SUPER MICRO Computer Personal Computer IRV 3702 User Manual

User's Manual  
for the  
IRV-3702 Single Board Computer with AGP/ VGA & Ethernet  
MCSI PART NO. 89000 IRV-3702  
All-In-One Single Board Computers  
For Industrial/ Embedded Systems Applications  
MICRO COMPUTER SPECIALISTS, INC.  
" T h e E m b e d d e d P C S p e c i a l i s t s "  
1070 Joshua Way  
Vista, CA 92083  
U.S.A.  
Voice (760) 598-2177 - Fax (760) 598-2450  
email: mcsi@mcsi1.com WebSite: http:/ / www.mcsi1.com  
 
PREFACE  
This manual provides information about the MCSI IRV-3702 All-In-One Single Board Computer. This  
information is intended for users who must implement IBM PC/ AT compatible computer solutions to  
a wide variety of applications that cannot be satisfied using conventional desktop computers. This  
manual assumes that the reader has a good understanding of MS-DOS and the standard IBM PC/ AT  
compatible architecture. For more information on the IBM PC compatible hardware and software  
architecture, refer to any of the many books available on the subject. A few suggestions are listed  
below:  
· Advanced MS-DOS Programming, Microsoft Press  
· Programmers Guide to the IBM PC, Microsoft Press  
· Programming the 80386, Sybex  
· Undocumented DOS, Addison Wesley  
INVENTORY CHECKLIST  
The complete IRV-3702 All-In-One Single Board Computer package consists of the following:  
IRV-3702 All-In-One Single Board Computer  
PROMDISK-Chip Software Utilities with ROM-DOS ver 6.22 (optional)  
VGA and E2Key Software Utilities  
This Manual  
If any of the above is missing or appears to be damaged, inform MCSI immediately.  
 
 
Ta b le o f Co nte nts  
Section 1 - Introduction ___________________________________________________________________ 1  
Features............................................................................................................................................................1  
Section 2 - System Description _____________________________________________________________ 2  
Processor..........................................................................................................................................................2  
System Memory (SDRAM)............................................................................................................................2  
DMA Controller..............................................................................................................................................2  
Interrupt Controller........................................................................................................................................3  
Timers ..............................................................................................................................................................3  
Clock/ Calendar and CMOS RAM ...............................................................................................................3  
Keyboard Port.................................................................................................................................................3  
Mouse Port ......................................................................................................................................................4  
Speaker Port ....................................................................................................................................................4  
Reset Switch ....................................................................................................................................................4  
Printer Port ......................................................................................................................................................4  
Serial Ports.......................................................................................................................................................4  
Floppy Disk Port.............................................................................................................................................4  
EIDE Hard Disk Port......................................................................................................................................5  
AGP/ VGA Display Port................................................................................................................................5  
WatchDog Timer ............................................................................................................................................5  
Optional PROMDISK-Chip Disk Emulator ................................................................................................5  
High Speed PCI Expansion Bus....................................................................................................................5  
Ethernet Port ...................................................................................................................................................6  
Universal Serial Bus Port...............................................................................................................................6  
IrDA Infrared Interface Port .........................................................................................................................6  
E2 Key 1K-bit User EEPROM ........................................................................................................................6  
Section 3 - Setup _________________________________________________________________________ 7  
Section 4 - Using the PROMDISK-Chip Disk Emulator ________________________________________ 8  
Using ROM-DOS and Other Disk Operating Systems ..............................................................................8  
PROMDISK Low Level Format ....................................................................................................................8  
Section 5 - Installation ____________________________________________________________________ 9  
Installing the DIMMs .....................................................................................................................................9  
Installing the CPU ..........................................................................................................................................9  
Installing the PROMDISK-Chip ...................................................................................................................9  
Completing the Installation...........................................................................................................................10  
Appendix A - Specifications _______________________________________________________________ 11  
Appendix B - Board Outline _______________________________________________________________ 12  
Appendix C - Memory and I/ O Maps ______________________________________________________ 13  
Appendix D - Connectors _________________________________________________________________ 14  
Appendix E - Configuration Jumpers _______________________________________________________ 18  
Appendix F - BIOS Error Beep Codes _______________________________________________________ 20  
 
 
SECTION 1 - INTRODUCTION  
The MCSI IRV-3702 Celeron All-In-One Single Board Computer (SBC) contains all the basic elements  
found in a high-performance IBM PC/ AT compatible desktop computer system plus some unique  
features that make it ideally suited for industrial applications. The most outstanding features include:  
ä
An optional 32MB PROMDISK-Chip Disk Emulator, dual PCI EIDE hard disk ports to support four  
EIDE drives, a high performance multi-I/ O controller, a WatchDog timer, a 1K-bit E2Key memory for  
user data, and a 10/ 100Mbps Ethernet Port. The board uses the Intel 82443BX advanced chipset, and  
the S3 Trio 3D/ 2X Graphics controller. The multi-I/ O controller includes: dual 16C550 UARTs, a  
floppy port, and a SPP/ EPP/ ECP multi-mode bi-directional parallel port. The optional PROMDISK-  
Chip Disk Emulator comes complete with ROM-DOS version 6.22, making it ideal for embedded  
diskless applications. The 1K-bit E2Key memory is a non-volatile memory useful for storing user data,  
such as: critical system parameters, terminal address, etc. The WatchDog timer is ideal for controlling  
critical processes where unattended operation is essential.  
The IRV-3702 SBC is fully compatible with the ISA Bus and the PCI Bus (version 2.1) which means  
virtually all the software written for the IBM PC/ AT will run on the IRV-3702 SBC.  
FEATURES  
A complete list of features is listed below:  
· IBM PC/ AT Compatible Plug-in Computer  
· Supports the Intel Celeron Processor up to 500MHz  
· Includes Zero Insertion CPU Socket 370  
· Intel 82443BX ChipSet  
· Includes 32 bit PCI 2.1 Compatible Bus  
· AMI Plug-n-Play Flash BIOS  
· Passive Backplane Architecture  
· S3 Trio 3D AGP/ VGA Controller and 4MB Video RAM  
· 10/ 100Mbps Auto-Sensing Ethernet Port Supports IEEE 802.3u 100BASE-TX Standard  
· 1G-Byte High Performance SDRAM System Memory (4-168 pin DIMMs)  
· Dual Floppy Disk Port Supports Two 3.5" or 5.25" Drives up to 2.88M-bytes  
· PCI Extended EIDE Hard Disk Port Supports up to Four Drives  
· PS2/ AT Compatible Keyboard Port  
· PROMDISK-Chip Socket Supports up to 32MB PROMDISK-Chip Disk Emulator  
· PS2 Compatible Mouse Port  
· Two High Speed 16C550 Compatible RS-232 Serial Ports  
· Multimode Bi-directional Parallel Printer Port  
· Dual Universal Serial Bus Ports for future expansion  
· Infrared Data Access Port for future applications  
· Clock/ Calendar with Battery Back-up  
· Low Power CMOS Design  
· Full Size AT Plug-in Multilayer Board for Low EMI and High Reliability  
· WatchDog Timer and Power Monitor  
· On-board Mini Speaker  
· Optional External Reset  
· Optional Datalight ROM-DOS 6.22 Operating System  
1
 
SECTION 2 - SYSTEM DESCRIPTION  
The following sections describe the major system features of the IRV-3702 All-In-One Single Board  
Computer.  
PROCESSOR  
The IRV-3702 SBC supports the Intel Celeron processor up to 500MHz. The Celeron microprocessor  
includes MMX media enhancement technology, dynamic execution technology,  
a
32Kbyte  
(16Kbyte/ 16Kbyte) non-blocking, level-one cache that provides fast access to heavily used data, and  
128Kbyte L2 cache. The on-board jumper selectable clock generator and ZIF CPU socket makes  
upgrading to a higher performance CPU easy. Some of the distinctive features of the Celeron  
processor include:  
· Enhanced 64-bit data bus  
· Integrated 128Kbyte L2 cache  
· 16Kbyte code and 16Kbyte data caches  
· 1G-byte Directly Addressable Memory Space  
· Dynamic execution technology  
· MMX multimedia technology  
· On-chip Pipelined Floating Point Processor  
· 66 MHz multi-transaction system bus  
· Integrated Memory Manager  
· Branch prediction feature  
SYSTEM MEMORY (SDRAM)  
The IRV-3702 SBC can support up to 1G-bytes of synchronous dynamic random access memory  
(SDRAM) organized as four banks of 32Mx72 including eight parity bits. The memory is configured  
using four dual in-line memory module sockets, which will accept 168-pin dual in-line memory  
modules (DIMMs) organized as 256MB (maximum) with a maximum access time of 10ns.  
DMA CONTROLLER  
The IRV-3702 SBC memory refresh and DMA functions are included in the System Controller chip that  
includes the equivalence of two 82C37 DMA controllers. The two DMA controllers are cascaded to  
provide four DMA channels for transfers to 8-bit peripherals (DMA1) and three channels for transfers  
to 16-bit peripherals (DMA2). DMA2 Channel 0 provides the cascade interconnection for the two  
DMA devices thereby maintaining IBM PC/ AT compatibility. The DMA channel assignments are  
listed below:  
DMA Channel 0: Not Used (8-bit)  
DMA Channel 1: Alternate for Multi-mode Parallel Port (8-bit)  
DMA Channel 2: Floppy Disk (8-bit)  
DMA Channel 3: Multi-mode Parallel Port (8-bit)  
DMA Channel 5: Not Used (16-bit)  
DMA Channel 6: Not Used (16-bit)  
DMA Channel 7: Not Used (16-bit)  
The DMA request (DRQx) and acknowledge (DACKx/ ) lines are available on the P1 98-pin edge  
connector.  
2
 
INTERRUPT CONTROLLER  
The IRV-3702 SBC has the equivalence of two 82C59A interrupt controllers included in the System  
Controller chip. The controllers accept requests from peripherals, resolve priorities on pending  
interrupts and interrupts in service, interrupt the CPU, and provide the vector address of the interrupt  
service routine. The two interrupt controllers are cascaded in a fashion compatible with the IBM  
PC/ AT. The interrupt priority and assignments are shown below in descending order of priority:  
Highest IOCHCK/  
IRQ0  
Parity Check (Non-maskable)  
System Timer (Not Available)  
Keyboard (Not Available)  
Real Time Clock (Not Available)  
VGA Controller  
IRQ1  
IRQ8  
IRQ9  
IRQ10  
Not Used  
IRQ11  
Not Used  
IRQ12  
Not Used  
IRQ13  
IRQ14  
IRQ15  
Co-processor (Not Available)  
EIDE Disk Controller  
Not Used  
IRQ3  
Serial Port 2  
IRQ4  
Serial Port 1  
IRQ5  
IRQ6  
Lowest IRQ7  
Alternate for Parallel Port  
Floppy Disk Controller  
Parallel Port  
The interrupt request lines IRQx and IOCHCK/ are available on the 98-pin edge connector except as  
noted above.  
TIMERS  
The IRV-3702 SBC has the equivalence of an 82C54 Programmable Timer included in the System  
Controller chip. The 82C54 is a three channel Programmable Counter/ Timer chip. The three timers  
are driven by a 1.19MHz clock source derived from the on-board 14.31818MHz crystal oscillator. The  
three timers are used as follows:  
TIMER Channel 0: System Timer  
TIMER Channel 1: Timer for DRAM refresh  
TIMER Channel 2: Tone Generation for Audio  
CLOCK/ CALENDAR AND CMOS RAM  
The IRV-3702 SBC includes a DS12B887 real time clock/ calendar with 128 bytes of CMOS RAM and  
integral Lithium battery which provides over 10 years of data retention when the system power is off.  
The 128 byte CMOS RAM consists of 14 bytes used by the clock/ calendar, and 114 bytes used by the  
system BIOS.  
KEYBOARD PORT  
The IRV-3702 SBC contains an IBM PC/ AT compatible keyboard controller for interfacing to a generic  
IBM PC/ AT compatible keyboard. The keyboard controller assembles the serial data from the  
keyboard into bytes and interrupts the CPU via IRQ1 after each byte is ready to be read. The IRQ1  
service routine reads port 60H to get the keyboard scan code and acknowledges by sending a positive  
3
 
pulse to port 61H to clear the interrupt for the next byte. Refer to Appendix D for the keyboard  
connector location and pin assignments.  
MOUSE PORT  
The IRV-3702 SBC contains an IBM PS2 compatible mouse port for interfacing to a generic serial  
mouse. The mouse port controller assembles the serial data from the mouse into bytes and interrupts  
the CPU via IRQ1 after each byte is ready to be read. The IRQ1 service routine reads port 60H to get  
the scan code and acknowledges by sending a positive pulse to port 61H to clear the interrupt for the  
next byte. Refer to Appendix D for the mouse port connector location and pin assignments.  
SPEAKER PORT  
The IRV-3702 SBC contains an on-board sub-miniature audio speaker to provide audio interface to the  
user. Because of the small size of the speaker, the sound output is much reduced over that of the larger  
speaker found in most desktop computers. A connector is provided to connect an external speaker if  
the sound output is not sufficient. Refer to Appendix D for the speaker port connector location and pin  
assignments.  
RESET SWITCH  
The IRV-3702 SBC includes an on-board power detector and power on reset circuit to reset the  
computer after power is applied, and to hold the computer reset during low power, brown-out  
conditions. In addition, there are provisions for connecting an external, normally open, push button  
reset switch. Refer to Appendix D for the reset switch connector location and pin assignments.  
PRINTER PORT  
The IRV-3702 SBC contains a multimode parallel port that has the equivalence of an IBM PC/ AT  
Parallel Printer Port. The multimode parallel printer port supports the PS/ 2 type bi-directional parallel  
port (SPP), the enhanced parallel port (EPP), and the extended capabilities port (ECP) parallel port  
modes. The port can be configured as a standard IBM PC/ AT compatible LPT1, LPT2, or LPT3 printer  
port, or disabled completely using the CMOS Setup utility. Refer to Appendix D for the connector  
location and pin assignments.  
SERIAL PORTS  
The IRV-3702 SBC has the equivalence of two NC16C550 UARTs. The two UARTs can be configured  
as standard IBM PC/ AT RS-232C compatible COM1, COM2, COM3, or COM4 serial ports or  
individually disabled using the CMOS Setup utility. The data rates are independently programmable  
up to 115.2K baud. Refer to Appendix D for the connector location and pin assignments.  
FLOPPY DISK PORT  
The IRV-3702 SBC contains an IBM PC/ AT compatible dual floppy disk port with the equivalence of  
an NEC PD72056B Floppy Disk Controller, an on-chip digital data separator, and an IBM PC/ AT  
compatible floppy disk adapter bus interface circuit. The floppy disk port can be disabled using the  
CMOS Setup utility. An on-chip digital data separator provides optimum performance with the  
following disk drive types:  
5.25" 360K Double-Sided  
3.5"  
720K High Capacity  
5.25" 1.2M High Capacity  
3.5"  
3.5"  
1.44M High Density  
2.88M High Density  
Refer to Appendix D for the connector location and pin assignments.  
4
 
EIDE HARD DISK PORT  
The IRV-3702 SBC contains two PCI Extended Integrated Drive Electronics (EIDE) Ports that directly  
interface up to four hard disk drives with embedded controllers. The EIDE Disk Port can be disabled  
using the CMOS Setup utility. Refer to Appendix D for the connector location and pin assignments.  
AGP/ VGA DISPLAY PORT  
The IRV-3702 SBC includes a S3 Trio 3D AGP/ VGA display controller that interfaces directly to the  
local on-board PCI bus. The display port is fully compatible with IBM AGP, VGA, EGA, CGA, and  
MDA display adapters, and provides improved performance and additional functionality. The S3 Trio  
3D AGP display controller combines an enhanced 128-bit graphics engine, integrated 230 MHz  
RAMDAC and programmable dual-clock synthesizer, and an enhanced local peripheral bus/ video  
interface port for direct interface to live video and MPEG-2 peripherals. The board includes 4M-bytes  
of high-speed EDO DRAM and supports video resolutions up to 1600x1200x64K colors. Drivers for  
Windows 3.11, Windows NT, Windows 95/ 98, OS/ 2, and programming information can be obtained  
directly from S3’s Website http:/ / www.s3.com. Refer to Appendix D for connector location and pin  
assignments.  
WATCHDOG TIMER  
The IRV-3702 SBC includes a WatchDog Timer circuit. The WatchDog Timer ensures that if an  
application program gets "lost or bombs", the system will reset or a non-maskable interrupt will be  
issued to the CPU. The WatchDog Timer is enabled by reading I/ O port 443H. Once enabled, the  
WatchDog Timer must be triggered by reading I/ O port 443H within the time out period, otherwise  
the WatchDog Timer will force a hardware reset or activate the IOCHCK/ line, generating a non-  
maskable interrupt (NMI). The WatchDog Timer can be disabled by reading I/ O port 43H. A jumper  
is provided to select the time out period and to enable the WatchDog Timer circuit. Refer to Appendix  
E for the WatchDog Timer configuration jumpers.  
OPTIONAL PROMDISK-CHIP DISK EMULATOR  
The IRV-3702 includes a socket designed to accept the MCSI PROMDISK-Chip. The PROMDISK-Chip  
Disk Emulator is a unique Flash Memory array which emulates a bootable read/ write hard disk drive.  
The PROMDISK-Chip is offered in 4M, 8M, 16M, and 32M byte capacities and comes complete with  
ROM-DOS version 6.22 installed. The PROMDISK-Chip occupies an 8K block of memory space above  
640K, whose starting address is selected by jumper JP11. The PROMDISK-Chip uses the Datalight  
Flash/ FX integrated Flash File System and boot utilities. Refer to Appendix E for the jumper location.  
The Flash/ FX Variable Block Flash (VBF) File System and ROM-DOS allow the PROMDISK-Chip to  
operate as a non-volatile Read/ Write disk drive. This means that you can list directories, copy files,  
and read and write to the Flash memory on PROMDISK-Chip through standard DOS interrupts and  
commands.  
HIGH SPEED PCI EXPANSION BUS  
The IRV-3702 SBC is equipped with a high speed PCI expansion bus that allows the use of high- speed  
I/ O controllers such as SVGA, SCSI, Ethernet Network, and Serial Communications adapters. The PCI  
expansion bus is compatible with the PICMG (PCI Industrial Computer Manufacturers Group) 2.1  
standard and supports up to 4 PCI master peripheral boards.  
5
 
ETHERNET PORT  
The IRV-3702 SBC contains a Realtek RTL8139 highly integrated single-chip Fast Ethernet controller.  
The RTL8139 provides 10Mbps and 100Mbps auto-sensing operation, PCI bus master capability, and  
full compliance with IEEE 802.3u 100Base-TX specifications. The RTL8139 keeps network maintenance  
cost low and eliminates usage barriers. It also supports full-duplex operation, making possible  
200Mbps of bandwidth. Refer to Appendix D for connector location and pin assignments. For more  
UNIVERSAL SERIAL BUS PORT  
The IRV-3702 SBC contains two Universal Serial Bus Ports for the future I/ O expansion bus. Refer to  
Appendix D for connector location and pin assignments.  
IRDA INFRARED INTERFACE PORT  
The IRV-3702 SBC contains a built in IrDA infrared interface port which supports Serial Infrared (SIR)  
or Amplitude Shift Keyed IR (ASKIR) interfaces. The IrDA port is addressed as COM2 and must be  
setup in the BIOS’ Peripheral Setup. When the IrDA port is enabled, the standard COM2 serial port is  
disabled. Refer to Appendix D for connector location and pin assignments.  
2
E KEY 1K-BIT USER EEPROM  
The IRV-3702 SBC includes the E2 Key 1K-bit electrically eraseable memory. This memory is useful for  
storing user data such as password, terminal address, configuration parameters, etc. The memory is  
configured as 64 words, which can be accessed a word at a time, and uses the parallel port for the  
hardware interface. Software utilities are provided on the distribution disk that includes a demo  
program, and two C library functions for integrating into your application program.  
6
 
SECTION 3 - SETUP  
The IRV-3702 SBC uses the latest AMI Plug-n-Play BIOS that contains an internal Setup Utility for  
configuring the system. The BIOS includes a graphical user interface, and a new system configuration  
utility, as well as all the features of the standard BIOS. The system configuration settings are stored in  
the on-board CMOS memory which is backed up by a Lithium battery.  
The Setup Utility can be invoked by first causing a cold boot (reset) or a warm boot (Cntrl Alt Del)  
and pressing the Del key when instructed. This will cause the memory diagnostics to be aborted and  
the Setup Utility to display the MAIN SETUP MENU. Using the ®• ¯ ¬ cursor keys, move the  
highlighted bar to the option you wish to modify and then press Enter to select it. When in the  
MAIN SETUP MENU, the F2key is used to select the colors used in the setup screens, and the F10  
key is used to save the changes before exiting the Setup Utility. The Esckey may be used to exit the  
Setup Utility without saving the changes. The PgUp and PgDn keys are used to scroll through the  
selections for a given setting. PgUp is also used to decrease the setting and PgDn to increase the  
setting. In addition, you may also enter the setup utility directly by pressing the Cntrl Alt Esc  
simultaneously. A jumper at JP4 is provided to force the BIOS to use its internal default SETUP values.  
This is accomplished by first removing power from the IRV-3702 and momentarily interrupting the  
battery power to the system controller chip. To interrupt the battery power, install a shunt on pins 3 &  
4 momentarily (the "Clear CMOS" position). After waiting a few seconds, remove the shunt jumper.  
Note: This procedure must be performed with the power on.  
After making the desired selections from the various setup menus, you can save your selections by  
pressing the F10key or by selecting the appropriate selection from the MAIN SETUP MENU.  
Notes:  
1. The user should be aware that improper selection of certain values in the CHIPSET, POWER  
MANAGEMENT, and PNP/ PCI selections may cause unpredictable results. If this occurs select the  
FAIL SAFE SETTINGS from the MAIN SETUP MENU and then press the F10 to save and exit.  
7
 
SECTION 4 - USING THE PROMDISK-CHIP DISK EMULATOR  
The IRV-3702 SBC includes a 32-pin socket that supports the MCSI PROMDISK-Chip disk emulator  
which operates as a Read/ Write fixed disk drive. The paragraphs that follow describe how to use the  
optional PROMDISK-Chip.  
USING ROM-DOS AND OTHER DISK OPERATING SYSTEMS  
The PROMDISK-Chip has been pre-configured at the factory with the latest version of the Datalight  
ROM-DOS disk operating system. In addition, a current copy of the operating system is supplied on a  
floppy diskette.  
If the operating system is accidentally erased from the PROMDISK-Chip it may be restored using the  
SYS command. The DOS format utility should not be used to restore the operating system.  
To change the operating system version or type you should simply use the equivalent DOS SYS  
command to transfer the operating system.  
PROMDISK LOW LEVEL FORMAT  
The Flash memory contained on the PROMDISK-Chip board was initialized with the Datalight  
CardTrick low level format at the factory. During normal operation the Flash memory should never  
require reformatting unless there is a serious hardware or software malfunction. In the event it has  
been determined that the low level format is corrupted, proceed as follows:  
1. At the DOS prompt, run the PROMDISK-Chip low-level format utility PDCFMT.EXE located on the  
distribution diskette in the PDCHIP3 subdirectory.  
2. Install a bootable floppy diskette in drive A and boot the system.  
3. At the DOS prompt type SYS C: to transfer a bootable copy of DOS to PROMDISK-Chip.  
4. Remove the floppy diskette from drive A: and reboot the system from PROMDISK-Chip.  
CAUTION: Do Not use the DOS Fdisk utilities on the PROMDISK-Chip.  
8
 
SECTION 5 - INSTALLATION  
This section describes the procedures for installing the IRV-3702 All-In-One Single Board Computer  
into your system. The following is a list of typical peripherals required to build a minimum system:  
· Passive Backplane and Power Supply  
· IBM PC/ AT Type Keyboard  
· Monitor  
· Floppy or Hard Disk with MS-DOS, ROM-DOS, or PROMDISK Disk Emulator  
INSTALLING THE DIMMS  
When installing or removing the SDRAM DIMMs, be sure to first touch a grounded surface to  
discharge any static electricity from your body. Use the following procedure to install the DIMMs:  
1. Insert the first DIMM edge connector into the DIMM1 socket closest to the top of the board. Note  
that the DIMMs are keyed and will only go in one way.  
2. Push the DIMM into the connector carefully until it snaps into place.  
3. Check to make sure the DIMM is inserted securely.  
4. Insert the remaining DIMMs (if required).  
To remove a DIMM, move the locking ejector tabs outward on each side of the DIMM and lift the  
DIMM from the connector.  
INSTALLING THE CPU  
When installing or removing the CPU, be sure to first touch a grounded surface to discharge any static  
electricity from your body. Use the following procedure to install the CPU:  
1. Open the ZIF socket by lifting the release arm to its vertical position causing the sliding base plate  
to move to the open position.  
2. Align pin one (white dot or beveled edge) on the CPU chip with pin one of the ZIF (zero insertion  
force) socket. Note pin 1 of the ZIF socket is located on the bottom right side of the socket. To  
complete the installation gently press the CPU chip into place and return the release arm to its  
locked position.  
3. Double-check the insertion and orientation of the chip before applying power. Improper  
installation will result in permanent damage to the chip. Refer to Appendix E for CPU speed and  
configuration jumpers.  
To remove the CPU chip, open the ZIF socket by lifting the release arm to its vertical position and  
gently remove the chip.  
INSTALLING THE PROMDISK-CHIP  
When installing or removing the PROMDISK-Chip, be sure to first touch a grounded surface to  
discharge any static electricity from your body. Use the following procedure to install the PROMDISK-  
Chip:  
1. Align pin one (square pad) on the PROMDISK-Chip with pin one of socket U31 on the CPU board.  
9
 
2. Push the PROMDISK-Chip into the socket carefully until it is fully seated.  
3. Check to make sure the PROMDISK-Chip is installed securely, and there are no bent pins.  
To remove the PROMDISK-Chip, insert a small screwdriver between the PROMDISK-Chip and the  
socket and gently pry around the edge until the PROMDISK-Chip is released from the socket.  
COMPLETING THE INSTALLATION  
To complete the installation, the following steps should be followed:  
1. Set the configuration jumpers in accordance with Appendix E.  
2. Install the IRV-3702 SBC into the CPU slot in a passive backplane.  
3. Connect the applicable I/ O cables and peripherals, i.e. floppy disk, IDE hard disk, monitor,  
keyboard, power supply, etc.  
4. Connect an IBM PC compatible keyboard.  
5. Turn power on to the display monitor.  
6. Turn power on to the backplane power supply.  
7. After the BIOS sign-on message is displayed, press the Delkey to enter the Setup Utility.  
8. Reconfigure the IRV-3702 CMOS using the internal SETUP.  
9. Boot the system.  
10  
 
APPENDIX A - SPECIFICATIONS  
This appendix lists the specifications for the IRV-3702 All-In-One Single Board Computer.  
CPU:  
Co-processor:  
Memory:  
Supports: Intel Celeron processors up to 500MHz, 66MHz or 100MHz clock.  
Internal to the Celeron Chip  
System Memory Expandable to 1G-bytes. Supports: 8MB, 16MB, 32MB, 64MB,  
128MB, or 256MB SDRAM DIMMs using four 168-pin DIMM sockets.  
128K-bytes of L2 Cache Memory internal to CPU.  
AMI Plug-n-Play BIOS Flash EPROM.  
BIOS:  
Clock/ Cal:  
I/ O Bus:  
PCI Bus:  
DMA:  
Timers:  
Interrupts:  
Reset:  
PC/ AT Compatible with internal Lithium battery back-up  
IBM PC/ AT Compatible 98-pin Edge Connector  
Industry Standard version 2.1 PICMG high performance I/ O bus.  
7 Channels (4 8-bit & 3 16-bit) PCI Ultra DMA/ 33  
3 Programmable  
16  
Controlled by on-board power detector with provisions for external reset switch at  
header CN7  
I/ O Ports:  
2 - RS-232 Serial Ports (CN12 at rear connector, and CN11 header)  
1 - Parallel Printer Port (at connector CN4)  
1 - PS2 Keyboard Port (at header CN8 and at rear PS2 type connector CN18)  
1 - On-board Speaker with Speaker Port (CN7)  
1 - Dual 3.5"/ 5.25" Floppy Disk Port (CN2)  
2 - IDE Hard Disk Port (Primary at CN1 & Secondary at CN3)  
1 - WatchDog Timer  
1 - PS2 Mouse Port (CN18 and header CN17)  
1 - IDE LED Port (CN7)  
1 - Keylock & Power LED (CN7)  
2 - Universal Serial Bus Ports (at header CN9)  
1 - IrDA Infrared Port (CN6)  
1 - Ethernet Port, RJ-45 connector (CN10), LAN LED (CN5)  
3 – Cooling Fan Power/ Status Ports (CN13-CN15)  
1 - PCI VGA Video Port (at rear connector J1)  
Chipset: S3 Trio 3D Video Controller  
PCI Video Port:  
VRAM: 4MB SDRAM  
Resolution: 1600 x 1200 64K color  
1280 x 1024, 64K color  
1024 x 768 16M color  
Speed:  
300-650MHz jumper selectable.  
Battery:  
Benchmark:  
Size:  
Clock/ Calendar with Internal Lithium battery (ten year life typical)  
LANDMARK v2.0 = 2337MHz for 400MHz CPU  
Full Size AT board 13.3"L X 4.8"H  
Weight:  
Power:  
12 Oz.  
+5VDC @ 5.5A, +12VDC @ 0.160A, -12VDC @ 0.060A  
11  
 
APPENDIX B - BOARD OUTLINE  
C N 6  
C N 5  
12  
 
APPENDIX C - MEMORY AND I/ O MAPS  
The following is the memory map for the IRV-3702 SBC. The addresses are fully PC/ AT compatible,  
unless otherwise specified.  
IRV-3702 SBC Memory Map  
Address  
Used For  
Interrupt Vectors  
BIOS Values  
User RAM (DOS)  
Reserved for VGA  
Video RAM (MDA)*  
Video RAM (CGA)*  
Reserved  
Size  
1.0K  
00000H - 003FFH  
00400H - 005FFH  
00600H - 9FFFFH  
A0000H - AFFFFH  
B0000H - B7FFFH  
B8000H - BFFFFH  
C0000H - C3FFFH  
C4000H - C7FFFH  
C8000H - DFFFFH  
E0000H - FFFFFH  
0.5K  
638.5K  
64.0K  
32.0K  
32.0K  
16.0K  
16.0K  
96.0K  
128.0K  
1GB  
EMS Window  
ROM Scan Devices*  
System BIOS  
100000H - 3FFFFFFFH User Memory  
*External to the IRV-3702  
The following is the I/ O map for the IRV-3702 SBC. I/ O addresses are fully PC/ AT compatible,  
unless otherwise specified.  
IRV-3702 SBC I/O Map  
Address  
Function  
000H - 01FH  
020H - 021H  
022H - 023H  
040H - 05FH  
060H - 063H  
070H - 07FH  
080H - 083H  
DMA Controller #1  
Interrupt Controller #1  
Configuration Address Register  
System Timers & WatchDog Timer  
Keyboard, Status, & System Control  
Clock/Calendar & CMOS Ram Access  
DMA Page Register  
0A0H - 0BFH Interrupt Controller #2  
0C0H - 0DFH DMA Controller #2  
0F0H  
Clear Math Co-processor Busy  
0F1H  
1F0H - 1F8H  
278H - 27FH  
Reset Math Co-processor  
IDE Hard Disk  
Parallel Printer Port LPT2  
2E8H - 2EFH Serial Port COM4  
2F8H - 2FFH  
378H - 37FH  
Serial Port COM2  
Parallel Printer Port LPT1  
3BCH - 3BFH Parallel Printer Port LPT3  
3E8H - 3EFH Serial Port COM3  
3F0H - 3F7H  
3F8H - 3FFH  
043H  
Floppy Disk Controller  
Serial Port COM1  
Disable WatchDog Timer  
Enable WatchDog Timer  
443H  
13  
 
APPENDIX D - CONNECTORS  
CN8 Keyboard Header/Connector  
Pin  
Signal  
KBCLK  
KBDATA  
N/C  
1
2
3
4
GND  
5
+5VDC  
CN18 Keyboard/Mouse Connector (PS2 type)  
Pin  
Signal  
1
2
3
KBDATA  
MDATA  
GND  
4
5
6
+5VDC  
KBCLOCK  
MCLK  
CN7 Keylock Header/Connector  
Pin  
2
4
6
8
Signal Name  
Description  
LED POWER (+)  
N/C (Key)  
GND  
KB LOCK/  
GND  
Connect to anode of power LED  
N/C (Key)  
Connect to cathode of power LED  
Connect to ground to inhibit keyboard  
Ground  
10  
CN2 Floppy Disk Port Connector  
Pin  
Signal Name  
2
RPMLC  
4
Not Used  
6
Not Used  
8
INDEX/  
10  
12  
14  
16  
18  
20  
22  
24  
26  
28  
30  
32  
34  
MOTOR0/  
DRIVE SELECT1/  
DRIVE SELECT0/  
MOTOR1/  
DIRECTION  
STEP/  
WRITE DATA/  
WRITE GATE/  
TRACK0/  
WRITE PROTECT/  
READ DATA/  
HEAD SELECT/  
DISK CHANGE/  
All odd numbered pins are GND  
14  
 
CN1 & CN3 IDE Hard Disk Port Connectors  
Pin  
Signal  
Pin Signal  
1
3
IDERST/  
IDED7  
2
4
GND  
IDED8  
IDED9  
IDED10  
IDED11  
IDED12  
IDED13  
IDED14  
IDED15  
Not Used  
GND  
GND  
GND  
GND  
GND  
Not Used  
Not Used  
IDESA2  
HDCS1/  
GND  
5
7
9
IDED6  
IDED5  
IDED4  
IDED3  
IDED2  
IDED1  
IDED0  
GND  
IDE DRQ  
IDEIOW/  
IDEIOR/  
IDE CHRDY  
IDEDACK  
IRQ14  
IDESA1  
IDESA0  
HDCS0/  
IDEACT/  
6
8
10  
12  
14  
16  
18  
20  
22  
24  
26  
28  
30  
32  
34  
36  
38  
40  
11  
13  
15  
17  
19  
21  
23  
25  
27  
29  
31  
33  
35  
37  
39  
CN4 Printer Interface Connector  
Pin  
Signal  
STROBE/  
PDAT0  
PDAT1  
PDAT2  
PDAT3  
PDAT4  
PDAT5  
PDAT6  
PDAT7  
ACK/  
Pin  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
Signal  
AUTOFD/  
ERROR/  
INIT/  
SLCTIN/  
GND  
GND  
GND  
GND  
GND  
1
2
3
4
5
6
7
8
9
10  
11  
12  
13  
GND  
GND  
GND  
Not Used  
BUSY  
PE  
SLCT  
CN5 Ethernet LED Connector  
Pin  
Signal  
1
+5VDC  
2
LAN ACTIVE  
CN10 Ethernet RJ45 Connector  
Pin  
Signal  
TX+  
TX-  
1
2
3
4
RX+  
N/C  
5
N/C  
6
RX-  
7
N/C  
8
N/C  
15  
 
CN12 Serial Port #1 9-pin Sub D Connector  
Pin  
Signal Name  
1
2
3
4
CARRIER DETECT #1  
RECEIVE DATA #1  
TRANSMIT DATA #1  
DATA TERMINAL READY #1  
GND  
5
6
7
8
9
DATA SET READY #1  
REQUEST TO SEND #1  
CLEAR TO SEND #1  
RING INDICATOR #1  
CN11 Serial Port #2 10-pin Header/Connector  
Pin  
Signal Name  
1
2
3
4
5
6
7
8
CARRIER DETECT #2  
DATA SET READY #2  
RECEIVE DATA #2  
REQUEST TO SEND #2  
TRANSMIT DATA #2  
CLEAR TO SEND #2  
DATA TERMINAL READY #2  
RING INDICATOR #2  
GND  
9
10  
N/C  
J1 VGA Display Connector (15-pin Sub-D)  
Pin  
Signal  
Pin  
Signal  
GREEN  
N/C  
1
3
5
RED  
BLUE  
GND  
2
4
6
GND  
7
GND  
8
GND  
9
VCC  
N/C  
HSYNC  
DDCCLK  
10  
12  
14  
GND  
DDCDATA  
VSYNC  
11  
13  
15  
CN7 Speaker Port Header/Connector  
Pin Signal Name  
Description  
1
3
5
7
SPEAKER  
N/C  
N/C  
Connect to Speaker (-)  
No Connection  
No Connection  
+5VDC  
Connect to Speaker (+)  
CN7 Reset Header/Connector  
Pin  
Signal Name Description  
9
RESET/  
GND  
Connect to switch, ground  
this pin to reset  
Ground  
11  
16  
 
CN7 IDE LED Header/Connector  
Pin Signal Name  
Description  
13  
15  
IDE LED  
+5VDC  
Connect to IDE LED anode (-)  
Connect to IDE LED cathode (+)  
CN17 PS2 Mouse Header/Connector  
Pin  
Signal  
MSDATA  
N/C  
1
2
3
GND  
4
5
+5VDC  
MSCLK  
CN9 Universal Serial Bus Ports 1 & 2 Connector  
Pin  
Signal  
+5VDC  
-DATA0  
+DATA0  
GND  
Pin  
Signal  
1
2
3
4
5
6
7
8
GND  
+DATA1  
-DATA1  
+5VDC  
CN6 IrDA Infrared Port Connector  
Pin  
Signal  
+5VDC  
FIR-RX  
IR-RX  
GND  
1
2
3
4
5
IR-TX  
6
CIR-RX  
CN13 CPU Fan Connector  
CN14 System Fan #1 Connector  
CN15 System Fan #2 Connector  
Pin  
Signal  
1
2
3
FAN SENSOR  
+12VDC  
GND  
CN7 ATX Power Supply Power Switch Control  
Pin  
Signal  
17  
19  
Switch (+)  
Switch (-)  
CN7 Standby Connector for ATX Power Supply  
Pin  
12  
14  
16  
18  
20  
Signal  
GND  
No Connection  
Suspend Control Signal  
+5VDC Standby Signal  
+5VDC Standby Signal  
17  
 
APPENDIX E - CONFIG URATION JUMPERS  
JP3 &JP15 CPU Clock Jumpers  
BUS  
FREQUENCY  
66MHz  
JP15  
FS2  
2-3  
JP3  
FS1  
1-3  
JP3  
FS0  
2-4  
100MHz  
1-2  
1-3  
2-4  
JP8 CPU Clock Multiplier Jumper  
Multiplier  
1-2  
3-4  
5-6  
7-8  
3.0X  
3.5X  
4.0X  
4.5X  
5.0X  
5.5X  
6.0X  
6.5X  
7.0X  
7.5X  
8.0X  
ON  
ON  
OFF  
OFF  
ON  
ON  
OFF  
ON  
OFF  
ON  
OFF  
ON  
OFF  
ON  
ON  
ON  
ON  
ON  
ON  
OFF  
OFF  
OFF  
OFF  
ON  
ON  
ON  
ON  
OFF  
ON  
OFF  
OFF  
ON  
ON  
OFF  
OFF  
OFF  
OFF  
OFF  
ON  
OFF  
OFF  
ON  
OFF  
ON  
JP5 WatchDog Timer Control Jumper  
Generates hardware RESET when time out occurs. (Default)  
Generates NMI (IOCHRDY) when time out occurs.  
2-3  
1-2  
OFF Disable  
JP12 WatchDog Timer Time-out Period Jumper  
Time  
1second  
2 seconds  
10 (Default)  
20 seconds  
110 seconds  
220 seconds  
1-2  
OFF  
OFF  
OFF  
OFF  
ON  
3-4  
OFF  
OFF  
ON  
ON  
OFF  
OFF  
5-6  
ON  
ON  
OFF  
OFF  
OFF  
OFF  
7-8  
OFF  
ON  
OFF  
ON  
OFF  
ON  
ON  
JP11 PROMDISK-Chip Address Jumper  
Address  
CE00H  
D600H  
DE00H  
JP11  
1-2  
3-4  
5-6  
18  
 
JP4 Clear CMOS Setup Jumper  
OFF Normal Operation (Default)  
3-4  
Clear CMOS Setup  
JP7 PS/2 Mouse Jumper  
ON  
Enabled using IRQ12  
OFF Disabled  
JP14 Manufacturing Test Jumper  
1-2  
2-3  
Do Not Use  
Do Not Use  
19  
 
APPENDIX F - BIOS ERROR BEEP CODES  
During the POST (Power On Self Test) routines, which are performed each time the system is powered  
on, errors may occur.  
Nonfatal errors are those which, in most cases, allow the system to continue the boot up process. The  
error messages normally appear on the screen.  
Fatal errors are those which will not allow the system to continue the boot-up procedure. If a fatal  
error occurs, you should consult with MCSI Customer Service for possible repairs.  
These fatal errors are communicated through a series of audible beeps. The numbers on the fatal error  
list below correspond to the number of beeps for the corresponding error. All errors listed, with the  
exception of number eight, are fatal errors.  
No. of Beeps  
Error Message  
1
2
3
Refresh Failure - The memory refresh circuitry is faulty.  
Parity Error - A parity error was detected in the first 64K block of system memory.  
Base 64KB Memory Failure - A memory failure occurred within the first 64KB of  
memory.  
4
5
6
Timer Not Operational - Timer #1 has failed to function properly.  
Processor Error - The CPU chip has generated an error.  
8042-Gate A20 Failure - The keyboard controller (8042) contains the Gate A20  
switch which allows the CPU to operate in virtual mode. This error message means  
that the BlOS is not able to switch the CPU into protected mode.  
7
Processor Exception lnterrupt Error - The CPU chip has generated an exception  
interrupt.  
8
Display Memory Read /Write Error - The video adapter is either missing or the  
video memory is faulty. PLEASE NOTE: This is not a fatal error.  
9
ROM Checksum Error - The ROM checksum value does not match the value  
encoded in the BIOS.  
10  
11  
CMOS Shutdown Register Read/Write Error - The shutdown register for the CMOS  
memory has failed.  
Cache Memory Read/Write Error - A Cache Memory failure occurred, do not enable  
the Cache Memory to resume operation.  
20  
 

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