Page 1 ORDER NO.ISD0110009S0 Service Manual Front Counter Register JS-170FR-** © 2001 Matsusita Communication Industrial Co., Ltd. right reserved. Unauthorized copying distribution is a violation of law.
Page 3 (1) High voltage is applied to inverter transformer, cable and capacitor on the backlight PCB and backlight connector shown in Fig. 1 below. Do not touch those parts without switching off JS-170FR, expect for probes of oscilloscope or tester for testing or repairing purpose only.
Page 4 Country Code X1 Country Code Code Country or Area England Germany European Australia Taiwan U.S.A, Canda Scandinavia Canada Type of JS-170FR Specifications Custom er Specification RAM size Dip SW Model No. Country Cap Color Battery Other change timing (MB) (TP, MSR)
Page 5 Custom er Specification RAM size Dip SW Model No. Country Cap Color Battery Other change timing (MB) (TP, MSR) Display × JS-170FR-E21 From begin Yellow Fujitsu, 1/2 266MHz Not Standard ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓...
Page 6 Serial Number Control Table for Classified Modifications in the JR-170FR Models Model Number Modification Description U20,U21 U22,U23 U24,U25 G20,G21 G22,G23 G24,G25 E20,E21 E22,E23 E24,E25 S20,21 R430 jumper wire 1 Main board modified 01D***** -------- -------- 01D***** -------- -------- 01D***** -------- -------- 01D***** imbedded...
Page 7 Model Number Modification Description F22,F23 F24,F25 A20,A21 A22,A23 A24,A25 W 20,W 21 W 22,W 23 W 24,W 25 C24,C25 R430 jumper wire 1 Main board modified -------- -------- 01D***** -------- -------- 01D***** -------- -------- -------- imbedded 2 Resistor R430 added 10 kilo-ohms added -------- --------...
Page 8: Table Of Contents
Pin assignments............................1-9 Appendix B : Dip Switches and Jumpers ....................1-16 2 Description of Operation ..........................2-1 JS-170FR Block Diagram ..........................2-1 Description of Main PCB Circuits ......................... 2-2 2.1.1 CPU PENTIUM-II 266MHz or 333MHz (Refer to the page 4-1.) ..........2-2 2.1.2...
Page 9 BIOS setup............................3-4 Method of diagnostic program starting ....................3-9 Execution of diagnostic services...................... 3-11 Materials for Reference ........................3-48 4 JS-170FR-**PCB's ............................. 4-1 Main PCB............................4-1 MB PCB ............................4-17 Peripheral PCB ..........................4-20 5 Body Block ..............................5-1 Body Block Disassembling Drawing ....................
Page 11: Overview
OVERVIEW General This model has the performance equivalent to an IBM-AT machine which uses the Pentium •as a CPU. This model has its unique functions added to it and is provided with an ETHERNET circuit and touch panel as standard. The desired system can be built by adding various optional functions.
Page 12: Specifications
Specifications ♦ Processor, Chipset and BIOS Intel Mobile Pentium II 266MHz or 333 MHz (BGA1) CORE + 1.6V Chipset Intel 440BX/PIIX4E BIOS Phoenix BIOS ♦ Memory • Main memory Capacity 64MB Standard 256MB Maximum Slot 168pin DIMM Slot x 2 One slot occupied by standard memory Type 3.3V SDRAM supported...
Page 13: Customer Display
♦ Display • Crew display Display unit TFT type LCD with Dual Back Light Resolution 800 x 600 (SVGA) Dot pitch 0.3 mm Display size 12.1 type Contrast adjust Not needed • Customer display Display unit Fluorescent display tube Color Green Number of digits 20 characters (5 x 7dots, 9 x 6 mm) x 2 lines...
Page 14 ♦ Expansion Slot (Option) Either one of the below can be added on main board as an expansion slot. PCMCIA Slot 1 Type III or 2 Type II (Support PCMCIA/CardBus) PCI Slot 1 PCI Bus Slot Maximum PCI card size (mm) : 174.63×106.68×(component side 14.48 + rear side 2.67) ♦...
Page 15 ♦ Operation Condition Temperature 5°C - 40°C (41°F - 104°F) Humidity 20% RH - 85% RH (no dew) ♦ Dimension and Weight Width 250 mm (9.8 inches) (Crew display : 312mm) Depth 320 mm (12.6 inches) Height 365 mm (14.4 inches) with rubber foot Weight Approx.
Page 16: Memory Map
Memory Map FFFFFFFF BIOS ROM Same with the area of 000E0000 to 000FFFFF FFFE0000 FFFC0000 Reserve 04000000 Don’t use 03C00000 Reserve 10000000 External RAM (DIMM) (256M) 7FFFF SystemBIOS VGA-BIOS Option RAM 60000 60000 01000000 (16M) Main RAM (DIMM) 40000 00100000 BIOS ROM (128K) 20000 20000...
Page 17: I/O Port Map
I/O Port Map Address (HEX) Devices used for JS-170FR 0000 - 001F DMA Controller (1) (82371EB) 0020 - 0021 Interrupt Controller (Master) (82371EB) 0022 - 0023 443BX Chip Set (82443BX) 0024 - 0027 Reserve 0040 - 005F Timer Controller (82371EB)
Page 18: Interrupt Level
Interrupt Level Interrupt Level Description (Power Management) I/O Check, Parity Error, Power Management IRQ 0 Timer Output IRQ 1 Keyboard Output Buffer Full (IT8763F) IRQ 2 8259 Slave Side Interrupt IRQ 3 Serial Port COM (2) (IT8763F) IRQ 4 Serial Port COM (1) (IT8763F) IRQ 5 Reserve...
Page 19: Pin Assignments
Pin assignments Serial COM1 9 pin D-SUB Male IN/OUT Signal COM2 9 pin D-SUB Male IN/OUT Signal COM3 8 pin Modular IN/OUT Signal DSR or +5V or CD (Default) CTS (Default) or Not Connected...
Page 20: Cash Drawer
Cash Drawer 6 pin DIN Female IN/OUT Signal Drawer_Open Drawer_Status Drawer Type Parallel 25 pin D-SUB Female IN/OUT Signal IN/OUT STROBE* IN/OUT Data Bit 0 IN/OUT Data Bit 1 IN/OUT Data Bit 2 IN/OUT Data Bit 3 IN/OUT Data Bit 4 IN/OUT Data Bit 5 IN/OUT...
Page 21 Video 15 pin D-SUB Female IN/OUT Signal Video_Red Video_Green Video_Blue Video GND(Red) Video GND(Green) Video GND(Blue) IN/OUT H-Sync V-Sync IN/OUT 8 pin Modular (RJ-45) IN/OUT Signal USB Connector IN/OUT Signal 1, 5 2, 6 IN/OUT USB_Data- 3, 7 IN/OUT USB_Data+ 4, 8 1-11...
Page 22 Keyboard 6 pin mini DIN IN/OUT Signal IN/OUT Keyboard_Data IN/OUT Mouse_Data IN/OUT Mouse_Clock IN/OUT Keyboard_Clock Floppy Disk 26 pin mini I/O Connector IN/OUT Signal INDEX* DRV0 DCHG0* MTR0* DENSEL STEP* WDATA* WGATE* TRK0* WRPRT* RDATA* SIDESEL0 1-12...
Page 23 PCI Interface 32bit Edge Connector, 5V system B side A side -12V TRST# +12V INTA# INTB# INTC# INTD# PRSNT1# Reserved Reserved +5V(I/O) PRSNT2# Reserved/SERIRQ Reserved Reserved RST# +5V(I/O) GNT# REQ# +5V(I/O) Reserved/PME# AD[31] AD[30] AD[29] +3.3V AD[28] AD[27] AD[26] AD[25] +3.3V AD[24] C/BE[3]#...
Page 24 B side A side SERR# +3.3V C/BE[1]# AD[15] AD[14] +3.3V AD[13] AD[12] AD[11] AD[10] AD[09] AD[08] C/BE[0]# AD[07] +3.3V +3.3V AD[06] AD[05] AD[04] AD[03] AD[02] AD[01] AD[00] +5V(I/O) +5V(I/O) ACK64# REQ64# IDE Interface 44pin Flat cable connector 2.0mm pitch IN/OUT Signal IDERST# IN/OUT...
Page 25 IN/OUT Signal DMARQ IOW# IOR# *IORDY CSEL DMACK# INTRQ -(MASTER/SLAVE) CS1# CS3# DASP# 1-15...
Page 26: Appendix B : Dip Switches And Jumpers
Dip Switches and Jumpers Dip Switch 1 Explanation Model identification bit On : 0 for I/O 324H bit5 Off : 1 for I/O 324H bit5 (Factory setting) Extended I/O port 324H bit 5 reflects to this setting. Touch panel type On : Douwa (Carrol Touch) type (Factory setting for Germany Model only) Off : Fujitsu type (Factory Setting) Touch panel has two kinds of operating mode.
Page 27 Dip Switch 2 Explanation Address control for extended I/O On : Software can enable/disable access to extended I/O ports. (Factory setting) Off : Extended I/O is always enabled. When this bit is set to On, software can enable/disable access to extended I/O ports (320H-32DH) by output data to 32FH.
Page 28 Jumper pins Jumper numbers and pin numbers are printed on the main board. Direction of the jumpers follow the direction of printed numbers. 1 2 3 Explanation VGAC 1-4 Short, 2-3 Short : 640x480 (Factory setting) 1-4 Short, 2-3 Open : 1024x768 1-4 Open, 2-3 Short : 800x600 1-4 Open, 2-3 Open : 1280x1024 This jumper sets the type of connected LCD to VGA controller.
Page 29 Signal on COM3 connector Explanation 1-2 Short Pin8 is CTS (Factory setting) 2-3 Short Pin8 is Ground. CTS is always active. Explanation 1-2 Short 2-3 Short Pin4 is DCD. DSR is always active. (Factory setting) 2-3 Short 2-3 Short Pin4 is DSR. DCD is always inactive. 1-2 Short 1-2 Short Pin4 is fixed to +5V.
Page 30 1-20...
Page 31: Description Of Operation
Description of Operation JS-170FR Block Diagram Mobile PentiumII Proccessor Host Bus Main Memory 440BX Host SDRAM Bridge × DIMM PCI Slots PCI BUS LCD I/F PIIX4E PCI-to-ISA Bridge ISA BUS FDD I/F BIO S Super I/O UART 16552 G atearay...
Page 32: Description Of Main Pcb Circuits
Description of Main PCB Circuits 2.1.1 CPU PENTIUM-II 266MHz or 333MHz (Refer to the page 4-1.) The CPU is operated at an operating clock signal frequency of 66MHz with the use of a mobile PENTIUM-II the core voltage of which is +1.6V. Details of CPU operation are obtainable from the relevant catalog.
Page 33: Fw82371Eb Pin Assignment
2.1.2.1 FW82371EB Pin Assignment Pin No. Signal name IN/OUT Functions Y 04 The signal used to indicate that the DMA cycle is currently executed. Active :High M 20 A20M# The signal intended to make the system address line A20 stay in internal mask off state.
Page 34 Pin No. Signal name IN/OUT Functions U 14 DACK0# ACK signal to DRQ. Active : Low W 06 DACK1# Y 10 DACK2# V 05 DACK3# T 15 DACK5# V 16 DACK6# W 17 DACK7# W 15 DRQ0 DMA transfer request signal. Active : High U 06 DRQ1...
Page 35 Pin No. Signal name IN/OUT Functions H 20 IRQ0 System timer interrupt signal being output. J 20 IRQ1 Mask enabled interrupt request signal. (← Keyboard controller) Active : High T 09 IRQ3 Mask enabled interrupt request signal. (← Serial port 2) Active : High W 09 IRQ4...
Page 36 Pin No. Signal name IN/OUT Functions A 19 PDD8 E-IDE Primary data bus. B 19 PDD9 IN/OUT C 19 PDD10 D 19 PDD11 D 17 PDD12 E 19 PDD13 E 17 PDD14 F 19 PDD15 G 19 PDDACK# E-IDE Acknowledge to primary side PDDREQ. F 18 PDDREQ E-IDE Primary side DMA request signal.
Page 37 Pin No. Signal name IN/OUT Functions V 03 ISA system data bus. W 03 IN/OUT U 02 T 02 W 02 Y 02 T 01 V 01 W 16 T 16 Y 17 SD10 V 17 SD11 Y 18 SD12 W 18 SD13 Y 19...
Page 38 Pin No. Signal name IN/OUT Functions W 20 SUSA# Device power supply control signal. V 19 SUSB# U 18 SUSC# P 17 SUSCLK Suspension clock. 32.768kHz T 17 SUSSTAT1# Suspension status output signal. T 18 SUSSTAT2# T 07 SYSCLK ISA bus system clock V 10 Pulse signal to be output when the terminal count of the DMA channel is attained.
Page 39: Rtc (Real Time Clock) Circuit
2.1.2.2 RTC (Real Time Clock) circuit The FW82371EB incorporates an RTC function. The RTC includes the hardware for clock and calendar functions and the battery backup type CMOS-RAM that can manage the hardware setup information. Operation is compatible with the MC146818. To actuate the RTC, it is necessary to install the battery and the oscillator externally.
Page 40: Ide Interface
2.1.2.3 IDE interface The E-IDE (Enhanced IDE) interface circuit for hard disc is incorporated in the FW82371EB. The E-IDE is provided with two interfaces, Primary and Secondary. Since the E-IDE interface is intended to be exclusively used for AT-compatible machines and a control circuit is accommodated on the HDD side, it is connected with the parallel data bus with the use of control signals.
Page 41 PDCS1# PDCS3# PDA2 PDA1 PDA0 PDIOR# = "L" PDIOW# = "L" Disabled Disabled Data register Data register Error registe Future register Selector counter Selector counter Sector number Sector number Cylinder low Cylinder low Cylinder high Cylinder high Drive/ head Drive/ head Status Command High impedance...
Page 42: Usb Interface
2.1.2.4 USB interface This system is provided with two circuits of the USB (Universal Serial Bus) interfaces. The power supply fed to the USB connector is a +5V power source that feeds a current at a maximum of 0.75A. The USB controller is located in the FW82371EB of the chip set. The basic operation clock is maintained at 48MHz. The USB port can be connected with the keyboard, mouse, modem, printer, etc.
Page 43: Main Ram Circuit
2.1.3 Main RAM circuit A 3.3V DIMM (168-pin) is used for the main RAM of this system. The DIMM can mount an SDRAM or EDO type memory and the installed capacity is controlled by the software. The circuit provided with the ECC parity is also available. The maximum capacity of a single DIMM is 128Mbytes.
Page 44: Bios Rom
2.1.4 BIOS ROM A flash memory of 512K × 8 bits is used for the BIOS. ROM’s address decoding is undertaken by the chip set. The BIOS setting area is 000E0000h ~ 000FFFFFh or FFFE0000h ~ FFFFFFFFh that is the most significant area for the CPU. (Either address can be accessed.) When used as a 512K type, continuous access becomes possible in the virtual memory area.
Page 45: It8673F Circuit
2.1.5 IT8673F circuit The IT8673F is used as an LSI for the control of peripheral I/O circuits, keyboard, and mouse. The IT8673F functions as the two UART units (equivalent to 16C550), the parallel port with the FDC (equivalent to DP8473) incorporating the analog data separator, and the #8042 compatible keyboard controller having the mouse control function conforming to the PS/2 Specification.
Page 46: It8673F Pin Assignment
2.1.5.1 IT8673F Pin Assignment Pin No. Signal name IN/OUT Functions DENSEL# OUT (*) FDD packing density select signal. High•500K/1Mbps ,Low•250K/300Kbps MTR0# OUT(*) Motor enable signal to the FDD Drive 0. Active : Low DRV1# OUT(*) Select signal to the FDD Drive 1. Active : Low DRV0# OUT(*)
Page 47 Pin No. Signal name IN/OUT Functions FAN_TAC1 FAN rpm input pin. FAN_CTL1 FAN control signal. GP10 General-purpose I/O port pin. GP17 IN/OUT GP14 FAN_CTL2/GP13 IN/OUT FAN control signal. FAN_TAC2/GP12 IN/OUT FAN rpm input pin. DRQ1 DMA request signal. Active : High DRQ2 DRQ3 CLKIN...
Page 48: Serial Port (Com1, 2)
2.1.5.2 Serial port (COM1, 2) The IT8673 incorporates the two 16C550 compatible serial port controllers (UART1 and UART2). The 24MHz signal (fixed) is 13-frequency-divided into 1.8462MHz that is then used to produce a Baud rate clock. This port operates in an asynchronous mode. The two controllers are independent of each other.
Page 49 The I/O levels of the UART1,2 signals of the IT8673F1 are maintained at the TTL level. The ADM211 is used outside the UART2 for use as the driver or receiver of the RS-232-C interface. The ADM211 is an IC of 4 outputs and 5 inputs, and works only with a single power supply of +5V.
Page 50: Parallel Port Interface Circuit
2.1.5.3 Parallel port interface circuit The IT8673F is used as a parallel port control. The parallel port of the IT8673F has a both-way function. When controlled by software, the data signals of the PD7-PD0 become both-way signals. The output signals (SLIN, INIT, AFD, STB) for parallel port control are pulled up with 4.7kΩ of open drain output. However, since they are connected to the power supply terminal through diodes, Device 74LS07 is inserted at an external open collector buffer.
Page 51: Fdd Interface Circuit
2.1.5.4 FDD interface circuit The IT8673F is used as a floppy disc controller. The FDC functions of the IT8673F are compatible with Devices 765A, DP8473. The interface circuit is made AT-compatible. All the output signals to the FDD are processed in the open collector mode, pulled up with 1kΩ. All the input signals from the FDD are pulled up with 2.2kΩ.
Page 52 [Outline Operation of FDD] As an outline operation, an FDD is selected to make the motor run, provided that the signals of both DRV0# and MTR0# are set at the low level. Each time the motor makes one revolution, an input of INDEX# signal is generated. This signal is used to identify that a diskette is present.
Page 53: Keyboard Controller Circuit
2.1.5.5 Keyboard controller circuit The IT8673F is used for keyboard control. The internal memory block of the IT8673F has programs for the keyboard control and the control with the main CPU. The IT8673F internally converts the serial data sent from the keyboard into parallel data, and performs interrupt operation to inform the CPU of the entry of a key input.
Page 54 The transistor circuit is intended to control signals of the keyboard and the magnetic card controller. Control is actually undertaken by the magnetic card controller. When the anodes of the diodes D_A and D_B are maintained at the high level, the transistors of Q_A~Q_D104 are turned ON and the keyboard signals are led to the keyboard controller.
Page 55: Ps/2 Mouse Controller Circuit
2.1.5.6 PS/2 mouse controller circuit The IT8673F is used for PS/2 mouse control. This IT8673F also functions as a keyboard controller, and is accordingly used in common with the PS/2 mouse. The IT8673F internally converts the serial data sent from the PS/2 mouse into parallel data, and performs interrupt operation to inform the CPU of the entry of a mouse input.
Page 56: Serial Port (Com3, 4)
2.1.6 Serial port (COM3, 4) The two 16C550 compatible serial port controllers (COMA and COMB) are incorporated in the PC16552D, independently of each other. With the 1.84MHz clock (fixed) supplied from the outside, a Baud rate clock is generated. This port operates in an asynchronous mode.
Page 57 The COM3 and COM4 signal I/O of the PC16552D is processed at the TTL level. Therefore, the ADM211 is externally used for the driver and the receiver of the RS-2332-C interface. The ADM211 is an IC of 4 outputs and 5 inputs, and works only with a single power supply of +5V. Register frequency division Baud rate Error rate (%)
Page 58: Vga Circuit (Refer To The
2.1.7 VGA circuit (Refer to the page 4-4.) The SM710 is used as a display controller for this system. The SM710 is a controller designed in accordance with the SVGA (Super-VGA) Specification that enables color LCD display and CRT display of 640 × 480 and 800 × 600 dots. The color TFT is an interface of 18 bits (6 bits ×...
Page 59: Sm710 Pin Assignment
2.1.7.1 SM710 Pin Assignment Pin No. Signal name IN/OUT Functions H 20 AD31 PCI System address data bus. H 19 AD30 IN/OUT H 18 AD29 G 20 AD28 G 19 AD27 G 18 AD26 F 20 AD25 F 19 AD24 E 19 AD23 E 18...
Page 60 Pin No. Signal name IN/OUT Functions J 04 H 01 Video-RAM Memory address. H 03 G 02 G 03 F 01 H 04 G 01 H 02 J 03 E 02 Video-RAM Bank address. E 01 Video-RAM Write enable signal. F 02 CAS# Video-RAM Column address strobe signal.
Page 61 Pin No. Signal name IN/OUT Functions T 03 MD39 U 02 MD38 Video-RAM Data bus. V 01 MD37 W 01 MD36 Y 01 MD35 V 03 MD34 V 04 MD33 Y 03 MD32 A 06 MD31 B 07 MD30 C 08 MD29 A 08 MD28...
Page 62 Pin No. Signal name IN/OUT Functions V 07 FDATA23 LCD Panel data. U 07 FDATA22 W 07 FDATA21 Y 07 FDATA20 V 08 FDATA19 W 08 FDATA18 Y 08 FDATA17 V 09 FDATA16 W 09 FDATA15 Y 09 FDATA14 V 10 FDATA13 W 10 FDATA12...
Page 63: Lcd Interface Circuit (Refer To The
2.1.7.2 LCD interface circuit (Refer to the page 4-4.) In regard to the interface signals for the LCD, various signals on the main PWB are used in common and the loopback PWB is used in order to enable connections with any type of the LCD. In this manner, LCD connections are modified. The DSTN type color LCD calls for a volume control for brightness adjustment.
Page 64: Back-Lite Control Circuit
2.1.7.3 Back-Lite control circuit A cold-cathode tube is used for the back light of the LCD. The +12V power supply for driving is fed from an external inverter. Assuming that the LCD is in the display mode (the FPEN signal at the high level), ON/OFF control of the power supply is effected by software.
Page 65: Crt Interface
2.1.7.4 CRT interface For a standard feature, this system is provided with an interface circuit for the CRT. Simultaneous display is possible at the LCD and the CRT. D-Sub Half 15-pin (Female) Pin No Signal name Pin No Signal name GREEN DGND BLUE...
Page 66: Piezoelectric Buzzer Circuit
2.1.8 Piezoelectric buzzer circuit For use as a signal for the piezoelectric buzzer, a rectangular wave output is generated from Pin 17 of the FW82371EB. The diode D_A is used for the prevention of counter electromotive force. The driving voltage is +12V. + 1 2 V FW 8 2 3 7 1 E B D_ A...
Page 67: Hardware Reset Circuit
2.1.9 Hardware reset circuit MB3771 is used in the hardware reset circuit. When this MB3771 is used, a low level is maintained at Pin 8 of the RESET output terminal under the condition that the power supply voltage of VCC (Pin 5) is below the reference voltage (approx. 4.2V). If the reference voltage is exceeded, the potential level at the RESET output terminal is turned high after the lapse of the predetermined time period (approx.
Page 68: Clock
2.1.10 Clock The basic clock for this system is fed from the clock generator (W150). The basic clock of the W150 is maintained at 14.3181MHz and various clock signals are output for the CPU, chip set, PCI bus, SDRAM, USB, etc. 2-38...
Page 69: Cpu_Power
2.1.11 CPU_POWER The LTC1735CS-1 is used as the core power supply circuit for the CPU. The input power supply of +4V ~ +15V is fed from the power unit. This power unit generates a +1.6V core voltage that is to be supplied to the CPU.
Page 70: Ethernet Interface Circuit
2.1.12 ETHERNET interface circuit As one of the communication methods for this system, the ETHERNET is used as the communication line. The ETHERNET circuit is composed of the control block on the main PWB and the transceiver block. The RTL8139B(L) is used as a control LSI. In the serial EEPROM (BR93LC46) connected to the outside, interface-related information and various information about the I/O addresses, interrupt, network’s ID addresses, etc., are stored.
Page 71: Touch Panel Interface Circuit
The operation mode is modified through switch setting. → For SW - ON (P06 terminal = Low) Operation conforming to the Panasonic Specification (DOS) For SW - OFF (P06 terminal = High) → Operation conforming to Windows + 5 V...
Page 72: Magnetic Card Reader Interface Circuit
2.1.14 Magnetic card reader interface circuit A magnetic card controller is accommodated in this system, in order to enable readout operation for the magnetic card according to the Second Track Specification (5 bits, 40 digits, recording density of 75BPI) of the ISO7810 Standard. When the serial data input from the magnetic card are identified and correctly read out, all the data (start code, end code, check byte, etc.) read from the serial data are converted into the scan codes of the AT keyboard, and are transmitted to the keyboard controller.
Page 73 [Magnetic card Second Track Specification] Total No. of clocks............ Approx. 251 clocks (card as a whole) Quantity of data ..........5-bit × 40-digit = 200 bits (max.) Bit configuration ..........5 bits (4 bits for data, 1 bit for odd parity) Start code ............
Page 74 [Specification for Magnetic Card Control] Contents of magnetic card control specified for the PENTIUM POS (1) Connected to the keyboard connector. (2) ISO 7810 compatible. (Second track) (3) ID to be used is of the 5-bytes data with 0 included. (4) For reference: ID = B00012F7 a.
Page 75: Cash-Drawer Interface Circuit
2.1.15 Cash-Drawer interface circuit As an integrated POS, two Cash-Drawer interface circuits are provided. To drive the cash drawer, 328H of the I/O port is used for interface control. Drawer 1 is controlled with Bit 4 of Address 328, while Drawer 2 is controlled with Bit 5. When “1”...
Page 76: Customer Display Interface
2.1.16 Customer display interface A fluorescent display light tube of 20 digits × 1 line or 2 lines is used as a customer display. The driving voltage for the customer display is +5V, the transmission data need be the serial data at the TTL level. The serial data are used through the changeover of the TXD signal (TTL) of COM3 by the aid of software.
Page 77: Power On/Off Circuit
2.1.17 Power ON/OFF circuit 2.1.17.1 Power ON The conditions to make power ON are categorized to the following three cases: The conditions and conditional sequences are specified below. (Condition 1..ON with the primary-side switch. Condition ..JP9 is short-circuited.) • The primary-side Power switch is turned ON. •...
Page 78: 2.1.17.2 Power Off
2.1.17.2 Power OFF The conditions to make power OFF are as follows: • The secondary-side Power switch is pressed. (The standby state is assumed.) • An OFF command output is generated by software. (The GPO24_3 signal is turned low.) • An OFF command output is generated by hardware. (The POWER_OFF signal is turned low.) (In particular in this case, this condition arises when the power supply is turned off in any case other than the normal state, such as a service interruption, etc.) 2-48...
Page 79: 2.1.17.3 Battery Backup Circuit
2.1.17.3 Battery backup circuit This system is provided with a battery backup function to be available in case of a service interruption, with a battery connected to the power unit. The battery backup circuit is used for functional ON/OFF control with the aid of software. The software checks the battery voltage (BATT_VOLT) and switches on the required function when the voltage is found to be above the specified level.
Page 80 2-50...
Page 81: Gatearray (Μpd65884Gm-019-Bed) (Refer To The
2.1.18 GATEARRAY (µPD65884GM-019-BED) (Refer to the page 4-8) Functions of the GATEARRAY (µPD65884GM-019-BED) are described below. For more details in regard to the internal circuits, refer to the instruction manual for the GATEARRAY separately furnished. 2.1.18.1 Internal functions The major functions provided inside the GATEARRAY are as specified below. •...
Page 82 Pin No. Signal name IN/OUT Functions Common DRAW_ST0 Cash-Drawer open time setting Bit0. DRAWER DRAW_ST1 Cash-Drawer open time setting Bit1. IN32D_D0 Input Port 032Dh bit0 input pin. IN32D_D1 Input Port 032Dh bit1 input pin. IN 032Dh IN32D_D6 Input Port 032Dh bit6 input pin. IN32D_D7 Input Port 032Dh bit7 input pin.
Page 83 Pin No. Signal name IN/OUT Functions Common RESET_INN ISA I/F control signal. RESET input. RESET TMODE Test pin. Not connected. ITEST0 Test pin. Not connected. OTEST0 Test pin. Not connected. O320_D3N Reversed output pin of Output Port 0322h bit3. (Not used) O320_D2N Reversed output pin of Output Port 0322h bit2.
Page 84: Optional Interface (Refer To The Page 4-5 Cn7)
2.1.19 Optional interface (Refer to the page 4-5 CN7) As an optional connector, the system is provided with a connector intended to make connections of the PCI (Peripheral Component Interconnect) buses for two slots. When a card conforming to the PCI Bus Specifications is mounted, it becomes possible to have a variety of functions externally. The PCI buses conform to the Board Specifications of +5V.
Page 85: Test Program And Power Supply Check
Test Program and Power Supply Check Voltage checks on the MAIN PWB Prior to inspection, all loads, such as the LCD unit, HDD, fluorescent display tube, peripheral PWBs, etc., shall be connected. For the AC power supplies, each power input shall conform to the requirements of rating. Voltage values Item Measuring point...
Page 86: Oscillation Frequency Check
Oscillation frequency check Clock oscillation frequency Item Measuring point Standard Remarks R85 — TP6(GND) 14.318Mhz±0.03% R123 — TP6(GND) 32.768Mhz±0.005% C116 — TP6(GND) 25.000Mhz±0.03% C134 — TP4(GND) 10.000Mhz±2% Clock generator output frequency Item Measuring point Standard Remarks HCLKCPU R71 — TP6(GND) 64.516Mhz~66.9MHz HCLKDIM R76 —...
Page 87: Backup Function Check
Backup function check Measurement of Ni-Cd battery charging current Standard charging current Measuring conditions 63mA±15% Battery voltage: 8.0V Measurement shall be carried out after the jigs as shown below have been connected. (For reference) Battery POWER unit Battery voltage Backup operation check (2) Connect a CRT to the VGA connector and turn on the FCR power supply.
Page 88: Current Consumption Check
BIOS setup Connect the keyboard to the keyboard connector of the JS-170FR, and turn on the POWER switch. When the [DEL] key is pressed in the middle of POST (Power on self test) message display, a screen as shown below is displayed.
Page 89 Starting from the screen of 2) above, move to "Exit" by means of the rightward arrow mark (→). Then, using the downward arrow mark (↓), select "Load Setup Defaults" and press the [Enter] key. A sub-screen is presented as shown below. Then, press the [Enter] key again. PhoenixBIOS Setup Utility Main Advanced...
Page 90 PhoenixBIOS Setup Utility Main Advanced Power Boot Exit Item Specific Help System Time: [xx:xx:xx] System Date: [xx/xx/xxxx] , , or Legacy Diskette A: [1.44/1.25 MB 31/2"] selects field. Primary Master [****MB] Primary Slave [None] Secondary Master [None] Secondary Slave [None] Boot Options Memory Cache...
Page 91 (8) After performing the steps [1], [2] and [3] above, verify that the setup of "Type:", "Transfer Mode" and "Ultra DMA Mode" appears as follows on the "Primary Master" setup screen. Type: [User] Transfer Mode: [Fast PI04] Ultra DMA Mode: [Disable] PhoenixBIOS Setup Utility Main...
Page 92 (10) Select the "Exit" menu by using [→] or [←] key on the keyboard. PhoenixBIOS Setup Utility Main Advanced Power Boot Exit Item Specific Help Exit Saving Changes Exit Discarding Changes Load Setup Defaults Exit System Setup and Discard Changes Save your changes to Save Changes CMOS...
Page 93: Method Of Diagnostic Program Starting
Start the diagnostaic program using a connected keyboard or the touch panel. With keyboard Connect the keyboard to the keyboard connector, and turn on the POWER switch of the JS-170FR. When the following screen is shown during the starting process, press the [INSERT] key on the keyboard.
Page 94 Confirm that a screen as shown below is displayed at the LCD. LCD DISPLAY PANASONIC JS-170FR TEST PROGRAM V5.0 0 : EXIT 11 : Touch Panel Test. * 1 : Main Board Test. 12 : Magnetic Card Reader Test. * 2 : Random Access Memory Test.
Page 95: Execution Of Diagnostic Services
Execution of diagnostic services Main PWB test (1) Enter "1-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 1 Main Board Test. ***** ROM Checksum Test OK **/**/** Shutdown byte read/write Test PIT Test Page register read/write Test DMA controller Test Keyboard Test PIC Test RTC Test...
Page 96 Random Access Memory test (1) Enter "2-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 2 Random Access Memory Test. ***** RAM write/Read Test. 16384 KB OK. RAM Address is up to 00FFFFFFH RAM Refresh Test. 16384 KB OK. RAM Address Line Test RAM Address Bit 23 OK.
Page 97 Keyboard test (1) Connect a PC keyboard to the keyboard connector. (2) Enter "3-ENTER" through the keyboard. (3) Select the keyboard type (1: JP, 2: US, 3: GR) and press the Enter key. LCD DISPLAY ***** TEST # 3 Keyboard Test. ***** e 1 2 3 4 5 6 7 8 9 0 1 2 p s p...
Page 98 Floppy Disk test (1) Prior to turning ON the FCR power supply, connect a 3.5 FDD unit (CF-VFD11) to the FDD connector. (2) Display a diagnostic menu by the method of 10 described previously. (3) Set a 3.5" 2HD work diskette (write enabled) in the FDD. (4) Enter "4-ENTER"...
Page 99 Hard Disk test (1) Enter "5-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 5 Hard Disk Test. ***** ************** Warning !!! ************** Reserved cylinder for DIAGNOSTICS will lose its data. Reserved cylinder number = 787 or (645) ***************************************** Hard DISK CONTROLLER Test Hard DISK SEEK Test Hard DISK Read/Write Test Reading : Cylinder = 787 or (645) Head = 127 or (239) Sector = 63...
Page 100 Video test (1) Enter "6-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 6 Video Test. **** 0 : Return to MAIN MANU. 1 : Display Test. 2 : VRAM Test. Select and press ENTER key : 0_ ENTER 6-1) Display test Enter "1-ENTER"...
Page 101 LCD DISPLAY ***** TEST # 6 Video Test. ***** ENTER 1 (OK)or 2 (NG) 3-17...
Page 102 (6) Since a checkers pattern screen is displayed, confirm the freedom from any problem, such as dot missing and error display. If the result is OK, press the "1" key. In case of NG, press the "2" key. LCD DISPLAY ***** TEST # 6 Video Test.
Page 103 (11) A screen of 80 × 25, 16-Color, Text Mode is displayed. Examine the screen and press the "1" key if the result is OK. Otherwise, press the "2" key. Confirm that the 16 colors are displayed and the actual color is correctly displayed by the character color.(The screened sections keep blinking.) LCD DISPLAY 80 X 25, 16Color, Text Mode...
Page 104 (15) A gradation of green, blue, and red is displayed. confirm the freedom from decoloration. If the result is OK, press the "1" key. In case of NG, press the "2" key. (Return to #6 Test Menu.) LCD DISPLAY ***** TEST # 6 Video Test. ***** Green gradation (6 scales) Blue gradation (6 scales) Red gradation (6 scales)
Page 105 Confirm the display below, which will be presented in the meantime. LCD DISPLAY ***** TEST # 6 Video Test. **** ***** VRAM TEST ***** VRAM Size : 4 MB Read/Write test : 003FFFFFH Address Line test : 21 bit OK EXIT Test done.
Page 106 (The printer begins to print out characters.) Confirm that the following contents are presented: i For Printer TM-300 ii For Printer TM-T80 Parallel Port test (I/O) Address=0378H) Parallel Port test (I/O) Address=0378H) !”#$%&’()*+,-./0123456789:;<=>?@ABCDEFG !”#$%&’()*+,-./0123456789:;<=>?@ABCDEFGHI HIJKLMNOPQRRSTUVWXYZ[/]`-`abcdefghijklmno JKLMNOPQRRSTUVWXYZ[/]`-`abcdefghijklmno !”#$%&’()*+,-./0123456789:;<=>?@ABCDEFGH !”#$%&’()*+,-./0123456789:;<=>?@ABCDEFGHIJ IJKLMNOPQRRSTUVWXYZ[/]`-`abcdefghijklmnop KLMNOPQRRSTUVWXYZ[/]`-`abcdefghijklmnop ”#$%&’()*+,-./0123456789:;<=>?@ABCDEFGHI ”#$%&’()*+,-./0123456789:;<=>?@ABCDEFGHIJK JKLMNOPQRRSTUVWXYZ[/]`-`abcdefghijklmnopq...
Page 107 Serial Port test (1) Enter "8-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 8 Serial Port Test. **** 0 : Return to MAIN MANU. 1 : Test COM1 2 : Test COM2 3 : Test COM3 4 : Test COM4 Select and press ENTER key : 0_ ENTER (2) No testing is carried out for the item of 4: Test COM 4.
Page 108 8-1) COM1 test (1) Connect a loopback connector to the COM1 port. (The lock screw of the loopback connector shall be tightened normally.) (2) Enter "1-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 8 Serial port Test. **** Test COM1 (I/O Address 03F8H) RS232C Controller Register R/W Test INTERNAL LOOPBACK Test EXTERNAL LOOPBACK Test...
Page 109 8-2) COM2 test (1) Connect a loopback connector to the COM2 port. (The lock screw of the loopback connector shall be tightened normally.) (2) Enter "2-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 8 Serial port Test. **** Test COM2 (I/O Address 02F8H) RS232C Controller Register R/W Test INTERNAL LOOPBACK Test EXTERNAL LOOPBACK Test...
Page 110 8-3) COM3 test (1) Connect a loopback connector to the COM3 port. (The lock screw of the loopback connector shall be tightened normally.) (2) Enter "3-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 8 Serial port Test. **** Test COM3 (I/O Address 3220H) RS232C Controller Register R/W Test INTERNAL LOOPBACK Test EXTERNAL LOOPBACK Test...
Page 111 ***** TEST # 8 Serial Port Test. **** 0 : Return to MAIN MANU 1 : 2400bps 2 : 9600bps Select and press key : 0_ ENTER For JS-170FR-G**, select "1: 2400bps". For a model other than JS-170FR-G**, select "2: 9600bps". 3-27...
Page 112 Pattern 3 Pattern 4 Pattern 5 Note) The Customer Display is not mounted on the JS-170FR-*21 (*: E, G, A, W, U, S, F, C). Therefore, this test shall be carried out only in the case of PWB inspection. 3-28...
Page 113 12) Touch Panel test (1) Enter "11-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 11 Touch Panel Test. ***** 0 : Return to MAIN MANU. 1 : CALIBRATION. 2 : TOUCH TEST. Select and press ENTER key : 0 ENTER 12-1)Touch panel calibration (1) Enter "1-ENTER"...
Page 114 12-2) Touch Panel test LCD DISPLAY ***** TEST # 11 Touch Panel Test. ***** 0 : Return to MAIN MANU. 1 : CALIBRATION. 2 : TOUCH TEST. Select and press ENTER key : 0 ENTER (1) Enter "2-ENTER" through the keyboard to perform the Touch test. LCD DISPLAY TOUCH POINT (X,Y) (21<16)
Page 115 (3) Press (21,16) to recover the screen of [***** TEST #11 Touch Panel Test.*****]. LCD DISPLAY ***** TEST # 11 Touch Panel Test. ***** 2. TOUCH TEST ENTER 1 (OK) or (NG) Test done. Press any key._ (4) Enter "0-ENTER" through the keyboard to obtain the test program screen. (5) Select "Primary Master [****MB]"...
Page 116 13) Magnetic Card test (1) Prior to turning ON the FR power supply, connect a magnetic card reader unit (JS-140MG-XXX or JS-170MG-010). (2) Turn on the power supply and confirm that the LED for the magnetic card is lit in green. (3) Enter "12-ENTER"...
Page 117 (6) When the OK sign is perceived, press any key to obtain a menu screen for the diagnostic program. Confirm that the LED is lit in orange when the magnetic card reader unit is disconnected and the power supply is turned LED color Lighting conditions Green...
Page 118 14) Drawer test (1) Connect a drawer (JS-170CD) to the DRAWER connector. (2) Enter "13-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 13 Drawer Test. ***** 0 : Return to MAIN MANU. 1 : DRAWER1. 2 : DRAWER2. Select and press ENTER key : 0_ ENTER (3) Enter "13-ENTER"...
Page 119 LCD DISPLAY ***** TEST # 13 Drawer Test. ***** DRAWER1 Already open Test done. Press any key. EXIT (9) Check the display of "Already open" and finish the test. (10) Press any key to obtain the #13 Test Menu screen. (11) Maintain the condition that the drawer is closed.
Page 120 15) Inline test 15-1) LAN-ID setting (1) Enter "14-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 14 Inline Test. ***** 0 : Return to MAIN MANU 1 : Set Configutation 2 : Send Data 3 : Receive Data 4 : Self Test Select and press ENTER key : 0 (2) Enter "1-ENTER"...
Page 121 15-2) Execution of Inline test (1) Connect 2 FR units through the LAN cables via the hub. 10BASE-T cable FR # 1 : Machine under test FR # 2 : Distant machine (2) Enter "14-ENTER" through the keyboard for both FR#1 and FR#2. LCD DISPLAY for FR#1 and FR#2 ***** TEST # 14 Inline Test.
Page 122 (5) When data are received from FR#1, FR#2 then displays the following screen: LCD DISPLAY for FR#2 ***** TEST # 14 Inline Test. ***** ***** Receive Data ***** Receive Data 1234567890AB >>> FFFFFFFFFFFF Send Data ABCDEF123456 >>> 1234567890AB Test done. Press any key (6) When data are received from FR#2, FR#1 then displays the following screen: LCD DISPLAY ***** TEST # 14 Inline Test.
Page 123 15-3) Registration of LAN system address For each FR, individually register and control the ID address of the network (12-digit hexadecimal number). Control numbers : Within the range of 0000EB010000 ~ 0000EB01FFFF (12-digit hexadecimal number) Method of registration (1) Write the above number on the label and stick it to the MAIN PWB. 0000EB01000 Method of control (1) Irrespective of the product item number, this label shall be stuck to the PWB where the LAN controller is mounted.
Page 124 16) Mouse test (1) Turn on the power supply under the condition that the keyboard and the mouse are connected to the keyboard connector through the mouse inspection branch cables. (2) Enter a key input of 15-ENTER from the Main Menu. LCD DISPLAY ***** TEST # 15 Mouse Test.
Page 125 17) PCMCIA test (PCI slot test) (1) Insert the PCMCIA card. (2) Enter "16-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 16 PCMCIA Test. **** 0 : Return to MAIN MENU 1 : Test Slot 0 2 : Test Slot 1 Select and press ENTER key : 0 ENTER (3) Insert the PCMCIA card in Slot 0 (top).
Page 126 18) Flash Memory test (1) Enter "17-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 17 Flash Memory Test. **** FFF80000-FFF9FFFF : PROG.SAVE FFF80000-FFF9FFFF : TEST DATA W/R (55AA) TEST DATA W/R (AA55) FFF80000-FFF9FFFF : PROG.LOAD FFFA0000-FFFBFFFF : PROG.SAVE FFFA0000-FFFBFFFF : TEST DATA W/R (55AA) TEST DATA W/R (AA55) FFFA0000-FFFBFFFF : PROG.LOAD FFFC0000-FFFDFFFF : PROG.SAVE...
Page 127 19) USB test (1) Enter "18-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 18 USB Test. **** 0 : Return to MAIN MENU 1 : USB Interface Test 2 : USB Keyboard Test Select and press ENTER key : 0 ENTER (2) Set the USB low speed devices or the USB low speed jigs in both slots.
Page 128 (13) Enter "1-ENTER" through the keyboard. LCD DISPLAY ***** TEST # 18 USB Test. **** USB Interface Test PORT 0 USB device not connected USB Interface Test PORT 1 USB device not connected ENTER 1 (OK) or 2 (NG) 1 (OK) 2 (NG) (14) Finish the test after displaying "USB device not connected"...
Page 129 (1) Connect a VGA monitor to the VGA connector. (2) Turn on the FCR power supply and confirm that the screen as shown below is displayed. LCD DISPLAY PANASONIC JS-170FR TEST PROGRAM V5.X 0 : EXIT 11 : Touch Panel Test.
Page 130 The drawer test is locked by the password. Execute this test to unlock it. (1) Select 19 and press the [ENTER] key on the main menu. LCD DISPLAY PANASONIC JS-170FR TEST PROGRAM V5.X Password Set ENTER Set and press ENTER key (2) Enter 0427 on the keyboard or touch panel.
Page 131 (2) After entering the chpos input, press the Enter key. c:>chpos When c:> is displayed, turn off the FCR power supply. (3) Turn on the power supply for the JS-170FR and confirm that the screen as shown below is displayed. Staring MS-DOS HIMEM is testing extended memory...done.
Page 132: Materials For Reference
Materials for Reference COM1, COM2 (RS-232C) loopback connectors 9-pin D-SUB (female) COM3 (RS-232C) loopback connector 8-pin modular connector Printer cable connection diagram Centronics 36-pin D-SUB 25-pin (female) 3-48...
Page 133 LAN interface cable 8-pin modular connector 8-pin modular connector USB low speed jig Series A plug Resistance: 1.5kW USB high speed jig Series A plug Resistance: 1.5kW Mouse testing jig 6-pin mini DIN connector (male) 6-pin mini DIN connector (female) (keyboard side) 6-pin mini DIN connector (female) (mouse side)
Page 134: Js-170Fr-**Pcb's
JS-170FR-∗∗ PCB's Main PCB 4.1.1 Main PCB Schematic Diagram (1/10)
Page 135 4.1.1 Main PCB Schematic Diagram (2/10)
Page 136 4.1.1 Main PCB Schematic Diagram (3/10)
Page 137 4.1.1 Main PCB Schematic Diagram (4/10)
Page 138 4.1.1 Main PCB Schematic Diagram (5/10)
Page 139 4.1.1 Main PCB Schematic Diagram (6/10)
Page 140 4.1.1 Main PCB Schematic Diagram (7/10)
Page 141 4.1.1 Main PCB Schematic Diagram (8/10)
Page 142 4.1.1 Main PCB Schematic Diagram (9/10)
Page 143 4.1.1 Main PCB Schematic Diagram (10/10) 4-10...
Page 144 4.1.2 Main PCB Parts Location 4-11...
Page 145 MB PCB 4.2.1 MB PCB Schematic Diagram 4-17...
Page 146 4.2.2 MB PCB Parts Location 4-18...
Page 147: Mb Pcb
4.2.3 MB PCB Replacement Parts List Note: When ordering replacement parts, indecate Part No. and Name of Parts. RTL mark in Remarks means “Repairable PCB Assembly” “Retention Time Limited”. Ref. No. Part No. Part Name & Description Ps/set Remarks P7FRJ20P3H MB PCB R 502 ERDS2TJ101...
Page 148 Peripheral PCB 4.3.1 Peripheral PCB Schematic Diagram 4-20...
Page 149 4.3.2 Peripheral PCB Parts Location 4-21...
Page 150: Peripheral Pcb
4.3.3 Peripheral PCB Replacement Parts List Note: When ordering replacement parts, indecate Part No. and Name of Parts. RTL mark in Remarks means “Repairable PCB Assembly” “Retention Time Limited”. Ref. No. Part No. Part Name & Description Ps/set Remarks P7FRJ20P2H PERIPHERAL PCB Q 651 DTA114ESATP...
Page 151: Body Block
Body Block Body Block Disassembling Drawing T/P PCB Unit CN6 on the Main PCB Unit CN26 on the Main PCB Unit CN10 on the Main PCB Unit CN14 on the Main on the Main PCB Unit PCB Unit JDK23900B4 MB PCB Unit Main PCB Unit CN22...
Page 152 Main PCB 75 Peripherals...
Page 153 Power Supply Peripherals...
Page 154 Customer Display Peripherals...
Page 155 LCD Peripherals...
Page 156 Inverter PCB Peripherals...
Page 157: Body Block Replacement Parts List
Body Block Replacement Parts List Note: When ordering replacement parts, indecate Part No. and Name of Parts. RTL mark in Remarks means “Repairable PCB Assembly” “Retention Time Limited”. Ref. No. Part No. Part Name & Description Ps/set Remarks L5BDDDN00001 LIQUID CRYSTAL DISPLAY VNR12C289LU BACK LIGHT YJJDK23950B4...
Page 158 Ref. No. Part No. Part Name & Description Ps/set Remarks YJJ3A59590B4 DUST PROTECTOR YJJ2P58140B4 INSULATOR YJJ2W58101B2 FRAME YJJ2C51250B4 LOCK PLATE.STAINLEES YJJ2H57660B4 MAGNETIC SHIELD YJJ2H59410B2 "MAGNETIC SHIELD,STAINLESS" YJJ2P62100B4 INV SHEET YJJ5K42440B2 DISPLAY CASE YJJ5K42450B2 DISPLAY CASE YJNK-3N CORD CLAMPER YJNK2N CORD CLAMPER YJJ3G58310B4 RUBBER YJJ7S49510B4...
Page 159 Ref. No. Part No. Part Name & Description Ps/set Remarks YJJDK265000B4 BATTERY CABLE YJJ5L40310B4 RUBBER FOOT YJJ2S70040B4 CONNECTOR BRACKET YJP7FRJ20P3H MB PCB YJP7FRJ20P1H PERIPHERAL PCB...
Page 160: Packing
Packing Packing Ref. No. Part No. Part Name & Description Ps/set Remarks YJMSFC5EX CHOCK COIL Axx/Exx/Gxx/Sxx/Wxx K2CG3EW00001 YJKP30EPHA YJJDA30770B4 AC CORD Fxx/Gxx YJJDK13920B4 Uxx/Cxx YJKPSV2516Y YJPLT-1M CLAMPER Axx/Exx/GxxSxx...
Page 161 Printed in Japan...

Panasonic JS-170FR Series Service Manual

1 Overview

Appendix B : Dip Switches and Jumpers

2 Description of Operation

3 Test Program and Power Supply Check

4 JS-170FR-**Pcb's

5 Body Block

6 Packing

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