Celeron Processor
„
Tooteteave
Tehnilised andmed
- CPU Type: Central Processing Unit (CPU)
- Compatibility: Intel Coppermine, Celeron, VIA, Cyrix
Joshua - Power Connector: +12V three-pin head connector
- Supports fan speed sensor for system cooling
Toote kasutusjuhised
Installation of CPU
- Pull the lever sideways away from the socket and raise it up to
90-kraadine nurk. - Locate Pin 1 in the socket and match it with the white dot or
cut edge in the CPU. Insert the CPU smoothly. - Press the lever down to complete the installation.
CPU Core Speed Derivation
The DIP Switch SW1 is used to set the Core/Bus ratio of the CPU.
The actual core speed is calculated by multiplying the Host Clock
Frequency by the Core/Bus ratio.
CPU Speed Setting
To adjust the CPU speed, refer to the CPU specification provided
by the vendor and set SW1 accordingly.
Overclocking Jumper
SW2/SW3 is used for overclocking. Ensure to modify the CPU Bus
ratio through CMOS if using this jumper for overclocking.
CPU Type Selector
Use SW4 to select the CPU type between Intel Coppermine,
Celeron, VIA, or Cyrix Joshua.
Fan Power Connectors
The CPUFAN/PSFAN/SYSFAN connectors support system cooling fans
with +12V. Connect the red wire (positive) to +12V and the black
wire (Ground) to GND. Use specially designed fans with speed
sensors for System Hardware Monitor chipset functionality.
KKK
Q: What should I do if my CPU does not fit into the socket
easily during installation?
A: Ensure that Pin 1 on the CPU aligns correctly with the white
dot or cut edge in the socket before insertion. Do not apply
excessive force when inserting the CPU.
Q: Can I overclock my CPU using this product?
A: Yes, you can overclock your CPU using SW2/SW3 jumpers.
Remember to adjust the CPU Bus ratio through CMOS as well.
"`
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2.1 Central Processing Unit: CPU
The mainboard operates with Intel® CeleronTM processor. The mainboard uses Socket 370 for easy CPU installation and a jumper switch (SW1) to set the proper speed for the CPU. The CPU should always have a Heat Sink and a cooling fan attached to prevent overheating.
2.1-1 CPU Installation Procedure
1. Pull the lever sideways away from the socket. Then, raise the lever up to a 90-degree angle.
Liugplaat
Open Lever Pin 1
2. Locate Pin 1 in the socket and look for the white dot or cut edge in the CPU. Match Pin 1 with the white dot/cut edge. Then, insert the CPU. It should insert easily.
CPU
White dot/ Cut edge
Pin 1
3. Press the lever down to complete the installation.
Close Lever
CPU
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2.1-1 CPU Core Speed Derivation Procedure
1. The DIP Switch SW1 (1, 2, 3, and 4) is used to set the Core/Bus (Fraction) ratio of the CPU. The actual core speed of the CPU is the Host Clock Frequency multiplied by the Core/Bus ratio. For example:
If
Protsessori kell
Core/Bus ratio
then CPU core speed
= 66MHz = 5.5 = Host Clock x Core/Bus ratio = 66MHz x 5.5 = 333 MHz
SW1
CPU
1
2
3
4
Core/Bus Ratio
ON
VÄLJAS
ON
ON
2.5
ON
ON
VÄLJAS
ON
3
ON
VÄLJAS
VÄLJAS
ON
3.5
ON
ON
ON
VÄLJAS
4
ON
VÄLJAS
ON
VÄLJAS
4.5
ON
ON
VÄLJAS
VÄLJAS
5
ON
VÄLJAS
VÄLJAS
VÄLJAS
5.5
VÄLJAS
ON
ON
ON
6
VÄLJAS
VÄLJAS
ON
ON
6.5
VÄLJAS
ON
VÄLJAS
ON
7
VÄLJAS
VÄLJAS
VÄLJAS
ON
7.5
VÄLJAS
ON
ON
VÄLJAS
8
ON – Short OFF – Open
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2.1-2 CPU Speed Setting: SW1
To adjust the speed of the CPU, you must know the specification of your CPU (always ask the vendor for CPU specification).
4 321
SW1
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a. 100MHz CPU Bus Frequency
CPU tüüp
SW1
350 MHz
4 321
400 MHz
4 321
450 MHz
4 321
500 MHz
4 321
550 MHz
4 321
600 MHz
4 321
650 MHz
4 321
700 MHz
4 321
750 MHz
4 321
800 MHz
4 321
Table 2.1 350 ~ 800MHz Intel®/CeleronTM processor
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2.1-3 Overclocking Jumper: SW2/SW3
Overclocking is a process of operating a CPU/Processor beyond its specified frequency. SW2/SW3 is used for overclocking.
1 3
SW3
1 3
SW2
SW2
1 2 3
SW3
1 2 3
Funktsioon
Automatically detect 66MHz, 100MHz CPU Bus Frequency
1
1
Virtually set CPU Bus Frequency
2
2
into 133MHz
3
3
1
1
Virtually set CPU Bus Frequency
2
2
into 100MHz
3
3
1
1
Virtually set CPU Bus Frequency
2
2
into 66.8MHz
3
3
Note: If you used this jumper for overclocking, you also need to modify the CPU Bus ratio thorugh CMOS.
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2.1-4 CPU Type Selector: SW4
1 3
SW4
1
2 3
For Intel Coppermine or Celeron
1 2
3
For VIA or Cyrix Joshua
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2.1-5 Fan Power Connectors: CPUFAN/PSFAN/SYSFAN
These connectors support system cooling fan with +12V. It supports three pin head connector. When connecting the wire to the connector, always take note that the red wire is the positive and should be connected to the +12V, the black wire is Ground and should be connected to GND. If your mainboard has System Hardware Monitor chipset on-board, you must use a specially designed fan with speed sensor to take advantage of this function.
CPUFAN
SENSOR
GND
+12V
SENSOR +12V GND
PSFAN (Optional)
SENSOR +12V GND
SYSFAN (Optional)
PSFAN : Power Supply Fan (Optional) CPUFAN : Processor Fan SYSFAN : System(Chassis) Fan (Optional)
For fans with fan speed sensor, every rotation of the fan will send out 2 pulses. System Hardware Monitor will count and report the fan rotation speed.
Note: 1. Always consult vendor for proper CPU cooling fan. 2. PSFAN & SYSFAN are for System Hardware Monitor only.
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2.2 Clear CMOS Jumper: JBAT1
A battery must be used to retain the mainboard configuration in CMOS RAM. Short 1-2 pins of JBAT1 to store the CMOS data.
1
3
JBAT1
1 2 3
Hoidke andmeid
1 2 3
Kustuta andmed
Märkus.
You can clear CMOS by shorting 2-3 pin, while the system is off. Then, return to 1-2 pin position. Avoid clearing the CMOS while the system is on, it will damage the mainboard. Always unplug the power cord from the wall socket.
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2.3 Mälu paigaldamine
2.3-1 Memory Bank Configuration
The mainboard supports a maximum memory size of 256MB (8M x 8) or 512MB (16M x 4) registered DIMM for SDRAM: It provides two 168-pin unbuffered DIMMs (Double In-Line Memory Module) sockets. It supports 8 MB to 256 Mbytes DIMM memory module.
DIMM2(Bank2+ Bank3) DIMM1(Bank0 + Bank1)
!
HOIATUS!
There are two kinds of DIMM specification supported
by this mainboard: PC133, PC100 and PC66. If you use 66MHz CPU Bus Frequency, these two DIMM Specs. is supported. If you use 100 MHz CPU Bus Frequency, only PC100 DIMM Specs. is supported. If you use 133MHz CPU Bus Frequency, only PC133 DIMM specs will be supported.
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2.3-2 Memory Installation Procedures A. How to install a DIMM Module
Single Sided DIMM
Double Sided DIMM
1. The DIMM slot has a two Notch Key “VOLT and DRAM”, so the DIMM memory module can only fit in one direction.
2. Insert the DIMM memory module vertically into the DIMM slot. Then push it in.
DRAM
VOLT
3. The plastic clip at the side of the DIMM slot will automatically close.
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2.3-3 Memory Population Rules 1. Supports only SDRAM DIMM.
2. To operate properly, at least one 168-pin DIMM module must be installed.
3. This mainboard supports Table Free memory, so memory can be installed on DIMM1 or DIMM 2 in any order.
4. Supports 3.3 volt DIMM.
5. The DRAM addressing and the size supported by the mainboard is shown below:
Table 2.3-1 SDRAM Memory Addressing
DRAM Tech. 16M 64M
64M
DRAM Density &
Width 1Mx16
2Mx8 4Mx4 2Mx32 2Mx32 4Mx16 4Mx16 8Mx8 16Mx4 2Mx32 4Mx16 8Mx8 16Mx4
DRAM Addressing
ASYM ASYM ASYM ASYM ASYM ASYM ASYM ASYM ASYM ASYM ASYM ASYM ASYM
Address Size
MB/DIMM
Rida
Veerg
Single no. Side(S) pcs.
Double no. Side(D) pcs.
11
8
8MBx4 16MBx8
11
9 16MBx8 32MBx16
11
10
32MB 64MB
11
9 32MBx2 64MBx4
12
8 16MBx2 32MBx4
11
10
32MB 64MB
13
8
32MB 64MB
13
9
64MB 128MB
13
10 128MB 256MB
12
8
16MB 32MB
13
8
32MB 64MB
13
9
64MB 128MB
13
10 128MB 256MB
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2.4 Case Connector: JFP1
The Power Switch, Reset Switch, Power LED, Speaker, Keylock and HDD LED are all connected to the JFP1 connector block.
Lähtestage lüliti
15
Kõlar
14
Buzzer (short pin)
Võimsus
Lüliti
+
Kahekordne
Vallaline
Värv
LED
Värv
LED
Toite LED +
HDD
LED
Klahvilukk
JFP1
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2.4-1 Power Switch Connect to a 2-pin push button switch. This switch has the same feature with JRMS1.
2.4-2 Reset Switch Reset switch is used to reboot the system rather than turning the power ON/ OFF. Avoid rebooting while the HDD LED is lit. You can connect the Reset switch from the system case to this pin.
2.4-3 Power LED The Power LED is lit while the system power is on. Connect the Power LED from the system case to this pin. There are two types of LED that you can use: 3-pin single color LED or 2-pin dual color LED(ACPI request).
a. 3 pin single color LED connect to pin 4, 5, & 6. This LED will lit when the system is on.
b. 2 pin dual color LED connect to pin 5 & 6. GREENColor: Indicate the system is in full on mode. ORANGE Color: Indicate the system is in suspend mode.
2.4-4 Speaker Speaker from the system case is connected to this pin. If on-board Buzzer is available: Short pin 14-15: On-board Buzzer Enabled. Open pin 14-15: On-board Buzzer Disabled.
2.4-5 HDD LED HDD LED shows the activity of a hard disk drive. Avoid turning the power off while the HDD led is lit. You can connect the HDD LED from the system case to this pin.
2.4-6 Keylock Keylock allows you to disable the keyboard for security purposes. You can connect the keylock to this pin.
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2.5 Floppy Disk Connector: FDD
The mainboard also provides a standard floppy disk connector FDD that supports 360K, 720K, 1.2M, 1.44M and 2.88M floppy disk types. This connector supports the provided floppy drive ribbon cables.
FDD
1
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2.6 Hard Disk Connectors: IDE1 & IDE2
The mainboard has a 32-bit Enhanced PCI IDE Controller that provides PIO mode 0~4, Bus Master, and Ultra DMA/66 function. It has two HDD connectors IDE1 (primary) and IDE2 (secondary). You can connect up to four hard disk drives, CD-ROM, 120MB Floppy (reserved for future BIOS) and other devices to IDE1 and IDE2. These connectors support the provided IDE hard disk cable.
Secondary IDE Connector Primary IDE Connector
1
1
IDE1(Primary IDE Connector) The first hard drive should always be connected to IDE1. IDE1 can connect a Master and a Slave drive. You must configure second hard drive to Slave mode by setting the jumper accordingly. IDE2(Secondary IDE Connector) IDE2 can also connect a Master and a Slave drive.
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2.7 toiteallikas
2.7-1 ATX 20-pin Power Connector: JWR1
This connector supports the power button on-board. Using the ATX power supply, functions such as Modem Ring Wake-Up and Soft Power Off are supported by this mainboard. This power connector supports instant power on function which means that system will boot up instantly when the power connector is inserted on the board.
20
11
10
1
ATX
Toitepistik
PIN DEFINITSIOON
PIN-kood
SIGNAAL
1
3.3V
2
3.3V
3
GND
4
5V
5
GND
6
5V
7
GND
8
PW_OK
9
5V_SB
10
12V
PIN-kood
SIGNAAL
11
3.3V
12
-12V
13
GND
14
PS_ON
15
GND
16
GND
17
GND
18
-5V
19
5V
20
5V
Warning: Since the mainboard has the instant power on function, make sure that all components are installed properly before inserting the power connector to ensure that no damage will be done.
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2.7-2 Remote Power On/Off Switch: JRMS1
Connect to a 2-pin push button switch. During OFF state, press once and the system turns on. During ON stage, push once and the system goes to sleep mode: pushing it more than 4 seconds will change its status from ON to OFF. If you want to change the setup, you could go to the BIOS Power Management Setup. This is only used for ATX type power supply.
JRMS1
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2.8 IrDA Infrared Module Connector: IR
The mainboard provides one 5-pin infrared (IR) connector for IR modules. This connector is for optional wireless transmitting and receiving infrared module. You must configure the setting through the BIOS setup to use the IR function. FIR and Consumer IR are reserved functions.
IRTX
GND IRRX
NC
1
VCC
IR
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2.9 Serial Port Connectors: COM A and COM B
The mainboard has two 9-pin male DIN connector for serial ports COM A & COM B. These ports are 16550A high speed communication port that send/ receive 16 bytes FIFOs. You can attach a mouse or a modem cable directly into this connector.
1 234 5
678 9
KOM A
KOM B
Serial Port (9-pin Male)
PIN DEFINITSIOON
PIN-kood
1 2 3 4 5 6 7 8 9
SIGNAAL
DCD(Data Carry Detect) SIN(Serial In or Receive Data) SOUT(Serial Out or Transmit Data) DTR(Data Terminal Ready) GND DSR(Data Set Ready) RTS(Request To Send) CTS(Clear To Send) RI(Ring Indicate)
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2.10 Parallel Port Connector: LPT
The mainboard provides a 25 pin female centronic connector for LPT. A parallel port is a standard printer port that also supports Enhanced Parallel Port(EPP) and Extended capabilities Parallel Port(ECP). See connector and pin definition below:
Parallel Port (25-pin Female)
LPT
13
1
25
14
PIN DEFINITSIOON
PIN-kood
SIGNAAL
1
STROBE
2
ANDMED0
3
ANDMED1
4
ANDMED2
5
ANDMED3
6
ANDMED4
7
ANDMED5
8
ANDMED6
9
ANDMED7
10
ACK#
11
HÕIVATUD
12
PE
13
VALI
PIN-kood
SIGNAAL
14
AUTO FEED#
15
ERR#
16
INIT#
17
SLIN#
18
GND
19
GND
20
GND
21
GND
22
GND
23
GND
24
GND
25
GND
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2.11 Mouse Connector: JKBMS1
The mainboard provides a standard PS/2® mouse mini DIN connector for attaching a PS/2® mouse. You can plug a PS/2® mouse directly into this connector. The connector location and pin definition are shown below:
Pin6 NC
Pin4 VCC
Pin2 NC
Pin5 Mouse Clock
Pin3 GND
Pin1 Mouse DATA
PS/2 Mouse (6-pin Female)
2.12 Keyboard Connector: JKBMS1
The mainboard provides a standard PS/2® keyboard mini DIN connector for attaching a keyboard. You can plug a keyboard cable directly to this connector.
Pin6 NC
Pin4 VCC
Pin2 NC
Pin5 KBD Clock
Pin3 Pin1 GND KBD DATA
PS/2 Keyboard (6-pin Female)
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2.13 Joystick/Midi Connectors
You can connect joystick or game pads to this connector. Joystick/MIDI
2.14 Audio Port Connectors
Line Out is a connector for Speakers or Headphones. Line In is used for external CD player, Tape layer, or other audio devices. Mic is a connector for the microphones.
Line Out Line In Mic
1/8″ Stereo Audio Connectors
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2.15 USB-pistikud
The mainboard provides a UHCI(Universal Host Controller Interface) Universal Serial Bus root for attaching USB devices like: keyboard, mouse and other USB devices. You can plug the USB device directly to this connector.
USB-port 2
1 2 3 4
USB-port 1
PIN SIGNAAL
1
VCC
2
-Andmed0
3
GND
4
+Andmed0
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2.16 Power Saving Switch Connector: JGS1
Attach a power saving switch to JGS1. When the switch is pressed, the system immediately goes into suspend mode. Press any key and the system wakes up.
JGS1
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2.17 Power Saving LED Connector: JGL1
JGL1 can be connected with two-color LED. There are two type of LED that you can use: 3-pin LED or 2-pin LED(ACPI request). LED will lit while the system is in suspend mode.
3-pin LED
Roheline Värv
Oranž värv
1
3
1-2 Single Color 1-3 Blink
+1 3
JGL1
2-pin LED
Roheline Värv
Oranž värv
1
3
1-2 Dual Color
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2.18 Wake-Up on LAN Connector: JWOL1
The JWOL1 connector is for use with LAN add-on cards that supports Wake Up on LAN function. To use this function, you need to set the “Wake-Up on LAN” to enable at the BIOS Power Management Setup.
1 3
JWOL1
PIN-kood
SIGNAAL
1
5VSB
2
GND
3
MP_WAKEUP
Note: LAN wake-up signal is active “high”.
Märkus.
To be able to use this function, you need a power supply that provide enough power for this feature. (Power supply with 750 mA 5V Stand-by)
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2.19 Modem Wake Up Connector: JMDM1
The JMDM1 connector is for used with Modem add-on card that supports the Modem Wake Up function. To use this function, you need to set the “Resume By Ring” to enable at the BIOS Power Management Setup.
1
5
JMDM1
PIN-kood
SIGNAAL
1
NC
2
GND
3
MDM_WAKEUP
4
NC
5
5VSB
Note: Modem wake-up signal is active “low”.
Märkus.
To be able to use this function, you need a power supply that provide enough power for this feature. (Power supply with 750 mA 5V Stand-by)
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2.20 Modem-In: J6
The connector is for Modem with internal voice connector.
SPK IN GND
MIC OUT
J6
SPK_IN is connected to the Modem Speaker Out connector. MIC_OUT is connected to the Modem Microphone In connector.
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2.21 AUX Line In Connector: J5
This connector is used for DVD Add on Card with Line In connector.
L GND R
J5
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2.22 CD-In Modem Connector: J8
This connector is for Modem with internal voice connector.
LGND R
J8
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2.23 Keyboard Power: JVSB1
The JVSB1 jumper is for setting keyboard power. This function is provided for keyboard and PS/2 mouse Wake-up function.
1 3
JVSB1
1
3
5V Standby (default) Enable keyboard power on function
1
3
5V Disable keyboard power on function
Note: To be able to use this function, you need a power supply that provide enough power for this feature. (Power supply with 750 mA 5V Stand-by)
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2.24 Chassis Intrusion Switch Case: JCASE1
This connector is connected to 2-pin connector chassis switch. If the Chassis is open, the switch will be short. The system will record this status. To clear the warning, you must enter the BIOS setting and clear the status.
JCASE1
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2.25 USB Front Connector: USB2
The mainboard provides a Front Universal Serial Bus Connector.
6
10
1
5
USB2
Pin
Kirjeldus
1, 10
VCC
2, 9
- Andmed
3, 8
+Andmed
4, 5, 6, 7 GND
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2.26 USB Front Connector & Rear Port Jumpers: J14 & J15
This jumper is used to Enabled or Disabled the USB Front Connector. If the USB Front connector is set to enabled, the top USB port at the rear I/O panel will be disabled. If the USB Front connector is set to disabled, the USB ports at rear I/O panel will both be operational.
1
4
3
6
J14
1
4
3
6
J15
USB Rear Port
J14
Short 2-3 5-6
J15
Short 2-3 5-6
Front Short 1-2 Short 1-2
Ühendus
4-5
4-5
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2.30 Front Panel Audio Connector: J13
The mainboard provides a Front Panel Audio connector. This is an optional Audio connector for Front Panel.
5
1
6
10
J13
Pin 1, 4, 7 3, 8 5 6 10 9
Signal Audio GND System GND Line Out (L) Line Out (R) MIC In +12V
2-35
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Inteli Celeroni protsessor [pdf] Paigaldusjuhend ms-6154va, Celeron Processor, Processor |