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JUKI–760E
Version 2.5
December 10, 2003
©Copyright 2003 by ICP Electronics Inc. All Rights Reserved.
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Copyright Notice
The information in this document is subject to change without
prior notice in order to improve reliability, design and function
and does not represent a commitment on the part of the
manufacturer.
In no event will the manufacturer be liable for direct, indirect,
special, incidental, or consequential damages arising out of the
use or inability to use the product or documentation, even if advised of the possibility of such damages.
This document contains proprietary information protected by
copyright. All rights are reserved. No part of this manual may
be reproduced by any mechanical, electronic, or other means in
any form without prior written permission of the manufacturer.
Trademarks
JUKI-760E is a registered trademark of ICP Electronics Inc. IBM
PC is a registered trademark of International Business Machines
Corporation. Intel is a registered trademark of Intel Corporation.
AMI is a registered trademark of American Megatrends, Inc.
Other product names mentioned herein are used for
identification purposes only and may be trademarks and/or
registered trademarks of their respective companies.
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Table of Contents
CHAPTER 1. INTRODUCTION ........................................5
1.1 S
1.2 P
PECIFICATIONS........................................................ 6
ACKAGE CONTENTS ................................................... 8
CHAPTER 2. INSTALLATION..........................................9
2.1 JUKI-760E '
2.2 U
2.3 S
2.4 V
2.5
2.6 W
2.7 D
2.8 C
NPACKING PRECAUTIONS .......................................... 11
ETTING THE CPU OF JUKI-760E ................................ 12
OLTAGE SETTING FOR FLASH ROM ............................. 14
LCD VOLTAGE SETTING............................................. 14
ATCH-DOG TIMER ................................................. 14
ISKONCHIP™ FLASH DISK ...................................... 15
LEAR CMOS SETUP ................................................ 16
2.9 RS232 / RS422 / RS485 S
2.10 RI
AND COM PORT VOLTAGE SELECTOR.......................... 17
S LAYOUT ............................................... 9
ELECTOR (COM2) ............... 16
CHAPTER 3. CONNECTION ..........................................20
3.1 F
3.2 PCI E-IDE D
3.3 P
3.4 S
3.5 K
3.6 E
3.7 USB P
3.8 I
3.9 VGA C
3.10 LAN RJ45 C
3.11 F
3.12 LCD C
LOPPY DISK DRIVE CONNECTOR .................................. 20
ISK DRIVE CONNECTOR ............................. 21
ARALLEL PORT....................................................... 22
ERIAL PORTS ........................................................ 23
EYBOARD/MOUSE CONNECTOR ................................... 24
XTERNAL SWITCHES AND INDICATORS ........................... 25
ORT CONNECTOR ............................................. 26
RDA INFRARED INTERFACE PORT ................................. 26
ONNECTOR.................................................... 27
ONNECTOR ............................................ 28
AN CONNECTOR ..................................................... 29
ONNECTOR .................................................... 30
CHAPTER 4. AMI BIOS SETUP .....................................31
4.1 G
4.2 S
4.3
ETTING START ...................................................... 31
TANDARD CMOS SETUP........................................... 32
ADVANCED CMOS SETUP........................................... 33
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4.4 ADVANCED CHIPSET SETUP ......................................... 36
4.5 P
4.6 PCI / PLUG AND PLAY S
4.7 P
4.8 A
4.9 C
4.10 A
4.11 A
4.12 S
4.13 E
CHAPTER 5. E
OWER MANAGEMENT SETUP ....................................... 38
ETUP .................................. 40
ERIPHERAL SETUP................................................... 42
UTO-DETECT HARD DISK.......................................... 44
HANGE SUPERVISOR / USER PASSWORD ........................ 45
UTO CONFIGURATION WITH OPTIMAL SETTINGS ................ 46
UTO CONFIGURATION WITH FAIL SAVE SETTINGS .............. 47
AVE SETTINGS AND EXIT .......................................... 47
XIT WITHOUT SAVING ............................................. 47
2
KEY™ FUNCTION .................................48
APPENDIX A. WATCH-DOG TIMER .................................50
APPENDIX B. ATX POWER SUPPLY ................................51
APPENDIX C. I/O INFORMATION .................................52
APPENDIX D. AMD-K6® PROCESSOR VOLTAGE ............54
APPENDIX E. FLAT PANEL CONNECTION MODULE ........55
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Chapter 1. Introduction
Thank you for choosing JUKI-760E 500MHz K6®/Pentium® with
LCD/CRT & 10/100Mbps Ethernet Single Board Computer. The
JUKI-760E is a PICMG bus form factor board equipped with high
performance K6
advanced high performance multi-mode I/O, especially
designed for the system manufacturers, integrators, or VARs
that want to provide all the performance, reliability, and quality
at a reasonable price.
This board has a built-in DiskOnChip™ (DOC) Flash Disk socket
for embedded application. A DOC Flash Disk is software
compatible to hard disks, user can use DOS command to
modify related settings without having to install any extra
software utility.
JUKI-760E uses C&T 69000 HiQPro
EDO RAM display memory. The LCD interface can drive up to
1280 x 1024 resolution with 256 colors. It supports Mono, Color
STN and TFT flat panel with 3.3V or 5V.
JUKI-760E uses the advanced Ali M1541/1543 Chipset which is
100% ISA/PCI compatible chipset with PCI 2.1 standard. In
addition, this board provides three 168-pin sockets for RAM,
maximum support up to 768MB in total. The DIMM module is
3.3 V SDRAM.
®
/Pentium® up to 500MHz Processor and
TM
LCD/CRT chipset with 2MB
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1.1 Specifications
Processor : One Socket 7 supports Intel Pentium
•
to 233MHz, AMD K6
®
-3 up to 500MHz,
®
MMX up
100/95/83.3/75/66/60MHz F.S.B.
Bus Architecture: 32-bit PCI Bus and 16-bit ISA Bus
•
Compatible
DMA channels : 7
•
Interrupt levels : 15
•
Chipset : Ali M1541 supports up to 100MHz system bus
•
and Ali M1543 super I/O controller.
L2 Cache Memory: onboard pipelined Burst SRAM 512KB
•
System Memory : three 168-pin DIMM sockets support
•
3.3V PC100 SDRAM, up to 768MB, ECC not supported.
LCD/CRT Controller :
•
CHIPS 69000 64-bit flat panel controller
Built-in HiQColor
TM
Technology for super clean STN flat
panel .
CRT Resolution up to:
1280 x 1024, 256 color
1024 x 768, 64K color
800 x 600, 16M color
Display Memory : 2MB EDORAM
10/100Mbps Ethernet Controller :
•
Realtek RTL8100B IEEE802.3u 100BASE-TX standard
Dual Auto-sensing interface to 10Mbps or 100Mbps
Network
RJ45 connector for 10BASE-T and 100BASE-TX
Full Duplex capability
Full Software driver support
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On Board I/O:
•
1 Floppy Port (up to 2.88 MB, 3 mode)
2 Serial Ports (2F8, 3F8)
1 Parallel Port (ECP, EPP port)
FIR TX/RX Header (3E8)
USB port : Support two USB ports for future expansion.
•
TM
ISAPLUS
•
: Designed to enhance the ISA bus drive
capability
Enhanced PCI IDE interface (Ultra DMA/33) :
•
Supports two IDE hard disk drives.
2
KeyTM : A special designed 1Kbit EEPROM (non volatile
E
•
memory) provided to accept read/ write data by customer’s
program. It is useful to store system ID, Password, Critical
Data on the board.
Watch-dog timer : Can be set to 1, 2, 10, 20, 110 or 220
•
seconds per period. Reset or NMI is generated when CPU
does not periodically trigger the timer. Your program uses
hex 043 and 443 to control the watch-dog and generate a
system reset.
Flash Disk - DiskOnChip™ (optional) : The Flash Disk
•
provides software compatibility with hard disk, supports MSystems. The built-in True FFS Transparent Flash Block
Management and Space Reclamation will allow customers to
use Flash Disk with DOS command, no need to install any
extra software utility. DOC currently is available from 2MB
to 144MB.
ATX Power Supply function.
•
Power Consumption : +5V/5A (MMX-233MHz, 32MB
•
EDO RAM) +12V:170mA , -12V:20mA
Operating Humidity : 5 ~ 95 % , non-condensing
•
o
Operating Temperature : 0 ~ 55
•
C (CPU needs cooler)
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1.2 Package Contents
In addition to this User Manual, the JUKI-760E package
includes the following items:
JUKI-760E Single Board Computer
Serial & Parallel Ribbon Cable and Port Bracket
FDD/HDD Cable Sets
6-pin Mini-Din to one 5-pin Mini-Din for Keyboard and one
6-pin Mini-Din for PS/2 Mouse Adapter Cable.
one support disk contains of the needed driver
If any of these items is missing or damaged, please contact the
dealer from whom you purchased the product. Save the
shipping materials and carton in case you want to ship or store
the product in the future.
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Chapter 2. Installation
This chapter describes how to install the JUKI-760E. The layout
of JUKI-760E is shown on the next page and the Unpacking
Precautions that you should be careful with are described on
the following page. Also included is the jumpers and switches
setting for this board’s configuration, such as: CPU type
selection, system clock setting and Watchdog timer.
2.1 JUKI-760E 's Layout
< Please turn to the next page for layout diagram. >
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JUKI-760E 's Layout
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2.2 Unpacking Precautions
Some components on JUKI-760E SBC are very sensitive to
static electric charges and can be damaged by a sudden rush of
power. To protect it from unintended damage, be sure to follow
these precautions:
Ground yourself to remove any static charge before
Handle your JUKI-760E SBC by its edges. Don’t touch IC
Do not plug any connector or jumper while the power is on.
Do not put your JUKI-760E SBC unprotected on a flat
touching your JUKI-760E SBC. You can do this by using a
grounded wrist strap at all times or by frequently touching
any conducting materials that is connected to the ground.
chips, leads or circuitry if not necessary.
surface because it has components on both sides.
WARNING
Incorrect replacement of battery will cause explosion.
Replace the Lithium battery of the real-time clock only
with the same or equivalent type part. Don’t dispose of
the used battery in fire. Dispose of used parts in
accordance with your local regulations.
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2.3 Setting the CPU of JUKI-760E
OFF
ON
JP1 : CPU / PCI CLK SETTING
•
CPU CLK PCI CLK
60MHz 30MHz ON ON ON ON
66MHz 33MHz OFF ON ON ON
75MHz 37MHz OFF OFF ON ON
83MHz 33MHz OFF ON OFF ON
95MHz 33MHz ON OFF OFF ON
100MHz 33MHz OFF OFF OFF ON
JP13 : CPU (V core) Voltage Selector
•
VOLTAGE 1-6 2-7 3-8 4-9 5-10
3.5 ON ON ON ON OFF
3.4 OFF ON ON ON OFF
3.3 ON OFF ON ON OFF
3.2 OFF OFF ON ON OFF
3.1 ON ON OFF ON OFF
3.0 OFF ON OFF ON OFF
2.9 ON OFF OFF ON OFF
2.8 OFF OFF OFF ON OFF
2.7 ON ON ON OFF OFF
2.6 OFF ON ON OFF OFF
2.5 ON OFF ON OFF OFF
2.4 OFF OFF ON OFF OFF
2.3 ON ON OFF OFF OFF
2.2 OFF ON OFF OFF OFF
2.1 ON OFF OFF OFF OFF
2.0 OFF OFF OFF OFF OFF
1-2 3-4 5-6 7-8
JP 1
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JP12 : CPU MULTIPLIER SETTING
•
MULTIPLIER 1-2 3-4 5-6
2x ON OFF OFF
2.5x ON ON OFF
3.0 x OFF ON OFF
3.5 x OFF OFF OFF
4.0 x ON OFF ON
4.5 x ON ON ON
5.0 x OFF ON ON
5.5x OFF OFF ON
Note:
Win95 is going to be unstable while running on all
350MHz and above K6-2 systems. If you use AMD K62/350MHz to run Win95, the message ‘Windows
protection error. You need to restart your
computer’ will appear very often. This is AMD CPU’s
problem. To solve this, you must download and run the
program: amdk6upd.zip from AMD website.
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2.4 Voltage Setting for FLASH ROM
JP18 : Flash ROM Voltage Setting
•
PIN
1-3 , 2-4 +12V 1MB INTEL 28F001-BX-T150
1-3 , 4-6 +12V 2MB INTEL
3-5 , 4-6 +5V 1MB/2MB SST/WINBOND/29EE010
1-3 , 4-6 +12V 1MB MX28F 1000
DESCRIPTION
VOLT. SIZE
2.5 LCD Voltage Setting
JP3 : LCD Voltage Setting
•
PIN DESCRIPTION
1-2 3.3V
2-3 +5V
Warning: Wrong voltage setting may cause serious
damage to your LCD display.
2.6 Watch-Dog Timer
MANUFACTURER
The Watch-Dog Timer is enabled by reading port 443H. It
should be triggered before the time-out period ends, otherwise
it will assume the program operation is abnormal and will issue
a reset signal to reboot or activate NMI to CPU. The Watch-Dog
Timer is disable by reading port 043H.
• JP14 : Watch-Dog Timer Type Setting
PIN DESCRIPTION
1-2 NMI
2-3 RESET
OFF Disable WDT
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JP16 : WDT Time-out Period
•
PERIOD 1-2 3-4 5-6 7-8
1 sec. OFF OFF ON OFF
2 sec. OFF OFF ON ON
10 sec. OFF ON OFF OFF
20 sec. OFF ON OFF ON
110 sec. ON OFF OFF OFF
220 sec. ON OFF OFF ON
2.7 DiskOnChip™ Flash Disk
DOC is software compatible to hard disks. Its “plug and play”
function is not only easy to use but also reliable.
JP17 : DOC Memory Address Setting
•
PIN ADDRESS
1-2 CE00H
3-4 D600H
5-6 DE00H
7-8 Don’t Care
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2.8 Clear CMOS Setup
If you forget the CMOS password, you can clear or reset it by
closing the JP4 for about 3 seconds then set it back to normal
operation by opening the JP4. After this action is done, the
password will be cleared from your CMOS.
JP4 : Clear CMOS Setup
•
PIN DESCRIPTION
OFF Normal Operation
ON Clear CMOS
Note: If you are using an ATX power supply, the ATXpower connector should be disconnected from the
motherboard for CMOS to be cleared.
2.9 RS232 / RS422 / RS485 Selector
(COM2)
Through combination of JP5 and JP11, users can set COM2 as
RS232, RS482 or RS485.
JP5 : RS422 / RS485 , RS232 Selector
•
PIN DESCRIPTION
1-2 RS422/RS485
2-3 RS232
JP11 : RS422 / RS232 Selector
•
DESCRIPTION PIN
RS422/485 2-3 5-6 8-9 11-12
RS232 1-2 4-5 7-8 10-11
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JP6 : Select the RTS signal to control/enable
•
RS485 output driver. Please refer to the below
table for this function.
RTS 1 0
RS485 driver output input
JP6 DESCRIPTION
1-2 RTS Select
2-3 RS-422
2.10 RI and COM Port Voltage Selector
COM1
The RI pin of COM1 (CN18, pin#9) can be set to RI, +5V or
+12V mode by setting JP7 and JP9.
JP7 : RI or DC Power Select
•
PIN DESCRIPTION
1-2 DC Power Select (connect to JP9)
2-3 RI
JP9 : is a DC Power Voltage Selector, combined
•
with JP7
PIN DESCRIPTION
1-2 +5V
2-3 +12V
(Please refer to the next page for diagram illustration.)
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COM2
The RI pin of COM2 (CN17, pin#8) can be set to RI, +5V or
+12V mode by setting JP8 and JP10
JP8 : RI or DC Power Select
•
PIN DESCRIPTION
1-2 DC Power Select (connect to JP10)
2-3 RI
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JP10 : is a DC Power Voltage Selector, combined
•
with JP8
PIN DESCRIPTION
1-2 +5V
2-3 +12V
Note : When the output is set to 12V, the board should
have +12V input too from power supply.
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Chapter 3. Connection
This chapter describes how to connect peripherals, switches and
indicators to the JUKI-760E board.
3.1 Floppy Disk Drive Connector
JUKI-760E board is equipped with a 34-pin daisy-chain driver
connector cable.
CN10 : FDD CONNECTOR
•
PIN DESCRIPTION PIN DESCRIPTION
1 GROUND 2 REDUCE WRITE
3 GROUND 4 N/C
5 GROUND 6 N/C
7 GROUND 8 INDEX#
9 GROUND 10 MOTOR ENABLE A#
11 GROUND 12 DRIVE SELECT B#
13 GROUND 14 DRIVE SELECT A#
15 GROUND 16 MOTOR ENABLE B#
17 GROUND 18 DIRECTION#
19 GROUND 20 STEP#
21 GROUND 22 WRITE DATA#
23 GROUND 24 WRITE GATE#
25 GROUND 26 TRACK 0#
27 GROUND 28 WRITE PROTECT#
29 GROUND 30 READ DATA#
31 GROUND 32 SIDE 1 SELECT#
33 GROUND 34 DISK CHANGE#
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3.2 PCI E-IDE Disk Drive Connector
You can attach up to four IDE (Integrated Device Electronics)
hard disk drives to the JUKI-760E IDE controller.
CN6/CN7 : Primary/Secondary IDE Interface
•
Connector
PIN DESCRIPTION PIN DESCRIPTION
1 RESET# 2 GND
3 DATA 7 4 DATA 8
5 DATA 6 6 DATA 9
7 DATA 5 8 DATA 10
9 DATA 4 10 DATA 11
11 DATA 3 12 DATA 12
13 DATA 2 14 DATA 13
15 DATA 1 16 DATA 14
17 DATA 0 18 DATA 15
19 GND 20 N/C
21 IDE DRQ 22 GND
23 IOW# 24 GND
25 IOR# 26 GND
27 IDE CHRDY 28 GND
29 IDE DACK 30 GND. DEFAULT
31 INTERRUPT 32 N/C
33 SA 1 34 N/C
35 SA 0 36 SA 2
37 HDC CS0# 38 HDC CS1#
39 HDD ACTIVE# 40 GND
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3.3 Parallel Port
This port is usually connected to a printer. The JUKI-760E
includes an on-board parallel port, accessed through a 26-pin
flat-cable to connector CN11.
CN11 : Parallel Port Connector
•
PIN DESCRIPTION PIN DESCRIPTION
1 STROBE# 2 DATA 0
3 DATA 1 4 DATA 2
5 DATA 3 6 DATA 4
7 DATA 5 8 DATA 6
9 DATA 7 10 ACKNOWLEDGE
11 BUSY 12 PAPER EMPTY
13 PRINTER SELECT 14 AUTO FORM FEED #
15 ERROR# 16 INITIALIZE
17 PRINTER SELECT LN# 18 GND
19 GND 20 GND
21 GND 22 GND
23 GND 24 GND
25 GND 26 N/C
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3.4 Serial Ports
The JUKI-760E offers two high speed NS16C550 compatible
UARTs with Read/Receive 16 byte FIFO serial ports
(COMA/COMB).
CN18 : Serial Port 9-pin D-sub Connector (COM1)
•
PIN DESCRIPTION
1 DATA CARRIER DETECT (DCD)
2 RECEIVE DATA (RXD)
3 TRANSMIT DATA (TXD)
4 DATA TERMINAL READY (DTR)
5 GROUND (GND)
6 DATA SET READY (DSR)
7 REQUEST TO SEND (RTS)
8 CLEAR TO SEND (CTS)
9 RING INDICATOR (RI)
• CN17 : Serial Port 2x5 pin header Connector (COM2)
PIN DESCRIPTION PIN DESCRIPTION
1 DCD /TX- 6 DSR /RX+
2 RXD /TX- 7 RTS /RX-
3 TXD 8 CTS
4 DTR 9 RI
5 GND 10 N/C
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3.5 Keyboard/Mouse Connector
The JUKI-760E provides one external keyboard, one external
mouse and one PS/2 keyboard & mouse connectors.
CN2 : 5-pin Header Ext. Keyboard Connector
•
PIN DESCRIPTION
1 KB CLOCK
2 KB DATA
3 N/C
4 GND
5 +5V
CN19 : 6-pin Mini-DIN PS/2 Keyboard Connector
•
PIN DESCRIPTION
1 KB DATA
2 MS DATA
3 GND
4 +5V
5 KB CLOCK
6 MS CLOCK
CN3 : Ext. PS/2 Mouse 5-pin Header Connector
•
PIN DESCRIPTION
1 MS DATA
2 N/C
3 GND
4 +5V
5 MS CLOCK
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3.6 External Switches and Indicators
There are several external switches and indicators for
monitoring and controlling your CPU board. All the functions are
included in the CN1 connector.
CN1 : Multi Panel
•
PIN DESCRIPTION PIN DESCRIPTION
1. SPEAKER 2 VCC
3. N/C 4 N/C
5. N/C 6 GND
7. +5V 8 KEYLOCK
9. RESET SW 10 GND
11. GND 12 GND
13. IDE LED 14 N/C
15. +5V 16 ATX POWER CONTROL
17. ATX POWER BUTTON 18 ATX 5VSB
19. GND 20 ATX 5VSB
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3.7 USB Port Connector
The JUKI-760E has two built-in USB ports for the future new
I/O bus expansion.
CN8: 2 USB Connectors
•
PIN USB0 PIN USB1
1 +5V 5 GND
2 SBD0- 6 SBD1+
3 SBD0+ 7 SBD14 GND 8 +5V
3.8 IrDA Infrared Interface Port
JUKI-760E has a built-in IrDA port which supports Serial
Infrared (SIR) or Amplitude Shift Keyed IR (ASKIR) interface. If
you want to use the IrDA port, you will have to configure the
SIR or ASKIR model in BIOS’s Peripheral Setup’s COM3.
CN13 : IrDA Connector
•
PIN DESCRIPTION
1 VCC
2 N/C
3 IR-RX
4 GND
5 IR-TX
6 N/C
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3.9 VGA Connector
The built-in 15-pin VGA connector can be connected directly to
your monochrome CRT monitor as well as high resolution color
CRT monitor.
CN15 : 15-pin Female VGA Connector
•
PIN DESCRIPTION PIN DESCRIPTION
1 RED 9 N/C
2 GREEN 10 GND
3 BLUE 11 N/C
4 N/C 12 DDC DATA
5 GND 13 H-SYNC
6 GND 14 V-SYNC
7 GND 15 DDC CLK
8 GND
CN14 : Ext. VGA Connector
•
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PIN DESCRIPTION PIN DESCRIPTION
1 RED 2 GREEN
3 BLUE 4 HSYNC
5 VSYNC 6 DDDA*
7 DDCK* 8 GROUND
9 GROUND 10 GROUND
3.10 LAN RJ45 Connector
JUKI-760E is equipped with a built-in 10/100Mbps Ethernet
Controller. You can connect it to your LAN through RJ45 LAN
connector. Please refer to the pin assignments listed below:
CN16 : LAN RJ45 Connector
•
PIN DESCRIPTION PIN DESCRIPTION
1 TX+ 5. N/C
2 TX- 6. RX-
3. RX+ 7. N/C
4. N/C 8. N/C
CN12 : LED Connector for LAN
•
PIN DESCRIPTION
1 VCC
2 LAN ACT.
LED pins description
•
PIN DESCRIPTION
LED0 TX/RX
LED1 LINK 100
LED2 LINK 10
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3.11 Fan Connector
The JUKI-760E provides one CPU cooling fan connector and two
system fan connectors. These connectors can supply
12V/500mA to the cooling fan. The connector has a “rotation”
pin which retrieves fan’s rotation signal to the system, so that
system BIOS knows the fan speed. Please note that only
specified fan offers rotation signal.
CN4 : CPU Fan Connector
•
CN5 : System1 Fan Connector
•
CN9 : System2 Fan Connector
•
PIN DESCRIPTION
1 Fan Sensor
2 +12V
3 GND
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3.12 LCD Connector
U9: LCD Interface Connector
•
PIN DESCRIPTION PIN DESCRIPTION
1 VPCLK 2 P33
3 P34 4 P31
5 P35 6 P32
7 P30 8 P28
9 P29 10 P27
11 P25 12 P26
13 P24 14 P21
15 P23 16 P22
17 P16 18 P20
19 P17 20 P18
21 P19 22 P14
23 P13 24 P12
25 P15 26 P11
27 P7 28 P10
29 PLCD 30 PLCD
31 P9 32 P8
33 P4 34 P6
35 P3 36 P5
37 P2 38 P1
39 M 40 P0
41 SHFCLK 42 ENABKL
43 FPVDD 44 FLM
45 FPVEE 46 LP
47 GND 48 GND
49 +12V 50 +12V
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Chapter 4. AMI BIOS Setup
The JUKI-760E uses the AMI PCI/ISA BIOS for system
configuration. The AMI BIOS setup program is designed to
provide maximum flexibility in configuring the system by
offering various options which may be selected for end-user
requirements. This chapter is written to assist you in the proper
usage of these features.
4.1 Getting Start
When you turn on the power button, the BIOS will enter the
Power-On-Self-Test routines. These routines will be executed
for system test and initialization and system configuration
verification.
" Hit DEL if you want to run SETUP"
To access AMI PCI/ISA BIOS Setup program, press <Del> key.
The following screen will be displayed at this time.
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4.2 Standard CMOS Setup
The standard CMOS Setup is used for basic hardware system
configuration. The main function is for Date/Time setting and
Floppy/Hard Disk setting. Please refer to the following screen
for this setup:
To set the Date, for example, press either the arrow or
<Enter> button on your keyboard to select one of the fields
(Months, Date or Year) then press either <PgUp> or <PgDn>
to set it to the current Months, Date and Year. Follow the same
steps for Time setting.
For IDE hard disk drive setup, please check the following
possible setup procedure:
1. Use the Auto setting for detection during boot-up.
2. Use the Auto-Detect Hard Disk option in the main menu;
the computer will automatically detect HDD specifications.
3. Enter specifications manually through “User” option.
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4.3 Advanced CMOS Setup
Advanced CMOS Setup is designed for tuning the best
performance out of the JUKI-760E board. For normal operation,
customers don’t have to change any default setting. The default
setting is pre-set for most reliable operation.
The following screen will be displayed if you select Advanced
CMOS Setup:
1
st
, 2nd, 3rd Boot Device > To define the sequence of
boot drives after routine check up completes. If the 1
Boot Device fails, BIOS will attempt to boot from the 2
rd
the 3
device. The Optimal and Fail-Safe default settings
are C:,A:,CDROM.
nd
st
or
Try Other Boot Devices > BIOS will try to boot from any
other available device in the system if the 1
st
, 2nd and 3rd
device fails to boot.
Quick Boot > Enabled: this will enable the BIOS to boot
quickly when you turn on your computer. The BIOS will
only check the first 1MB of the system memory.
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Quick Boot > Disabled: BIOS will test all system memory
when it boots up. It will spend about 40 seconds until it
receives a Ready signal from the HDD. It will also wait for
you to press the <Del> key or not.
BootUp Num-Lock > To turn on/off the Num-Lock option
on a enhanced keyboard when you boot. If you turn it on,
the arrow keys on the numeric keypad can be used just as
the other set of arrow keys on the keyboard and vice versa.
Floppy Drive Swap > This function enables you to swap
floppy disk drives via software or without moving the
hardware.
Floppy Drive Seek > When this option is turned Enabled,
BIOS will perform a Seek command on floppy drive A:
before boot-up.
Floppy Access Control > To define the read/write access
that is set while booting from a floppy drive.
Hard Disk Access Control > To define the read/write
access that is set while booting from a HDD.
PS/2 Mouse Support > This is to confirm whether or not
a PS/2 mouse is supported.
S.M.A.R.T. for Hard Disks > Allow BIOS to use the
System Management and Reporting Technologies protocol
for reporting server system information on a network
System Keyboard > To configure the keyboard. If you
set it Absent, BIOS will not report keyboard errors.
Primary Display > To define the type of display monitor
of the system. ‘Absent’ option is used for network file
servers.
Password Check > To define if a password is necessary
or not to access BIOS setup.
Boot to OS/2 > If you run the OS/2 operating system,
this option must be set to yes. In other words, you permit
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BIOS to run properly if OS/2 or any other OS that does not
support Plug and Play is found in your computer.
External Cache > To enable or disable the external cache.
System BIOS Cacheable > To define whether or not the
memory segment FOOOH can be read from or written to
cache memory. Setting it to Enabled will give faster
execution in your system.
XXXX, 16k Shadow > ROM Shadow is a technique in
which BIOS code is copied from slower ROM to faster RAM.
If you enable it then the BIOS will be executed from RAM.
Each option allows 16KB segment to be shadowed to the
RAM.
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4.4 Advanced Chipset Setup
Setup functions in this section are mostly related to the Chipset.
These options are used to change Chipset‘s registers. Please
carefully change any default setting, otherwise the system will
become unstable.
SDRAM CAS# Latency > To specify CAS latency timing,
which means when memory receives CAS signal, how
many clock must the memory wait before it starts to read
or write data.
SDRAM Burst X-1-1-1-1-1-1-1 > To enable or disable
Burst mode to write or read the data in SDRAM
DRAM Timing > To specify the timing mode of DRAM.
Options: Normal, Fast, Slow.
Pipe function > To enable or disable the pipe function.
SDRAM RASJ Precharge Time > This option specifies
the length of time for Row Address Strobe form SDRAM to
precharge. Options: 2T, 3T, 4T, 5T.
SDRAM RASJ Cycle Time > To choose the time cycle of
SDRAM RASJ. Options: 7T, 8T, 9T, 10T.
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SDRAM RASJ to CAS Delay > When CPU reads/writes
data from memory, it has to send RAS signal first and then
send CAS signal. This option is used to specify the delay
between these signals. Options: 3CLKs, 4CLKs.
Gated Clock > To enable or disable the control of the
gated time and wakeup time of the DRAM sequencer and
the DRAM controller.
Graphic Aperture Size > To define the size of Graphic
Aperture. Options: 4MB, 8MB,…, 256MB.
Primary Frame Buffer > To enable or disable the buffer
for primary frame
VGA Frame Buffer > To specify whether or not a
caching of the video RAM is allowed. Enabled will give you
better system performance.
Data Merge > If enabled, only consecutive linear address
can be merged.
ISA Line Buffer > To enable or disable the buffer for ISA
Line.
Delayed Transaction > To enable or disable the support
for delay transaction for PCI specification 2.1.
AT Bus Clock > To specify the I/O bus clock setting.
Memory Hole : To specify the location of a memory hole
in the CMOS RAM. This setting reserve 15MB to 16MB
memory address space for ISA expansion cards that
specifically require this setting. Memory from 15MB and up
will be unavailable to the system because expansion cards
can only access memory up to 16MB.
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4.5 Power Management Setup
Power Management/APM > To enable or disable the
Advanced Power Management feature.
Green Monitor Power State > To specify the power
state of the monitor after the specified period of displayidle has ended.
Video Power Down Mode >To specify the power state of
the VESA VGA video subsystem after the specified period
of display-idle has ended.
Hard Disk Power Down Mode > To specify the power
state of the hard disk after the specified period of hard
drive-idle has ended.
Standby Time Out > To specify the length of the system-
idle period while the system is in full power on state. After
this period of time has ended, the system will go into
Standby state.
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Suspend Time Out > To specify the length of the
system-idle period while the system is in Standby state.
After this period of time has ended, the system will go into
Suspend state.
Monitor XXX Port > Enable this function will allow IRQ
input to be monitored, that is, inactivate while entering
Auot_mode/SMI_mode and activate while entering
Normal_mode.
Power Button Function > To specify how the power
button mounted externally on the chassis is used.
RTC Alarm Date > If enabled, the system will wakeup
from suspend time according to the set time.
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4.6 PCI / PLUG AND PLAY Setup
This setup help users handle JUKI-760E board‘s PCI function.
All PCI bus slots on the system use INTA#, therefore all
installed PCI slots must be set.
Plug and Play Aware O/S > Yes or No
When PNP OS is installed, interrupts will be reassigned by
the OS when the setting is Yes. When a non-PNP OS is
installed or to prevent reassigning of interrupt settings,
select setting to No.
Clear NVRAM on Every Boot > To specify whether BIOS
has to clear NVRAM on every boot or not.
PCI Latency Timer (PCI Clocks) > To define the latency
timing (PCI clock) for all PCI devices on the PCI bus.
PCI VGA Palette Snoop > This option is useful only for
system with more than one VGA devices connected to it
through different bus (one PCI and one ISA). To enable
those various VGA devices to handle signal from the CPU
on each set of palette registers of every video devices, it
must be set Enabled.
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Offboard PCI IDE Card > To specify if an offboard PCI
IDE card is installed in your computer or not. You must
specify the slot number on the board which will be used for
the card.
Offboard PCI IDE Primary (/Secondary) IRQ > To
specify the PCI interrupt that is assigned to the Primary
(/Secondary) IDE channel on the offboard PCI IDE
controller.
Allocate IRQ to PCI VGA > To allocate IRQ to PCI VGA,
answer Yes and vice versa.
PCI Slot (1,2,3,4) IRQ Priority > To specify the IRQ
priority to be used by the PCI devices on slot 1 to 4.
DMA Channel (0,1,3,5,6,7) > To indicate whether or not
the DMA channel is assigned for a PnP or ISA card.
IRQ (3,4,5,7,9,10,11,14,15) > To assign the displayed
IRQ to be used by a legacy ISA adapter card. The settings
are ISA/EISA or PCI/PnP. It is recommended to assign at
least 4 IRQ to PCI/PnP.
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4.7 Peripheral Setup
This setup is working mostly on Chipset M1543C with super I/O.
The options are used to change the Chipset‘s registers. Please
be careful while making any changes in the default setting so as
to meet your application’s needs.
Onboard FDC > To enable the FDC on your board. If you
set it Auto, the BIOS will decide if the FDC should be
enabled, automatically.
Onboard Serial Port 1 (/2) > To specify the I/O port
address of the serial port 1(/2). If you set it Auto, the
BIOS will decide the correct I/O port address,
automatically.
Serial Port2 Mode > To specify the mode of serial port 2.
IR Half-Duplex Mode > To specify the mode of IR device
that is connected to the IR port.
Onboard Parallel Port > To specify the I/O port address
of the parallel port.
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Parallel Port Mode > To specify the mode of parallel port.
The options are:
Normal (normal parallel port mode),
Bi-Dir (supports bidirectional transfer),
EPP (supports devices that comply with the Enhanced
Parallel Port specification),
ECP (supports devices that comply with the Extended
Capabilities Port).
Parallel Port IRQ > To assign certain IRQ to the parallel
port.
Parallel Port DMA Channel > Available only if the
parallel port mode is ECP.
LCD CRT Selection > To specify the display panel type
that is connected to the system.
LCD Type > To choose LCD type that is connected to the
system. Please refer to the LCD panel data
sheet/specification for the LCD type (TFT or STN, etc) and
resolution. The following is a list of available LCD panels:
#1 1024 x 768 STN
#2 1280 x 1024 TFT
#3 640 x 480 STN
#4 800 x 600 STN
#5 640 x 480 TFT
#6 640 x 480 18bit
#7 1024 x 768 TFT
#8 800 x 600 TFT
#9 800 x 600 TFT
800 x 600 TFT
#10
800 x 600 STN
#11
800 x 600 STN
#12
1024 x 768 TFT
#13
1280 x 024 STN
#14
1024 x 600 STN
#15
1024 x 600 TFT
#16
Onboard IDE > To define which on-board IDE controller
channel(s) to be used. Options: Primary, Secondary, Both
and Disabled.
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4.8 Auto-Detect Hard Disk
This option detects the parameters of an IDE hard disk drive
(HDD sector, cylinder, head, etc) automatically and will put the
parameters into the Standard CMOS Setup screen. Up to 4 IDE
drives can be detected and the parameters will be listed in the
box. Press <Y> if you accept these parameters. Press <N> to
skip the next IDE drives.
Note: If your IDE HDD was formatted in previous older system,
incorrect parameters may be detected. In this case, you need
to enter the correct parameters manually or low-level format
the disk.
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4.9 Change Supervisor / User Password
This option sets a password that is used to protect your system
and Setup Utility. Supervisor Password has higher priority than
User Password. Once you setup password, the system will ask
you to key-in password every time you enter the BIOS SETUP.
If you enter BIOS SETUP with Supervisor Password, you can
access every setup option on the main menu but if you enter
with User Password you can only choose three setup options
(USER PASSWORD, SAVE SETTING AND EXIT and EXIT
WITHOUT SAVING). To disable these passwords, enter the
BIOS SETUP menu with Supervisor Password and then just
press the <Enter> key instead of entering a new password
when the 'Enter Password' prompt pop-up.
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4.10 Auto Configuration with Optimal
Settings
This option lets you load the Optimal default settings. These
settings are best-case values which will provide the best
performance. Whenever your CMOS RAM is damaged, this
Optimal settings will be loaded automatically.
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4.11 Auto Configuration with Fail Save
Settings
This option lets you load the Fail Safe default settings when
something happens to your computer results in abnormal
booting. These settings are not the most optimal settings but
the most stable.
4.12 Save Settings and Exit
Select this option when you finish setting all the parameters
and want to save them into the CMOS. Simply press <Enter>
key and all the configuration changes will be saved.
4.13 Exit Without Saving
Select this option if you want to exit Setup without saving the
changes that you made. Simply press <Enter> key and you will
exit BIOS SETUP without saving changes.
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Chapter 5. E2 Key™ Function
The JUKI-760E provides an outstanding E2KEY™ function for
system integrator. Based on the E
2
KEY™, you store freely the
ID Code, Password or Critical Data in the 1Kbit EEPROM.
Because the EEPROM is nonvolatile memory, you don’t have to
worry about loosing very important data.
In fact, the E
2
KEY™ is based on a 1Kbit EEPROM which is
configured to 64 words(from 0 to 63) so you could access (read
or write) each word at any time.
When you start to use the E
2
KEY™ please look for the utility
found in the package. The software utility will include the
following four files:
README.DOC
E2KEY.OBJ
EKEYDEMO.C
EKEYDEMO.EXE.
The E2KEY.OBJ provides two library functions for user to
integrate their application with E
2
KEY™ function. These library
(read_e2key and write_e2key) are written and compiled in
C language. Please check the following statement, then you will
know exactly how to use it.
unsigned int read_e2key(unsigned int address)
/* This function will return the E
2
KEY™’s data at address. The
address range is from 0 to 63. Return data is one word,16 bits
*/void write_e2key(unsigned int address,unsigned data)
/* This function will write the given data to E
2
KEY™ at certain
address. The address range is from 0 to 63. The data value is
from 0 to 0xffff. */
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For quick know how, please refer to the included EKEYDEMO.C
code before you start.
Also, please note that the E
2
KEY™ function is based on whether
or not the parallel port is working so you should enable JUKI760E’s parallel port first nor this function.
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Appendix A. Watch-Dog Timer
The WatchDog Timer is provided to ensure that standalone
systems can always recover from catastrophic conditions that
cause the CPU to crash. This condition may have occurred by
external EMI or a software bug. When the CPU stops working
correctly, hardware on the board will either perform a hardware
reset (cold boot) or a Non-Maskable Interrupt (NMI) to bring
the system back to a known state.
Two I/O ports control the WatchDog Timer :.
443 (hex) Read Enable to refresh the WatchDog Timer.
843 (hex) Read Disable the WatchDog Timer.
To enable the WatchDog Timer, a read from I/O port 443H
must be performed. This will enable and activate the countdown
timer which will eventually time-out and either reset the CPU or
cause a NMI, depending on the setting of JP14. To ensure that
this reset condition does not occur, the WatchDog Timer must
be periodically refreshed by reading the same I/O port 433H.
This must be done within the time-out period that is selected by
jumper group JP16.
A tolerance of at least 30% must be maintained to avoid
unknown routines within the operating system (DOS),
such as disk I/O that can be very time-consuming.
Therefore, if the time out period has been set to 10
seconds, the I/O port 443H must be read within 7
seconds.
Note: When exiting a program it is necessary to disable the
WatchDog Timer, otherwise the system will reset.
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Appendix B. ATX Power Supply
The following note and picture show how to connect ATX Power
Supply to the backplanes and SBC card.
Please disconnect the AC cord of the Power Supply from the AC
source to prevent sudden electric surge to the board.
JUKI-760E (through Power Button & +5VSB):
Connect the ATX power supply switch to pin 17 (power button)
and pin 19 (GND) of CN1 (multi panel) on the board.
If you wish to turn off the power supply, please press ATX
power switch button down for about 4 sec. To turn ON the
system, just push the button once without holding it down.
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Appendix C. I/O Information
IO Address Map
I/O Address
Range
000-01F DMA Controller #1
020-021 Interrupt Controller #1, Master
040-05F 8254 timer
060-06F 8042 (Keyboard Controller)
070-07F Real time Clock, NMI (non-maskable interrupt) Mask
080-09F DMA Page Register
0A0-0BF Interrupt Controller #2
0C0-0DF DMA Controller #2
0F0 Clear Math Coprocessor Busy
0F1 Reset Math Coprocessor
0F2 Core Logic Programming Configuration
0F8-0FF Math Coprocessor
1F0-1F8 Fixed Disk
200-207 Game I/O
278-27F
2E8-2EF
2F8-2FF Serial Port 2
300-31F Prototype Card
360-36F Reserved
378-37F Parallel Printer Port 1 (LPT1)
3B0-3BF Monochrome Display and Printer Adapter
3C0-3CF Reserved
3D0-3DF Color /Graphics Monitor Adapter
3E8-3EF IR Port
3F0-3F7 Diskette Controller
3F8-3FF Serial Port 1
443 Watch Dog Timer Enable
843 Watch Dog Timer Disable
Description
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1st MB Memory Address Map
Memory Address Description
00000-9FFFF System Memory
A0000-BFFFF VGA Buffer
C0000-C7FFF VGA Bios
*D6000-DDFFF DOC 2000
F0000-FFFFF System BIOS
1000000- Extend BIOS
IRQ Mapping Chart
IRQ0 System Timer IRQ8 RTC Clock
IRQ1 Keyboard IRQ9 Unused
IRQ2 Cascade to IRQ Controller IRQ10 LAN
IRQ3 COM2 IRQ11 USB
IRQ4 COM1 IRQ12 PS/2 mouse
IRQ5 Unused IRQ13 FPU
IRQ6 FDC IRQ14 Primary IDE
IRQ7 Printer (LPT1) IRQ15 Secondary IDE
DMA Channel Assignments
DMA Channel Function
0 Available
1 Available
2 Floppy Disk (8-bit transfer)
3 Available
4 Cascade for DMA controller 1
5 Available
6 Available
7 Available
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Appendix D.
k
AMD-K6® Processor Voltage
CPU Type Model V-core Typical Power CPU Cloc
AMD-K6/233 7 2.2V 8.10W 66 MHz
AMD-K6/266 7 2.2V 8.75W 66 MHz
AMD-K6/300 7 2.2V 9.25W 66 MHz
AMD-K6-2/266 8 2.2V 8.85W 66 MHz
AMD-K6-2/300-66 8 2.2V 10.35W 66 MHz
AMD-K6-2/300 8 2.2V 10.35W 100 MHz
AMD-K6-2/333-66 8 2.2V 11.40W 66 MHz
AMD-K6-2/333 8 2.2V 11.40W 95 MHz
AMD-K6-2/350 8 2.2V 11.98W 100 MHz
AMD-K6-2/366 8 2.2V 12.48W 66 MHz
AMD-K6-2/380 8 2.2V 12.95W 95 MHz
AMD-K6-2/400 8 2.2V 13.65W 100 MHz
AMD-K6-2/450 8 2.4V 17.05W* 100 MHz
AMD-K6-III/400 9 2.4V 16.1W* 100 MHz
AMD-K6-III/450 9 2.4V 17.7W* 100 MHz
Source of Data: AMDs website
* Please note that all these numbers are only estimates and are
subject to change.
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Appendix E.
Flat Panel Connection Module
The FP24-01 connection module is installed on the JUKI-760E
as a standard component. The FP24-01 converts JUKI-760E’s
on board 50pin LCD interface signal to the 44-pin and 41pin
(Hirose DF9-41P-1V) LCD connectors. The 44-pin or 41-pin
connector will only support 24-bit flat panel.
• J3 : 44-pin LCD Interface Connector
PIN DESCRIPTION PIN DESCRIPTION
1 +12V 2 +12V
3 GND 4 GND
5 5V/3.3V 6 5V/3.3V
7 FPVEE 8 GND
9 P0 10 P1
11 P2 12 P3
13 P4 14 P5
15 P6 16 P7
17 P8 18 P9
19 P10 20 P11
21 P12 22 P13
23 P14 24 P15
25 P16 26 P17
27 P18 28 P19
29 P20 30 P21
31 P22 32 P23
33 GND 34 GND
35 SHFCLK 36 FLM
37 M 38 LP
39 GND 40 ENABKL
41 NC 42 NC
43 FPVDD 44 5V/3.3V
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• J1 : 41-pin LCD Interface Connector
PIN DESCRIPTION PIN DESCRIPTION
1 P20 2 GND
3 P16 4 5V or 3.3V
5 P21 6 P0
7 P17 8 P8
9 P22 10 P1
11 P18 12 P9
13 P23 14 P2
15 P19 16 P10
17 5V or 3.3V 18 P3
19 FLM 20 P11
21 M 22 P4
23 LP 24 P12
25 SHFCLK 26 P5
27 5V or 3.3V 28 P13
29 5V or 3.3V 30 P6
31 ENABKL 32 P14
33 FPVDD 34 P7
35 FPVEE 36 P15
37 GND 38 +12V
39 GND 40 +12V
41 N/C
• J2 : LCD Backlight Power Connector
PIN DESCRIPTION
1 N/C
2 GND
3 +12V
4 GND
5 FPVEE Inverter Enable
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