MOPS/586
Technical Manual
Rev. 1.4
JUMPtecÒ
Industrielle Computertechnik AG
Brunnwiesenstraße 16
94469 Deggendorf/ Germany
Tri-M Systems Inc., 6-1301 Ketch Court, Coquitlam, B.C., V3K 6X7, Canada
Phone: (604) 527-1100, (800) 665-5600 Fax: (604) 527-1110
MOPS/586
Table of Contents
FLOPPY CONNECTOR...............................................................................................................................................30
IDE CONNECTOR FOR 2,5" HARD DISK.....................................................................................................................31
ETHERNET CONNECTOR...........................................................................................................................................31
FEATURE CONNECTOR.............................................................................................................................................31
POWER CONNECTOR ...............................................................................................................................................32
PC/104-CONNECTOR ..............................................................................................................................................33
LITERATURE, STANDARDS, LINKS ..................................................................................................................34
PC/104-BUS ...........................................................................................................................................................34
ISA-BUS, STANDARD PS/2 - CONNECTORS..............................................................................................................34
RS232C .................................................................................................................................................................34
DOCUMENT REVISION HISTORY ......................................................................................................................35
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MOPS/586
User Information
User Information
Copyright 1997 JUMPtec® Industrielle Computertechnik AG.
In this document JUMPtec® Industrielle Computertechnik AG will also be referred to by the short form
"JUMPtec®".
The information in this document has been carefully checked and is believed to be accurate and reliable.
However, no responsibility is assumed for inaccuracies. Furthermore, JUMPtec® reserves the right to make
changes to any portion of this manual to improve reliability, function or design. JUMPtec® does not assume any
liability for any product or circuit described herein.
Trademarks
AT and IBM are trademarks of International Business Machines
XT, AT, PS/2 and Personal System/2 are trademarks of International Business Machines Corporation.
Microsoft is a registered trademark of Microsoft Corporation.
Intel is a registered trademark of Intel Corporation.
All other products and trademarks mentioned in this manual are trademarks of their respective owners.
The reproduction, transmission or use of this document or its contents is not permitted without expressed written
authority.
Offenders will be liable for damages. All rights created by patent grant or registration of a utility model or
design, are reserved.
(C) JUMPtec® AG 1993
General
For the circuits, descriptions and tables indicated no responsibility is assumed as far as patents or other rights of
third parties are concerned.
The information in the Technical Descriptions describes the type of the boards and shall not be considered as
assured characteristics.
The reproduction, transmission or use of this document or its contents is not permitted without express written
authority. Offenders will be liable for damages. All rights, including rights created by patent grant or registration
of a utility model or design, are reserved.
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MOPS/586
User Information
Warranty
Each board is tested carefully and thoroughly before being shipped. If, however, problems should occur during
the operation, please check your user specific settings of all boards included in your system. This is often the
source of the fault. If a board is defective, it can be sent to your supplier for repair. Please take care of the
following steps:
1. The board returned should have the factory default settings since a test is only possible with these
settings.
2. In order to repair your board as fast as possible we require some additional information from you.
Please fill out the attached Repair Form and include it with the defective board.
3. If possible the board will be upgraded to the latest version without additional cost.
4. Upon receipt of the board please be aware that your user specific settings were changed during the
test.
Within the warranty period the repair is free of charge as long as the warranty conditions are observed. Because
of the high test expenditure you will be charged with the test cost if no fault is found. Repair after the warranty
period will be charged.
This JUMPtec® product is warranted against defects in material and workmanship for the warranty period from
the date of shipment. During the warranty period JUMPtec® will at its option either repair or replace defective
products.
For warranty service or repair the product must be returned to a service facility designated by JUMPtec®.
The foregoing warranty shall not apply to defects resulting from improper or inadequate maintenance or
handling by buyer, unauthorized modification or misuse, operation outside of the product´s environmental
specifications or improper installation or maintenance.
JUMPtec® will not be responsible for any defects or damages to other products not supplied by JUMPtec® that
are caused by a faulty JUMPtec® product.
Introduction
The MOPS/586 integrates the complete functionality of an 80486 motherboard with CPU, System-BIOS, 8
Mbyte to 32 MByte DRAM, keyboard-controller, real time clock and additional peripheral functions like COM1,
COM2, LPT1, Floppy-interface, EIDE-harddisk-interface, watchdog and optional Ethernet access. The system
runs with CPU clock speed 133MHz.
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MOPS/586
Features
Features
·
·
·
·
Processor
AMD Am5x86® with 133 MHz internal Clock and 16 kByte write-back-Cache
Chipset
ALI 1489/1487 PCI Chipset
Power Supply
5V only supply
Memory
4 MB onboard and 4/8/16/32MB 5V-DIMM module DRAM with Fast Page Mode or
EDO DRAM on the lower SO-DIMM-Connector
·
·
Ethernet 10BaseT (Twisted Pair)
Two serial ports, (COM1 and COM2)
standard RS232C serial ports with FIFO, 16550 compatible
·
Parallel port, LPT1
With ECP/EPP-support
·
·
Floppy-interface
EIDE-PCI-hard disk-interface
PCI Bus Master IDE port (up to 2 IDE Devices)
supports PIO Mode 3,4 IDE & ATAPI CD-ROM
supports JUMPtec CHIPdisk
·
·
·
Watchdog
128 KByte FLASH-BIOS (AMI) and 1,6 Mbyte onboard SSD (DOS-compatible)
Real Time Clock
With external Battery-support
·
Keyboard Controller
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MOPS/586
I/O Map
I/O Map
The I/O-port addresses of the processor module MOPS/586 are functionally identical with a standard PC/AT.
I/O Addresses
0000 - 001F
0020 - 003F
0040 - 0043
0050 - 005F
0060 - 0064
0061
MOPS/586 - onboard
Function
DMA-Controller 1
X
X
X
Interrupt-Controller 1
Timer
Onboard Control Registers
Keyboard-controller
Port B Register
NMI Enable Register
Real Time Clock
DMA Page Register 74LS612
Port A Register (Fast A20 Gate)
Interrupt-Controller 2
DMA-Controller 2
Math-Coprocessor
Onboard Control Registers
Fixed Disk
Game I/O
Reserved
X
X
X
X
X
X
X
X
X
X
X
0070
0070 - 0071
0080 - 008F
0092
00A0 - 00BF
00C0 - 00DF
00F0 - 00FF
0100 – 10F
01F0 - 01F8
0200 – 0207
020C-020D
021F
Reserved
0274
0275
0278 – 027F
02B0 - 02DF
02E1
Control Register 1 External SSD (Board 0 - 3)
Control Register 1 External SSD (Board 4 - 7)
Parallel Port 2
Alternate Enhanced Graphics Adapter
GPIB (adapter 0)
02E2 - 02E3
02E8 - 02EF
02F8 - 02FF
0300 – 030F
0310 – 031F
0360 – 0363
0364 – 0367
0368 – 036B
036C – 036F
0370 – 0377
0378 – 037F
0380 – 038F
0390 – 0393
03A0 - 03AF
03B0 - 03BF
03C0 - 03CF
03D0 - 03DF
03E8 - 03EF
03F0 - 03F7
03F8 - 03FF
Data acquisition (Adapter 0)
Serial Port 4
Serial Port 2
Onboard Network (default configuration)
Prototype Card
PC Network (low Address)
Reserved
PC Network (high Address)
Reserved
Config. Space for second SMC Controller
Parallel Port 1
SDLC, Bisynchronous 2
Cluster
Bisynchronous 1
Monochrom Disp. and Printer Adap.
Enhanced Graphic Adapter
Color/Graphic Monitor Adapter
Serial Port 3
Diskette Controller
Serial Port 1
X
X
X
X
X
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MOPS/586
Memory Map for BIOS, SSD and JRC Support
Memory Map for BIOS, SSD and JRC Support
The BIOS includes two special extensions to support the onboard silicon state disk and Jumptec Remote Control.
If the SSD is enabled in setup or the JRC client finds a host the code of the bios extension will be copied into
shadow ram. The location where the biosextension is placed is automatically determined by the system bios .
The user can not influence this! So care must be taken, when a Extended Memory Manager is used. To avoid
memory conflicts exclude the area E0000h-EFFFFh and do’nt include the area C0000h-DFFFFh !
DOS allows to address 1MByte directly. The memory area above 1MByte (high memory, extended memory) is
accessed under DOS via special drivers like HIMEM.SYS, EMM386.EXE etc. Other operating systems (OS/2,
Windows-NT) allow to address the full memory area directly.
Standard Memory Map
000000h +-------------------+
¦ Interruptvectors ¦
-
¦ 640KByte
¦ BIOS-variables
¦
¦
of
¦ IO.SYS, MSDOS.SYS ¦
¦ main memory
¦ COMMAND.COM
¦ Applications
¦
¦
¦
¦
0A0000h +-------------------¦
+
¦ EGA/VGA Video-
¦ Adapter
¦
¦
¦
¦ upper memory
0B0000h +-------------------¦
¦
area
¦ MGA/CGA Video-
¦ Adapter
0C0000h +-------------------¦
¦ VGA BIOS
0CC000h +-------------------¦
¦
¦
¦ (RAM areas not
¦ used by video
¦ cards can be
¦ used otherwise) ¦ 48KByte
¦
¦ (all not used
¦ areas could be
¦ used otherwise)
¦
-
¦
¦ Shadow RAM
-
¦ BIOS-extensions
¦ Shadow-RAM
¦ Dual port RAM
¦ etc.
¦
¦
¦
¦
0E0000h +-------------------¦
¦
-
¦ System-Setup
¦ System-BIOS
100000h +-------------------¦
¦
¦
¦
¦
+
¦ 128KByte
¦ Shadow RAM
-
¦
¦
¦ higher memory area
+
110000h +-------------------¦
¦
¦
¦
¦
¦ extended or
¦ expanded memory
+-------------------+
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MOPS/586
Onboard SSD (DOS-compatible)
Expanded Memory Map
The user can convert (up to 20Mbytes) Extended Memory into Expanded Memory (EMS). The selected
Expanded Memory is devided into 16KByte pages, of which four can be mapped into the EMS-frame. The EMS-
frame is located within the first 1MByte address space and has a length of 64KByte. The start address of the
EMS-page can be selected between CC000h and E0000h in steps of 16KBytes. Most Expanded Memory
Managers are choosing their frame address location by themselves if it is not explicit set..
000000h +-------------------+
¦ Interruptvectors ¦
-
¦ 640KByte
¦ BIOS-variables
¦
¦
of
¦ IO.SYS, MSDOS.SYS ¦
¦ main memory
¦ COMMAND.COM
¦ HIMEM, EMM386
¦ Applications
¦
¦
¦
¦
¦
¦
0A0000h +-------------------¦
+
¦ EGA/VGA Video-
¦ Adapter
¦
¦
¦
¦ upper memory
0B0000h +-------------------¦
¦
area
¦ MGA/CGA Video-
¦ Adapter
0C0000h +-------------------¦
¦ VGA BIOS
0CC000h +-------------------¦
¦
¦
¦ (RAM areas not
¦ used by video
¦ cards can be
¦ used otherwise) ¦ 48KByte
¦
¦ (all not used
¦ areas could be
¦ used otherwise)
¦
-
¦
¦ Shadow RAM
-
¦ BIOS-extensions
¦ Shadow-RAM
¦ Dual port RAM
¦ EMS-Pages
¦
¦
¦
¦
¦
¦ etc.
¦
0E0000h +-------------------¦
¦
-
¦ System-Setup
¦ System-BIOS
100000h +-------------------¦
¦
¦
¦
¦
+
¦ 128KByte
¦ Shadow RAM
-
¦
¦
¦ higher memory area
+
110000h +-------------------¦
¦
¦
¦
¦
¦ extended or
¦ expanded memory
+-------------------+
To be able to work with Expanded Memory under MS-DOS, you have to add the following drivers to your
CONFIG.SYS:
HIMEM.SYS and EMM386.EXE
The MOPS/586 uses a 32KByte extension BIOS (many other boards do this, too) which is mapped to a
configurable memory area. Some other kind of boards have no extension BIOS, but are using drivers which
communicate with their corresponding devices via memory mapped I/O. All these boards have one thing in
common, they have to share the upper memory area with the Expanded Memory Manager. This is often the
reason for several problems in the system. Make sure you excluded all areas in the upper memory, which are
used by extension BIOSes and memory mapped I/O. Your instruction in the CONFIG.SYS concerning the
Expanded Memory Manager should look like this: (questionmarks for location of extension BIOS)
DEVICE=EMM386.EXE X=E000-EFFF
Onboard SSD (DOS-compatible)
The onboard Solid State Disk (SSD) won’t work under any protected mode operating system, like WINDOWS
3.1, WINDOWS FOR WORKGROUPS 3.11, WINDOWS NT, OS/2 etc.
For SSD-Setup look to Fehler! Verweisquelle konnte nicht gefunden werden. on page Fehler! Textmarke
nicht definiert..
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MOPS/586
Block Diagram
Block Diagram
BIOS
RTC
LPT1
COM1
COM2
IO-Con-
troller
EIDE
ALI
Chipset
DRAM
Cache
Ethernet-
Con-
troller
10baseT
ISA-Con.
CPU
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Connector Arrangement
Connector Arrangement
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BIOS-Description
BIOS-Description
The Standard AMI-BIOS is located in the Flash EPROM onboard. This device has 8 bit wide access. 16 bit
access is enabled by the shadow RAM feature (Standard).
RTC-CMOS setup menu
During boot sequence the CMOS setup can be entered by pressing the <DEL>-key while the memory test is in
progress.
Main Menu
·
·
·
·
·
·
·
·
·
·
·
Standard CMOS Setup
Advanced CMOS Setup
Power Management Setup
Peripheral Setup
Auto-Detect Hard Disks
Change User Password
Change Supervisor Password
Auto Configuration with Optimal Settings
Auto Configuration with Fail Safe Settings
Save Settings and Exit
Exit Without Saving
Standard CMOS Setup
Date/Time
Select the Date/Time option to change the date or time. The current date and time are displayed.
Floppy Drive A, B
Choose the Floppy Drive A or B to specify the floppy drive type. The settings are Not Installed, 360 KB
5¼”, 1.2 MB 5¼”, 720 KB 3½”, 1.44 MB 3½”, or 2.88 MB 3½”.
Pri Master, Pri Slave, Sec Master, Sec Slave
Enter the correct settings for the attached mass storage drive. Possible settings are Not Installed, 1-46
(predefined types), User, AUTO, CDROM.
Configuring an MFM Drive: If configuring an old MFM hard disk drive, you must know the drive
parameters (number of heads, number of cylinders, number of sectors, the starting write
precompensation cylinder, and drive capacity). Choose Type and choose the appropriate hard disk
drive type (1 - 46). The old MFM hard drive types are listed on page 13. If the drive parameters of your
MFM drive do not match any drive type listed on page 13, select User in the Type field and enter the
drive parameters on the screen that appears.
User-Defined Drive: If you are configuring a SCSI drive or an MFM, RLL, ARLL, or ESDI drive with
drive parameters that do not match drive types 1-46, you can select the User in the Type field. You
must then enter the drive parameters on the screen that appears. The drive parameters include:
·
·
·
Size (drive capacity, calculated automatically)
Cyln (number of cylinders),
Head (number of heads),
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BIOS-Description
·
·
WPcom (starting write precompensation cylinder)
Sec (number of sectors)
Parameter
Description
Type
The number for a drive with certain identification parameters.
Cylinders
Heads
The number of cylinders in the disk drive.
The number of heads.
Write
Precompensation
The size of a sector gets progressively smaller as the track diameter diminishes. Yet each sector must still hold 512
bytes. Write precompensation circuitry on the hard disk compensates for the physical difference in sector size by
boosting the write current for sectors on inner tracks. This parameter is the track number where write
precompensation begins.
Landing Zone
Sectors
This number is the cylinder location where the heads will normally park when the system is shut down.
The number of sectors per track. MFM drives have 17 sectors per track. RLL drives have 26 sectors per track. ESDI
drives have 34 sectors per track. SCSI and IDE drives have more sectors per track.
The formatted capacity of the drive is (Number of heads) x (Number of cylinders) x (Number of sectors per track) x
(512 bytes per sector)
Size
Configuring IDE Drives: If the hard disk drive to be configured is an IDE drive, select the option
AUTO and press <ENTER> to detect all drive parameters automatically.
AMIBIOS automatically detects the IDE drive parameters (including ATAPI CD-ROM drives) and
displays them. You can set the parameters manually if you are absolutely certain that you know the
correct IDE drive parameters.
Set LBA Mode to On to enable support for IDE drives with capacities greater than 528 MB.
Set Blk Mode to On to support IDE drives that use Block Mode.
Choose PIO Mode to select the IDE Programmed I/O mode. PIO programming also works with ATAPI
CD-ROM drives. The settings are Auto, 0, 1, 2, 3, 4, or 5. Use Auto to allow AMIBIOS to automatically
find the PIO mode that the IDE drive being configured uses. If you select 0-5 you must make
absolutely certain that you are selecting the PIO mode supported by the IDE drive being configured.
Set 32Bit Mode to On to support IDE drives that permit 32-bit accesses.
Configuring a CD-ROM Drive: Select the appropriate drive (Pri Master, Pri Slave, Sec Master, or Sec
Slave). Choose the Type parameter and select CDROM. You can boot the computer from a CD-ROM
drive. You can also choose Auto and let AMIBIOS automatically set the correct drive parameters.
Hard Disk Drive Types
Please look for Setup-Screen.
Boot Sector Virus Protection
If enabled, any write access to the hard disks boot sector will be trapped and reported on the screen.
The user himself decides if the access accomplishes. The Optimal and Fail Safe default settings are
Disabled.
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BIOS-Description
Advanced CMOS Setup
Quick Boot
Set this option to Enabled to instruct AMIBIOS to boot quickly when the computer is powered on. This
option replaces the former Above 1 MB Memory Test Advanced Setup option. The settings are:
Setting
Description
Disabled
AMIBIOS tests all system memory. AMIBIOS waits up to 40 seconds for a READY signal from the IDE hard disk drive.
AMIBIOS waits for 0.5 seconds after sending a RESET signal to the IDE drive to allow the IDE drive time to get ready again.
AMIBIOS checks for a <DEL> key press and runs Setup if the key has been pressed.
Enabled
AMIBIOS does not test system memory above 1 MB.
AMIBIOS does not wait up to 40 seconds for a READY signal from the IDE hard disk drive. If a READY signal is not
received immediately from the IDE drive, AMIBIOS does not configure that drive. AMIBIOS does not wait for 0.5 seconds
after sending a RESET signal to the IDE drive to allow the IDE drive time to get ready again.
The Optimal default setting is Enabled. The Fail Safe default setting is Disabled.
BootUp Sequence
Choose the type of the boot device and the order to boot from. Possible settings are „C:,A:,CDROM“,
„A:, C:, CDROM“ and „CDROM, A:, C:“.
BootUp Num-Lock
Set this option to Off to turn the Num Lock key off when the computer is booted so you can use the
arrow keys on both the numeric keypad and the keyboard. The settings are On or Off. The Optimal
and Fail Safe default settings are On.
Floppy Drive Swap
Set this option to Enabled to permit drives A: and B: to be swapped. The settings are Enabled or
Disabled. The Optimal and Fail Safe default settings are Disabled.
System Keyboard
This option specifies that a keyboard is attached to the computer. The settings are Present or Absent.
The Optimal and Fail Safe default settings are Absent.
Primary Display
This option specifies the type of display monitor and adapter in the computer. The settings are Mono,
CGA40x25, CGA80x25, VGA/EGA, or Absent. The Optimal and Fail Safe default settings are Absent.
Password Check
This option enables password checking every time the computer is powered on or every time Setup is
executed. If Always is chosen, a user password prompt appears every time the computer is turned on.
If Setup is chosen, the password prompt appears if Setup is executed. The Optimal and Fail Safe
default settings are Setup.
OS/2 Compatible Mode
Set this option to Enabled to permit AMIBIOS to run with IBM OS/2. This in only necessary if more
than 64MB of system dram is present. The settings are Enabled or Disabled. The Optimal and Fail
Safe default settings are Disabled.
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BIOS-Description
Wait For 'F1' if Error
If this option is Enabled the system will wait on power up for the user to press the <F1> key on any
occurring error. The Optimal and Fail Safe default settings are Disabled.
Hit ‚Del‘ Message Display
If this option is Enabled the system will display the String „Hit DEL if you want to run Setup“ on the
screen while accepting the DEL key to enter setup. If the option is set to Disabled the string want be
displayed.
Internal Cache
This option specifies the caching algorithm used for L1 internal cache memory. The settings are:
Setting
Description
Disabled
WriteBack
The L1 internal cache memory on the CPU is disabled
Use the write-back caching algorithm
(Optimal and Fail
Save default)
Shadow Region Cacheability
When this option is set to Enabled, the contents of the shadow region can be read from or written to
cache memory. System BIOS, Video BIOS and Biosextensions are mostly copied from the BIOS ROM
to system RAM for faster execution. The settings are Enabled or Disabled. The Optimal default setting
is Enabled. The Fail Safe default setting is Disabled.
C000,16k Shadow, C400,16k Shadow, C800,16K Shadow, CC00,16K Shadow, D000,16K
Shadow; D400,16K Shadow; D800,16K Shadow; DC00, 16K Shadow
These options control the location of the contents of the 16KB of ROM beginning at the specified
memory location. If no adaptor ROM is using the named ROM area, this area is made available to the
local bus. The settings are:
Setting
Description
Disabled
The ROM is not copied to RAM. The contents of the
ROM cannot be read from or written to cache memory
The ROM contents are written to the same address in
system memory (RAM) for faster execution
Enabled
NOTE: If an onboard video controller is present (MOPSlcd4), the BIOS automatically copies the
video bios into shadow ram blocks C000, C400 and C800. In that case these options are
grayed and not accessible in setup!
Watchdog Mode
With these settings, the type of watchdog is specified. Possible settings are Disabled, Reset, NMI. The
Optimal and Fail Safe default settings are Disabled.
Watchdog Delay (available only if Watchdog Mode is not Disabled)
Time delay before the watchdog timer is set. Used for example, to let the system boot without the
need to trigger the watchdog. Possible time settings are 1 Sec, 5 Sec, 10 Sec, 30 Sec, 1 Min, 5 Min,
10 Min, 30 Min.
Watchdog Timeout (available only if Watchdog Mode is not Disabled)
The watchdog must be triggered (reset) within this span of time. Possible time settings are 0.4 Sec, 1
Sec, 5 Sec, 10 Sec, 30 Sec, 1 Min, 5 Min, 10 Min.
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BIOS-Description
Power Management Setup
Power Management/APM
If this option is Disabled, none of the below listed options are available, the system doesn't provide
you with power save features. The Optimal and Fail Safe default settings are Disabled.
Instant On Support
Instant On is a Power Managment Software for Windows 95. Must be Enabled to support this
Software. The Optimal and Fail Safe default settings are Disabled.
Green PC Monitor Power State
This option specifies the power management state that the Green PC-compliant video monitor enters
after the specified period of display inactivity has expired. The settings are Stand By, Suspend, Off.
Video Power Down Mode
This option specifies the power management state that the video subsystem enters after the specified
period of display inactivity has expired. The settings are Disabled, Standby, or Suspend.
Hard Disk Power Down Mode
This option specifies the power management state that the hard disk drive enters after the specified
period of HDD inactivity has expired. The settings are Disabled, Standby, or Suspend.
Hard Disk Time Out (Minute)
After this period, the hard disk drive is entering its power down mode. Possible settings are Disabled,
1, 2, 3, 4, 5....14.
Standby Time Out (Minute)
After this period, the specified devices are entering the standby mode. In Standby mode, some power
use is curtailed. Possible settings are Disabled, 1, 2, 3, 4, 5....14.
Suspend Time Out (Minute)
After this period, the specified devices are entering the suspend mode. In Suspend mode, nearly all
power use is curtailed. Possible settings are Disabled, 1, 2, 3, 4, 5....14.
Display Activity, IRQ3, IRQ4, IRQ5, IRQ7, IRQ9, IRQ10, IRQ11, IRQ12, IRQ13, IRQ14, IRQ15
These options enable event monitoring. When the computer is in a power saving mode, activity on the
named interrupt request line is monitored by AMIBIOS. When any activity occurs, the computer enters
Full On mode. Each of these options can be set to Monitor or Ignore. The Fail Safe default setting is
Ignore.
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BIOS-Description
Peripheral Setup
Onboard IDE
This option enables the onboard IDE controller. The settings are Disabled and Enabled. The Optimal
and Fail Safe default settings are Enabled.
Onboard FDC
This option enables the floppy drive controller on the motherboard. The settings are Enabled or
Disabled. The Optimal and Fail Safe default settings are Enabled.
Onboard Serial Port1
This option enables serial port 1 on the motherboard and specifies the base I/O port address for serial
port 1. The settings are Disabled, 3F8, 2F8, 3E8,2F8. The Optimal and Fail Safe default settings are
3F8.
Onboard Serial Port2
This option enables serial port 2 on the motherboard and specifies the base I/O port address for serial
port 2. The settings are Disabled, 3F8, 2F8, 3E8,2F8. The Optimal and Fail Safe default settings are
2F8.
Onboard Parallel Port
This option enables the parallel port on the motherboard and specifies the parallel port base I/O port
address. The settings are Disabled, 378, 278, 3BC. The Optimal and Fail Safe default settings are
378.
Parallel Port Mode
This option specifies the parallel port mode. EPP and ECP are bidirectional data transfer schemes that
adhere to the IEEE P1284 specifications. The settings are:
Setting
Description
Normal
The normal parallel port mode is used. This is the default
setting.
BI-DIR
The bidirectional parallel port mode is used.
EPP 1.7
The parallel port can be used with devices that adhere to the
Enhanced Parallel Port (EPP) specification version 1.7. EPP
uses the existing parallel port signals to provide asymmetric
bidirectional data transfer driven by the host device.
The parallel port can be used with devices that adhere to the
Enhanced Parallel Port (EPP) specification version 1.9.
The parallel port can be used with devices that adhere to the
Enhanced Capabilities Port (ECP) specification.
EPP 1.9
ECP
Parallel Port IRQ (available only if Onboard Parallel Port is not set to Auto)
This option specifies the IRQ line for the parallel port. The settings are 5, 7. The Optimal and Fail Safe
default settings are 7.
Note: If Parallel Port Mode is ECP DMA channel 3 is used!
SSD INT13h Drive Mapping
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MOPS/586
BIOS-Description
This option enables the silicon state disk as either drive 80h, 81h, 82h, or 83h (C, D, E or F). The
settings are Disabled, 80h, 81h,82h, 83h. The Optimal and Fail Safe default settings are Disabled.
SSD Write Protect
This option allows to write protect the silicon state disk. The settings are Disabled and Enabled. The
Optimal and Fail Safe default settings are Disabled.
SSD Erase On Next Boot
If this option is set to Enabled, the silicon state disk will be erased on the next boot. The settings are
Disabled and Enabled. The Optimal and Fail Safe default settings are Disabled.
Auto-Detect Hard Disks
This useful option helps to identify the drive parameters of IDE hard disks. The BIOS shows the
Standard CMOS setup and enters the detected HDD parameters automatically.
Change User Password
Use this option to enter the password for system or setup protection. It is available after the
Supervisor Password is defined. Refer also to option Password Check of the Advanced CMOS
Setup Screen.
Change Supervisor Password
Use this option to enter the password for system or setup protection. After this password is set, the
User Password can be defined. To change the Supervisor Password first erase the User
Password. Refer also to option Password Check of the Advanced CMOS Setup Screen.
Auto Configuration with Optimal Settings
Use this option to configure the system with highspeed settings for increasing the system
performance.
Auto Configuration with Fail Safe Settings
Use this option to configure the system with fail safe settings for increasing the system stability.
Save Settings and Exit
Use this option to save all setup changes to the NV-EEPROM. This option is also available in the
Main Menu by pressing <F10>.
Exit Without Saving
Use this option to discard all setup changes. This option is also available in the Main Menu by
pressing <ESC>.
Tri-M Systems Inc., 6-1301 Ketch Court, Coquitlam, B.C., V3K 6X7, Canada
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MOPS/586
BIOS-Description
AMIBIOS Configuration Screen
AMIBIOS System Configuration (C) 1985-1996, American Megatrends Inc.,
Main Processor
Math Processor
Floppy Drive A:
Floppy Drive B:
AMIBIOS Date
: Am5x86 (X5)
: Built-In
: 1.44 MB 3½"
: None
Base Memory Size
Ext. Memory Size
Display Type
: 640KB
: 3072KB
: VGA/EGA
: 3F8,2F8
: 378
Serial Port(s)
Parallel Port(s)
Power Management
: 07/15/95
: 133MHz
Pocessor Clock
Hard Disks(s)
: Disabled
Cyl Head Sector Size
LBA
32Bit Block PIO
Mode
Off
Mode
Off
Mode Mode
8sec 0
Primary Master
: 1010 6 55 163MB
Example screen for board equipped with an AMD5x86 133MHz, 4MB RAM, booting from a 163 MB hard disk.
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MOPS/586
Hardware Description
Hardware Description
ALI-Chipset Features
The MOPS/586 Board operates with the chipset ALI 1489/87, which provides following features:
·
·
·
·
·
·
·
32 bit PCI Interface
integrated DRAM controller
integrated PMU controller
integrated PCI to ISA bridge (fully compliant to PCI 2.0)
enhanced DMA functions
build-in two 8259A interrupt controllers
fast PCI IDE Master Controller for ATA PIO mode 4 harddisks
Memory configuration
One memory bank for DRAM extension is located at the bottom of the MOPS/586 board. The following
memory configurations are available:
total memory
64 MB
32 MB
16 MB
8 MB
technology
single sided
double sided
single sided
single sided
double sided
single sided
single sided
8 MB
4 MB
1 MB
The chipset support FPM- and EDO-Memory.
For highest memory performance, it is recommended to use EDO-Memory-modules.
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MOPS/586
Hardware Description
Interrupts
IRQ0
IRQ1
IRQ2
IRQ3
IRQ4
IRQ5
IRQ6
IRQ7
IRQ8
IRQ9
IRQ10
IRQ11
IRQ12
IRQ13
IRQ14
IRQ15
System Timer
Keyboard
Cascade
COM 2
COM 1
Ethernet (default)
Floppy
LPT 1
Clock/Calendar
Available
Available
Available
Available
Numeric-processor
EIDE Channel 1
Available
note (1)
note (1)
note (2)
notes (2)
notes (2)
note (2)
Notes:
(1)
(2)
if serial ports are disabled via system bios, these interrupts are available for other devices.
possible settings for Ethernet controller, IRQ5 is the factory default.
DMA
DMA 0
DMA 1
DMA 2
DMA 3
DMA 4
DMA 5
DMA 6
DMA 7
Available
Available
Floppy
Available
Cascade
Available
Available
Available
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MOPS/586
Hardware Description
The JIDA Standard
JIDA is the abbreviation for JUMPtec® Intelligent Device Architecture.
Every board with onboard BIOS extension shall support the following function calls, which supply
information about the board. JIDA functions are called via Interrupt 15h with AH=EAh, AL=function
number, DX=4648h (security word), CL=board number (starting with 1).
The interrupt will return with CL#0, if a board with the number specified in CL does not exist. CL will be
equal to 0 if the board number exists. In this case, the content of DX is used to determine, if operation
was successful. DX=6B6Fh indicates successful operation, any other value indicates an error.
To get information about the installed boards following the JIDA standard, the following procedrue is
recommended:
Call ”Get Device ID” with CL=1. The name of the first device installed will be returned. If result was
”Board exists” (CL=0), increment CL and call ”Get Device ID” again. Repeat until result is ”Board not
present” (CL#0). You now know the names of all boards within your systen that follow the JIDA
standard. More information about a specific board may then be obtained by calling the appropriate
inquiry function with the board’s number in CL.
WARNING: Association between board and board number may change due to configuration changes.
Do not rely on any association between board and board number. Instead, always use the
procedure described in the preceding paragraph first, to determine the association between board and
board number.
The source of a Turbo-PascalÔ unit called JIDA_ACC.PAS showing JIDA access is included on the
support disk.
Get Manufacturer ID
Input:
Int 15h
AX
= EA00h
DX = 4648h
CL
= Board number (1=first board a.s.o.)
ES:BX = Pointer to destination data area
Output:
CL=0: Board present
CL¹ 0: Board not present
DX=6B6Fh: Function successful
DX¹ 6B6Fh: Error
Description:
If CL=0 and DX=6B6Fh, then 4 Byte manufacturer ID were copied to the
area pointed to by ES:BX
By default, the result will be ”JUMP”.
Note: There is no ending zero byte.
Function must be implemented on every device supporting the JIDA.
Get Device ID
Input:
Int 15h
AX
CL
= EA01h
= Board number
DX = 4648h
ES:BX = Pointer to destination data area
Output:
CL=0: Board present
CL¹ 0: Board not present
DX=6B6Fh: Function successful
DX¹ 6B6Fh: Error
Description:
If CL=0 and DX=6B6Fh, then 7 Byte device ID were copied to area pointed
to by ES:BX
By default, the result will be ” ”
Note: There is no ending zero byte.
Function must be implemented on every device supporting the JIDA.
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MOPS/586
Hardware Description
Get Manufacturing Date
Input:
Int 15h
AX
= EA02h
DX = 4648h
CL
= Board number
Output:
CL=0: Board present
DX=6B6Fh: Function successful
CL¹ 0: Board not present
BX = Manufacturing date
DX¹ 6B6Fh: Fn.not implemented
Description
If CL=0 and DX=6B6Fh, then BX=Manufacturing date. Date format is the
same as used for DOS files:
Bit0..4:
Bit5..8:
Day
Month
Bit9..15: Years since 1980
Get Serial Number
Input:
Int 15h
AX
CL
= EA03h
= Board number
DX = 4648h
ES:BX = Pointer to destination data area
Output:
CL=0: Board present
CL¹ 0: Board not present
DX=6B6Fh: Function successful
DX¹ 6B6Fh: Fn.not implemented
Description:
If CL=0 and DX=6B6Fh, then 10 Byte serial number were copied to area
pointed to by ES:BX
The result is different for each single P488.
Note: There is no ending zero byte.
Get Hardware Revision
Input:
Int 15h
AX
CL
= EA04h
= Board number
DX = 4648h
Output:
CL=0: Board present
DX=6B6Fh: Function successful
CL¹ 0: Board not present
BH=Major revision number
BL=Minor revision number
DX¹ 6B6Fh: Fn.not implemented
Get Firmware Revision
Input:
Int 15h
AX
CL
= EA05h
= Board number
DX = 4648h
Output:
CL=0: Board present
DX=6B6Fh: Function successful
CL¹ 0: Board not present
BH=Major revision number
BL=Minor revision number
DX¹ 6B6Fh: Fn.not implemented
Get Last Repair Date
Input:
Int 15h
AX
CL
= EA06h
= Board number
DX = 4648h
Output:
CL=0: Board present
CL¹ 0: Board not present
BX = Last repair date.
DX=6B6Fh: Function successful
DX¹ 6B6Fh: Fn.not implemented
Description:
If CL=0 and DX=6B6Fh, then BX=Last repair date. For date format see
function ”Get Manufacturing Date”.
If board was never repaired, result will be equal to manufacturing date.
Tri-M Systems Inc., 6-1301 Ketch Court, Coquitlam, B.C., V3K 6X7, Canada
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MOPS/586
Hardware Description
Read Running Time Meter
Input:
Int 15h
AX
= EA07h
DX = 4648h
CL
= Board number
Output:
CL=0: Board present
DX=6B6Fh: Function successful
CL¹ 0: Board not present
BX=Running time (hours)
CH=Overflow counter
DX¹ 6B6Fh: Fn.not implemented
ReadBoot Counter
Input:
Int 15h
AX
CL
= EA08h
= Board number
DX = 4648h
Output:
CL=0: Board present
CL¹ 0: Board not present
BX = Boot counter
DX=6B6Fh: Function successful
DX¹ 6B6Fh: Fn.not implemented
Get JIDA Revision Level
Input:
Int 15h
AX
CL
= EA09h
= Board number
DX = 4648h
Output:
CL=0: Board present
DX=6B6Fh: Function successful
CL¹ 0: Board not present
DX¹ 6B6Fh: Fn. not implemented
BH = Major revision number (currently 2)
BL = Minor revision number (currently 4)
Read User Byte from
EEPROM
Int 15h
Input:
AX
CL
BH
= EA40h
= Board number
= Number of byte to read (0..15 allowed)
DX = 4648h
Output:
CL=0: Board present
CL¹ 0: Board not present
BL = Value read
DX=6B6Fh: Function successful
DX¹ 6B6Fh: Fn.not implemented
Write User Byte to EEPROM Int 15h
Input:
AX
CL
BH
BL
= EA41h
= Board number
= Number of byte to write (0..15 allowed)
= Value to write
DX = 4648h
Output:
CL=0: Board present
DX=6B6Fh: Function successful
CL¹ 0: Board not present
DX¹ 6B6Fh: Fn.not implemented
Get Number of User Bytes
available in EEPROM
Input:
Int 15h
AX
CL
= EA42h
= Board number
DX = 4648h
Output:
CL=0: Board present
DX=6B6Fh: Function successful
CL¹ 0: Board not present
BL=Number of Bytes available
Note: BL=0 means 256 Bytes
DX¹ 6B6Fh: Fn.not implemented
Tri-M Systems Inc., 6-1301 Ketch Court, Coquitlam, B.C., V3K 6X7, Canada
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MOPS/586
Hardware Description
Watchdog Extension
With the aid of a special Interrupt 15h function, the watchdog on a JUMPtec board can be controlled
very easily.
The respective functions have the following calling conventions:
Watchdog init
Input:
Int 15h
AH
00h
= E0h
AL
= 00h
BX
CX
DX
= timeout in 0.2sec increments
= delay in 0.2sec increments
= watchdog action (0 = reset, 1 = NMI)
Output:
None
Description:
This funcion is a public JUMPtec INT15h extension used to init the
watchdog on JUMPtec boards.
Watchdog trigger
Input:
Int 15h
AH
AL
01h
= E0h
= 01h
Output:
None
Description:
This funcion is a public JUMPtec INT15h extension used to trigger the
watchdog on JUMPtec boards.
Detailed description of the watchdog function:
Programming:
The function Init watchdog must be called only once. The three parameters delay time, timeout time
an trigger event must be set. After initialisation the watchdog will be active only after the delay time
has expired. The watchdog must be reset during the timeout time with the trigger watchdog function.
Otherwise a RESET or NMI will occur depending on trigger event.
The trigger- and the delay time can be set in steps of 0.2 sec.
The maximum values are:
Ÿ timeout time
Ÿ delay time
65535*0.2sec. = 13107s @ 3h 38min
32767*0.2sec. = 6553s @ 1h 49min
The system BIOS makes it very easy to use the watchdog via software interrupt 15h. Two ways are
possible to access the watchdog: The simplest way is to use AH=0E0h to init or trigger the watchdog.
The second way is to use the functions ”Write I2C” and ”Read I2C” with AH=0E1h and handling the I2C
bus protocol.
A) Simple with AH = E0h
Init Watchdog (Int 15h, AH=E0h)
Called with
AX
BX
E000h
timeout time
BX = 0 ð watchdog off. BXmax = 0FFFFh
delay time
CX = 0 ð no delay. CXmax = 07FFFh
trigger event
CX
DX
DX = 0 ð RESET, DX = 1 ð IOCHCHK
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MOPS/586
Network Operation
Returns
Example
no
mov
mov
mov
mov
int
ax,0E000h
bx,5
cx,5
dx,0
15h
; Watchdog set
; 5*0,2s = 1s Timeout
; 5*0,2s = 1s Delay
; after Timeout and Delay generate RESET
Network Operation
Overview
The Crystal LAN™ CS8900 ISA Ethernet Adapter from Crystal Semiconductor follows IEEE 802.3
standards and supports half- or full-duplex operation in ISA bus computers on 10 Mbps Ethernet
networks.
The driver can be download from the webpage:
http://www.jump.de/jumpdata/software/ETHERNET.EXE
For further information read the readme-File or contact the technical support.
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MOPS/586
Specifications
Specifications
Mechanical Specifications
PC/104 Bus connector:
Module-dimensions:
2 pieces of 2*32 pin male and 2*20 pin male connector
length * width 95 mm * 90 mm (3,7" * 3,5 ")
Electrical Specifications
Supply voltage:
5V DC +/- 5%
Supply voltage ripple:
100 mV peak to peak 0 - 20 MHz
1,6 A + current DRAM + current Prozessor = 3,5 A
Supply current (maximal):
( S max. current all Parts)
Prozessor maximal current (AMD-data-sheet):
931 mA
DRAM maximal current (MICRON data sheet): 4 Meg x 32
4 Meg x 32
0,80 A
0,82 A
Supply current (typical, DOS-Prompt):
with 4 MB DRAM
1,29 A
external RTC battery voltage
2,4 – 4,0 V
external RTC battery quiescent current
max. 4,5 uA
Environmental Specifications
Temperature:
Humidity:
operating 0 to +60 C ((*)with appropriate airflow))
non operating: -10 to +85 °C
operating: 10% to 90% (non-condensing)
non operating: 5% to 95% (non-condensing)
(*) The maximum operating temperature is the maximum measurable temperature on any spot on the
modules´s surface. It is the user´s responsibility to maintain this temperature within the above
specification.
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MOPS/586
Peripheral Interface
Peripheral Interface
Keyboard, Reset, Battery, Speaker
Pin Signal
name
Function
5-pin diode
keyboard
adapter
6-pin minidin
keyboard
adapter (PS2)
1
2
3
4
5
6
7
8
9
SPKR
GND
POWERGOOD
/KLOCK
KDATA
KCLK
GND
VCC
VBAT
speaker output
ground
reset input
keyboard lock
keyboard data
keyboard clock
ground
2
1
4
5
1
5
3
4
+5V
VBAT input (3,6V)
reset input
10 POWERGOOD
/KLOCK (keyboard lock)
input on CPU modules
output on any other module
input to the keyboard controller input port 1 bit 7 .
POWERGOOD (reset input)
input on CPU modules
open collector output on all other module
When power good goes high, it starts the reset generator on the CPU module to pull the
onboard reset line high after a valid reset period. This pin can also be used as a low active
hardware reset for modules.
SPKR (speaker output)
open collector output on modules which can drive a loudspeaker.
input on modules which connect a 8 Ohm loudspeaker to this pin
An 8 Ohm loudspeaker is connected between SPEAKER and GND. Only one loudspeaker
should be connected to this pin. Usually only the CPU drives this pin, however other modules
can also use this signal to drive the system loudspeaker.
KDATA (keyboard data)
bi-directional I/O pin on CPU modules
Keyboard data signal.
KCLK (keyboard clock)
bi-directional I/O pin on CPU modules
Keyboard clock signal.
VBAT (system battery connection)
This pin connects a system battery to all modules.
The battery voltage has to be higher than 3.0V and lower than 4.0V. Either a 3V or 3.6V
battery is recommended.
Note, that there is no battery needed to hold the CMOS-setup data. Your configuration
concerning hard disks, floppy drives etc. is automatically saved in an onboard FRAM.
Nevertheless the battery is necessary to serve the CMOS date and time while power
consumption is turned off.
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MOPS/586
Peripheral Interface
1 (Speaker)
2 (GND)
3,10 (PowerGood)
4 (/KLOCK)
5 (KDATA)
6 (KCLK)
3
1
5
2
7 (GND)
4
8 (+ 5V)
9 (VBAT)
Serial Port COM 1, 2 (RS232C)
Pin Signalname In / Out
DSUB-25
DSUB-9
(need Adapter) (need Adapter)
1
2
3
4
5
6
7
8
9
10
DCD
DSR
RxD
RTS
TxD
CTS
DTR
RI
In
In
In
Out
Out
In
Out
In
8
6
3
4
2
5
20
22
7
1
6
2
7
3
8
4
9
5
--
GND
+5V
--
--
--
For signal description please refer additional literatur.
The four serial input/output interfaces can be set to any I/O-address on the periphal setup. The serial
ports are completely compatible with the serial port implementation used on the IBM Serial Adapter.
Their interrupts are mapped to IRQ4, IRQ3, IRQ10, IRQ11.
Tri-M Systems Inc., 6-1301 Ketch Court, Coquitlam, B.C., V3K 6X7, Canada
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MOPS/586
Peripheral Interface
Parallel Port LPT 1
Pin
Signalname
Function
In / Out
DSUB-25
(need Adapter)
1
3
5
7
/Strobe
Data 0
Data 1
Data 2
Data 3
Data 4
Data 5
Data 6
Data 7
/ACK
BUSY
PAPER out
SEL out
/AUTOFD
/ERROR
/INIT
Out
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
in
in
in
in
out
in
out
out
--
--
--
--
--
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
9
11
13
15
17
19
21
23
25
2
4
6
8
SEL in
Vcc
GND
GND
GND
17
26
10,12
14,16
18,20
22,24
+ 5 V
NC
18 - 25
18 - 25
18 - 25
18 - 25
Signal Ground
Signal Ground
Signal Ground
Signal Ground
GND
For signal description please refer additional literatur.
The Centronics printer interface can be programmed via the system setup menu.Refer the periphal
setup for more informations. The parallel port is completely compatible with the parallel port
implementation used in the IBM PS-II-Parallel Adapter.
Floppy Connector
Pin Signal
Function
+ 5V
+ 5V
+ 5V
-
Pin Signal
Function
index
drive select 0
disk change
-
1
VCC
VCC
VCC
NC
2
IDX
3
4
6
8
DS0
/DCHNG
NC
5
7
9
NC
NC
NC
GND
GND
GND
GND
GND
GND
-
-
-
10
12
14
16
18
20
22
24
26
Mo0
DIR
STEP
WD
WG
TR00
WP
motor on
direction select
step
write data
write gate
track 00
write protect
read data
side one select
11
13
15
17
19
21
23
25
ground
ground
ground
ground
ground
ground
RD
SIDE
For signal description please refer additional literatur.
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IDE Connector for 2,5" Hard Disk
Pin Signal
Pin Signal
1
3
/RESET
D7
2
4
GND
D8
5
D6
6
D9
7
9
D5
D4
D3
D2
D1
D0
GND
NC
/IOW
/IOR
NC
8
D10
D11
D12
D13
D14
D15
NC
GND
GND
GND
BALE
GND
/IOCS16
NC
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
NC
IRQ14
SA1
SA 0
/CS0
/HDLED
VCC
GND
SA2
/CS1
GND
VCC
NC
For signal description please refer additional literatur.
Ethernet Connector
Pin Signalname
Function
In/Out
1
2
3
4
5
6
7
8
TXD+
TXD-
RXD+
NC
10BASE-T Transmit
10BASE-T Transmit
10BASE-T Receive
unused Pin
unused Pin
10BASE-T Receive
LED
differential Output
differential Output
differential Input
NC
RXD-
LNLED
LKLED
differential Input
Output
Output
LED
TXD+, TXD-
Differential output pair drives 10 Mb/s Manchester encoded data to the 10BASE-T transmit
lines.
RXD+, RXD-
Differential input pair receives 10 Mb/s Manchester encoded data from the 10BASE-T receive
lines.
LKLED, LNLED
Connect with Cathode of Ethernet-LED‘s.
Feature Connector
Only for manufacture, not for use by customer
Tri-M Systems Inc., 6-1301 Ketch Court, Coquitlam, B.C., V3K 6X7, Canada
Phone: (604) 527-1100, (800) 665-5600 Fax: (604) 527-1110
MOPS/586
Peripheral Interface
Power Connector
Pin
1
Pin function
GND
2
+5V
3
4
5
keypin
+12V
-5V
6
-12V
7
GND
8
+5V
Power Pins
The MOPS/586 is a +5 V only module. Nevertheless the power connector offers the possibility
to supply with the additional voltages +12V, -12V and -5V which may be needed by other
boards in the PC/104 system. The power consumption of all available power pins on the
MOPS/586 is limited to 5A in total (1A per pin, with 2 pins on the power connector, 2 pins on
the XT-bus and 1 pin on the AT-bus) and at GND up to 8A. Systems consuming more then 2A
shouldn’t be served over the power connector only. Systems consuming more then 5A must
provide power supply through an additional connector on another board.
Keypin
The keypin avoids wrong insertion of the 8 pin power connector offered by JUMPTEC.
Tri-M Systems Inc., 6-1301 Ketch Court, Coquitlam, B.C., V3K 6X7, Canada
Phone: (604) 527-1100, (800) 665-5600 Fax: (604) 527-1110
MOPS/586
Peripheral Interface
PC/104-Connector
Specification XT Bus
Pin
Signal Name
Pin
Signal Name
A1
A2
A3
/IOCHCK
SD7
SD6
B1
B2
B3
GND
RESETDRV
+5V
A4
SD5
B4
IRQ9
A5
SD4
B5
-5V
A6
A7
SD3
SD2
B6
B7
DRQ2
-12V
A8
SD1
B8
/0WS
A9
SD0
B9
+12V
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
A22
A23
A24
A25
A26
A27
A28
A29
A30
A31
A32
IOCHRDY
AEN
SA19
SA18
SA17
SA16
SA15
SA14
SA13
SA12
SA11
SA10
SA9
SA8
SA7
SA6
SA5
SA4
SA3
SA2
SA1
B10
B11
B12
B13
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
GND (*)
/SMEMW
/SMEMR
/IOW
/IOR
/DACK3
DRQ3
/DACK1
DRQ1
/REFRESH
SYSCLK
IRQ7
IRQ6
IRQ5
IRQ4
IRQ3
/DACK2
TC
BALE
+5V
OSC
GND
SA0
GND
GND
Specification AT Bus X2, C0 - C19
Pin
Signal Name
Pin
Signal Name
C0
GND
D0
GND
C1
C2
C3
C4
C5
C6
C7
C8
/SBHE
LA23
LA22
LA21
LA20
LA19
LA18
LA17
/MEMR
/MEMW
SD8
D1
D2
D3
D4
D5
D6
D7
D8
/MEMCS16
/IOCS16
IRQ10
IRQ11
IRQ12
IRQ15
IRQ14
/DACK0
DRQ0
/DACK5
DRQ5
/DACK6
DRQ6
/DACK7
DRQ7
+5V
/MASTER
GND
GND
C9
D9
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
D10
D11
D12
D13
D14
D15
D16
D17
D18
D19
SD9
SD10
SD11
SD12
SD13
SD14
SD15
GND (*)
(*) Key pin for PC/104; GND for PC/104+ - specification
For signal description and periphal driver current refer the PC/104 Specification.
Any signals are open collector for multiple sources and can not drive by TTL.
Tri-M Systems Inc., 6-1301 Ketch Court, Coquitlam, B.C., V3K 6X7, Canada
Phone: (604) 527-1100, (800) 665-5600 Fax: (604) 527-1110
MOPS/586
Literature, Standards, Links
Literature, Standards, Links
PC/104-Bus
·
·
PC/104 Specification Version 2.3 June 1996
PC/104 Consortium; www.pc104.org
Embedded PCs
Markt&Technik GmbH, ISBN 3-8272-5314-4 (german)
ISA-Bus, Standard PS/2 - Connectors
·
ISA System Architecture
Addison-Wesley Publishing Company
·
Edward Solari, AT BUS Design IEEE P996 Compatible, Annabooks San Diego CA. ISBN 0-929392-08-6
·
PC Handbook, Sixth Edition, John P. Choisser and John O. Foster, Annabooks San Diego CA. ISBN 0-
·
·
·
·
·
AT IBM Technical Reference Vol 1&2, 1985
ISA Bus Specifications and Application Notes, January 30, 1990, Intel
Technical Reference Guide, Extended Industry Standard Architecture Expansion Bus, Compaq 1989
Personal Computer Bus Standard P996, Draft D2.00, January 18, 1990, IEEE Inc
Embedded PCs
Markt&Technik GmbH, ISBN 3-8272-5314-4 (german)
RS232C
·
EIA•232•E Interface between data terminal equipment and date circuit•terminating equipment employing
serial binary data interchange (ANSI/IEA•232•D)
National Semiconductor's Interface Data Book includes any applications notes. These notes are also available
notes. Entering „232“ as search criteria to get a current list of related application notes.
Tri-M Systems Inc., 6-1301 Ketch Court, Coquitlam, B.C., V3K 6X7, Canada
Phone: (604) 527-1100, (800) 665-5600 Fax: (604) 527-1110
MOPS/586
Document Revision History
Document Revision History
Filename
Date
Edited by
KW
KW
KW
KW
Alteration to preceding revision
Created
Add SSD
Onboard-DRAM, superMOPSpro replaced
Add L1-Cache
changed typ. current in chapter Electrical specifications,
changed IRQ10 and IRQ11 to available in chapter
Interrupts
P488M210
P488M211
P488M212
P488M213
P488M214
10.09.98
16.09.98
28.09.98
10.01.99
22.12.99
Ba
Tri-M Systems Inc., 6-1301 Ketch Court, Coquitlam, B.C., V3K 6X7, Canada
Phone: (604) 527-1100, (800) 665-5600 Fax: (604) 527-1110
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