M-TI R547 User manual
PENTIUM PCI/IS
A
AT Form PCI & ISA Bus Pentium Mainboard
On Board PCI BUS IDE, Multi-I/O
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Users Manual
※※※※※※※※※※※※※※※※※※※※※※※※※※※※※※※※※※※※
_________________________________________________________________
Introduction
Welcome to the M-Technology next generation high performance
Pentium system mainboard --- R-547. The R-547 using the high
performance SiS 5582 Chipset that will deliver superior
performance on your personal computer.
About This User's Guide
This User's Guide is for assisting system manufacturers and end users
in setting up and installing the mainboard. Information in this guide has
been carefully checked for reliability; however, there may
still be inaccuracies and information in this document is subject to
change without notice.
DISCLAIMER
The information in this manual has been carefully checked and is
believed to be accurate. We assumes no responsibility for any
inaccuracies that may still be contained in this manual. We reserves
the right to make changes to this material at any time without notice.
※All Brand names are trademarks of their owners.
____________________________________________________________________
*Our home page on Internet "http: //www.mtiusa.com"
Table of Contents
Chapter 1 INTRODUCTION
1.1 Preface ................................................................................. 1-1
1.2 Key Features ........................................................................ 1-1
1.3 Mainboard Layout ................................................................ 1-3
Chapter 2 HARDWARE INSTALLATION
2.1 Unpacking ................................................................................ 2-1
2.2 Jumper Setting Summary ..................................................... 2-2
2.3 CPU Istallation ......................................................................... 2-4
2.3.1 CPU Frequency Configuration ...................................... 2-4
2.3.2 CPU Voltage Configuration ........................................... 2-5
2.3.3 CPU Speed & Jumper Setting ....................................... 2-6
2.3.4 CPU Type Select Quick Reference ............................... 2-8
2.3.5 Installing a CPU in the ZIF Socket ................................. 2-16
2.4 Upgrading System Memory .................................................. 2-17
2.4.1 Installing a SIMM Module................................................ 2-17
2.4.2 Installing a DIMM Module................................................ 2-18
2.4.3 DIMM Voltage Select ..................................................... 2-18
2.4.4 Memory Module Installing Table .................................... 2-19
2.5 CMOS Clear Jumper. ............................................................. 2-20
2.6 Flash EPROM Selector .......................................................... 2-21
2.7 Connectors ............................................................................... 2-22
2.7.1 I/O Ports ........................................................................... 2-23
2.7.2 External Connections ...................................................... 2-24
Chapter 3 Award BIOS Setup Program
3.1 Standard CMOS Setup ............................................................ 3-2
3.2 BIOS Features Setup ............................................................ 3-4
3.3 Chipset Features Setup ......................................................... 3-6
3.4 Power Management Setup ...................................................... 3-9
3.5 PNP/PCI Configuration ............................................................ 3-12
3.6 Load Setup Defaults ................................................................ 3-14
3.7 Integrated Peripherals ............................................................ 3-14
3.8 Supervisor Password & User Password Setting ................. 3-16
3.9 IDE HDD Auto Detection ......................................................... 3-17
3.10 Save and Exit Setup ................................................................ 3-18
3.11 Exit Without Saving ................................................................. 3-18
Chapter 4 IDE Drivers
4.1 Introduction .............................................................................. 4-1
4.2 SIS IDE Driver Installation for DOS ........................................ 4-1
4.3 SIS IDE Driver Installation for Windows 3.x .......................... 4-2
4.4 SIS IDE Driver Installation for Windows 95............................ 4-3
4.5 SIS IDE Driver Installation for Windows NT 3.5x .................. 4-3
4.6 SIS IDE Driver Installation for Windows NT 4.0 .................... 4-4
4.7 SIS IDE Driver Installation for OS/2 ........................................ 4-5
4.8 Q & A ........................................................................................ 4-5
Chapter 5 Q & A 5-1
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【1】
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1. INTRODUCTION
1.1. Preface
Welcome to use the R-547 Pentium system mainboard. This manual
explains how to use this mainboard and install upgrades. It has
overview of the design and features of the board and provides useful
information on the configuration of the board, or a system in which.
1.2. Key Features
The R-547 Pentium system mainboard is a high-performance system
board that support Intel Pentium family CPUs, Cyrix, AMD and other
compatible CPUs.
There has many performance and system features integrated onto the
mainboard, including the following :
CPU : Supports Socket 7 for
- Intel Pentium 90 to 233 MHz, P55C (MMX).
- Cyrix / IBM 6x86, 6x86L, 6x86MX (M2),
- AMD K5, K6 .
and other compatible CPUs.
Chipset : SiS 5582
Supports true 64 bits CACHE and DRAM access mode.
Supports 512K Pipelined Burst SRAM in second Level Cache.
CPU L1/L2 Write-Back cache operation.
Supports 4x72-pin SIMM Sockets and 2 x 168-pin DIMM SDRAM or DRAM
Sockets.
- The Memory Capacity from 4MB to 384MB.
- Supports FP(Fast Page), EDO(Extended Data Out) Mode DRAM
and SDRAM.
Six 16-bit ISA Slots and Two 32-bit PCI Master Mode Slots.
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1-1
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【【
【1】
】】
】__________________________________
2 x IDE Connectors for up to 4 IDE Drives.
- PIO Mode 4 transfers.
- PCI Bus Master Mode IDE interface.
- Supports Ultra DMA.
On-board I / O support :
- 2 Serial Port Connectors (16550 Fast UART compatible).
- 1 Parallel Port Connect (with EPP and ECP capabilites).
- 1 Floppy Disk Connector (Supports 2 FD Drives).
- 1 PS/2 Mouse Connector.
- 1 IrDA Connector.
Universal Serial Bus Controller.
- Host / HUB Controller.
- Two USB Ports.
※Now under compatibility testing with different peripheral.
Flash ROM BIOS with Green, Plug and Play Features
Baby AT Form Factor : 22cm x 28cm or 8.7" x 11" (4 Layers).
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1-2
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【1】
】】
】
1.3 R-547 Mainboard Layout
J1
IR-CON
U
S
B
1
U
S
B
2
PS/2
Mouse
K/B
COM.1COM.2 CN1
FDC
LPT1
DIM1DIM2
SIM1
SIM2
SIM3SIM4
IDE2
JP10
JP8
JP9
JP1
JP4
JP2
JP3
JP6
JP18
HDLED
RESET
TBLED
TBSW
SPEAKER
KEYLOCK
JP16
JP17
JP12
3.5V
3.2V
2.9V
2.8V
2.1V
21
IDE1
3.4V
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1-3
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【【
【2
】
】】
】
2 HARDWARE INSTALLATION
This chapter explains how to configure the system main board hardware. After
you install the main board, you can set jumpers and make case connections.
Refer to this chapter whenever you upgrade or reconfigure your system.
2.1 Unpacking
The mainboard package should contain the following:
♦The R-547 mainboard.
♦USER'S MANUAL for R-547 mainboard.
♦Cable set for IDE, Floppy , I/O device.
♦IDE Driver
The mainboard contains sensitive electric components which can be easily
damaged by static electricity, so the mainboard should be left in its original
packing until it is installed.
Unpacking and installation should be done on a grounded anti-static mat.
The operator should be wearing an anti static wristband, grounded at the
same point as the anti-static mat.
Inspect the mainboard carton for obvious damage. Shipping and handling
may cause damage to your board. Be sure there are no shipping and
handling damages on the board before proceeding.
After opening the mainboard carton, extract the system board and place it
only on a grounded anti-static surface component side up. Again inspect the
board for damage.
Press down on all of the socket IC's to make sure that they are properly
seated. Do this only on with the board placed on a firm flat surface.
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2-1
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【【
【2】
】】
】__________________________________
Do not apply power to the board if it has been damaged.
You are now ready to install your mainboard. the mounting hole pattern on
the mainboard matches the system board.
It is assumed that the chassis is designed for a standard AT mainboard
mounting. Place the chassis on the anti-static mat and remove the cover.
Take the plastic clips, Nylon stand-off and screws for mounting the system
board, and keep them separate
2.2 Jumper Setting Summary
Regarding hardware settings on the board. They specify configuration options
for various features. The settings are made using something called a
"Jumper". A jumper is a set of two or more metal pins in a plastic base
attached to the mainboard. A plastic jumper "cap" with a metal plate inside
fits over two pins to create an electrical contact between them. The contact
establishes a hardware setting.
Some jumpers have two pins, other have three or more. The jumper are
sometimes combined into sets called jumper "blocks", where all the jumpers
in the block must be set together to establish a hardware setting.
The next figures show how this locks.
Jumpers and caps
Jumper cap 2-Pin Jumper 3-Pin Jumper Jumper block
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_
2-2
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【【
【2】
】】
】
Most jumper setting are printed on the board in a stylized bird's-eye view,
with which pins to connect for each setting marked by a bar connecting two
pins. For example, if a jumper has three pins, connecting or "closing",
the first and second pins creates one setting and closing the second and
third pins creates another. The same type of diagrams are used in this
manual. The jumpers are always shown from the same point of view as
shown in the whole board diagram in this chapter.
Jumpers diagrams
Jumper caps like this
Jumpers are shown like this
Jumper settings like this
1
3
(Pin 1 & 2 Close)
( Open )
※The Red colors Jumper for system Voltage setting, and the Yellow colors
Jumper for system Clock setting, please careful to change it.
________________________________________________________________
2-3
【
【【
【2】
】】
】__________________________________
2.3 CPU Installation
T he mainboard supports Pentium class processors up to 233 MHz, If you install
the CPU on this board, you must set the System Clock (JP2, JP3, JP4),
Frequency Ratio (JP8, JP9) and CPU Power Voltage (JP6, JP12) to meet
variable CPU specifications. (JP10, for Feature Function, default is open)
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
2.3.1. CPU Speed Configuration:
Freq ratio JP8, JP9, System freq (MHz) JP2,JP3,JP4
1.5 55
2 60
2.5 66
3 75
3.5 83**
*CPU Speed = (Frequency ratio) x (System Frequency).
** PCI has a maximum bandwidth of 33MHz --- one half of the 66 MHz
System Frequency. The 83MHz System Frequency are not supported by
the current PCI Rev.2.1 Specification.
________________________________________________________________
2-4
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【【
【2】
】】
】
2.3.2. CPU Voltage Configuration:
(a) For Single Power CPU. (Intel P54C, Cyrix 6x86, IBM 6x86, AMD 5k86)
CPU Power Voltage JP6 JP12
I/O Core
3.5 V 12
6
5
3.4 V 12
6
5
(b) For Dual Power CPU. (Intel P55C (MMX), Cyrix 6x86L/6x86MX(M2)
IBM 6x86L/6x86MX(M2), AMD K6)
CPU Power Voltage JP6 JP12
I/O Core
3.4v 3.2v 12
6
5
3.4v 2.9v 12
6
5
3.4v 2.8v 12
6
5
3.4v 2.1v 12
6
5
______________________________________________________________
2-5
【
【【
【2】
】】
】__________________________________
2.3.3. The CPU Speed & Jumper setting.
(a) Intel Pentium CPU.
CPU Speed Frequency Ratio System Clock
/ JP8 JP9 MHz JP2 JP3 JP4
90MHz 3/2 Open Open 60 Close Open Open
100MHz Open Open 66 Open Open Open
120MHz 2/1 Close Open 60 Close Open Open
133MHz Close Open 66 Open Open Open
150MHz 5/2 Close Close 60 Close Open Open
166MHz Close Close 66 Open Open Open
180MHz 3/1 Open Close 60 Close Open Open
200MHZ Open Close 66 Open Open Open
233MHz 7/2 Open Open 66 Open Open Open
(b) Cyrix 6x86 & 6x86L and IBM 6x86 & 6x86L CPU.
CPU Speed Frequency Ratio System Clock
/ JP8 JP9 MHz JP2 JP3 JP4
PR133+ Close Open 55 Close Close Open
PR150+ 2/1 Close Open 60 Close Open Open
PR166+ Close Open 66 Open Open Open
PR200+ Close Open 75 Open Close Close
(c) Cyrix 6x86MX (M2) & IBM 6x86MX (M2) CPU.
CPU Speed Frequency Ratio System Clock
/ JP8 JP9 MHz JP2 JP3 JP4
PR166 Close Close 60 Close Open Open
PR200 5/2 Close Close 66 Open Open Open
PR200 2/1 Close Open 75 Open Close Close
PR233 3/1 Open Close 66 Open Open Open
PR233 5/2 Close Close 75 Open Close Close
PR266 7/2 Open Open 66 Open Open Open
PR266 3/1 Open Close 75 Open Close Close
※We recommend the end user to choose the version 2.7 or later of Cyrix/
IBM 6x86 processor.
_______________________________________________________________
2-6
__________________________________ 【
【【
【2】
】】
】
JP10
JP8
JP9
JP2
JP3
JP4
CPU
(d) AMD 5k86 CPU.
CPU Speed Frequency Ratio System Clock
/ JP8 JP9 MHz JP2 JP3 JP4
P90 3/2 Open Open 60 Close Open Open
P100 Open Open 66 Open Open Open
P166 5/2 Close Close 66 Open Open Open
(e) AMD K6 CPU.
CPU Speed Frequency Ratio System Clock
/ JP8 JP9 MHz JP2 JP3 JP4
PR166 5/2 Close Close 66 Open Open Open
PR200 3/1 Open Close 66 Open Open Open
PR233 7/2 Open Open 66 Open Open Open
※1. For the AMD K5-PR120/133, it is also allowed to use ratio "x1.5", which is
equal to the Intel Pentium 90/100MHz settings.
2. For the AMD K5-150/160, it use the same settings as the Intel Pentium
150/166MHz processor.
______________________________________________________________
2-7
【
【【
【2】
】】
】__________________________________
2.3.4. CPU Type Select Quick Reference :
(a) Intel Pentium CPU.
(1) Intel P54C-90MHz.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
__________________________________________________________
(2) Intel P54C-100MHz.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
__________________________________________________________
(3) Intel P54C-120MHz.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
______________________________________________________________
2-8
__________________________________【
【【
【2】
】】
】
(4) Intel P54C-133MHz.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
__________________________________________________________
(5) Intel P54C-150MHz.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
__________________________________________________________
(6) Intel P54C-166MHz.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
__________________________________________________________
(7) Intel P54C-180MHz.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
______________________________________________________________
2-9
【
【【
【2】
】】
】__________________________________
(8) Intel P54C-200MHz.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
_____________________________________________________________
(9) Intel P55C (MMX) -166MHz.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
__________________________________________________________
(10) Intel P55C (MMX) -200MHz.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
__________________________________________________________
(11) Intel P55C (MMX) -233MHz.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
______________________________________________________________
2-10
__________________________________【
【【
【2】
】】
】
(b) Cyrix 6x86, IBM 6x86 CPU.
(1) 6x86 - PR133+
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
_________________________________________________________
(2) 6x86 - PR150+
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
__________________________________________________________
(3) 6x86 - PR166+
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
_________________________________________________________
(4) 6x86 - PR200+
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
______________________________________________________________
2-11
【
【【
【2】
】】
】__________________________________
(c) Cyrix 6x86L & 6x86MX (M2), IBM 6x86L& 6x86MX (M2).
(1) 6x86L - PR166.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
_______________________________________________________
(2) 6x86L - PR200.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
_________________________________________________________
(3) 6x86MX - PR166.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
_____________________________________________________
(4) 6x86MX - PR200.
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
______________________________________________________________
2-12
__________________________________【
【【
【2】
】】
】
(5) 6x86MX - PR233 (66MHz)
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
________________________________________________________
(6) 6x86MX - PR233 (75MHz).
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
_______________________________________________________
(7) 6x86MX - PR266 (66MHz).
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
________________________________________________________
(8) 6x86MX - PR266 (75MHz).
JP10
JP8
JP9
JP6 JP12
12
6
5
12
3.5v
2.8v
3.4v
2.9v
3.2v
2.1v
JP2
JP3
JP4
CPU
_____________________________________________________________
2-13
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