Advantech PCM-5862E PCM-5862 User Manual

Copyright Notice

This document is copyrighted, 1997. All rights are reserved. The
original manufacturer reserves the right to make improvements to
the products described in this manual at any time without notice.

No part of this manual may be reproduced, copied, translated or
transmitted in any form or by any means without the prior written
permission of the original manufacturer. Information provided in
this manual is intended to be accurate and reliable. However, the
original manufacturer assumes no responsibility for its use, or for
any infringements upon the rights of third parties that may result
from its use.

Acknowledgements

AMD is a trademark of Advanced Micro Devices, Inc.
Award is a trademark of Award Software International, Inc.
C&T is a trademark of Chips and Technologies, Inc.
Cyrix is a trademark of Cyrix Corporation.
IBM, PC/AT, PS/2 and VGA are trademarks of International
Business Machines Corporation.
Intel and Pentium are trademarks of Intel Corporation.
Microsoft Windows ® is a registered trademark of Microsoft Corp.
RTL is a trademark of Realtek Semi-Conductor Co., Ltd.
SiS is a trademark of Silicon Integration Systems Corporation
SMC is a trademark of Standard Microsystems Corporation.
UMC is a trademark of United Microelectronics Corporation.
VIA is a trademark of VIA Technology, Inc.

All other product names or trademarks are properties of their
respective owners.

Part No. 2006586200 1st Edition
Printed in Taiwan May 1997

Packing list

Before you begin installing your card, please make sure that the
following materials have been shipped:

• 1 PCM-5862 All-in-One Single Board Computer

• 1 utility disk with system BIOS, VGA BIOS, and utility
programs

• 1 Ethernet driver disk

• 2 utility disks with PCI SVGA utility programs and drivers for
Windows 3.1, Windows 95, Windows NT, and OS/2

• 1 audio driver disks for Windows 3.1, Windows 95, and DOS
utility program.

If any of these items are missing or damaged, contact your
distributor or sales representative immediately.

Contents

Chapter 1 General Information.................................... 1

Introduction.........................................................................2

Highly integrated multi-media SBC.......................................2

Features...............................................................................3

Specifications.......................................................................3

Board layout and dimensions..............................................5

Chapter 2 Installation.................................................. 7

Jumpers...............................................................................8

Connectors...........................................................................9

Locating jumpers ................................................................9

Locating connectors ..........................................................10

Setting jumpers .................................................................12

CPU installing and upgrading ..........................................13

Install a CPU in the ZIF socket............................................13

System clock setting (J1, J2, and J4)....................................14

CPU voltage setting (J3)......................................................15

M1 cache linear mode setting (J5) .......................................16

CMOS clear (J6).................................................................16

Buzzer enabled/disabled (J7)...............................................17

Installing DRAM (SIMMs)...............................................17

Installing SIMMs................................................................17

IDE hard drive connector (CN17) ....................................18

Connecting the hard drive....................................................18

Floppy drive connector (CN18).........................................19

Connecting the floppy drive ................................................19

Parallel port connector (CN19) .........................................20

Keyboard and PS/2 mouse connector (CN15) ..................20

Front panel connector (CN7)............................................20

Power connectors (CN6, CN10, CN14).............................21

Peripheral power connector, -5V, -12V (CN10)...................21

Main power connector, +5V, +12V (CN14).........................21

Fan power supply connector (CN6) .....................................21

IR connector (CN12) (U23 Super I/O chipset

ITE 8661 only)...................................................................22

Audio interfaces (CN8, CN13) ..........................................22

Audio connector (CN13).....................................................22

CD audio input connector (CN8).........................................22

Audio power source setting (J16).........................................23

COM-port connector (CN16)............................................24

COM2 RS-232/422/485 setting (J14, J15) ...........................24

COM3/COM4 IRQ release (J8, J9) ......................................25

COM3/COM4 RI pin setting (J11, J12) ...............................26

VGA interface connections................................................27

CRT display connector (CN1).............................................27

Flat panel display connector (CN2) .....................................27

LCD power setting (J10) .....................................................28

Ethernet configuration......................................................29

10BASE-T connector (CN11)..............................................29

Network boot ......................................................................29

Watchdog timer configuration..........................................30

Watchdog timer action (J13)................................................30

USB connectors (CN4, CN5) (option) ...............................30

Chapter 3 Software Configuration............................31

Introduction.......................................................................32

Utility disk .........................................................................32

VGA display software configuration ................................34

Connections for four standard LCDs ...............................35

Connections to Sharp LM64183P, LM64P89

(640 x 480 DSTN MONO LCD) .........................................35

Connections to PLANAR EL (640 x 480 AD4 EL)..............36

Connections to Toshiba

LTM10C042 (640 x 480 TFT Color LCD) ..........................37

Connections to Sharp LM64C142

(640 x 480 DSTN Color LCD) ............................................38

Ethernet software configuration.......................................39

Chapter 4 Award BIOS Setup.....................................41

System test and initialization ............................................42

System configuration verification........................................42

AWARD BIOS setup.........................................................43

Entering setup.....................................................................43

Standard CMOS setup.........................................................44

BIOS features setup.............................................................45

CHIPSET features setup ...................................................... 46

Power management setup....................................................47

PnP/PCI configuration.........................................................48

Integrated peripherals..........................................................49

Load BIOS defaults ............................................................. 50

Change password ................................................................51

Auto detect hard disk...........................................................52

Save & exit setup ................................................................52

Exit without saving .............................................................52

Chapter 5 PCI SVGA Setup........................................ 53

Before you begin................................................................54

Installation.........................................................................54

Simultaneous display mode ...............................................55

Sleep mode .........................................................................55

Driver installation .............................................................56

Windows setup....................................................................57

DOS setup...........................................................................58

Windows 95 drivers setup procedure ...............................59

Windows NT drivers setup procedure..............................60

OS/2 drivers setup procedure ...........................................61

Preliminary steps.................................................................61

Installing from diskette........................................................61

Selecting monitor type.........................................................63

Selecting screen resolution/refresh rate................................63

Installation notes.................................................................64

Chapter 6 Audio Setup............................................... 65

Introduction.......................................................................66

DOS utilities ......................................................................66

Driver installation .............................................................68

Before you begin.................................................................68

Windows 3.1 drivers ...........................................................68

Windows 95 drivers ............................................................69

Appendix A Programming the Watchdog Timer..........71

Programming the watchdog timer....................................72

Appendix B Installing PC/104 Modules.........................73

Installing PC/104 modules.................................................74

Appendix C Pin Assignments .......................................75

CRT display connector (CN1).............................................76

Flat panel display connector (CN2) .....................................77

PC/104 connectors (CN3, CN9)...........................................78

USB connectors (CN4, CN5)...............................................80

Fan power connector (CN6) ................................................80

Front panel connector (CN7)...............................................81

CD audio connector (CN8)..................................................82

Peripheral power connector (CN10).....................................82

Ethernet 10BASE-T connector (CN11)................................83

IR connector .......................................................................83

Audio connector (CN13).....................................................84

Main power connector (CN14)............................................84

Keyboard and mouse connector (CN15) ..............................85

COM port connector (CN16)...............................................86

IDE hard drive connector (CN17) ........................................87

Floppy drive connector (CN18)...........................................88

Parallel port connector (CN19)............................................89

Appendix D Optional Extras..........................................91

PCM-10586-2 cable kit for PCM-5862................................92

1

General
Information

This chapter gives background
information on the PCM-5862.

Sections include:

• Introduction

• Features

• Specifications

• Board layout and dimensions

Introduction

The PCM-5862 is an all-in-one multi-media Pentium processor­based single board computer (SBC) with a 16-bit audio controller,
a PCI SVGA controller, a PCI Ethernet interface, and one PCI
expansion slot. When using an Intel MMX Pentium processor, the
PCM-5862 achieves outstanding performance that surpasses any
other SBC in its class. This compact (only 5.75“ x 8”) unit offers
all the functions of a single board industrial computer, but still fits
in the space of a 5.25“ floppy drive.

On-board features include 512 KB 2nd level cache, four serial
ports (three RS-232, one RS-232/422/485), one multi-mode
parallel (ECP/EPP/SPP) port, two USB (Universal Serial Bus)
ports, a floppy drive controller and a keyboard/PS/2 mouse
interface. The built-in high speed PCI IDE controller supports
both PIO and bus master modes. Up to two IDE devices can be
connected, including large hard disks, CD-ROM drives, and tape
backup drives.

The PCM-5862 features power management to minimize power
consumption. It complies with the “Green Function” standard and
supports Doze mode, Standby mode and Suspend mode. In
addition, the board‘s watchdog timer can automatically reset the
system or generate an interrupt in case the system stops due to a
program bug or EMI.

Highly integrated multi-media SBC

The PCM-5862 is a highly integrated multi-media SBC that
combines audio, video, and network functions on a single
computer board the size of a 5.25“ floppy drive. It provides 16-bit
full-duplex, integrated 3D audio and up to Hi-color display
capability at 1024 x 768 resolution (with 2MB display memory).
Major on-board devices adopt PCI technology to achieve
outstanding computing performance when used with Intel Pentium
processors, making the PCM-5862 the world‘s smallest and most
powerful all-in-one multimedia board.

2 PCM-5862 User‘s Manual

Features

• Accepts Intel MMX Pentium, AMD K5, and Cyrix 6x86 processors up
to 200MHz

• 32-bit PCI-bus SVGA/LCD controller supports LCD & CRT display

• 10Base-T Ethernet interface, Novell NE-2000 compatible

• 16-bit audio interface, Sound Blaster Pro compatible

• 4 serial ports (three RS-232 and one RS-232/422/485)

• USB interface, PCI slot, and PC/104 connector for flexible expansion
capabilities

• Watchdog timer with jumperless selection

Specifications

Standard SBC functions

• CPU: Intel Pentium 75~200 MHz, P55C

AMD K5
Cyrix 6x86

• BIOS: AWARD 128KB Flash BIOS, supports Plug&Play, APM

• Chipset: SiS 5571

• Green function: APM 1.1 compliant

• 2nd level cache: On board 512 KB Pipelined Burst SRAM

• RAM: Two 72-pin SIMM sockets accept 8~128 MB EDO/FPM
DRAM

• Enhanced IDE interface: Supports 2 IDE devices

• FDD interface: Supports up to two FDDs (360K/1.2M/720K/1.44MB/

2.88MB)

• Parallel port: One parallel port, supports SPP/EPP/ECP parallel mode

• Serial port: Four serial ports with three RS-232 (COM1, 3, 4) and one
RS-232/422/485 (COM2). All ports with 16C550 compatible UARTs.

• Watchdog timer: 63-level interval from 1 to 63 seconds. Generates

Chapter 1 General Information 3

system reset or IRQ15. Jumperless selection and software
enabled/disabled.

• Keyboard/Mouse connector: 8-pin header connector for keyboard and

PS/2 mouse

• USB interface: Two USB connectors with fuse protection. Compliant

with USB Spec. Rev. 1.0 (option)

• PC/104 expansion: 104-pin 16-bit PC/104 module connector

• I/O bus expansion: One 32-bit PCI bus expansion slot

PCI SVGA/flat panel interface:

• Chipset: C&T 65550

• Display memory: 1 MB on-board memory, supports up to 2 MB

• Display type: Simultaneously supports CRT and flat panel (EL, LCD

and gas plasma) displays

• Display resolution: Supports non-interlaced CRT and LCD display up

to 1024x768@256 colors with 1MB on-board display memory

Audio function:

• Chipset: ESS 1868/1869

• Audio controller: 16-bit codec, Sound Blaster Pro compatible

• Stereo sound: Full-duplex, integrated 3D audio

• Audio interface: Microphone in, Line in, CD audio in; Line out,

Speaker out

• Power: Accepts +12 V source for improved audio quality

PCI Bus Ethernet Interface:

• Chipset: REALTEK RTL8029 PCI local bus Ethernet controller

• Ethernet Interface: Novell NE2000 compatible 10BaseT interface.

Includes software drivers & boot ROM

Mechanical and environmental

• Max. power requirements: 7A @ 5V (4.75V to 5.25V)

4 PCM-5862 User‘s Manual

• Operating temperature: 0 to 60° C (32 to 140° F)

• Size: 203 mm (L) x 146 mm (W) (8“ x 5.75”)

• Weight: 0.32 kg (0.7 lbs.)

Board layout and dimensions

135.89

146.05

5.08

40.64

119.38

5.08

193.04

198.12

203.20

Dimensions in mm

PCM-5862 dimensions

Chapter 1 General Information 5

6 PCM-5862 User‘s Manual

2

Installation

This chapter tells how to set up the
PCM-5862 hardware, including
instructions on setting jumpers and
connecting peripherals, switches and
indicators. Be sure to read all the safety
precautions before you begin the
installation procedure.

Jumpers

The PCM-5862 has a number of jumpers that allow you to
configure your system to suit your applications. The table below
lists the function of each of the board's jumpers.

Jumpers

Label Function

J1 System/PCI clock setting
J2 System/PCI clock setting
J3 CPU voltage setting
J4 CPU frequency ratio setting/P55C enabled/disabled
J5 M1 cache linear mode setting
J6 CMOS clear
J7 Buzzer enable/disable
J8 COM4 IRQ occupied/released
J9 COM3 IRQ occupied/released
J10 LCD power setting
J11 COM4 RI pin setting
J12 COM3 RI pin setting
J13 Watchdog timer action
J14 COM2 RS-232/422/485 setting
J15 COM2 RS-232/422/485 setting
J16 Audio power source setting

8 PCM-5862 User‘s Manual

Connectors

On-board connectors link the PCM-5862 to external devices such
as hard disk drives, a keyboard, or floppy drives. The table below
lists the function of each of the board's connectors.

Connectors

Label Function

CN1 CRT display connector
CN2 Flat panel display connector
CN3 PC/104 ISA-bus expansion
CN4 USB channel 1 connector
CN5 USB channel 2 connector
CN6 Fan power connector
CN7 Front panel connector
CN8 CD audio input connector
CN9 PC/104 ISA-bus expansion
CN10 Peripheral power connector
CN11 Ethernet 10Base-T connector
CN12 IR connector
CN13 Audio connector
CN14 Main power connector
CN15 Keyboard and PS/2 mouse connector
CN16 COM-port connector
CN17 IDE hard drive connector
CN18 Floppy drive connector
CN19 Parallel port connector

Please refer to Appendix C for pin assignment.

Chapter 2 Installation 9

Locating jumpers

10 PCM-5862 User‘s Manual

Locating connectors

Chapter 2 Installation 11

Setting jumpers

You configure your card to match the needs of your application by
setting jumpers. A jumper is the simplest kind of electric switch. It
consists of two metal pins and a small metal clip (often protected
by a plastic cover) that slides over the pins to connect them. To
“close” a jumper you connect the pins with the clip. To “open” a
jumper you remove the clip. Sometimes a jumper will have three
pins, labeled 1, 2, and 3. In this case you would connect either pins
1 and 2 or 2 and 3.

Open Closed Closed 2-3

The jumper settings are schematically depicted in this manual as
follows:

1 2 3

Open Closed Closed 2-3

A pair of needle-nose pliers may be helpful when working with
jumpers.

If you have any doubts about the best hardware configuration for
your application, contact your local distributor or sales
representative before you make any changes.

Generally, you simply need a standard cable to make most
connections.

12 PCM-5862 User‘s Manual

CPU installation and upgrading

electric charges. Use a grounding wrist strap at

You can upgrade to a higher power Pentium processor at any time.
Simply remove the old CPU, install the new one, and set the
jumpers for the new CPU type and speed.

Warning! Always disconnect the power cord from your

chassis when you are working on it. Do not
make connections while the power is on as
sensitive electronic components can be
damaged by the sudden rush of power. Only
experienced electronics personnel should open
the PC chassis.

Caution!

Always ground yourself to remove any static
charge before touching the PC board. Modern
electronic devices are very sensitive to static

all times. Place all electronic components on a
static-dissipative surface or in a static-shielded
bag when they are not in the chassis.

Install a CPU in the ZIF socket

PCM-5862 provides a Zero Insertion Force (ZIF) socket for easy
CPU installation.

1. Make sure the ZIF socket lever is in the upright position. To
raise the lever, pull it out to the side a little and raise it as far as
it will go.

2. Place the CPU in the empty socket. Follow the instructions that
came with the CPU. If you have no instructions, do the
following: Carefully align the CPU so it is parallel to the socket
and the notch on the corner of the CPU corresponds with the
notch on the inside of the socket. Gently slide the CPU in. It
should insert easily. If it doesn‘t, pull the lever up a little more.

3. Press the lever down. The plate will slide forward. You will
feel some resistance as the pressure starts to secure the CPU in
the socket. This is normal and won‘t damage the CPU.

Chapter 2 Installation 13

When the CPU is installed, the lever should snap into place at the
side of the socket.

NOTE: To remove a CPU, pull the lever out to the side a

little and raise it as far as it will go. Lift out the CPU
chip.

When you install a new CPU, be sure to adjust the board settings,
such as CPU type and CPU clock. Improper settings may

damage the CPU.

System clock setting (J1, J2, and J4)

J1, J2 and J4 are used to set the CPU and PCI bus speed to
optimize the system performance. The system chipset will sense
the J1 setting to get the bus frequency, then adjust its internal
timing. J2 is used to set the CPU and PCI clock. J4 is P55C
enable/disable and CPU clock ratio setting jumper. Refer to the
CPU Speed Reference Table (below) for instructions on adjusting
the internal clocks according to the base CPU speed.

CPU Speed Reference Table

CPU Speed (MHz) 75 100 *133 150 166 200

Clock setting 50 66 66 60 66 66
Frequency ratio 1.5 1.5 2 2.5 2.5 3

* default setting

14 PCM-5862 User‘s Manual

System/PCI clock setting

System 50MHz 50MHz 60MHz *66MHz 75MHz
PCI 25MHz 33.3MHz 30MHz *33.3MHz 32MHz

1 3 5 1 3 5 1 3 5 1 3 5 1 3 5

J1

2 4 6 2 4 6 2 4 6 2 4 6 2 4 6
1 3 5 1 3 5 1 3 5 1 3 5 1 3 5

J2

2 4 6 2 4 6 2 4 6 2 4 6 2 4 6

CPU frequency ratio

1.5 *2 2.5 3

1 3 5 1 3 5 1 3 5 1 3 5

J4

2 4 6 2 4 6 2 4 6 2 4 6

P55C enabled/disabled

P55C enabled *P55C disabled

1 3 5 1 3 5

J4

2 4 6 2 4 6

* default setting

CPU voltage setting (J3)

J3 must be set to match the CPU type. The chart below shows the
proper jumper settings for their respective Vcc (core). (The Vcc (I/O)
for CPU is fixed to be 3.3V)

Chapter 2 Installation 15

CPU voltage setting

2.5V 2.8V 3V *3.3V

1 3 1 3 1 3 1 3

J3

2 4 2 4 2 4 2 4

* default setting

M1 cache linear mode setting (J5)

PCM-5862 supports Cyrix M1 CPU with its linear access mode on
L2 cache. This mode is set through J5.

M1 cache linear mode enabled/disabled

*Enabled Disabled

J5

* default setting

CMOS clear (J6)

Warning: To avoid damaging the computer, always turn off the
power supply before setting “Clear CMOS.” Set the jumper back
to “3.6V Battery On” before turning on the power supply.

CMOS clear

*3.6V Battery On Clear CMOS

1 2 3 1 2 3

J6

* default setting

16 PCM-5862 User‘s Manual

Buzzer enabled/disabled (J7)

Buzzer enabled/disabled

*Enabled Disabled

J7

* default setting

Installing DRAM (SIMMs)

The PCM-5862 CPU card provides two 72-pin SIMM (Single In­line Memory Module) sockets and supports either Fast Page Mode
(FPM) or Extended Data Output (EDO) DRAM with a speed of 70
ns or faster. You can install from 8 MB to 128 MB of RAM.

Installing SIMMs

NOTE: The modules can only fit into a socket one way.

Their chips must face the CPU, and their gold pins
must point down into the SIMM socket.

1. Ensure that all power sources are disconnected.

2. Slip the memory module into the socket at a 45-degree angle.

3. Push the module toward the vertical posts at both ends of the
socket until the module is upright, and the retaining clips at
both ends of the module click into place. When positioned
correctly, the pins on top of the vertical posts should
correspond to the circular holes on the ends of the module.

4. Repeat steps 2 and 3 for each module you install.

Chapter 2 Installation 17

IDE hard drive connector (CN17)

You can attach one or two Enhanced Integrated Device Electronics
hard disk drives to the PCM-5862's internal controller. The PCM­5862's IDE controller uses a PCI local-bus interface. This
advanced IDE controller supports faster data transfer and allows
the IDE hard drive to exceed 528 MB.

Connecting the hard drive

Connecting drives is done in a daisy-chain fashion and requires
one of two cables (not included in this packing), depending on the
drive size. 1.8" and 2.5" drives need a 1 x 44-pin to 2 x 44-pin flat­cable connector. 3.5" drives use a 1 x 44-pin to 2 x 40-pin
connector.

Wire number 1 on the cable is red or blue, and the other wires are
gray.

1. Connect one end of the cable to CN17. Make sure that the red
(or blue) wire corresponds to pin 1 on the connector, which is
labeled on the board (on the right side).

2. Plug the other end of the cable to the Enhanced IDE hard drive,
with pin 1 on the cable corresponding to pin 1 on the hard
drive. (See your hard drive's documentation for the location of
the connector.)

Connect a second drive as described above.
Unlike floppy drives, IDE hard drives can connect to either end of

the cable. If you install two drives, you will need to set one as the
master and one as the slave by using jumpers on the drives. If you
install just one drive, set it as the master.

18 PCM-5862 User‘s Manual

Floppy drive connector (CN18)

You can attach up to two floppy drives to the PCM-5862's on­board controller. You can use any combination of 5¼" (360 KB
and 1.2 MB) and/or 3½" (720 KB, 1.44 MB, and 2.88 MB) drives.

A 34-pin daisy-chain drive connector cable is required for a dual­drive system. On one end of the cable is a 34-pin flat-cable
connector. On the other end are two sets of floppy disk drive
connectors. Each set consists of a 34-pin flat-cable connector
(usually used for 3½" drives) and a printed-circuit board connector
(usually used for 5¼" drives).

Connecting the floppy drive

1. Plug the 34-pin flat-cable connector into CN18. Make sure that
the red wire corresponds to pin one on the connector.

2. Attach the appropriate connector on the other end of the cable
to the floppy drive(s). You can use only one connector in the
set. The set on the end (after the twist in the cable) connects to
the A: drive. The set in the middle connects to the B: drive.

3. If you are connecting a 5¼" floppy drive, line up the slot in the
printed circuit board with the blocked-off part of the cable
connector.
If you are connecting a 3½" floppy drive, you may have trouble
determining which pin is pin number one. Look for a number
printed on the circuit board indicating pin number one. In
addition, the connector on the floppy drive connector may have
a slot. When the slot is up, pin number one should be on the
right. Check the documentation that came with the drive for
more information.

If you desire, connect the B: drive to the connectors in the
middle of the cable as described above.

If you need to make your own cable, you can find the pin
assignments for the board’s connector in Appendix C.

Chapter 2 Installation 19

Parallel port connector (CN19)

Normally, the parallel port is used to connect the card to a printer.
The PCM-5862 includes a multi-mode (ECP/EPP/SPP) parallel
port, accessed through CN19, a 26-pin flat-cable connector. You
will need an adapter cable if you use a traditional DB-25
connector. The adapter cable has a 26-pin connector on one end
and a DB-25 connector on the other.

The parallel port is designated as LPT1 and can be disabled or
changed to LPT2 or LPT3 in the system BIOS setup.

The parallel port interrupt channel is designated to be IRQ7.

You can select ECP/EPP DMA channel via BIOS setup.

Keyboard and PS/2 mouse connector (CN15)

The PCM-5862 board provides a keyboard connector that supports
both a keyboard and a PS/2 style mouse. In most cases, especially
in embedded applications, a keyboard is not used. The standard
PC/AT BIOS will report an error or fail during power-on self-test
(POST) after a reset if the keyboard is not present. The PCM­5862's BIOS standard setup menu allows you to select "All, But
Keyboard" under the "Halt On" selection. This allows no-keyboard
operation in embedded system applications without the system
halting under POST (power-on-self-test).

Front panel connector (CN7)

Next, you may want to install external switches to monitor and
control the PCM-5862. These features are optional —install them
only if you need them. The front panel connector (CN7) is an 8-pin
male, dual in-line header and provides connections for a speaker,
hard disk access indicator, watchdog output and an input switch
for resetting the card.

20 PCM-5862 User‘s Manual

Speaker

The PCM-5862 can drive an 8 Ω speaker at 0.5 watts. Ensure that
alternatives to this specification do not overload the card.

LED interface

The front panel LED indicator for hard disk access is an active low
signal (24 mA sink rate).

Watchdog output

When PCM-5862 watchdog timer times out, the front panel pin 6
will output an active low pulse signal (25mA sink rate for 1
second).

Reset switch

If you install a reset switch, it should be an open single pole
switch. Momentarily pressing the switch will activate a reset. The
switch should be rated for 10 mA, 5 V.

If you need to make your own cable, you can find the pin
assignments for the board’s connector in Appendix C.

Power connectors (CN6, CN10, CN14)

Peripheral power connector, -5V, -12V (CN10)

Supplies secondary power to devices that require -5 V and -12 V.

Main power connector, +5V, +12V (CN14)

Supplies main power to the PCM-5862 (+5 V) and devices that
require +12 V.

Fan power supply connector (CN6)

Provides power supply to optional CPU cooling fan. Only present
when +5 V and +12 V power is supplied to the board.

Chapter 2 Installation 21

IR connector (CN12) (U23 Super I/O chipset
ITE 8661 only)

This connector supports the optional wireless infrared transmitting
and receiving module. This module mounts on the system case.
You must configure the setting through BIOS setup.

Audio interfaces (CN8, CN13)

The PCM-5862 is equipped with a high quality audio interface,
which provides 16-bit CD-quality recording and playback as well
as OPL3 compatible FM music. It is supported by all major
operating systems and is 100% Sound Blaster Pro compatible.

Audio connector (CN13)

The PCM-5862 provides all major audio signals on a 16-pin flat­cable connector, CN13. These audio signals includes Microphone
in (mono), Line in (stereo), Line out (stereo), Speaker out (stereo).
You will need an adapter cable if you use traditional telephone
jack connectors for these audio signals.

CD audio input connector (CN8)

All CD-ROM drives can provide analog audio signal output when
used as a music CD player. The CN8 on PCM-5862 is a connector
to input CD audio signal into the audio controller. The audio cable
of your CD-ROM drive will be used to connect to CN8.

22 PCM-5862 User‘s Manual

Audio power source setting (J16)

The PCM-5862 is designed to work with a single +5V power
supply. The audio interface can also function normally under
single +5V power supply, but most audio controllers require an
independent power source generated from a +12V power. The
independent power source avoids the noise from the other digital
circuits. The PCM-5862‘s audio interface can also accept +12V
power to provide improved quality audio. This is done via J16.

Audio power source setting

*+5 V +12 V

1 2 3 1 2 3

J16

* default setting

Configuration of the audio interface is done completely via the
software utility. You don't have to set any jumpers. Refer to
Chapter 6 for audio setup details.

Chapter 2 Installation 23

COM-port connector (CN16)

The PCM-5862 provides four serial ports (COM1, 3, 4: RS-232;
COM2: RS-232/422/485) in one COM port connector. The COM
port connector is a 40-pin, dual-in-line, male header and provides
connections for serial devices (a mouse, etc.) or a communication
network. You can find the pin assignments for the COM port
connector in Appendix C.

COM2 RS-232/422/485 setting (J14, J15)

COM2 can be configured to operate in RS-232, RS-422, or RS-485
mode. This is done via J14 and J15.

COM2 RS-232/422/485 setting

*RS-232 RS-422 RS-485

1 3 5 1 3 5 1 3 5

J14

2 4 6 2 4 6 2 4 6

12 11 10 12 11 10 12 11 10

J15

3 2 1 3 2 1 3 2 1

* default setting

24 PCM-5862 User‘s Manual

The IRQ and the address range for COM1, 2, 3, 4 are fixed.
However, if you wish to disable the port or change these
parameters later you can do this in the system BIOS setup. The
table below shows the settings for the PCM-5862's serial ports.

PCM-5862 serial port default settings

Port Address Range Interrupt

COM1 3F8~3FF IRQ4
COM2 2F8~2FF IRQ3
COM3 3E8~3EF IRQ10
COM4 2E8~2EF IRQ5

COM3/COM4 IRQ occupied/released (J8, J9)

The COM3 and COM4 are designed to use the IRQ5 and IRQ10
by default. If you are using the COM3 or COM4 with no need of
the interrupt, the IRQ of COM3 or COM4 can be released to other
peripherals by setting J8, J9.

COM3 IRQ occupied/released

*Occupied Released

J9

COM4 IRQ occupied/released

*Occupied Released

J8

* default setting

Chapter 2 Installation 25

COM3/COM4 RI pin setting (J11, J12)

The COM3 and COM4 can supply +5V or +12V power to the
serial devices via RI pin of the COM port connector. The outputs
of COM3, COM4 RI pins are selected by setting J11, J12.

COM3 RI pin setting

+5V +12V *RI

1 3 5 1 3 5 1 3 5

J12

2 4 6 2 4 6 2 4 6

COM4 RI pin setting

+5V +12V *RI

1 3 5 1 3 5 1 3 5

J11

2 4 6 2 4 6 2 4 6

* default setting

26 PCM-5862 User‘s Manual

VGA interface connections

The PCM-5862's PCI SVGA interface can drive conventional CRT
displays and is capable of driving a wide range of flat panel
displays, including electroluminescent (EL), gas plasma, passive
LCD and active LCD displays. The board has two connectors to
support these displays, one for standard CRT VGA monitors and
one for flat panel displays.

CRT display connector (CN1)

CN1 is a 16-pin, dual-in-line header used for conventional CRT
displays. A simple one-to-one adapter can be used to match CN1
to a standard 15-pin D-SUB connector commonly used for VGA.

Pin assignments for CRT display connector CN1 are detailed in
Appendix C.

Flat panel display connector (CN2)

CN2 consists of a 44-pin, dual-in-line header. Power supply
(+12V) present on CN2 depends on the supply connected to the
board. Ensure that both CN10 and CN14 are connected for ±12 V
power supply.

The PCM-5862 provides a bias control signal on CN2 that can be
used to control the LCD bias voltage. It is recommended that the
LCD bias voltage not be applied to the panel until the logic supply
voltage (+5V or +3.3V) and panel video signals are stable. Under
normal operation, the control signal (ENAVEE) is active high.
When the PCM-5862's power is applied, the control signal is low
until just after the relevant flat panel signals are present.

Chapter 2 Installation 27

LCD power setting (J10)

The PCM-5862's PCI SVGA interface supports 5V and 3.3V LCD
displays. By changing the setting of J10, you can select the panel
video signal level to be 5V or 3.3V.

LCD power setting

*5 V 3.3 V

1 3 5 1 3 5

J10

2 4 6 2 4 6

* default setting

Configuration of the VGA interface is done completely via the
software utility. You don't have to set any jumpers. Refer to
Chapter 3 for software setup details.

Refer to Chapter 3 for details on connecting the five standard
LCD's: Sharp LM64183P, LM64P89, Toshiba LTM10C042, Sharp
64C142, and Planar EL Display.

28 PCM-5862 User‘s Manual

Ethernet configuration

The PCM-5862 is equipped with a high performance 32-bit PCI­bus Ethernet interface which is fully compliant with IEEE 802.3
10Mbps CSMA/CD standards. It is supported by all major network
operating systems and is 100% Novell NE-2000 compatible.

The medium type can be configured via the RSET8029.EXE
program included on the utility disk. (See Chapter 3 for detailed
information.)

10BASE-T connector (CN11)

10BASE-T connects to the PCM-5862 via an adapter cable to a
10-pin polarized header (CN11). For 10BASE-T RJ-45 operation,
an adapter cable converting CN11 into a standard RJ-45 jack is
required.

Network boot

The Network Boot feature can be utilized by incorporating the
Boot ROM image files for the appropriate network operating
system. The Boot ROM BIOS files are on the included utility disk.

Chapter 2 Installation 29

Watchdog timer configuration

An on-board watchdog timer reduces the chance of disruptions
which EMP (electro-magnetic pulse) interference can cause. This
is an invaluable protective device for standalone or unmanned
applications. Setup involves one jumper and running the control
software (refer to Appendix A).

Watchdog timer action (J13)

When the watchdog timer activates (CPU processing has come to a
halt), it can reset the system or generate an interrupt on IRQ15.
This can be set via setting J13 as shown below:

Watchdog timer action

*System reset IRQ15

J13 1 1

2 2

3 3

* default setting

USB connectors (CN4, CN5) (option)

The PCM-5862 board provides two USB (Universal Serial Bus)
interfaces which gives complete plug and play, hot attach/detach
for up to 127 external devices. The USB interfaces comply with
USB specification rev. 1.0 and are fuse protected.

The USB interfaces are accessed through two 4-pin flat-cable
connectors, CN4 and CN5. You will need an adapter cable if you
use a standard USB connector. The adapter cable has a 4-pin
connector on one end and an USB connector on the other.

The USB interfaces can be disabled in the system BIOS setup.

30 PCM-5862 User‘s Manual

3

Software
Configuration

This chapter details the software
configuration information. It shows you
how to configure the card to match your
application requirements. AWARD
System BIOS is covered in Chapter 4.

Sections include:

• Introduction

• Utility disk

• VGA display software configuration

• Connections for four standard LCDs

• Ethernet interface configuration

Introduction

The PCM-5862 system BIOS and custom drivers are located in a
128 Kbyte, 32-pin (JEDEC spec.) Flash ROM device, designated
U19. A single Flash chip holds the system BIOS, VGA BIOS, and
network Boot ROM image. The display can be configured via
software. This method minimizes the number of chips and eases
configuration. You can change the display BIOS simply by
reprogramming the Flash chip.

Utility disk

The PCM-5860 is supplied with a software utility disk. This disk
contains the necessary files for setting up the VGA display.
Directories and files on the disk are as followed:

Root README.DOC

AMIFLASH.EXE
5862_SYS.BIN
5862_CRT.BIN
5862_TFT.BIN
5862_STN.BIN
5862_MON.BIN
5862_EL.BIN
CBROM.EXE

AMIFLASH.EXE

This program allows you to write the VGA display driver files to
the BIOS Flash ROM. The VGA files all come ready formatted for
the PCM-5862 with .BIN extensions. They are custom written and
can be made available upon request.

5862_SYS.BIN

This binary file contains the system BIOS

32 PCM-5862 User‘s Manual

5862_CRT.BIN

Supports CRT only

5862_TFT.BIN

Supports 640X480 color TFT
(Toshiba LTM10C042)

5862_STN.BIN

supports 640X480 color STN DD 8/16-bit displays
(Sharp LM64C142)

5862_MON.BIN

Supports 640X480 dual scan monochrome displays
(Sharp LM64P83/64P89)

5862_EL.BIN

Supports 640X480 EL displays
(PLANAR EL640X480-A series)

CBROM.EXE

This program allows you to combine your own VGA BIOS with
system BIOS(5862_SYS.BIN)

Chapter 3 Software Configuration 33

VGA display software configuration

The PCM-5862’s on-board VGA interface supports a wide range
of popular LCD, EL, gas plasma flat panel displays and traditional
analog CRT monitors. With on-board 1M display memory, the
interface can drive CRT displays or color panel displays with
resolutions up to 1024 x 768 in 256 colors. It is also capable of
extending up to 2 MB of display memory to provide resolutions of
1024 x 768 in 64K colors.

The VGA interface is configured completely via the software
utility, so you don’t have to set any jumpers. Configure the VGA
display as follows:

1. Apply power to the PCM-5862 with a color TFT display
attached. This is the default setting for the PCM-5862. Ensure
that the AWDFLASH.EXE and *.BIN files are located in the
working drive.

NOTE: Ensure that you do not run AWDFLASH.EXE while

your system is operating in EMM386 mode.

2. At the prompt, type AWDFLASH.EXE and press <Enter>. The
VGA configuration program will then display the following:

VGA setup screen

3. At the prompt, enter the new BIN file that supports your
display. When you are sure that you have entered the file name
correctly, press <Enter>.

34 PCM-5862 User‘s Manual

4. The screen will ask “Do you want to save BIOS?” Press Y if
you wish to save the existing configuration before changing it.
Then type the name under which you want to save the current
configuration.

5. The prompt will then ask “Are you sure to program?” Press Y
if you want the new file to be written into the BIOS. Press N to
exit the program.

The new VGA configuration will then write to the ROM BIOS
chip. This configuration will remain the same until you run the
AWDFLASH.EXE program and change the settings.

Connections for four standard LCDs

Connections to Sharp LM64183P, LM64P89
(640 x 480 DSTN MONO LCD)

LM64183/64P89 PCM-5862 CN2

Pin Pin name Pin Pin name

CN1-1 S 36 FLM
CN1-2 CP1 38 LP
CN1-3 CP2 35 SHFCLK
CN1-4 DISP 5 +5 V
CN1-5 VDD 6 +5 V
CN1-6 VSS 3 GND
CN1-7 VEE - external power*
CN1-8 DU0 12 P3
CN1-9 DU1 11 P2
CN1-10 DU2 10 P1
CN1-11 DU3 9 P0
CN1-12 DL0 16 P7
CN1-13 DL1 15 P6
CN1-14 DL2 14 P5
CN1-15 DL3 13 P4

*LM64183P -17V
LM64P89 -20V

Chapter 3 Software Configuration 35

Connections to PLANAR EL
(640 x 480 AD4 EL)

PLANAR 640 x 480 AD4 PCM-5862 CN2

Pin Pin name Pin Pin name

1 GND 3 GND
2 DO 21 P12
3 GND 3 GND
4 D1 22 P13
5 GND 3 GND
6 D2 23 P14
7 NC — —
8 D3 24 P15
9 NC — —
10 D4 17 P8
11 NC — —
12 D5 18 P9
13 NC — —
14 D6 19 P10
15 GND 4 GND
16 D7 20 P11
17 GND 4 GND
18 VCLK 42 ASHFCLK
19 GND 4 GND
20 /BLANK — —
21 GND 8 GND
22 HS 37 M
23 NC — —
24 VS 36 FLM
25 NC — —
26 SELFTST 39 GND
27 COLMAP 39 GND
28 ENABLE — —
29 RESERVED — —
30 /LOWPOW — —
31,32 NC — —
33 RESERVED — —
34 NC — —

36 PCM-5862 User‘s Manual

Connections to Toshiba LTM10C042
(640 x 480 TFT Color LCD)

LTM10C042 PCM-5862 CN2

Pin Pin name Pin Pin name

1 GND 3 GND
2 CLK 35 SHFCLK
3 GND 4 GND
4 R0 27 P18
5 R1 28 P19
6 R2 29 P20
7 GND 8 GND
8 R3 30 P21
9 R4 31 P22
10 R5 32 P23
11 GND 33 GND
12 G0 19 P10
13 G1 20 P11
14 G2 21 P12
15 GND 33 GND
16 G3 22 P13
17 G4 23 P14
18 G5 24 P15
19 GND 34 GND
20 ENAB 37 M
21 GND 34 GND
22 B0 11 P2
23 B1 12 P3
24 B2 13 P4
25 GND 39 GND
26 B3 14 P5
27 B4 15 P6
28 B5 16 P7
29 GND 39 GND
30 VDD 5 +5V
31 VDD 6 +5V

Chapter 3 Software Configuration 37

Connections to Sharp LM64C142
(640 x 480 DSTN Color LCD)

LM64C142 PCM-5862 CN2

Pin Pin name Pin Pin name

CN1-1 YD 36 FLM
CN1-2 LP 38 LP
CN1-3 XCX 35 SHFCLK
CN1-4 DISP 5 +5 V
CN1-5 VDD 6 +5 V
CN1-6 VSS 3 GND
CN1-7 VEE - +27 V*
CN1-8 DU0 20 P11
CN1-9 DU1 19 P10
CN1-10 DU2 18 P9
CN1-11 DU3 17 P8
CN1-12 DU4 12 P3
CN1-13 DU5 11 P2
CN1-14 DU6 10 P1
CN1-15 DU7 9 P0

CN2-1 VSS 4 GND
CN2-2 DL0 24 P15
CN2-3 DL1 23 P14
CN2-4 DL2 22 P13
CN2-5 DL3 21 P12
CN2-6 DL4 16 P7
CN2-7 DL5 15 P6
CN2-8 DL6 14 P5
CN2-9 DL7 13 P4
CN2-10 VSS 8 GND

*external power

38 PCM-5862 User‘s Manual

Ethernet software configuration

The PCM-5862’s on-board Ethernet interface supports all major
network operating systems. To configure the medium type, to view
the current configuration, or to run diagnostics, do the following:

1. Power the PCM-5862 on. Ensure that the RSET8029.EXE file
is located in the working drive.

2. At the prompt type RSET8029.EXE and press <Enter>. The
Ethernet configuration program will then be displayed.

3. This simple screen shows all the available options for the
Ethernet interface. Just highlight the option you wish to change
by using the Up and Down keys. To change a selected item,
press <Enter>, and a screen will appear with the available
options. Highlight your option and press <Enter>. Each
highlighted option has a helpful message guide displayed at the
bottom of the screen for additional information.

4. After you have made your selections and are sure this is the
configuration you want, press ESC. A prompt will appear
asking if you want to save the configuration. Press Y if you
want to save.

The Ethernet Setup Menu also offers three very useful diagnostic
functions. These are:

1. Run EEPROM test

2. Run Diagnostics on Board

3. Run Diagnostics on Network

Each option has its own display screen that shows the format and
result of any diagnostic tests undertaken.

Chapter 3 Software Configuration 39

40 PCM-5862 User‘s Manual

4

Award BIOS Setup

This chapter describes how to set BIOS
configuration data.

System test and initialization

These routines test and initialize board hardware. If the routines
encounter an error during the tests, you will either hear a few short
beeps or see an error message on the screen. There are two kinds
of errors: fatal and non-fatal. The system can usually continue the
boot up sequence with non-fatal errors. Non-fatal error messages
usually appear on the screen along with the following instructions:

press <F1> to RESUME

Write down the message and press the F1 key to continue the
bootup sequence.

System configuration verification

These routines check the current system configuration against the
values stored in the board’s CMOS memory. If they don’t match,
the program outputs an error message. You will then need to run
the BIOS setup program to set the configuration information in
memory.

There are three situations in which you will need to change the
CMOS settings:

1. You are starting your system for the first time

2. You have changed the hardware attached to your system

3. The CMOS memory has lost power and the configuration
information has been erased.

The PCM-5862’s CMOS memory has an integral lithium battery
backup. The battery backup should last ten years in normal service,
but when it finally runs down, you will need to replace the
complete unit.

42 PCM-5862 User‘s Manual

AWARD BIOS setup

Award’s BIOS ROM has a built-in Setup program that allows
users to modify the basic system configuration. This type of
information is stored in battery-backed CMOS RAM so that it
retains the Setup information when the power is turned off.

Entering setup

Power on the computer and press <Del> immediately. This will
allow you to enter Setup.

Setup program initial screen

Chapter 4 Award BIOS Setup 43

Standard CMOS setup

All, but keyboard

AUTO

1.44MB

When you choose the STANDARD CMOS SETUP option from
the INITIAL SETUP SCREEN menu, the screen shown below is
displayed. This standard Setup Menu allows users to configure
system components such as date, time, hard disk drive, floppy
drive and display. Once a field is highlighted, on-line help
information is displayed in the left bottom of the Menu screen.

None

CMOS setup screen

AUTO

44 PCM-5862 User‘s Manual

BIOS features setup

By choosing the BIOS FEATURES SETUP option from the
INITIAL SETUP SCREEN menu, the screen below is displayed.
This sample screen contains the manufacturer’s default values for
the PCM-5862.

BIOS features setup

Chapter 4 Award BIOS Setup 45

CHIPSET features setup

By choosing the CHIPSET FEATURES SETUP option from the
INITIAL SETUP SCREEN menu, the screen below is displayed.
This sample screen contains the manufacturer’s default values for
the PCM-5862.

CHIPSET features setup

46 PCM-5862 User‘s Manual

Power management setup

By choosing the POWER MANAGEMENT SETUP option from
the INITIAL SETUP SCREEN menu, the screen below is
displayed. This sample screen contains the manufacturer’s default
values for the PCM-5862.

Power management setup

Chapter 4 Award BIOS Setup 47

PnP/PCI Configuration

By choosing the PnP/PCI CONFIGURATION option from the
Initial Setup Screen menu, the screen below is displayed. This
sample screen contains the manufacturer’s default values for the
PCM-5862.

PnP/PCI Configuration

48 PCM-5862 User‘s Manual

Integrated Peripherals

By choosing the INTEGRATED PERIPHERALS option from the
INITIAL SETUP SCREEN menu, the screen below is displayed.
This sample screen contains the manufacturer’s default values for
the PCM-5862.

Integrated Peripherals

Chapter 4 Award BIOS Setup 49

Load BIOS defaults

AWARD SOFTWARE, INC.

Load BIOS Default (Y/N)? Y

ßàáâ

LOAD BIOS DEFAULTS loads the default system values directly
from ROM. If the stored record created by the Setup program
becomes corrupted (and therefore unusable), these defaults will
load automatically when you turn the PCM-5862 on.

ROM PCI/ISA BIOS (2A5IHAKA)

CMOS SETUP UTILITY

STANDARD CMOS SETUP PASSWORD SETTING

BIOS FEATURES SETUP IDE HDD AUTO DETECTION
CHIPSET FEATURES SETUP HDD LOW LEVEL FORMAT
POWER MANAGEMENT SETUP SAVE & EXIT SETUP
PCI CONFIGURATION SETUP EXIT WITHOUT SAVING
LOAD BIOS DEFAULTS

ESC: QUIT
F10: Save & Exit Setup (Shift)F2: Change Color

Time, Date, Hard Disk Type…

: SELECT ITEM

Load BIOS defaults screen

50 PCM-5862 User‘s Manual

Change Password

To change the password, choose the PASSWORD SETTING
option form the Setup main menu and press <Enter>.

1. If the CMOS is bad or this option has never been used, a
default password is stored in the ROM. The screen will display
the following messages:

Enter Password:

Press <Enter>.

2. If the CMOS is good or this option has been used to change the
default password, the user is asked for the password stored in
the CMOS. The screen will display the following message:

Confirm Password:

Enter the current password and press <Enter>.

3. After pressing <Enter> (ROM password) or the current
password (user-defined), you can change the password stored
in the CMOS. The password can be at most eight (8) characters
long.

Remember - to enable this feature, you must first select either
Setup or System in the BIOS FEATURES SETUP.

Chapter 4 Award BIOS Setup 51

Auto detect hard disk

AWARD SOFTWARE, INC.

DRIVE C:

15 65535 789 57

ESC = SKIP

The IDE HDD AUTO DETECTION utility can automatically
detect the IDE hard disk installed in your system. You can use it to
self-detect and/or correct the hard disk type configuration.

ROM PCI/ISA BIOS (2A5IHAKA)

CMOS SETUP UTILITY

HARD DISK TYPE SIZE CYLS. HEADS PRECOMP LANDZ SECTORS MODE

(MB) 790

SELECT SECONDARY SLAVE OPTION (N=Skip): N .

IDE HDD auto detection screen

Save & exit setup

If you select this option and press <Enter>, the values entered in
the setup utilities will be recorded in the chipset's CMOS memory.
The microprocessor will check this every time you turn your
system on and compare this to what it finds as it checks the
system. This record is required for the system to operate.

Exit without saving

Selecting this option and pressing <Enter> lets you exit the Setup
program without recording any new values or changing old ones.

52 PCM-5862 User‘s Manual

5

PCI SVGA Setup

The PCM-5862 features an on­board PCI flat panel/VGA
interface. This chapter provides
instructions for installing and
operating the software drivers on
the included display driver
diskette.

Before you begin

To facilitate the installation of the enhanced display device drivers
and utility software, you should read the instructions in this
chapter carefully before you attempt installation. The enhanced
display drivers for the PCM-5862 board are located on the
software installation diskette. You must install the drivers and
utility software by using the supplied SETUP program for DOS
drivers

Note: The files on the software installation diskette are

compressed. Do not attempt to install the drivers
by copying the files manually. You must use the
supplied SETUP program to install the drivers.

Before you begin, it is important to note that most display drivers
need to have the relevant software application already installed in
the system prior to installing the enhanced display drivers. In
addition, many of the installation procedures assume that you are
familiar with both the relevant software applications and operating
system commands. Review the relevant operating system
commands and the pertinent sections of your application software's
user's manual before performing the installation.

Installation

Disk 1: Windows 3.1, Windows 95, and Windows NT drivers
Disk 2: OS/2 drivers

54 PCM-5862 User‘s Manual

Simultaneous display mode

The 65550 VGA BIOS supports monochrome LCD, EL, color
TFT and STN LCD flat panel displays. It also supports interlaced
and non-interlaced analog monitors (VGA color and VGA
monochrome) in high-resolution modes while maintaining
complete IBM VGA compatibility. Digital monitors (i.e. MDA,
CGA, and EGA) are NOT supported. Multiple frequency
(multisync) monitors are supported as analog monitors.

Both CRT and panel displays can be used simultaneously. The
PCM-5862 can be set in one of three configurations: on a CRT, on
a flat panel display, or on both simultaneously. The system is
initially set to simultaneous display mode. In the utility diskette,
there are three .COM files that can be used to select the display.
Simply type the filename at the DOS prompt:

CT.COM Enables CRT display only
FP.COM Enables panel display only
SM.COM Enables both displays at the same time.

Sleep mode

The display driver diskette contains two files that support sleep
mode. Simply type the filename at the DOS prompt:

ON.COM switches to normal display mode.
OFF.COM switches to sleep mode.

Chapter 5 PCI SVGA Setup 55

Driver installation

Necessary prerequisites

The instructions in this manual assume that you understand
elementary concepts of MS-DOS and the IBM Personal Computer.
Before you attempt to install any driver or utility you should: know
how to copy files from a floppy disk to a directory on the hard
disk, understand the MS-DOS directory structure, and know how
to format a floppy disk. If you are uncertain about any of these
concepts, please refer to the DOS or Windows user reference
guides for more information before you proceed with the
installation.

Before you begin

Before you begin installing software drivers, you should make a
backup copy of the display driver diskette and store the original in
a safe place. The display driver diskette contains drivers for several
versions of certain applications. You must install the correct
version in order for the driver to work properly so make sure you
know which version of the application you have.

56 PCM-5862 User‘s Manual

Windows setup

These drivers are designed to work with Microsoft Windows 3.1.
You may install these drivers through Windows or in DOS.

Step 1: Install Windows as you normally would for a VGA
display. Run Windows to make sure that it is working correctly.

Step 2: Place the display driver diskette in drive A. In Windows
Program Manager, choose File from the Options Menu. Then from

the pull-down menu, choose Run . . . . At the command line

prompt, type A:\SETUP. Press the <ENTER> key or click OK to
begin the installation. At this point, the setup program locates the
directory where Windows is installed. For proper operation, the
drivers must be installed in the Windows subdirectory. Press
<ENTER> to complete the installation. Once completed, the
Display Driver Control Panel appears on the screen. This Control
Panel allows you to select and load the installed drivers.

Another method of installing these drivers is through the File
Manager. Click on Drive A:. Then double-click on SETUP.EXE
to begin installation.

Changing Display Drivers in Windows

To change display drivers in Windows, select the Windows Setup
icon from the Main window. You will be shown the current setup
configuration. Select Change System Settings from the Option
menu. Click on the arrow at the end of the Display line. You will
be shown a list of display drivers. Click on the driver you want.
Then click on the OK button. Follow the directions to complete the
setup.

Changing Color Schemes

After you change display drivers, you may notice that the color
scheme used by Windows looks strange. This is because different
drivers have different default colors. To change the color scheme,
select the Control Panel from the Main window. Select the Color
icon. You will be shown the current color scheme. Choose a new
color scheme and click the OK button.

Chapter 5 PCI SVGA Setup 57

DOS Setup

Step 1: Install Windows as you normally would for a VGA
display. Run Windows to make sure that it is working correctly.
Then exit Windows.

Step 2: Place the display driver diskette in drive A. Type A:
<ENTER> to make this the default drive. Type SETUP <ENTER>
to run the driver SETUP program. Press any key to get to the
applications list. Using the arrow keys, select Windows Version

3.1 and press the <ENTER> key. Press the <ENTER> key to
select All Resolutions, and then press <END> to begin the
installation. At this point, you will be asked for the path to your
Windows System directory (default C:\WINDOWS). When the
installation is complete, press any key to continue. Press <ESC>
followed by Y to exit to DOS.

Step 3: Change to the directory where you installed Windows
(usually C:\WINDOWS).

Step 4: Type SETUP <ENTER> to run the Windows Setup
program. It will show the current Windows configuration. Use the
up arrow key to move to the Display line and press <ENTER>. A
list of display drivers will be shown. Use the arrow keys to select
one of the drivers starting with an asterisk (*) and press
<ENTER>.

Step 5: Follow the directions on the screen to complete the setup.
In most cases, you may press <ENTER> to accept the suggested
option. When Setup is done, it will return to DOS. Type WIN
<ENTER> to start Windows with the new display driver.

58 PCM-5862 User‘s Manual

Changing Display Drivers in DOS

To change display drivers from DOS, change to the Windows
directory and run Setup, repeating steps 4 and 5 from the previous
page. Besides the special display drivers marked by an asterisk (*),
you should be able to use the following standard drivers:

VGA 640x480, 16 colors
Super VGA 800x600, 16 colors

Panning Drivers

Special panning drivers are provided to allow high-resolution
modes to be displayed on a flat panel or CRT. These drivers will
show a section of a larger screen and will automatically pan, or
scroll, the screen horizontally and vertically when the mouse
reaches the edge of the display.

Linear Acceleration Drivers

A special high-performance linear acceleration driver is provided
for 256-color modes. This driver may require special hardware and
may not be supported on all systems. It is only available for
Windows 3.1.

Windows 95 Drivers Setup Procedure

1. Boot system with VGA or SuperVGA driver.

2. Select properties from a menu after right button press.

3. Select display.

4. Select Change Display.

5. Select Change Monitor.

6. Select Change Adapter.

7. Select Have Disk.

Chapter 5 PCI SVGA Setup 59

Windows NT Drivers Setup Procedure

Step 1

1. Install Windows NT as you normally would for a VGA display.

2. First click the Start button, choose Settings and click on
Control Panel.

3. Choose the Display icon and click on the icon.

4. In the Display Properties window, click on the Settings tab.

5. Click on Change Display Type. In the Change Display Type
window, click on the Change button under Adapter Type. This
will bring up the Select Device window.

Step 2

1. In the Select Device window, click on the Other button. Enter
source directory where the Windows NT driver files are
located.

2. Press <ENTER> and the name of the Chips and Technologies
Video Accelerator driver will appear at the end of Models list
box. Scroll to the end of the list box and double click on the
driver.

3. Once the installation is complete, the system must be shut
down and restarted.

Step 3

1. Upon restarting your computer, select the desired display
settings from the Display property dialog box.

2. Click on Test to test the newly selected graphics mode. A
color test screen should appear, followed by the Testing Mode
window.

3. Click on Yes to continue. The Display Settings Change
window will appear.

4. Click on Restart Now for the new settings to take effect.

60 PCM-5862 User‘s Manual

OS/2 Drivers Setup Procedure

Preliminary Steps

The following steps must be performed before you install the
65550/554 display driver:

1. OS/2 DOS Support must be installed.

2. If you previously installed SVGA support, you must reset the
system to VGA mode. VGA is the default video mode enabled
when OS/2 is installed.

To restore VGA mode, use Selective Install and select VGA for
Primary Display. For more information on this procedure, see the
section on Changing Display Adapter Support in the OS/2 User's
Guide.

Installing from Diskette

To install this driver, do the following steps:

1. Open an OS/2 full screen or windowed session.

2. Place the 65550 PCI Display Driver Diskette in drive A.

3. At the OS/2 command prompt, type the following commands
to copy the files to the OS/2 drive:

Type:

A: <ENTER> to make this the default drive.
SETUP A: C: <ENTER>

where A: is the floppy disk drive and

C: is the hard disk partition containing \OS2

When the Setup Program is completed, you will need to perform a
shutdown and then restart the system in order for changes to take
effect.

A log of the information output during the install can be found in
<root>:\OS2\INSTALL\DISPLAY.LOG

Chapter 5 PCI SVGA Setup 61

4. After restarting the system, perform the following steps:

1). Open the OS/2 System folder.

2). Open the System Setup folder.

3). Open the Display Driver Install Object

This step will execute the Display Driver Installation
(DSPINSTL) utility program to finish installation of the new
drivers.

4). When the Display Driver Install window appears, select
Primary Display and then select OK.

5). When The Primary Display Driver List window
appears, select “Chips and Technologies 65550/554”
from the list of adapter types, then select OK to install
the video driver.

6). When the installation is complete, you will need to
shutdown and then restart the system for the changes to
take effect. Make sure to remove the install diskette
before restarting the system.

When the system has restarted, the display driver will be initialized
for 640x480x256 Color, 60Hz refresh. To switch to a different
video resolution color depth, or refresh rate, follow the steps
below.

62 PCM-5862 User‘s Manual

Selecting Monitor Type

Monitor type is initially set to DEFAULT. This DEFAULT setting
may not allow you to select all resolution/refresh combinations
that are available for your monitor. The following steps can be
done to select monitor type. This section applies only after
installation, or when a different monitor is used.

1. Open the OS/2 System folder.

2. Open the System Setup folder.

3. Open the System object.

4. When the System - Settings notebook appears, select the
Screen tab. This will take you to page 2 of the settings.

5. On Screen page 2, select your monitor type from the Display
Name list. If your monitor is not listed, select DEFAULT.
Return to Screen page 1.

It may be necessary to restart your system to have all refresh rate
options available.

Selecting Screen Resolution/Refresh Rate

To switch to a different video resolution, color depth or refresh
rate,

follow the steps below.

1. Open the OS/2 System folder.

2. Open the System Setup folder.

3. Open the System object.

4. From the selection windows provided, select a new Screen
Resolution and Screen refresh rate.

Please note, Refresh rates, other than 60Hz, are only valid when
the display is switched to CRT only display mode.

5. Close the System-Settings notebook.

6. Perform a shutdown and restart for the changes to take effect.

Chapter 5 PCI SVGA Setup 63

Installation Notes

1. During the installation of this driver, DISPLAY.LOG and
DSPINSTL.LOG files are created in \OS2\INSTALL directory.
These files identify the OS/2 system files that were updated,
and indicate whether the installation was successful. The
DISPLAY.LOG file also contains a string that identifies the
version of driver that was installed. This information may be
important when reporting an installation problem.

2. During installation, DSPINSTL will invoke the SVGA
Configuration program SVGA.EXE to determine the hardware
configuration, and create the file
\OS2\INSTALL\SVGADATA.PMI. If this file is not created,
the adapter will not be supported. When this step is done, the
display will be blanked, and you may see a series of flashes on
the display and/or what appears to be a “corrupted” display.
This is normal, as the configuration process is doing Video
BIOS mode sets to determine which screen resolutions BIOS
supports. This configuration information is then used to
provide the System-Settings Resolution and Refresh selections.

64 PCM-5862 User‘s Manual

6

Audio Setup

The PCM-5862 is equipped with an
audio interface that records and
playback CD-quality audio. This
chapter provides instructions for
installing the software drivers on the
included audio driver diskettes.

Introduction

The PCM-5862 on board audio interface provides high-quality
stereo sound and FM music synthesis (ESFM) by using the
ES1868 or ES1869 audio controller from ESS Technology, Inc.
The audio interface can record, compress, and play back voice,
sound, and music with built-in mixer control.

The PCM-5862 on board audio interface also supports the Plug
and Play (PnP) standard and provides PnP configuration for the
audio, FM, and MPU-104 logical devices. It is compatible with

Sound Blaster; Sound Blaster Pro version 3.01, voice and
music functions. The ESFM synthesizer is register compatible with
the OPL3 and has extended capabilities.

DOS Utilities

The ES1868/1869 audio controller supports PC games and
applications for Sound Blaster and Sound Blaster with no

needs of device driver in DOS environment. The default setting for
audio controller in DOS are listed as follows.

Address : 220H
IRQ : 9
DMA : 1
MPU-401 : Disabled

Changing setting in DOS

The audio controller setting can be changed in DOS environment
by using the DOS SETUP utility located in the UTILITY
subdirectory of audio driver diskette.

To change the setting, simply type the DOSSET at the DOS
prompt. Follow the instructions on screen to choose the new
setting for the ES1868/1869 audio controller.

Controlling volume in DOS

The ES1868/1869 audio controller provides software control on

66 PCM-5862 User‘s Manual

the setting of audio volumes. The VOLUME CONTROL utility
located in the UTILITY subdirectory of audio driver diskette is
used to control the volume setting in DOS.

To control the volume setting, simply type the ESSVOL at the
DOS prompt with appropriate parameters. The syntex of ESSVOL
is shown as follows.

ESSVOL [/?] [/v:xx] [/l:xx] [/w:xx] [/m:xx] [/c:xx] [/s:xx]
[/a:xx]

no option Display all volume settings.

/? Display this message.
/v Change master volume.

/l Change line volume.

/w Change wave volume.

/m Change microphone volume.

/c Change CD volume.
/s Change Synthesizer volume.
/a Change AuxB volume.
/p Change PC Speaker volume.

xx Volume. Note: no xx means 0

The value range of volume is 0 - 15.
[PC Speaker volume range is 0 - 7]

Chapter6 Audio Setup 67

Driver Installation

Before you begin

To facilitate the installation of the audio drivers, you should read
the instructions in this chapter carefully before you attempt
installation. The audio drivers for the PCM-5862 board are located
on the audio driver diskettes. You must install the drivers by using
the supplied SETUP program.

Note: The files on the software installation diskette are

compressed. Do not attempt to install the drivers
by copying the files manually. You must use the
supplied SETUP program to install the drivers.

Windows 3.1 drivers

These drivers are designed to work with Microsoft Windows 3.1.
You may install these drivers through Windows.

1. Run Windows to make sure that it is working correctly.

2. Place the audio driver diskette in drive A. In the Windows
Program Manager, choose File from the Options Menu. Then

from the pull-down menu, choose Run . . . . At the command

line prompt, type A:\WIN31\SETUP. Press the <ENTER> key
or click OK to begin the installation.

3. Click Continue when the “AudioDrive Setup” screen show up.
Click the Driver Installation button to choose installing the
audio driver.

4. At this point, the setup program displays the “Set Hardware
Setting” screen, which allows you to change the hardware
setting of audio controller in Windows. For proper operation,
make sure the address, IRQ, and DMA settings are not used by
other hardware. Press <ENTER> key or click OK to complete
the installation.

Once completed, you can change the settings or remove the audio
driver by using Windows’s Control Panel program.

68 PCM-5862 User‘s Manual

Windows 95 Drivers

1. Boot your system and place the audio driver diskette in drive
A.

2. Select Add New Hardware from Windows‘s Control Panel.

3. Click Next to bring up the Windows search for new hardware
setup screen.

4. Select No and click Next button.

4. Select Sound, video and game controllers from the Hardware
types list and click Next button.

5. Click Have Disk, type A:\WIN95 and press <ENTER> at the
prompt.

6. Select ES1868 Control Interface and ES1868 Plug and Play
AudioDrive. Press the <ENTER> key or click OK to begin the
installation.

7. Restart your computer after the installation completed.

Chapter6 Audio Setup 69

70 PCM-5862 User‘s Manual

A

Programming the
Watchdog Timer

The PCM-5862 is equipped with a
watchdog timer that resets the CPU or
generates an interrupt if processing
comes to a standstill for whatever
reason. This feature ensures system
reliability in industrial standalone, or
unmanned, environments.

Programming the Watchdog Timer

In order to program the watchdog timer, you must write a program
which writes I/O port address 443 (hex). The output data is a value
of time interval. The value range is from 01(hex) to 3F(hex), and
the related time interval is 1 sec. to 63 sec.

Data Time Interval

01 1 sec.
02 2 sec.
03 3 sec.
04 4 sec.

3F 63 sec.

After data entry, your program must refresh the watchdog timer by
rewriting the I/O port 443 (hex) while simultaneously setting it.
When you want to disable the watchdog timer, your program
should read I/O port 043 (hex).

The following example shows how you might program the
watchdog timer in BASIC:

10 REM Watchdog timer example program
20 OUT &H443, data REM Start and restart the watchdog
30 GOSUB 1000 REM Your application task #1
40 OUT &H443, data REM Reset the timer
50 GOSUB 2000 REM Your application task #2
60 OUT &H443, data REM Reset the timer
70 X=INP (&H043) REM Disable the watchdog timer
80 END

.
.
.

1000 REM Subroutine #1, you application task

.
.
.

1070 RETURN
2000 REM Subroutine #2, you application task

.
.
.

2090 RETURN

72 PCM-5862 User‘s Manual

B

Installing PC/104
Modules

This appendix gives instructions for
installing PC/104 modules.

Installing PC/104 modules

The PCM-5862's PC/104 connectors give you the flexibility to
attach PC/104 expansion modules. These modules perform the
functions of traditional plug-in expansion cards, but save space and
valuable slots. Modules include:

• PCM-3290 GPS Module

• PCM-3810 Solid State Disk Module

• PCM-3820 High Density Flash Disk Module

• PCM-3110A PCMCIA Module

• PCM-3110B Secondary PCMCIA Module with 1 FDD

• PCM-3610 Isolated RS-232 and RS-422/485 Module

• PCM-3718 30 kHz A/D Module

• PCM-3724 48-Channel DIO Module

• PCM-3680 Dual Port CAN Module
Installing these modules on the PCM-5862 is quick and simple.

The following steps show how to mount the PC/104 modules:

1. Remove the PCM-5862 from your system paying particular
attention to the safety instructions already mentioned above.

2. Make any jumper or link changes required to the CPU card
now. Once the PC/104 module is mounted, you may have
difficulty in accessing these.

3. Mount the PC/104 module onto the CPU card by pressing the
module firmly but carefully onto the mounting connectors.

4. Secure the PC/104 module onto the CPU card using the four
mounting spacers and screws.

74 PCM-5862 User‘s Manual

C

Pin Assignments

This appendix contains information of a
detailed or specialized nature. It
includes:

• CRT display connector

• Flat panel display connector

• PC/104 connectors

• USB connectors

• Fan power connector

• Front panel connector

• CD audio connector

• Peripheral power connector

• Ethernet 10BASE-T connector

• IR connector

• Audio connector

• Main power connector

• Keyboard and mouse connector

• COM port connector

• IDE hard drive connector

• Floppy drive connector

• Parallel port connector

CRT display connector (CN1)

16 14 12 10 8 6 4 2

15 13 11 9 7 5 3 1

PCM-5862 CRT display connector

Pin Signal Pin Signal

1 RED 9 SIGNAL GND
2 N/C 10 H-SYNC
3 GREEN 11 CHASSIS GND
4 SIGNAL GND 12 V-SYNC
5 BLUE 13 CHASSIS GND
6 N/C 14 N/C
7 N/C 15 CHASSIS GND
8 N/C 16 N/C

76 PCM-5862 User‘s Manual

Flat panel display connector (CN2)

2 4 …… 42 44

1 3 …… 41 43

PCM-5862 Flat panel display connector

Pin Function Pin Function

1 +12 V 2 +12 V
3 GND 4 GND
5 5V/3.3V 6 5V/3.3V
7 ENAVEE* 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 GND 42 ASHFCLK
43 ENAVDD* 44 5V/3.3V

* Low active

Appendix C Pin Assignments 77

PC/104 connectors (CN3, CN9)

CN3

CN9

1 2 …… 31 32

Row A
Row B

1 2 …… 31 32

1 2 …… 19 20

Row C
Row D

1 2 …… 19 20

PCM-5862 PC/104 connectors

Pin Signal (CN3) Signal (CN9)
Number RowA RowB RowA RowB

1 IOCHCHK* 0V 0V 0V
2 SD7 RESET SBHE* MEMCS16*
3 SD6 +5V LA23 IOCS16*
4 SD5 IRQ9 LA22 IRQ10
5 SD4 -5V LA21 IRQ11
6 SD3 DRQ2 LA20 IRQ12
7 SD2 -12V LA19 IRQ15
8 SD1 ENDXFR* LA18 IRQ14
9 SD0 +12 LA17 DACK0*
10 IOCHRDY (KEY) MEMR* DRQ0
11 AEN SMEMW* MEMW* DACK5*
12 SA19 SMEMR* SD8 DRQ5
13 SA18 IOW* SD9 DACK6*
14 SA17 IOR* SD10 DRQ6
15 SA16 DACK3* SD11 DACK7*
16 SA15 DRQ3 SD12 DRQ7
17 SA14 DACK1* SD13 +5V

78 PCM-5862 User‘s Manual

PCM-5862 PC/104 connectors (cont.)

Pin Signal (CN3) Signal (CN9)
Number RowA RowB RowA RowB

18 SA13 DRQ1 SD14 MASTER*
19 SA12 REFRESH* SD15 0V
20 SA11 SYSCLK (KEY) 0V
21 SA10 IRQ7 — —
22 SA9 IRQ6 — —
23 SA8 IRQ5 — —
24 SA7 IRQ4 — —
25 SA6 IRQ3 — —
26 SA5 DACK2* — —
27 SA4 TC — —
28 SA3 BALE — —
29 SA2 +5V — —
30 SA1 OSC — —
31 SA0 0V — —
32 0V 0V — —

* Low active

Appendix C Pin Assignments 79

USB connectors (CN4, CN5)

4 3 2 1

PCM-5862 USB connector

Pin Signal

1 +5 V
2 UV­3 UV+
4 GND

Fan power connector (CN6)

3 2 1

PCM-5862 Fan power connector

Pin Signal

1 +5 V
2 GND
3 +12 V

80 PCM-5862 User‘s Manual

Front panel connector (CN7)

1 3 5 7

2 4 6 8

PCM-5862 Front panel connector

Pin Signal

1 HDD LED- (HARD DISK ACTIVE)
2 HDD LED+ (VCC)
3 SPEAKER+
4 SPEAKER- (GND)
5 GND
6 WATCHDOG OUTPUT*
7 RESET SWITCH- (GND)
8 RESET SWITCH+

* Low active

Appendix C Pin Assignments 81

CD audio connector (CN8)

PCM-5862 CD audio connector

Pin Signal

1 CD AUDIO L
2 GND
3 CD AUDIO R
4 GND

Peripheral power connector (CN10)

1
2
3
4

PCM-5862 Peripheral power connector

Pin Function

1 GND
2 -5 V
3 GND
4 -12 V

82 PCM-5862 User‘s Manual

Ethernet 10BASE-T connector (CN11)

10 8 6 4 2

9 7 5 3 1

PCM-5862 Ethernet 10BASE-T connector

Pin Signal

1 V
2 CRS LED
3 RCV+
4 RCV­5 BNC LED
6 GND
7 N/C
8 GND
9 XMT+
10 XMT-

CC

IR connector (CN12)

5 4 3 2 1

PCM-5862 IR connector

Pin Signal

1 V
2 NC
3 IR IN
4 GND
5 IR OUT

CC

Appendix C Pin Assignments 83

Audio connector (CN13)

16 14 12 10 8 6 4 2

15 13 11 9 7 5 3 1

PCM-5862 audio connector

Pin Signal Pin Signal

1 SPEAKER OUT R+ 2 SPEAKER OUT R­3 SPEAKER OUT L+ 4 SPEAKER OUT L­5 LINE OUT R 6 LINE OUT L
7 GND 8 GND
9 LINE IN R 10 LINE IN L
11 GND 12 GND
13 NC 14 NC
15 MIC IN 16 GND

Main power connector (CN14)

4
3
2
1

PCM-5862 Main power connector

Pin Signal

1 +12 V
2 GND
3 GND
4 +5 V

84 PCM-5862 User‘s Manual

Keyboard and PS/2 mouse connector (CN15)

1
2
3
4
5
6
7
8

PCM-5862 Keyboard and mouse connector

Pin Signal

1 GND
2 MS VCC
3 MS DATA
4 MS CLOCK
5 GND
6 KB VCC
7 KB DATA
8 KB CLOCK

Appendix C Pin Assignments 85

COM port connector (CN16)

39 37 …… 3 1

40 38 …… 4 2

PCM-5862 COM port connector

Pin Signal Pin Signal

1 RLSD1 2 DSR1
3 RX1 4 RTS1
5 TX1 6 CTS1
7 DTR1 8 RI1
9 GND 10 NC
11 RLSD2 12 DSR2
13 RX2 14 RTS2
15 TX2 16 CTS2
17 DTR2 18 RI2
19 GND 20 NC
21 RLSD3 22 DSR3
23 RX3 24 RTS3
25 TX3 26 CTS3
27 DTR3 28 RI3
29 GND 30 NC
31 RLSD4 32 DSR4
33 RX4 34 RTS4
35 TX4 36 CTS4
37 DTR4 38 RI4
39 GND 40 NC

86 PCM-5862 User‘s Manual

IDE hard drive connector (CN17)

44
42
.
.
.
4
2

PCM-5862 IDE hard drive connector

Pin Signal Pin Signal

1 IDE 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 SIGNAL GND 20 N/C
21 HDD 0 22 GND
23 IO WRITE 24 GND
25 IO READ 26 GND
27 HD READY 28 N/C
29 HDACK 0* 30 GND
31 IRQ14 32 N/C
33 ADDR 1 34 N/C
35 ADDR 0 36 ADDR 2
37 HARD DISK SELECT 0* 38 HARD DISK SELECT 1*
39 IDE ACTIVE* 40 GND
41 VCC 42 VCC
43 GND 44 N/C

* Low active

43
41
.
.
.
3
1

Appendix C Pin Assignments 87

Floppy drive connector (CN18)

34
32
.
.
.
4
2

PCM-5862 Floppy drive connector

Pin Signal Pin Signal

1 GND 2 DENSITY SELECT*
3 GND 4 N/C
5 GND 6 DRIVE TYPE
7 GND 8 INDEX*
9 GND 10 MOTOR 0*
11 GND 12 DRIVE SELECT 1*
13 GND 14 DRIVE SELECT 0*
15 GND 16 MOTOR 1*
17 GND 18 DIRECTION*
19 GND 20 STEP*
21 GND 22 WRITE DATA*
23 GND 24 WRITE GATE*
25 GND 26 TRACK 0*
27 GND 28 WRITE PROTECT*
29 GND 30 READ DATA*
31 GND 32 HEAD SELECT*
33 GND 34 DISK CHANGE*

* Low active

33
31
.
.
.
3
1

88 PCM-5862 User‘s Manual

Parallel port connector (CN19)

26
24
.
.
.
4
2

PCM-5862 Parallel port connector

Pin Signal Pin Signal

1 STROBE* 2 AUTOFD*
3 D0 4 ERR
5 D1 6 INIT*
7 D2 8 SLCTINI*
9 D3 10 GND
11 D4 12 GND
13 D5 14 GND
15 D6 16 GND
17 D7 18 GND
19 ACK* 20 GND
21 BUSY 22 GND
23 PE 24 GND
25 SLCT 26 N/C

* Low active

25
23
.
.
.
3
1

Appendix C Pin Assignments 89

90 PCM-5862 User‘s Manual

Optional Extras

D

PCM-10586-2 Cable kit for PCM-5862

The PCM-5862 requires several cables for normal operation. You
can make them yourself or purchase an optional cable kit
assembly, which includes the following:

Part No. Cable Description PCM-5862

1701440350 2.5“ and 1.8” IDE CN17 44-pin, 2mm, female

1701440500 3.5“ IDE (40P) CN17

1701340700

1701260301 Parallel Port CN19 25-pin female DSUB

1701100200 Network, 10-Base-T CN11 RJ45 8-pin modular jack

1701150150 VGA CRT CN1 15-pin DSUB

1700060200 Keyboard and PS/2 mouse CN15 5-pin circular DIN,

1703040301 Peripheral power

1701440300 LCD Cable CN2 44-pin, 2mm, 300mm

1701080300 Front Panel CN7 (8-conductor pigtail)

1700400000 COM 1-4 cable CN16 40-pin, 9pin male DSUB x4

Dual Floppy, 3.5“ and

5.25”(34p)

(-5V and -12V)

Connector

CN18 34-pin Dual Floppy

CN14 (4-conductor)

Terminating Connector

IDC(350mm)

40-pin, 2.54mm, female
IDC(500mm)

6-pin circular DIN

1700160000 Audio cable CN13

92 PCM-5862 User‘s Manual

φ 3.5mm, female phone jack x3

Note: The cable of serial port (CN16) comes with four

DSUB-9 male connectors. The pin assignments of
each DSUB-9 connector are listed below for your
reference:

DSUB-9 Conn.(RS-232) mode RS-422 mode RS-485 module
Pin Signal Signal
1 DCD TX- DATA­2 RxD TX+ DATA+
3 TxD RX+ NC
4 DTR RX- NC
5 GND GND GND
6 DSR NC NC
7 RTS NC NC
8 CTS NC NC
9 RI NC NC

Appendix D Optional Extras 93