Creative Blaster PC M001 User Manual
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Creative Blaster PC M001 User Manual

Creative Blaster PC M001 User Manual

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Summary of Contents for Creative Blaster PC M001

  • Page 1 M001 Motherboard...
  • Page 2 Creative (and, to the extent applicable, its licensors), to the user in connection with normal use of the Software. Creative retains all title to and ownership of the Software and reserves all rights not expressly granted to you.
  • Page 4 Information in this document is subject to change without notice and does not represent a commitment on the part of Creative Technology Ltd. No part of this manual may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying and recording, for any purpose without the written permission of Creative Technology Ltd.
  • Page 5 Safety & Regulatory Information The following sections contain notices for various countries: Safety Information Compliance CAUTION: This device is intended to be installed by the user This product conforms to the following Council Directive: in a CSA/TUV/UL certified/listed IBM AT or compatible q Directive 89/336/EEC, 92/31/EEC (EMC) personal computers in the manufacturer’s defined operator access area.

  • Page 6: Table Of Contents

    Contents Introduction ....................... v Document Conventions............... vi The M001 Motherboard Features......................1-1 Specifications ....................1-2 The Pentium® II Processor About the Pentium II Processor ..............2-1 Installing the Hardware for the Pentium II Processor........2-2 Components of the Pentium II Processor’s retention mechanism ..2-3 Step 1: To install the retention mechanism........2-4 Components of the Pentium II Processor’s heat sink support..2-5 Step 2: To install the heat sink support..........2-6...
  • Page 7 To flash the EEPROM Vpp...............5-6 Memory Configuration and BIOS Settings Memory Configuration..................6-1 BIOS Settings....................6-2 To change BIOS settings in CMOS..........6-2 The CMOS Setup Utility Menu............6-3 Standard CMOS Setup ..............6-5 BIOS Features Setup .................6-8 Chipset Features Setup ..............6-11 Power Management Setup ..............6-14 PnP/PCI Configuration Setup ............6-17 Integrated Peripherals..............6-20 Password Setting................6-23...

  • Page 8: Introduction

    Introduction Thank you for purchasing the M001 motherboard. It is a highly integrated IBM PC/AT compatible system board designed to meet the industry’s most demanding desktop applications. This manual provides you with information on how to set up your motherboard: Chapter 1, “The M001 Motherboard”...

  • Page 9: Document Conventions

    Document Conventions This manual uses the following conventions to help you locate and identify the information you need. Table 0-1: Text conventions. Text Elements bold Text that must be entered exactly as it appears. italic Title of a book or a placeholder. A placeholder represents information that you must provide.

  • Page 10: The M001 Motherboard

    The M001 Motherboard This chapter is organized into the following sections: Features Specifications Features M001 is a highly integrated IBM PC/AT compatible system board designed to meet the industry’s most demanding desktop applications. This motherboard is based on the Intel 82440BX AGPset chipset which supports Pentium®...

  • Page 11: Specifications

    The onboard Giga I/O controller provides standard PC I/O functions: floppy drive interface, two First In First Out (FIFO) serial ports, an Infrared Data Association (IrDA) device port, and a parallel port that supports Standard Parallel Port (SPP), Enhanced Parallel Port (EPP), and Extended Capabilities Port (ECP).
  • Page 12 Onboard PCI Bus Master IDE Controller Two Ultra DMA/33 Bus Master IDE ports that support four IDE devices and provide data transfer rates of up to 33 MB/sec. This controller supports Enhanced PIO Modes 3 and 4, and Bus Master IDE DMA Mode 2 devices.
  • Page 13 Dual Function Power Button The system can be in one of two modes, Suspend or Soft-off. If you hold the Power button down for less than 4 seconds, the system will go into the Suspend mode. If you hold the Power button for more than 4 seconds, the system will go into the Soft-off mode.
  • Page 14 Figure 1-1: The M001 motherboard. The M001 Motherboard 1-5...

  • Page 15: The Pentium® Ii Processor

    ® The Pentium II Processor This chapter consists of the following sections: About the Pentium II Processor Installing the Hardware for the Pentium II Processor About the Pentium II Processor The Pentium II processor and the Celeron™ processor are the latest additions to the P6 processor family.
  • Page 16 Installing the Hardware for the Pentium II Processor The Pentium II processor uses Single Edge Contact (SEC) cartridge packaging technology which enables high volume availability and improved handling protection. Figure 2-1 shows the front, rear, and top views of the Pentium II processor (without heat sink mounted).

  • Page 17: Components Of The Pentium Ii Processor's Retention Mechanism

    Before you proceed, do the following: 1. Switch off the computer. 2. Remove the motherboard from the chassis. 3. Place it on a workbench. 4. Remove all DIMM chips, cables, and cards from the motherboard so that it is bare. Components of the Pentium II Processor’s retention mechanism The Retention Mechanism (RM) consists of the following parts:...

  • Page 18: Step 1: To Install The Retention Mechanism

    Step 1: To install the retention mechanism 1. Locate the Retention Mechanism (RM) mounting holes and the “Pin 1” mark of Slot 1 on the motherboard (see Figure 2-4). Figure 2-4: Locating the mounting holes on the motherboard. 2. Mount the RM onto Slot 1. Make sure that the square cut mark of the RM has the same orientation as Pin 1 of Slot 1.

  • Page 19: Components Of The Pentium Ii Processor's Heat Sink Support

    Components of the Pentium II Processor’s heat sink support The Heat Sink Support (HSS) consists of the following parts: HSS Base A plastic support bar mounted to the motherboard under the ATX heat sink. Figure 2-6: The HSS base. HSS Pins Plastic pins inserted through the HSS base to secure it to the motherboard.

  • Page 20: Step 2: To Install The Heat Sink Support

    Step 2: To install the heat sink support Before you install the heat sink support, please verify if your Pentium II processor is the Intel boxed processor or the OEM type Pentium II processor with active heat sink (see Figure 2-9).
  • Page 21 1. Locate the Heat Sink Support (HSS) mounting holes on the motherboard. Note that one hole is larger than the other. See Figure 2-10. Figure 2-10: The large and small HSS mounting holes on the motherboard. 2. Line up the two plastic pegs on the bottom of the HSS base with the corresponding holes on the motherboard.

  • Page 22: Step 3: To Mount The Pentium Ii Processor

    Step 3: To mount the Pentium II processor 1. Push the latches on the processor toward the center of the processor until they click into place (see Figure 2-12). Figure 2-12: Mounting the Pentium II processor. 2. Hold the processor so that the fan shroud is facing toward the HSS base on the motherboard.

  • Page 23: The Celeron™ Processor

    The Celeron™ Processor This chapter is organized into the following sections: q About the Celeron Processor q Installing the Hardware for the Celeron Processor About the Celeron Processor The Pentium® II processor and the Celeron processor are the latest additions to the P6 processor family. They combine the architectural advances in the Pentium Pro processor with the instruction set extensions of MMX technology.

  • Page 24: Installing The Hardware For The Celeron Processor

    Installing the Hardware for the Celeron Processor The Celeron processor uses Single Edge Processor Package (SEPP) technology. Figure 3-1 shows the Celeron processor with and without heat sink mounted. Figure 3-1: The Celeron processor. Before you proceed, do the following: 1.

  • Page 25: Components Of The Celeron Processor's Retention Mechanism

    Components of the Celeron Processor’s retention mechanism With Celeron processors, the Retention Mechanism (RM) is used to hold the base processor in the SEPP. The following instructions will show you how to mount the RM first before showing you how to install the processor.

  • Page 26: Step 1: To Assemble The Retention Mechanism

    Step 1: To assemble the retention mechanism 1. Locate the RM mounting holes of Slot 1 on the motherboard. (See Figure 3-3.) 2. Align the two plastic guides with the two ends of Slot 1. Make sure that the two guides face each other.

  • Page 27: Step 2: To Mount The Heat Sink Onto The Celeron Processor

    Step 2: To mount the heat sink onto the Celeron processor 1. Assemble all parts on a static-free bench with proper operator grounding and an ESD mat. 2. Carefully insert all four legs of the HS retention clip into the Celeron processor.
  • Page 28 4. Turn the processor around so that the primary side is now facing the heat sink. 5. Insert the two left legs of the HS retention clip fully into the heat sink (see Figure 3-6). Figure 3-6: Inserting the left legs of the clip into the heat sink. 6.
  • Page 29 8. Verify that all the feet of the clip are fully inserted and the clip is firmly attached to the heat sink (see Figure 2-21). Figure 3-7: Verifying that the clip is firmly attached to the heat sink. 9. Proceed to Step 3: To mount the Celeron processor. The Celeron™...

  • Page 30: Step 3: To Mount The Celeron Processor

    Step 3: To mount the Celeron processor 1. Hold the processor so that the heat sink is facing toward the DIMM sockets on the motherboard. 2. Align the processor with the RM and slowly slide the processor into it (see Figure 3-8). Figure 3-8: Inserting the Celeron processor into its RM.

  • Page 31: Connectors

    Connectors This chapter is organized into the following sections: q Front Panel Connectors q Back Panel Connectors q Other Connectors Front Panel Connectors Figure 4-1 below shows the positions of the front panel connectors on your motherboard. Figure 4-1: The front panel connectors. Hardware Reset Connector (J29) A 2-pin hardware reset switch is attached to it.

  • Page 32: Back Panel Connectors

    Power LED Connector (J25) The Power LED (CHS LED) connector is a 3-pin connector connected to the casing’s Power LED. Pins 1 and 3 are for the power LED, and pin 2 is empty. Speaker Connector (J27) You may attach a 4-pin PC speaker cable to the PC speaker connector. HDD LED Connector (J28) A 4-pin IDE drive LED cable is attached to this connector.

  • Page 33: Other Connectors

    PS/2 Keyboard & PS/2 Mouse Connectors Two 6-pin female PS/2 keyboard & Mouse Connectors are located at the rear of the motherboard. The PS/2 Mouse connector is on top of the PS/2 Keyboard connector. Plug the PS/2 keyboard and mouse into their respective connectors.
  • Page 34 The M001 motherboard meets ASKIR and HPSIR specifications. It is also fully compatible with Creative’s infrared receiver for a wireless interface. The Creative infrared receiver re-routes commands it receives from the credit card-sized Creative iNFRA Remote controller to the COM2 serial port of the host computer.
  • Page 35 Wake-On-LAN Connectors (J39) You can attach a 3-pin connector from a LAN card which supports the Wake-On-LAN (WOL) feature to this connector. This feature allows users to wake the connected system through the LAN card. Figure 4-5: Locations of the FAN and Wake-On-LAN connectors. Enhanced IDE and Floppy connectors The motherboard is shipped with one 40-pin ribbon cable for IDE hard disk drives and one 34-pin ribbon cable for floppy disk drives.

  • Page 36: Jumper Settings

    Jumper Settings This chapter is organized into the following sections: q About Jumpers q Changing Jumper Settings About Jumpers Several hardware settings are made through the use of jumper caps to connect jumper pins on the motherboard. Pin 1 of each jumper on the motherboard is either on the top or the left of the jumper when holding the motherboard with the keyboard connector away from yourself.

  • Page 37: Changing Jumper Settings

    Changing Jumper Settings This section provides instructions on how to configure some important jumpers on your motherboard. These jumpers have already been set to the factory default. If you do not need to change the jumper settings, you can leave them as the factory default. Do not change the jumper settings unless you are an advanced user.

  • Page 38: To Configure The Cpu Bus Clock Multiplier

    To configure the CPU bus clock multiplier The JP11, JP12, JP13, and JP14 jumpers are used to configure the CPU bus clock multiplier. Use these jumper settings shown below to achieve the corresponding multiplier ratio. Table 5-2 shows the multiplier needed for various processor speeds with the system clock speed at 66 MHz and at 100 MHz.

  • Page 39: To Configure The Cpu External Clock (System Frequency)

    Table 5-3: Jumper Settings for Multiplier. JP11, JP12, JP13, JP14 JP11, JP12, JP13, JP14 Multiplier Multiplier Jumpers Jumpers 4.5x 3.5x To configure the CPU external clock (system frequency) Use the J201 jumper first to specify the hardware setting corresponding to the processor type. The two J201 jumper settings shown in Table 5-4 below correspond to the 66 MHz-based and 100 MHz-based system clock frequencies.

  • Page 40: To Clear The Cmos

    Table 5-4: Jumper Settings for system frequency. Processor Type J201 Jumper To force system frequency down for a 66 MHz-based processor To let the system auto-detect a 66 MHz-based processor To apply default system frequency for 100 MHz-based processors For 66 MHz-based Pentium II/Celeron processors, 68 MHz, 75 MHz and 83 MHz are for overclocking the CPU bus.

  • Page 41: To Flash The Eeprom Vpp

    Table 5-5: Jumper Settings for CMOS. Clear JP6 Jumper CMOS Clear CMOS Normal Operation (Default) To flash the EEPROM Vpp The M001 motherboard supports two types of flash EEPROM: 5 V and 12 V. By setting up jumper J9, the motherboard can use either 5 V or 12 V to flash the EEPROM with new system BIOS files when necessary.

  • Page 42: Memory Configuration And Bios Settings

    Memory Configuration and BIOS Settings This chapter is organized into the following sections: q Memory Configuration q BIOS Settings Memory Configuration The motherboard provides four 168-pin DIMM sockets that make it possible to install from 8 MB up to 1 GB of 66 MHz or 100 MHz SDRAM.

  • Page 43: To Change Bios Settings In Cmos

    Table 6-1: Install memory in any or all of the banks in any combination as follows DIMM Module Memory Modules Socket Quantity 8 MB, 16 MB, 32 MB, 64 MB, 128 MB, 256 MB DIMM 0 168-pin 3.3V 66 MHZ or 100 MHz PC SDRAM DIMM 8 MB, 16 MB, 32 MB, 64 MB, 128 MB, 256 MB DIMM 1 168-pin 3.3V 66 MHZ or 100 MHz PC SDRAM DIMM...

  • Page 44: The Cmos Setup Utility Menu

    4. After you have changed the BIOS settings, press <F10> to save the settings and exit the CMOS Setup Utility. Your system continues to start up. Figure 6-1: The CMOS Setup Utility menu. The CMOS Setup Utility Menu Selecting an option in the CMOS Setup Utility menu will display the corresponding screen or perform a function (for example, Load BIOS Defaults).
  • Page 45 Table 6-2: The CMOS Setup Utility menu options. This Option Allows You To Do This Set the system to load the optimized settings from Load BIOS Defaults the BIOS ROM. Set the system to load the minimum settings from Load Setup Defaults the BIOS ROM.

  • Page 46: Standard Cmos Setup

    The following sctions provide detailed information on the setup screens and options in the CMOS Setup utility. PU: the <Page Up> key, PD: the <Page Down> key, +: the plus <+> key, -: the minus <-> key. Standard CMOS Setup Display this screen if you want to set the date and time of the system clock.
  • Page 47 Table 6-4: The Standard CMOS Setup Screen items. Item Description The date format of the system clock is <day>, <month> Date <date> <year>. To display the calendar, press <F3>. The time format of the system clock, a 24-hour clock, is Time <hour>:<minute>:<second>.
  • Page 48 Table 6-4: The Standard CMOS Setup Screen items. Item Description The last drive parameter, MODE, has four available settings: Normal, LBA, Large, and Auto. These settings are for IDE hard disks only. Normal: For IDE hard disks of 528 MB or less. LBA: Logical Block Addressing, the current standard access mode for large IDE hard disk drives.

  • Page 49: Bios Features Setup

    BIOS Features Setup Display this screen if you want to configure system features such as virus warning, boot sequence, and security option. Figure 6-3: The BIOS Features Setup screen. Table 6-5: The BIOS Features Setup Screen items. Option Description When this is enabled, the BIOS will monitor the boot sector and partition table of the primary hard disk drive and warn of any attempt to write to it.
  • Page 50 Table 6-5: The BIOS Features Setup Screen items. Option Description If this is enabled, BIOS will shorten or skip some check Quick Power items during Power On Self Test (POST) to speed up the On Self Test process. Determines which drive the computer searches first for Boot the disk operating system.
  • Page 51 Table 6-5: The BIOS Features Setup Screen items. Option Description When the Typematic Rate Setting (see description on previous page) is enabled, this item allows you to specify Typematic the amount of time that elapses before repetition of the Delay (Msec) character or movement takes place when you hold down a key.

  • Page 52: Chipset Features Setup

    Chipset Features Setup The options on this screen are either set to the optimized values or set automatically when auto configuration is active. Unless you are an advanced user, avoid making any manual settings to the chipset features with the exception of the memory hole and the AGP aperture size.
  • Page 53 Table 6-6: The Chipset Features Setup Screen items. Item Description Sets the CAS latency time to HCLKS of 2 or 3. The value for this setting should have been SDRAM CAS selected already based on the specifications of the Latency Time installed DRAM.
  • Page 54 Table 6-6: The Chipset Features Setup Screen items. Item Description Allows you to specify the amount of recovery 16-Bit I/O Recovery time allowed for 16 bit I/O requests. The setting Time can be NA, or 1 to 4 CPU clocks. Some special add-on cards require a 1 MB Memory Hole at address space between 15 MB and 16 MB.

  • Page 55: Power Management Setup

    Power Management Setup Display this screen if you want to set up the power management features. Figure 6-5: The Power Management Setup screen. Table 6-7: The Power Management Setup Screen items. Item Description This item defines the current power management function.
  • Page 56 Table 6-7: The Power Management Setup Screen items. Item Description This item defines the Video Off feature for monitor power management. The available settings are V/H SYNC+Blank (default), DPMS and Blank Only. V/H SYNC+Blank: the screen appears blank and Video Off Method both vertical and horizontal scanning is turned off.
  • Page 57 Table 6-7: The Power Management Setup Screen items. Item Description This item defines the duty cycle for the clock control thermal throttling mode. The duty cycle Throttle Duty Cycle indicates the percentage of time while in the thermal throttle mode. The available settings are between 12.5% and 87.5%.

  • Page 58: Pnp/Pci Configuration Setup

    Table 6-7: The Power Management Setup Screen items. Item Description This item defines if the system will resume by activity of LAN. If this feature is enabled, the system will power-on itself from power off when Resume by LAN the activity of LAN. (Wake-ON-LAN) M001 supports Wake-ON-LAN function with Intel LAN cards only.
  • Page 59 Table 6-8: The PnP/PCI Configuration Screen items. Item Description The Award Plug and Play BIOS has the capability to automatically configure all boot and PnP Resources Controlled compatible devices. However, this capability is not available unless you are using a PnP operating system such as Windows 95.
  • Page 60 Table 6-8: The PnP/PCI Configuration Screen items. Item Description This item is used to select a length for the memory area specified in the previous item. Used MEM Length This item does not appear if no base address is specified. The available settings are 8K, 16K, 32K and 64K.

  • Page 61: Integrated Peripherals

    Integrated Peripherals Display this screen if you want to configure the IDE and floppy controllers, and other onboard ports. You can also configure the USB (USB Keyboard Support) and infrared (UR2 Mode and UR2 Duplex Mode) features. Figure 6-7: The Integrated Peripherals screen. 6-20 Memory Configuration and BIOS Settings...
  • Page 62 Table 6-9: The Integrated Peripherals Screen items. Item Description If your IDE Hard Disk supports block mode, you can IDE HDD enable this item to speed up the hard disk drive (HDD) Block Mode access time. Otherwise, disable this item to avoid HDD access error.
  • Page 63 Table 6-9: The Integrated Peripherals Screen items. Item Description On this motherboard, Intel PIIX4 improves IDE transfer rate using Bus Master UltraDMA/33 IDE which can handle data transfer up to 33 MB/sec. The setting can be Secondary Disabled, Enabled or Auto. The default setting is Auto. Slave UDMA Note: For this feature to work, your hard disk drive must also support UDMA.

  • Page 64: Password Setting

    Table 6-9: The Integrated Peripherals Screen items. Item Description Specifies the onboard parallel port mode. The settings are Parallel Port SPP (Standard Parallel Port), EPP (Enhanced Parallel Mode Port), ECP (Extended Capabilities Port), and EPP+ECP. Specifies the DMA (Direct Memory Access) channel ECP Mode when ECP device is in use.
  • Page 65 Table 6-10:The Password Setting options. Item Description The options on the Password screen menu make it possible to restrict access to the Setup program by enabling you to set passwords for two different access Supervisor modes: Supervisor mode and User mode. Password and User Supervisor mode has full access to the Setup options,...
  • Page 66 EU. This Agreement is the entire agreement between us, and you THE SOFTWARE IS PROVIDED AS-IS WITHOUT WARRANTY agree that Creative will not have any liability for any untrue statement or OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING,...
  • Page 67 Printed in Singapore...

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