.
Page 142 UF-E1 6.2.6. Description of Power Supply Board Functions The power supply unit, as shown in the block diagram, has an AC input of 230 V, 50/60 Hz and supplies outputs of 24 V, 5 V, and 3.3 V. (Refer to Figure 6.2.6.1)
Page 143 UF-E1 6.2.7. Panel Unit The panel unit is composed of the liquid crystal display (LCD) module, a group of switches and LED's. The control for these are conducted by MN195005 (IC15: one-chip facsimile engine) through PRC2 and input and output ports.
Page 144: Functions And Features
UF-E1 6.3. Functions and Features 6.3.1 Automatic Switching Mode There are 3 different automatic switching modes available TEL, : Fax/Tel, and Fax/Built-in TAM. These modes are used for a single telephone line that shares fax and voice. 1. Tel Mode This mode is used for answering calls by telephone handset, not by fax.
Page 145 UF-E1 1. Operation flow The Fax/Tel Automatic Switching Mode operation flow is shown below. Start Is CNG detected? Ring in Is handset picked up? Rings > R1 ? (Note 1) Is SPEAKERPHONE pressed? CML On (On Line) Set T1 (Note 2)
Page 146 UF-E1 2. Signal Sequence a. If the calling party is a Fax machine (with CNG signal) If CNG signal is detected, the machine starts Fax communication procedure immediately. Calling Party Machine (Fax Call) Ringer On Line Monitoring CNG CNG detected...
Page 147 UF-E1 c. If the calling party is an operator If the calling party is an operator, CNG will not be sent from the calling party. The unit will request an operator's attention through the built-in speaker while sending OGM1. Calling Party...
Page 148 UF-E1 1. The CNG signal is monitored over a 4-second silent period following reception of the incoming call. If the CNG signal is detected, the Fax Reception mode is set. If the CNG signal is not detected, the TAM OGM is played back to the caller. Subsequently the ICM recording mode is set.
Page 149 UF-E1 3. Operation flow Fax / Built-in TAM Automatic Switching Mode operation flow is as follows. Start Ring in On CML Set T1 = 4 sec. Detect Busy Tone? Detect DTMF? Detect CNG? T1 over? Execute Remote Controlled Features Send TAM OGM...
Page 150 UF-E1 4. Signal Detection Sequence Pi sound Pseudo Ring Ringer back Tone TAM OGM Recording ICM T2 (Note 1) T1 = 4 sec. Monitoring CNG & Monitoring CNG & Busy Tone (Note 2) Busy Tone (Note 2) Monitoring DTMF Tone...
Page 151 UF-E1 5. Pseudo Ring Back Tone (PRBT): Fax / Tel Mode This 400Hz, modulated by 16Hz tone is generated by the Modem and has a 1 sec. On and 2.6 sec. Off interval. The Off time of Pseudo Ring Back Tone requires at least 4 sec. to detect CNG.
Page 152 UF-E1 6.3.2 Remote Reception General Description This feature allows the operator to activate the fax unit remotely, from an extension phone. This feature available on DTMF phones. T3 : 3 sec. T1 : 50 ms T2 : 10 ms Limitation of Detection The machine detects the signal to start fax communication by the integration time between the pressing of the * key as shown below.
Page 153 UF-E1 6.3.3 Message Transfer 1. You can program the machine to transfer a ICM (Incoming Message) to the specified station. After a new message is recorded, the machine will automatically call the preprogrammed telephone number. You can listen to the message at the called telephone set by entering the password using the keypad on the telephone.
Page 154 UF-E1 6.3.4 Built in TAM The machine is equipped with built in TAM. Flash memory is adapted to record messages so even when a power failure has occurred, the messages will not be lost. 1. TAM OGM (Outgoing Message) Recording A TAM OGM can be recorded for Max.
Page 155 Remote Control Feature 1. This function permits the retrieval of recorded messages by sending remote commands from the remote location to the UF-E1. Note that this function will only work with touch tone dialing from either a fax machine or a telephone.
Page 156: F-Rom Memory Management
UF-E1 6.4. F-ROM Memory Management FROM FROM FROM F-ROM data is managed by blocks (On board F-ROM is 1MByte) and can be wrote/erased by this unit. Document F-ROM Page 1 Do not erase any block Block 1 Page 2 Block 1 is erased...
Page 157: General Network Information
UF-E1 6.5. General Network Information 6.5.1. Network Protocol 6.5.1.1. OSI Reference Mode Having a model in mind helps you understand how the pieces of the network puzzle fit together. The most commonly used model is the Open System Interconnection (OSI) reference model. The OSI model, first released in 1984 by the International Standards Organization (ISO), provides a useful structure for defining and describing the various processes underlying networking communications.
Page 158 UF-E1 6.5.1.2. Protocol One reason for the popularity of TCP/IP is that no one vendor owns it, unlike the IPX/SPX, DNA, SNA or Apple Talk protocol suites, all of which are controlled by specific companies. TCP/IP evolved in response to input from a wide variety of inductry sources.
Page 159 UF-E1 6.5.2. Layer Functions and Technology 6.5.2.1. In recent years, the Point-to-Point Protocol, RFC 1661, or PPP has become popular with internet. PPP is a bit/byte synchronous or asynchronous link control protocol, using serial lines and it supports various net- work protocols.
Page 160 UF-E1 Key Point Data Link Layer Itself and Network Layer Service Authorization/Compacting/Quality Monitoring/Encrypting TCP/IP IPv6 AppleTalk DECnet VINES Network Layer IPCP IPv6CP IPXCP ATCP OSINLCP DNCP BVCP XNSCP Data Link Authorization Protocol Compacting Protocol Link Quality Monitoring Protocol Encrypting Protocol...
Page 161 UF-E1 3. PPP and Physical Conditions PPP operates under the physical conditions shown in Table 6.5.2.1. The physical network used is a general dedicated line of the full-duplex and point-to-point type or switchboard circuits. In concrete terms, there are general telephone lines, dedicated circuits, X.25 packet exchange network, ISDN, frame relay, Synchronous Optical Network (SONET), etc.
Page 162 UF-E1 From 0xxx to 3xxx of the hexadecimal number are the values of the protocol of network layer, from 8xxx to Bxxx are values of network control protocol (NCP), and xxx to Exxx are values for control protocol of data link layer including the LCP. Of these values, the lowest bit of the upper bytes must be 0 and the lowest bit of the lower bytes must be 1.
Page 163 UF-E1 Number Protocol Number: PPP Data Link Layer Protocol Number 0021 Internet Protocol 0023 OSI Network Layer 0025 Xerox NS IDP 0027 DECnet Phase IV 0xxx - 3xxx : Network Layer Protocol 0029 AppleTalk 002B Novell IPX 002D Van Jacobson Compressed TCP/IP...
Page 164 UF-E1 Table 6.5.2.3 Special protocol values of PPP frames (RFC 1681) Number 0001 Bad protocol (self description bad option: Type 10) 0003 - 001F Reserved (Increased efficiency in transmissivity process- ing (When non-synchronous escape control is used) 007D Reserved (Non-synchronous escape code)
Page 165 UF-E1 c. ACCM ACCM is a map for transmitting control codes transmissively (as data) on asynchronous links. As shown in Figure 6.5.2.4, ACCM is a bit table with which each of 32-character control codes is identi- fied and it is composed of 32 bits. For example, when the ACCM value is 001000h (bit 17 is ON), the corresponding control code (DC1) is the subject of escape.
Page 166 UF-E1 5. PPP Link Processing (RFC 1661) Figure 6.5.2.6 shows the outline of the transition of PPP states and Table 6.5.2.4 shows the details of transition. After the system is booted, link is established by LCP. When this is done, the negotiation (adjustment) for link setting option is conducted at the same time.
Page 167 UF-E1 Table 6.5.2.4 PPP state transition table (detailed) State No. Event State Name Initial Starting Closed Stopped Closing Stopping Req-Sent Ack-Rcvd Ack-Sent Opened Lower position Up irc, CR Trans. /6 Lower position Down Layer start /1 0 Layer down / Link open →Link OK...
Page 168 UF-E1 b. Link Establishment Phase In this phase, LCP configuration packets (configuration request, acknowledge packet) are exchanged in both directions. When the transmitting and receiving ends transmit and receive the Configure-Ack packet, link is established (LCP Open). In this phase, only the LCP packet can be used.
Page 169 UF-E1 6.5.3. Network Layer 6.5.3.1. IP Address An IP address is a set of four numbers, or octets, that can range in value between 0 and 255. Each octet is separated by a period (i.e. 192.168.31.1). All devices on a network that runs the TCP/IP protocol suite need a unique IP address.
Page 170 UF-E1 6.5.3.2. Internet Protocol The IP (Internet Protocol) operating at the OSI Network layer, is a connectionless protocol that provides dat- agram service, and IP packets are most commonly referred to as IP datagrams. It performs the following typical functions: 1.
Page 171 UF-E1 TCP 3 Handshake General Flowchart The client (UF-E1) generates random sequential numbers initially and sends them to the server. The initial sequetial numbers are synchronized with the clock and increments the counterevery 4 msec. The Server responds with an acknowledgement that increments the initial sequential number by one. The ACK bit number is also changed to a "1"...
Page 172 Usually, all of the devices on a given network will have the same right-hand portion of their Domain Names (i.e. panasonic.com in the examples above). It is also possible for a Domain Name to exist but not be con- nected to an actual device. This is often done so that a group or business can have an Internet email address without having to establish a real Internet site.
Page 173 UF-E1 The Name resolution flow is shown in the illustration above and follows the sequence below: 1. Query the local DNS Server. 2. Query the root DNS Server because the domain belongs to a destination outside of the company. 3. Com root DNS Server sends the query to the jp root DNS Server.
Page 174 UF-E1 6.5.6. SMTP (Simple Mail Transfer Protocol) The objective of Simple Mail Transfer Protocol (SMTP) is to transfer mail reliably and efficiently. SMTP is independent of the particular transmission subsystem and requires only a reliable ordered data stream channel. The SMTP design is based on the following model of communication: as the result of a user mail request, the sender-SMTP establishes a two-way transmission channel to a receiver-SMTP.
Page 175 6.5.7.1. Mode of operation The UF-E1 conforms to the ITU T.37 standards and RFC2305. This Internet store and forward facsimile uses approved IETF protocols for posting, relaying and delivery of documents. It requires no changes to Internet standards or to ITU Facsimile Recommendations.
Page 176 UF-E1 6.5.7.3. Definitions and Abbreviations IETF Internet Engineering Task Force Request For Comment MIME Multipurpose Internet Mail Extensions POP3 Post Office Protocol version 3 SMTP Slimple Mail Transfer Protocol TIFF Tagged Image File Format TIFF Image File Directory Mailstore Equipment capable of receiving email and storing it for retrievals by receiver RFC reference http://www.imc.org/ietf-fax/...
Page 177 UF-E1 A profile is based on a collection of ITU-T facsimile coding methods. Class Color Coding method Remarks Internet Fax minimal set MMR, MR Internet Fax full mode JBIG Internet Fax mixed mode Color JPEG Color minimal set (lossy) Color...
Page 178 UF-E1 6.5.7.6. Coding Example of a TIFF Header, IFD and Image data Header First IFD Offset IFD(Page 0) Value Offset Next IFD Offset Strip Offset Long Values Image Data (Page 0) IFD (Page 1) Value Offset Next IFD Offset Long Values...
Page 179 Communication Protocols The set of conventions necessary to achieve facsimile-compatible service covers basic data transport, doc- ument data formats, message (document) addressing, delivery confirmation, and message security. Protocol supported by the UF-E1 is as follows: SMTP Command & Reply Procedure UF-E1 SMTP Server (ef1.labo.mgcs.com)
Page 180 UF-E1 6.5.8.1. Opening and Closing At the time the transmission channel is opened there is an exchange of commands to ensure that the hosts are communicating with the hosts they think they are. The following two commands are used in the trans- mission channel for opening and closing: HELO:<SP>...
Page 181 UF-E1 6.5.8.10. NUMERIC ORDER LIST OF REPLY CODES System status or system help reply <domain> Service ready <domain> Service closing transmission channel Requested mail action okay# completed User not local; will forward to <forward-path> Start mail input; end with <CRLF>.<CRLF>...
Page 182 UF-E1 6.5.9. POP (Post Office Protocol Version 3) 6.5.9.1. Introduction On certain types of smaller nodes in the Internet it is often impractical to maintain a message transport sys- tem (MTS). For example, a workstation may not have sufficient resources (cycles, disk space) in order to permit a SMTP server and associated local mail delivery system to be kept resident and continuously run- ning.
Page 183 UF-E1 A POP3 server MAY have an inactivity autologout timer. Such a timer MUST be of at least 10 minutes’ dura- tion. The receipt of any command from the client during that interval should suffice to reset the autologout timer. When the timer expires, the session does NOT enter the UPDATE state--the server should close the TCP connection without removing any messages or sending any response to the client.
Page 184 UF-E1 POP 3 Command & Reply Procedure UF-E1 POP 3 Server (ef1.labo.mgcs.com) (sv2.labo.mgcs.com) Opening TCP Connection (TCP Port No. 110) TCP 3 way handshake +OK POP Server ready & Opening Session <1896.697170952@labo.mgcs.com> USER s50055 +OK Password required for s50055 AUTHORIZATION PASS !xxxx +OK s50055 has 2 messages (126040 octets).
Page 185: Product Overview
UF-E1 6.6. Product Overview This printer is a 600 dpi color inkjet raster graphics print bar designed for integration into a fax or plain paper (MFP) fax product. It consists of a small carriage assembly and carriage drive system, which uses a short (47 mm high) replaceable inkjet print cartridge to provide the ability to create a small form factor product with optimal reliability and performance.
Page 186 UF-E1 6.6.2. Carriage Movement The carriage is belt driven, using a 3-to-1 gear set for coupling to the motor. The gear set minimizes side- loading of the motor, because the belt is not attached directly to the motor. The belt is supported and driven at the left end by the belt gear, and supported at the right end by the idler pulley.
Page 187 UF-E1 6.6.3. Print Cartridge Maintenance The top of the carriage contains a spring latch for the print cartridge. The spring latch provides tension for consistent snap-in of the print cartridge. The print cartridge should only be replaced when the carriage is in the designated service position, which is controlled from the product's front panel.
Page 188: Troubleshooting
UF-E1 The service station wipes and caps the orifice plate of the print cartridge after each print job and at pre- defined set points to ensure long product life. The orifice plate on the print cartridge is wiped to remove any excess ink, which could harden and cause the nozzles to clog.
Page 189 UF-E1 6. Damage to the encoder strip can cause print quality problems. Check for problems with the encoder strip and spring. If necessary, replace affected parts (see sections 6.12.5 and 6.12.6). 6.7.1.2. Missing Dots Figure 6.11.1 Example of missing dots shown as partial printed rows (white stripes) in the printout If any rows of dots are missing on printouts (as shown in Figure 6.11.1 above), check for the following prob-...
Page 190 UF-E1 6.7.1.3. Cleaning the Carriage Contacts and Cartridge Contacts 1. Use only lint-free swabs moistened with water. Do not use cotton swabs. 2. Clean the contacts as shown in Figure 6.11.3. Caution: Do not clean the print cartridge nozzles or orifice plate with swabs.
Page 191 UF-E1 6.7.2. Print Cartridges This printer uses consumer replaceable print cartridges. Warning: Print cartridge ink contains chemical substances, which may be harmful if swallowed. Keep new and used cartridges out of reach of children. Caution: Do not use refilled print cartridges. Attempting to refill a print cartridge can cause a sudden drainage and/or leakage of ink, which can damage the product and possibly personal property.
Page 192 UF-E1 6.7.3. Causes for Short Print Cartridge Life There are several causes for short print cartridge life, which are discussed in this section. 1. Printed pages may have a higher percentage of ink coverage than specified for average print cartridge life.
Page 193: Part Replacement
UF-E1 6.8. Part Replacement 6.8.1. Carriage Motor Preparation Follow the appropriate printer disassembly procedures for removing printer housings and accessing the print bar. Removal 1. Disconnect the carriage motor cable from the motor. 2. Place the print bar so the front is facing you (carriage and service station on the left with gear, pulley and belts clearly visible).
Page 194 UF-E1 6.8.3. Cap and Wiper Replacement Removal 1. Move the carriage away from the service station. This may require rotating the bottom gear on the ser- vice station to release the carriage lock (see Figure 6.12.2). Rotate gear to release carriage lock Figure 6.12.2.
Page 195 UF-E1 4. To replace either the monochrome wiper or color wiper, rotate the rotary service assembly counter- clockwise until the desired wiper is in the top position. Using a small flat blade screwdriver, pry the wiper out of the service station as shown in Figure 6.12.4. To install the new wiper, reverse this pro- cess by inserting one side of the new wiper and then snapping in the other side.
Page 196 UF-E1 6.8.5. Encoder Strip Spring Preparation Follow the appropriate printer disassembly procedures for removing printer housings and accessing the print bar. Removal 1. Move the carriage away from the service station. This may require rotating the bottom gear on the ser- vice station to release the carriage lock.
Page 197 UF-E1 Replacement 1. Place the encoder strip spring over the flange on the carriage bar, with the spring tab protruding to the right as shown in Figure 3.12.6a. 2. Make sure that the groove on the carriage rod is properly seated at the right end of the carriage bar.
Page 198 UF-E1 8. While pushing the encoder strip spring toward the carriage, hook the left end of the encoder strip onto the flange on the left end of the carriage bar (see Figure 6.12.6b above). 6.8.6. Encoder Strip Preparation Follow the appropriate printer disassembly procedures for removing printer housings and accessing the print bar.
Page 199 UF-E1 6.8.7. Carriage Rod Lock Preparation Follow the appropriate printer disassembly procedures for removing printer housings and accessing the print bar. Removal 1. Move the carriage to the center of the carriage path. This may require rotating the bottom gear on the service station to release the carriage lock.
Page 200 UF-E1 Important Note To reduce wear and noise, apply two drops of oil to the carriage rod: 1. One drop between the carriage bushings. 2. One drop in the center of the carriage rod. Be sure to use a synthetic, low vapor-pressure oil that is compatible with the plastic parts and resistant to evaporation.
Page 201 UF-E1 8. To remove the drive belt, simply detach the belt from the bottom of the carriage assembly (see Figure 6.12.14). Flex clamp Figure 6.12.13 Clear plastic flex clamp that secures the circuit to the chassis Belt pulled up to...
Page 202 UF-E1 10. To replace the carriage assembly or drive belt, reverse the preceding process being very careful not to damage the flex cable when inserting the cable through the chassis assembly. Also, use care when installing the encoder strip, drive belt, and flex cable, as they must be installed properly to avoid rub- bing against any other components.
Page 203: Troubleshooting Flowchart
UF-E1 6.9. Troubleshooting Flowchart Start Does carriage Does carriage See section PQ faded, fuzzy move when move smoothly? 6.11.1.1. or smeared? printing? Check for failure messages. See H/W section for measuring 19V carriage drive voltage. Is PQ missing See section 6.11.1.2.
Page 204 UF-E1...
Page 205: Exploded View & Parts List
UF-E1 7 Exploded View & Parts List 7.1. Suffix in the Parts List Suffix Country Suffix Country Austria Kuwait U.K. Brazil (100 V) Denmark Malaysia Taiwan India Finland Pakistan Germany Brazil (200 V) The Netherland Russia Spain Saudi Arabia Hong Kong...
Page 206: Cover & Panel Assy
UF-E1 7.2. Cover & Panel Assy Ref. No. Part No. Part Name Q'ty Remark 1001 DZNA000746 LCD WINDOW Other Countries 1001 DZNA000747 LCD WINDOW AA,AG 1001 DZNA000762 LCD WINDOW 1001 DZNA000763 LCD WINDOW 1001 DZNA000764 LCD WINDOW 1001 DZNA000765 LCD WINDOW...
Page 207 UF-E1...
Page 208: Tx Frame Assy
UF-E1 7.3. TX Frame Assy Ref. No. Part No. Part Name Q'ty Remark 2001 DZMA002771 ASSY HANDSET Other Countries 2001 DZMA003330 ASSY HANDSET AA,AB,AD,AF,AG, AH,AJ,AM,AN,AP, AQ,AR,AS,AV,EE, 2002 DZKK000079 BUTTON HOOK All Countries 2003 DZJF000470 GUIDE DOC All Countries 2004 DZJF000471...
Page 209 UF-E1...
Page 210: Scanner Unit
UF-E1 7.4. Scanner Unit Ref. No. Part No. Part Name Q'ty Remark 3001 DZLM000121 BUSH P5 All Countries 3002 DZLF000391 D GEAR C37 All Countries 3003 DZLA000230 ROLLER FEED All Countries 3004 DZLF000390 SHAFT GEAR All Countries 3005 DZKG000102 JOINT ADF...
Page 211 UF-E1...
Page 212: Printer Driver Assy
UF-E1 7.5. Printer Driver Assy Ref. No. Part No. Part Name Q'ty Remark 4001 DZJA000801 BRACKET L All Countries 4002 DZEC101879 PENC(B) PCB ASSY All Countries 4003 DZLM000122 BUSH P6 All Countries 4004 DZHP004525 ROLLER PAPER ASSY All Countries 4005...
Page 213 UF-E1...
Page 214: Harness
UF-E1 7.6. Harness Ref. No. Part No. Part Name Q'ty Remark 5001 DZFP000964 CABLE,CIS All Countries 5002 DZFP000993 CABLE,TXMOT All Countries 5003 DZFP000961 CABLE,PNL1 All Countries 5004 DZFP000963 CABLE,PENCPW All Countries 5005 DZFP000962 FFC,PENC All Countries 5006 DZFP000994 CABLE,DCMOT All Countries...
Page 215 UF-E1...
Page 216: Base Unit
UF-E1 7.7. Base Unit Ref. No. Part No. Part Name Q'ty Remark 6001 DZKN000173 SPRING COIL SP All Countries 6002 DZDR000021 SPEAKER All Countries 6003 DZFM000084 ASST,INLET(F140) All Countries 6004 DZJB000199 BASE MECHA All Countries 6005 DZHC000128 ACTUATOR PAPER All Countries...
Page 217 UF-E1...
Page 218: Asf Unit
UF-E1 7.8. ASF Unit Ref. No. Part No. Part Name Q'ty Remark 7001 DZML000374 TRAY EXT All Countries 7002 DZJB000197 BASE ASF All Countries 7003 DZJM000521 CLIP BAR All Countries 7004 DZKG000136 SHAFT CAM All Countries 7005 DZLF000394 D GEAR C35...
Page 219 UF-E1...
Page 220: Printer Unit
UF-E1 7.9. Printer Unit Ref. No. Part No. Part Name Q'ty Remark 8001 DZGG000050 SP MOTOR, CARRIAGE All Countries 8002 DZLF000397 GEAR BELT All Countries 8003 DZJM000524 SP FLANGE, BELT GEAR All Countries 8004 DZHP004522 SA SERVICE STATION ASSY All Countries...
Page 221 UF-E1...
Page 222: Packing & Accessories
UF-E1 7.10. Packing & Accessories Ref. No. Part No. Part Name Q'ty Remark 9001 DZRQ000014 CD, PRINTER DRIVER All Countries 9002 DZSD001351 QUICK STARTER GUIDE All Countries 9003 DZSD001378 INTERNET REGISTRATION FORM AB,AK,AQ,AW,YC,YG,YM,YT, YW,YX,YS 9004 DZSD001252 USER'S GUIDE 9004 DZSD001269...
Page 223 UF-E1 Ref. No. Part No. Part Name Q'ty Remark 9015 DZFN000108 PTT PLUG 9015 DZQE000005 PTT PLUG 9015 DZFB000001 PTT PLUG 9015 DZFN000105 PTT PLUG 9015 DZQE000003 PTT PLUG YC,YG,YR,YV 9016 DZFB000022 LINE CABLE 9016 DZFN000095 LINE CABLE AB,AK,AW 9016...
Page 224 UF-E1 9001 9003 9005 9014 9018 9012 9002 2001 9017 9007 9015 9008 9016 9006 9009 9010 9011 9013 Fig 9 : Packing & Accessories...
Page 225: Screw
UF-E1 7.11. Screw Ref. No. Part No. Part Name Q'ty Remark XTB3+8J SCREW All Countries XTB3+10J SCREW All Countries XYN4+F8 SCREW All Countries XYN3+F6 SCREW All Countries XTB26+6J SCREW All Countries XTN26+6J SCREW All Countries DZPB000006 SCREW All Countries XSB4+10BN...
Page 226: Schematic Diagram
UF-E1 8 Schematic Diagram GENERAL CIRCUIT DIAGRAM AC INLET AC 100V/200V CNP1 POWER SUPLY DZEA000048(100V) /DZEA000049(200V) LINE CNJ2 CNJ27 CNJ28 CNP10 CNJ3 CNP17 CNJ25 CNJ24 nASFB MIC+ REC- nRING REC+ +5VK pEARY MIC- HSIG FAXRX FAXTX CNP19 ASF B-Point AGND...
Page 227 UF-E1 CNJ31 DZEC101824 (DZEP000563) CNJ30 FBB8707 DZEC101880 (DZEP000567) CNP43 CNP42 CNP18 LCD MODULE CNP14 CNP40 CNP44 CNP45 pRSTO CNJ41 PNL R/W PNL ALE CNP19 CNP20 PNL DTE DZEC101896 PNLD0 JTAG (DZEP000564) PNLD1 PNLD2 PNLD3 KEY SW +5VS FBN8700 FBN8709 CNP13...
Page 228 UF-E1...
Page 229 UF-E1...
Page 230 UF-E1 SC 1 +3VC 007:A3 pDPPB 007:A4 pDPPB nNPOL 007:A3 nNPOL nPPOL 007:A3 nPPOL JW13 R176 p24VON JW14 006:A1 p24VON R177 PDWN 006:C4 PDWN nAFERST 004:D4;004:D2 nAFERST +3VC +3VC VDD2 R139 003:C3 nRAS n_RAS/DPA9 002:C3 nDREQ1 R140 002:C3 003:C3 nDREQ2...
Page 231 UF-E1 +3VC +3VC +3VC JW74 002:C1;006:A3;009:A2 C300 nPONRST 22uF S-80825ANMP 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF P07/TMIO7 pCML 007:A2 pPDL 007:A2 P06/TMIO6 pEARY 007:A1 P05/TMIO5 P04/TMIO4 nHOOKSW 007:A4 P03/TMIO3 pDPMT 007:A2 007:A3 P02/TMIO2 P01/TMIO1 nASFA 007:A4 P00/TMIO0 009:A2 009:A1 009:A2 VDD2...
Page 232 UF-E1 SC 2 TL71 AT-49-24.576MHz 002:D3 24.576MHz 002:D3 SCLK 002:D3 006:C4 n5VON 007:C2 CDIR 007:C1 nCACK 007:C1 CBUSY 007:C1 CPERROR 007:C1 CSELECT 007:C1 nCFAULT 007:B1 CDATA[8-1] HVDD nCSTB 007:C2 nCSTROBE nCAUTOFD 007:C2 nCAUTOFD nCINIT 007:C2 nCINIT nCSELIN 007:C2 nCSELIN TL is A-SIDE...
Page 233 UF-E1 NF19 CMCLK 001:D2;004:D3;004:D1 BLM11B601S 22pF +3VC nPONRST 001:D1;006:A3;009:A2 nSYSRST 001:D3;008:A4 *CLR R178 IC23 CLSWEN 005:A3 nGAWR 002:A4 CLSWDA 005:A3 002:D1 nFFWR CLSWCK 005:A3 nGARD 002:A4;002:D1 005:A2 001:A3;002:D1;003:A1;008:A4;009:D2 nRDE BZCK 005:A2 nGADACK1 002:C3;002:D2 +3VC 001:A2;002:D2 nDACK1 001:A3;003:A1;008:A4;009:D2 nWRE nFFWR 002:D1 001:A3;002:A4...
Page 234 UF-E1 SC 3 001:A3 nCSRAM 001:A3;002:D1;002:D1;008:A4;009:D2 nRDE 001:A3;002:C1;008:A4;009:D2 nWRE 001:A3;002:A4 nUBE 001:A3;002:A4 nLBE 001:A4;002:A4;008:D4;009:C2;009:C2 CA[23-0] +3VC +3VC 0.1uF 002:A4 nCSVROM RY/*BY MBM29LV800BA-90PFTN *RESET CD[0] *BYTE CD[1] CA[1] CD[2] CA[2] CD[3] CA[3] CD[4] CA[4] CD[5] CA[5] CD[6] CA[6] CD[7] CA[7] CD[8]...
Page 235 UF-E1 +3VC 0.1uF 0.1uF 15ns CY7C1021V33-15ZCT *BHE CD[0] *BLE I/O1 CD[1] I/O2 CD[2] CA[1] I/O3 CD[3] CA[2] I/O4 CD[4] CA[3] I/O5 CD[5] CA[4] I/O6 CD[6] CA[5] I/O7 CD[7] CA[6] I/O8 CD[8] CA[7] I/O9 CD[9] CA[8] I/O10 CD[10] CA[9] I/O11 CD[11]...
Page 236 UF-E1 SC 4 R211 0.047uF TL25 005:D2 VOICEIN TL24 C340 R222 TL17 IC17 BA4558F VCMV R206 C317 TL35 TL26 390pF R234 R209 005:A2 VOICEOUT TL33 R207 IC17 TL29 BA4558F R235 C319 0.1uF VCMV VCMV C342 22uF VCMV IC17 VCMV BA4558F...
Page 237 UF-E1 AFEAVDD AFEDVDD AVDD DVDD AUXIN+ AUXIN- XTALOUT CMCLK 001:D2;002:D1;004:D3 XTALIN/MCLK TL14 TL19 SCLK BBITCLK 001:A4 R210 IC14 BSPCLK 001:A4 TL415 BTXD 001:A4 STLC7550TQF7 TL413 BRXD 001:A4 DOUT TL31 OUT+ TL30 OUT- M/*S VREFP TSTD1 VREFN nAFERST 001:A1;004:D4 *RESET R233...
Page 238 UF-E1 SC 5 TL263 TL34 C183 007:A4 HANDMIC 0.1uF C159 5600pF TL276 R111 C193 002:C1 0.1uF TL289 TL290 002:C2 BUZVOL0 TL277 1.8K 002:C2 BUZVOL1 C192 TL279 AGND 2200pF TL51 TL64 TL65 330pF C116 C160 002:C1 BZCK TL79 0.1uF BUZVOL2 R108...
Page 239 UF-E1 TL295 TL46 0.22uF C165 4700pF AGND 007:A4 HANDREC IC11 TL309 VOICEIN 004:A1 OP1-IN OP5-NF SW-OUT1 23 C191 OP1-NF 0.1uF SW-OUT2 22 6.8K OP1-OUT TL47 TL50 SW-OUT3 21 C176 C180 OP2-IN 0.1uF 1000pF SW-OUT4 20 3.3K OP2-OUT TL297 TL298 OP3-IN BTL-IN 0.022uF...
Page 240 UF-E1 SC 6 +24V 1 2 3 TL318 HAT1020R 001:A1 DTC143ZKA p24VON 5 6 7 8 +24VC ICP-S0.7 TL317 TL319 0.7A TL320 +24VP TL321 TL325 F0805B3R00FW TL322 3.0A TL323 TL324 002:C2 SMTPA 002:C2 SMTNA 002:C2 SMTTA 002:C2 SMTPB 002:C2 SMTNB...
Page 241 UF-E1 +5VS C209 0.1uF TO TX MOTOR B4B-PH-K-S CRB_ OUT1A CNP11 OUT1B CNP11 CRA_ CNP11 OUT2A CNP11 PHASE1 TL325 OUT2B VREF1 A6919SLB TL327 SENSE1 R179 TL328 PHASE2 TL326 TL329 VREF2 SENSE2 TL330 (FIN) (FIN) TO POWER UNIT TUC-P9P-B1 +24V CNP10...
Page 242 UF-E1 SC 7 TO NCU 002:A1 CDATA[8-1] TUC-P14P-B1 010:D3 CNP17 nASFB CNP17 R153 002:C2 CNP17 nRING +5VK CNP17 001:D2 CNP17 pEARY 002:A1 CSELECT 004:A3 CNP17 002:A1 HSIG nCFAULT 004:A3 CNP17 002:A1 FAXRX CBUSY 004:A3 FAXTX CNP17 002:A1 nCACK 002:A1 CPERROR...
Page 243 UF-E1 TO CENTORO R158 010:B2 CNJ15 MSCL IMSA-9111B-20 100pF TO PENC 0.1uF CNP18 CNJ15 40FLT-SM1-TB CDATA[1] CNP18 010:B2 CNJ15 (JST) SPWMA CDATA[2] 100pF CNP18 CDATA[3] CNP18 010:B2 CNJ15 MSDA CDATA[4] 100pF CNP18 CDATA[5] CNP18 CNJ15 CDATA[6] CNP18 010:B2 CNJ15 SPWMB...
Page 244 UF-E1 SC 8 002:C3 002:C3 IC12 TL134 LMV358MMX AGND AGND 002:C3 pSHDAT2 TL62 002:C3 pSHDAT1 TL67 002:C3 pSHDAT0 TL68 002:C3 nSHDAT3 TL114 002:C3 pSHDAT3 TL115 TL135 AGND TL126 AGND 007:B3 nISSIG TL131 IC12 LMV35 TL136 IC24 IC25 IC12 TC74HC4051AFT TC74HC4051AFT...
Page 245 UF-E1 VMCLK 002:D3 VSYNC 002:C3 +3VC 0.1uF C118 C119 0.1uF TL137 0.1uF C120 IC12 AGND AVDD DVDD LMV358MMX *SYNC MAST MCLKI FCK2 FCK1 *PEAK CLAMP IC16 C112 0.047uF TL144 GCDA MA10 4.7K MN860741 VINIG MA11 AGND TL142 AGDR MA12 TL139...
Page 246 UF-E1 SC 9 +3VC TO JTAG I/F B10B-PH-K-S 001:D2 CNP19 CNP19 001:D2 CNP19 +3VC CNP19 001:D2 CNP19 001:D2 DBGREQ CNP19 001:D1;002:C1;006:A3 CNP19 nPONRST 001:D2 CNP19 DBGMOD 001:D2 CNP19 CNP19 001:A4;002:A4;003:A1;008:D4;0 TO EYE MONITOR 1pin 001:A4;002:A4;003:A4;008:D 2pin EYECLK(01C3:TP4) 3pin 4pin EYEDAT(01C3:TP5)
Page 247 UF-E1 TO ICE I/F 54124-0608 +3VC CNP20 CNP20 001:A3 CNP20 nUBEJ 001:A3 CNP20 nLBEJ 001:D3 CNP20 FETCH0 001:D3 CNP20 FETCH1 001:A3 CNP20 nCSGAJ 001:A3 CNP20 nCSRAMJ 001:A3 nCSMEMJ CNP20 001:A4;002:A4;003:A1;008:D4;009:C2 CA[23-0] 001:A3 CNP20 nCSPROMJ CA[20] CNP20 CA[21] CNP20 CA[22] CNP20...
Page 248 UF-E1 SC 10 007:D3 RTEST +5VK +5VK +5VK +5VK +3VK +3VK +3VK +3VK 007:D4 HEADID JW23 007:D3 COLOR +5VK JW24 007:D3 nSTB1 R100 JW25 007:D3 nSTB0 R101 JW26 007:D2 R102 JW27 007:D2 R103 JW28 007:D2 R104 JW29 007:D2 R105 JW30...
Page 249 UF-E1 PWM_OFFSET 007:D4 TEMPOUT 007:D4 nHRES 002:A2;007:D4 R121 C137 22pF 15.975MHz +5VK AT-49-15.975MHz C138 33pF +3VK IC19 NM24C02M8 +3VK *STROBE nHSTROBE 002:A2 HCD[1] +5VK HCD[2] SL13 BIVDD HCD[3] HCD[4] HCD[8-1] 002:A2 HCD[5] HCD[6] HCD[7] HCD[8] *ACK nHACK 002:A3 BUSY HBUSY...
Page 250 UF-E1 +5VK SC 11 R130 010:D4;011:B3 nHRD 010:D4 nHWR TP46 010:D4 nHRAS 010:D4 nHUCAS 010:D4 nHLCAS HAB[1] HAB[2] HAB[3] HAB[4] HAB[5] HAB[6] HAB[7] HAB[8] HAB[9] TP D=1.2mm +5VK R131 010:D4 nHROMS 010:D4;011:B1 nHRD TP25 R175 *RES *BYT HAB[1] HAB[2] HAB[3]...
Page 251 UF-E1 JW16 R130 C147 0.1uF C148 0.1uF C143 0.1uF HDB[0] I/O0 HDB[1] I/O1 HDB[2] *RAS I/O2 HDB[3] *UCAS I/O3 HDB[4] *LCAS I/O4 HDB[5] I/O5 HDB[6] I/O6 IC21 HDB[7] I/O7 50ns HDB[8] I/O8 HDB[9] I/O9 HDB[10] I/O10 HDB[11] I/O11 HDB[12] I/O12...
Page 252 UF-E1...
Page 253 UF-E1...
Page 254 UF-E1...
Page 255 UF-E1...
Page 256 UF-E1...
Page 257 UF-E1...
Page 258 UF-E1 PENC 1 to SC PCB B6B-PH-K-S(JST) +24VP +5VP CNP50 +24VP CNP50 +24VP CNP50 +5VP +5VP JW11 BLM21P600SG CNP50 CNP50 NDT3055L CNP50 to SC PCB 40FLT-SM1-TB(JST) DAP202K CNJ57 MSCL 001:B3 SBC-221-172-PB 125mW 100pF CNJ57 100pF CNJ57 SPWMA 001:D2 CNJ57 MSDA...
Page 259 UF-E1 to JIG B2B-PH-K-M(JST) CNP58 CNP58 +24VP to Service Station Switch B3B-PH-K-S(JST) 001:A3 SS_SW CNP51 SS_SW CNP51 CNP51 1SMB5931BT3 nPWR_KEY 001:A3 to Carriage DC Motor B2B-PH-K-S(JST) SL13 001:B3 MOT- CNP52 MOT- 001:B3 MOT+ CNP52 MOT+ 1000pF 100pF 1000pF nPWRON 001:A3...
Page 260 UF-E1 PENC 2 1821-5460 IREF 001:A4 HEADID HEADID CID2 001:A4 RTEST RTEST CID1 001:A4 ENABLE_RTEST ENABLE_RTEST CTSR JW10 001:A4 TEMPOUT TEMPOUT C_TSR_ON BTSR TL36 001:A4 B_TSR_ON B_TSR_ON BID1 001:A4 PWM_OFFSET PWM_OFFSET BID2 46.4K 100mW 001:A4 PWM_REF PWM_REF PEN_TEST 46.4K 100mW...
Page 261 UF-E1 CNJ55 30FLZ-RSM1-TB(JST) or 52893-3090(MOLEX) 002:C1 CNJ55 002:A3 nR48 CNJ55 002:C3 nR46 CNJ55 002:C3 nR44 CNJ55 002:C4 nR42 CNJ55 TL42 TSR1 002:D4 002:C4 nR36 CNJ55 TL43 002:D4 002:A4 nR40 CNJ55 TL44 002:D1 002:A4 nR38 CNJ55 PENTEST 003:B4 002:A4 nR32 CNJ55...
Page 262 UF-E1 PENC 3 0.1uF 0.1uF FDS4953 0.5W 21.5 0.1uF 0.1uF FDS4953 0.5W 21.5 0.1uF 0.1uF FDS4953 0.5W 21.5 0.1uF 0.1uF FDS4953 NDT014 0.5W 21.5 001:A3 COLOR 002:C1 PENTEST...
Page 263 UF-E1 002:D3 002:D2 002:D4 002:D4 VOUT AMBIENT 002:A1 LM35DMX...
Page 264 UF-E1...
Page 265 UF-E1...
Page 266 UF-E1 PNL 2 JW32 JW16 SWC[3-0] 001:A4 SWC[3-0] EVQ11Q04K EVQ11Q04K SW12 SW16 EVQ11 EVQ11Q04K SWC[0] EVQ11Q04K EVQ11Q04K SW13 EVQ11Q04K SW17 EVQ11 SWC[1] SWC[2] EVQ11Q04K SW10 EVQ11Q04K SW14 EVQ11Q04K SW18 EVQ11 SWC[3] EVQ11Q04K SW11 EVQ11Q04K SW15 EVQ11Q04K SW19 EVQ11 KEY MATRIX...
Page 267 UF-E1 SWR[7-0] EVQ11Q04K SW20 EVQ11Q04K SW24 EVQ11Q04K SW28 EVQ11Q04K SW29 EVQ11Q04K JW25 EVQ11Q04K SW21 EVQ11Q04K SW25 EVQ11Q04K SW27 EVQ11Q04K SW30 EVQ11Q04K JW26 EVQ11Q04K SW22 EVQ11Q04K SW26 EVQ11Q04K SW32 EVQ11Q04K SW31 EVQ11Q04K JW20 EVQ11Q04K SW23 EVQ11Q04K HELP FLASH STOP ABBR COPY/SET...
Page 268 UF-E1 PRT 1 JW37 CNJ30 0.01uF TO SC IMSA-9111S-20L(IRISO) 0.01uF 0.01uF 0.01uF CNJ30 CDIR CNJ30 0.01uF nCACK CNJ30 CBUSY CNJ30 CPERROR CNJ30 CSELECT CNJ30 nCFAULT CNJ30 BLM11A601S CDATA[1] CNJ30 JW10 CDATA[2] CNJ30 BLM11A601S CDATA[3] CNJ30 JW11 CDATA[4] CNJ30 BLM11A601S CDATA[5]...
Page 269 UF-E1 CNJ31 CENTORONICS I/F R41-2181C(MITSUMI) JW25 BLM11A601S NF25 CNJ31 CDATA[1] BLM11A601S JW33 BLM11A601S NF10 NF33 CNJ31 CDATA[2] JW26 BLM11A601S NF26 CNJ31 CDATA[3] BLM11A601S JW34 BLM11A601S NF11 NF34 CNJ31 CDATA[4] JW27 BLM11A601S NF27 CNJ31 CDATA[5] BLM11A601S JW35 BLM11A601S NF12 NF35 CNJ31...
Page 270 UF-E1 Ink Mark Detect Ink Mark Detect Sensor EE-SY113 #:NotMount...
Page 271 UF-E1 CNP46 TO NCU FBN8710 CNP46 R (VLED) CNP46 B (GND) CNP46 (OIS)

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Panasonic UF-E1 Service Manual

1 General Description

2 Disassembly Instruction

3 Maintenance, Adjustments and Check Points

4 Troubleshooting

5 Test Modes

6 System Description

7 Exploded View & Parts List

8 Schematic Diagram

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