Difference between revisions of "MotherBoard Testing"

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|-
 
|-
 
|Evaluate if the motherboard should be recycled ||  
 
|Evaluate if the motherboard should be recycled ||  
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CHECK THE WHITEBOARD FOR EXCEPTIONS =
 +
We sometimes get requests for MoBos that are ordinarily out-of-spec.
 
;Reasons to Recycle a motherboard include:
 
;Reasons to Recycle a motherboard include:
* It says that it is a DELL motherboard.
 
* There are no SATA ports.
 
* It is a BTX format motherboard (I/O shield is on the right hand side of the board), a multisocket server board, or have a non-standard ATX (see ATX definition below).
 
 
* The board has visible damage. This includes:
 
* The board has visible damage. This includes:
 
** Blown capacitors. Visually inspect for  check for '''ANY''' domed capacitors. [[Image:Blown_fuse_screenshot.JPG |thumb|''[[Blown capacitors]]'' Check for curved or leaking top.]]
 
** Blown capacitors. Visually inspect for  check for '''ANY''' domed capacitors. [[Image:Blown_fuse_screenshot.JPG |thumb|''[[Blown capacitors]]'' Check for curved or leaking top.]]
** Damaged sockets. If it is a socket 775 check carefully for bent socket pins with a magnifying lens.  
+
** Damaged sockets. If it is an LGA socketed motherboard, check carefully for bent socket pins with a magnifying lens.  
 
** Dark areas on the underside of the board where a device (surface mounted) may have over heated.  
 
** Dark areas on the underside of the board where a device (surface mounted) may have over heated.  
* Also see "Reasons '''NOT''' to reject a motherboard on preliminary inspection" under the "Notes" section at the bottom.
+
 
 +
* It has one of the following socket types: Socket370, Socket462, Socket754, Socket478, slot processor (Pentium II), a dual SOCKET server board (XEON)
 +
* It says that it is a DELL motherboard AND is not a standard ATX format. If you do not know what a standard ATX motherboard looks like, ask an instructor to help you.
 +
* There are no SATA ports.
 +
* It is a BTX format motherboard (I/O shield is on the right hand side of the board), a multisocket server board, or have a non-standard ATX (see ATX definition below).
 +
* More info under "Reasons '''NOT''' to reject a motherboard on preliminary inspection" under the "Notes" section at the bottom.
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|-
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|Mount the board||
 +
*Place the motherboard on the test jig, placing each peg on the jig into the matching hole on the motherboard - do NOT rest the motherboard *ON* the pegs, it could cause a short.
 +
*Orient the motherboard so the external ports (printer, PS2, USB, etc.) are facing you.
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|-
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|If there is no processor, install an appropriate CPU. ||
 +
*Look up the motherboard specification sheet for the appropriate CPU to use.
 +
** Unless it is a very fancy motherboard, start with the fastest CPU we have in stock for this socket type, or one which is recommended in the specification sheet.
 +
**Write down the maximum amount of RAM this motherboard will support, and also the type of RAM (DDR1, DDR2, DDR3 and what speed).
 +
|-
 +
|Installing a processor in the CPU socket ||'''BE CAREFUL!'''
 +
*Processor pins are gold alloy and bend easily. Use the standard practice for inserting CPU's in the motherboard socket as recommended in the User Manual.
 +
*If you bend a pin or pins, you can use a 0.5 mm mechanical pencil and magnifying lens to right the bent pins.
 +
*If you snap off any of the processor pins, recycle the processor and get a replacement. Each pin is required for proper functioning of the CPU.
 
|-
 
|-
 
|Connect mouse and keyboard||
 
|Connect mouse and keyboard||
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|-
 
|-
 
|Connect IDE devices||
 
|Connect IDE devices||
*If there is only one IDE connector on the motherboard, connect the IDE hard drive.
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*If there is an IDE connector on the motherboard, connect the IDE hard drive.
*If there are 2 IDE Connectors, connect the hard drive to IDE1 and the CDROM reader to IDE2.
 
 
*Before connecting the cables, visually verify the pins of the connector(s) are straight.
 
*Before connecting the cables, visually verify the pins of the connector(s) are straight.
 
|-
 
|-
|Connect the power supply||Make sure the power switch on the power supply is in the '''off''' position before plugging the connector into the board.There are, potentially, 3 types of power connectors to be connected.  
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|Connect the power supply||Make sure the power switch on the power supply is in the '''off''' position before plugging the connector into the board.There are, potentially, 2 types of power connectors to be connected.  
*20 pin Molex connectors (main power)
 
 
*24 pin Molex connectors (main power) - These connectors are actually a 20 pin connector with a 4 pin add-on
 
*24 pin Molex connectors (main power) - These connectors are actually a 20 pin connector with a 4 pin add-on
 
*4 pin Molex connector (+12V power)
 
*4 pin Molex connector (+12V power)
 
*Install the main power connector first, then the 4 pin connector. It is very easy to forget the 4 pin connector and if you do the motherboard will not boot.
 
*Install the main power connector first, then the 4 pin connector. It is very easy to forget the 4 pin connector and if you do the motherboard will not boot.
 
|-
 
|-
|Install a tested button battery||Button/CMOS batteries are necessary for retaining BIOS settings when power is absent.
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|Install a tested button battery||Button/CMOS batteries are necessary for retaining BIOS settings when power is absent.  Battery must indicate at least 2.5 VDC when tested.
 
|-
 
|-
 
|Clear the CMOS chip||On the motherboard, usually in the upper right quadrant and near the button battery, there will be 3 posts with a jumper on 2 of them marked CLRRTC or CMOS. On some of the newer motherboards there will be a momentary pushbutton on the motherboard marked CMOS. These perform the same function. Clearing the CMOS chip returns all settings to the factory default.
 
|Clear the CMOS chip||On the motherboard, usually in the upper right quadrant and near the button battery, there will be 3 posts with a jumper on 2 of them marked CLRRTC or CMOS. On some of the newer motherboards there will be a momentary pushbutton on the motherboard marked CMOS. These perform the same function. Clearing the CMOS chip returns all settings to the factory default.
 
*If there are the 3 posts present, move the jumper from pins 1 & 2 to pins 2 & 3. Wait 10 seconds. Then return the jumper to pins 1 & 2.
 
*If there are the 3 posts present, move the jumper from pins 1 & 2 to pins 2 & 3. Wait 10 seconds. Then return the jumper to pins 1 & 2.
 
*If there is a momentary pushbutton, push and hold the button for 10 seconds, then release.
 
*If there is a momentary pushbutton, push and hold the button for 10 seconds, then release.
|-
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*Clearing CMOS settings can also be accomplished in the BIOS (see "Configure BIOS Settings" below).
|Set the audio header jumpers|| Find the audio front panel header and put jumpers on pins 1&2 and 5&6. [[Image:Jumper_Pins_2.png]]
 
 
|-
 
|-
 
|Power up the motherboard and go into BIOS|| The following is the power-up procedure:
 
|Power up the motherboard and go into BIOS|| The following is the power-up procedure:
*Add a memory stick to the first memory slot (you will eventually test every slot)
+
*Add a memory stick to the first memory slot as indicated on the motherboard.
*Find the front panel header post group. Take a screwdriver and momentarily short the 2 pins labeled '''PWR'''
+
*Turn on the power supply
 +
*Find the front panel header post group. Take a screwdriver and momentarily short the 2 pins labeled '''PWR''' or use a momentary push button.
 
*If there is no label indicating the power posts, they are usually the two on the sides of the header group immediately following the key post (missing post).
 
*If there is no label indicating the power posts, they are usually the two on the sides of the header group immediately following the key post (missing post).
*If you found the correct power posts, put a momentary pushbutton switch on those 2 posts. Makes reboots much easier.
+
*If you found the correct power posts, put a momentary pushbutton switch on those 2 posts. This makes reboots much easier.
; If you hear beep codes or the heatsink fan powers up but no video see notes below under Power Up Trouble Shooting.
+
;If you hear beep codes or the heatsink fan powers up but there is no video, see notes below under Power Up Trouble Shooting.
; If you have trouble getting into BIOS see notes below under Power Up Trouble Shooting.
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;If you have trouble getting into BIOS see notes below under Power Up Trouble Shooting.
; If you still have trouble try following the instructions in the user manual.
+
;If you still have trouble try following the instructions in the User Manual for the motherboard.
 
|-
 
|-
|Configure BIOS settings||
+
|Configure BIOS Settings||
 
*Select the choice which loads the system '''DEFAULTS'''
 
*Select the choice which loads the system '''DEFAULTS'''
 
* Enter the current date and time.
 
* Enter the current date and time.
 
Enable or Disable the following settings (this list is not exclusive):
 
Enable or Disable the following settings (this list is not exclusive):
*'''NO''' floppy support
+
*DISABLE floppy support
 
*ENABLE hyperthreading
 
*ENABLE hyperthreading
 
*ENABLE PNP O/S
 
*ENABLE PNP O/S
 
*ENABLE ESCD/CMOS reset
 
*ENABLE ESCD/CMOS reset
*ENABLE boot time diagnostic screen
+
*DISABLE FullScreen Logo
 
*ENABLE quick boot
 
*ENABLE quick boot
 
*ENABLE support for all USB devices*Plug in PS2 mouse or USB mouse if no PS2 port.
 
*ENABLE support for all USB devices*Plug in PS2 mouse or USB mouse if no PS2 port.
*ENABLE support for all IDE devices
+
*ENABLE support for all IDE devices (slot closest to the CPU)
 
*ENABLE IDE bus mastering on all channels
 
*ENABLE IDE bus mastering on all channels
 
*ENABLE SATA devices as IDE
 
*ENABLE SATA devices as IDE
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*ENABLE sound
 
*ENABLE sound
 
*ENABLE ACPI support if available
 
*ENABLE ACPI support if available
*ENABLE the on-board video controller as the first video device, otherwise use the AGP or PCIe controllers.
+
*ENABLE the on-board video controller as the first video device, otherwise use the PCIe controllers.
 
*ENABLE smart cpu cooling fan control
 
*ENABLE smart cpu cooling fan control
 
*ENABLE Boot from other device
 
*ENABLE Boot from other device
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*DISABLE support for the floppy controller, MIDI, SERIAL ports, PRINTER port, LAN boot chip, boot-up floppy seek, full screen logo, RAID
 
*DISABLE support for the floppy controller, MIDI, SERIAL ports, PRINTER port, LAN boot chip, boot-up floppy seek, full screen logo, RAID
 
*Boot Device Priority: CD, hard drive, all others disabled.
 
*Boot Device Priority: CD, hard drive, all others disabled.
*Make sure there is a music CD in the CD drive by opening the drive.
+
*SAVE your choices, exit, and reboot.
*SAVE your choices, exit, and shut off the power supply.
 
 
|-
 
|-
 
| Prep Motherboard ||
 
| Prep Motherboard ||
*Move your memory stick to another slot (need to test '''ALL''' memory slots on the motherboard)
 
 
*Plug in the ethernet and sound cables
 
*Plug in the ethernet and sound cables
*Make sure  you have a music CD in the CD/DVD player
 
 
|-
 
|-
 
|Boot into OS||
 
|Boot into OS||
 
* Turn on the power supply and boot into UBUNTU's graphical desktop.
 
* Turn on the power supply and boot into UBUNTU's graphical desktop.
*If the booting process (GRUB) insists on checking the hard drive file system for errors (FSCK), let it. It only does so when it has detected a file system error of some sort which it determines to be "of concern".
+
*If the booting process (GRUB) insists on checking the hard drive file system for errors, let it. It only does so when it has detected a file system anomaly of some sort which it determines to be "of concern".
 
*If the operating system does '''NOT''' boot to the graphical interface ask your instructor for assistance.  
 
*If the operating system does '''NOT''' boot to the graphical interface ask your instructor for assistance.  
 
|-
 
|-
 
|Test the following. Recycle board if any tests fail.||
 
|Test the following. Recycle board if any tests fail.||
 
If any of the following apply go to "How to Recycle", listed as the last step.
 
If any of the following apply go to "How to Recycle", listed as the last step.
# USB Ports - Plug in a USB mouse to each USB port and verify it moves the cursor.
+
# Ethernet Ports - Start up Firefox and go to an '''off-site''' web page to verify the ethernet port works. If there is no ethernet access and you '''KNOW''' the cable is live, an Ethernet PCI card can be used for internet access. You will make note of this on the motherboard label.
# Ethernet Ports - Start up Firefox and go to an '''off-site''' web site to verify the ethernet port works. If there is no ethernet access and you '''KNOW''' the cable is live, recycle the board. An Ethernet PCI card can be used for internet access. You will note of this on the motherboard label.
+
# Audio - Goto a YOUTUBE page with music to determine if sound is working.
# Audio - If there are two IDE ports and you will have already attached the CD/DVD player attached to the second IDE port and you should be seeing an icon on the desktop. Double left click on the icon and you should see a listing of the contents of the music cd. Double left click on any of the tracks listed and you should bring up a media player window of some sort (depends on how the system was set up) and start hearing music from that track. If none of the above happens (no indication of a cd player attached), recycle the board. Note: make sure your speakers are on and sound turned up.
 
 
|-
 
|-
| Fill out keeper label ||
+
| Fill out Keeper Label ||
 
*Select "SYSTEM/ADMINISTRATION/SYSTEM MONITOR" and see what type/speed cpu you are working with and make note of this data on the label which you are going to stick on the back of the motherboard. Stop the monitor process (kill the window).
 
*Select "SYSTEM/ADMINISTRATION/SYSTEM MONITOR" and see what type/speed cpu you are working with and make note of this data on the label which you are going to stick on the back of the motherboard. Stop the monitor process (kill the window).
*Create a terminal window and type: '''sudo lshw''' then enter the root password. Scroll to the top of the window and record the following information: processor type, processor speed, socket type, cache1 size. On 32 bit processors you can multiply the external clock speed by 4 to get the FSB speed. Otherwise, after testing has completed pull the heatsink off the processor and visually record the processor speed, cache size, and FSB speed from the cpu ship if it is an INTEL chip. If it is an AMD cpu, get this information from a 3-ring binder kept at the memory testing station.  
+
*Create a terminal window and type: '''sudo lshw''' then enter the root password. Scroll to the top of the window and record the following information: processor type, processor speed, socket type, cache1 size. You can multiply the external clock speed by 4 to get the FSB speed. Otherwise, after testing has completed, pull the heatsink off the processor and visually record the processor speed, cache size, and FSB speed from the CPU ship if it is an INTEL chip. If it is an AMD CPU, get this information from the 3-ring binder kept at the memory testing station.  
 
|-
 
|-
 
|Shut the system down ||Use the system halt icon to shut down.
 
|Shut the system down ||Use the system halt icon to shut down.
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*Remove the IDE hard drive cable from the motherboard.
 
*Remove the IDE hard drive cable from the motherboard.
 
*Attach the SATA drive cable to SATA0 (SATA1 if there is no 0).
 
*Attach the SATA drive cable to SATA0 (SATA1 if there is no 0).
*Move the memory stick to a new memory slot if there are slots which have not been tested yet.
 
 
*Turn on the power supply and power up the motherboard.
 
*Turn on the power supply and power up the motherboard.
 
*If you get to the UBUNTU logo you need go no further. Power down the system.
 
*If you get to the UBUNTU logo you need go no further. Power down the system.
*Remove the SATA connector and connect to a new SATA port.
 
*Remove the video cable and video card if using a card.
 
*Insert a PCI video card and attach the video cable.
 
*Power up the motherboard and at the UBUNTU logo, shut down again.
 
*Move the PCI card to an unused slot and repeat the power-up sequence until all slots have been tested.
 
 
*Note any discrepancies on the motherboard label.
 
*Note any discrepancies on the motherboard label.
 
*Power off.
 
*Power off.
 
*Remove all cables, cards, memory, and power connections.
 
*Remove all cables, cards, memory, and power connections.
 +
|-
 +
|Remove The Processor||
 +
*Remove the processor and re-install the heat sink
 +
*Clean off and label the processor
 +
*Affix a "No Processor" sticker prominently on the heat sink
 
|-
 
|-
 
|Finalize the testing process||
 
|Finalize the testing process||
 
*Fill out the motherboard label completely.
 
*Fill out the motherboard label completely.
 
*Attach label to the back (solder/non-component) side of the motherboard.
 
*Attach label to the back (solder/non-component) side of the motherboard.
*Put the motherboard in an anti-static bag.
+
*Ideally, bring the processor and the board to the store at the same time, and hand them off to a store employee for pricing.
*Take the motherboard to the store for pricing.
+
*Kick back, return to Hardware Testing, and brag to everyone that you successfully tested a motherboard at Free Geek. Be prepared to be pummeled with apple cores, mouse pads, and used chewing gum.
*Kick back, return to Advanced Testing, and brag to everyone that you successfully tested a motherboard at Freegeek. Be prepared to be pummeled with apple cores, mouse pads, and used chewing gum.
 
 
|-
 
|-
 
|How to RECYCLE a motherboard||
 
|How to RECYCLE a motherboard||
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*Remove the button battery and save it for testing and reuse later.
 
*Remove the button battery and save it for testing and reuse later.
 
*Remove any easily accessible jumpers and save them. Especially the ones with extended gripping surfaces.
 
*Remove any easily accessible jumpers and save them. Especially the ones with extended gripping surfaces.
*If you have time, remove any aluminum heatsinks and mobo mounting plates (such as those found on Dell boards). Deposit all in the appropriate recycle bin.
 
 
|-
 
|-
 
|}
 
|}
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*Missing on-board sound (resolved with PCI based sound cards).
 
*Missing on-board sound (resolved with PCI based sound cards).
 
*Missing LAN ports (resolved with PCI based LAN cards).
 
*Missing LAN ports (resolved with PCI based LAN cards).
*Missing on-board video (resolved by PCI, PCI-e, or AGP slots on the motherboard).
+
*Missing on-board video (resolved by PCI-e slots on the motherboard).
 
*Missing PCI slots - as long as there are PS2 or USB, video, and sound ports on the board.
 
*Missing PCI slots - as long as there are PS2 or USB, video, and sound ports on the board.
 
*Broken or damaged Northbridge, Southbridge, or SUPERIO chip heatsinks can be replaced as can any on-board fans.
 
*Broken or damaged Northbridge, Southbridge, or SUPERIO chip heatsinks can be replaced as can any on-board fans.
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Beep codes during power on step:
 
Beep codes during power on step:
 
Power down the motherboard. The beeping normally means either:
 
Power down the motherboard. The beeping normally means either:
*You have the wrong speed memory installed. Power down the motherboard, choose the next slowest speed memory card, and reboot. THis usually fixes the beeping problem.
+
*You have the wrong speed memory installed. Power down the motherboard, choose the next slowest speed memory card, and reboot. This usually fixes the beeping problem.
*You have the wrong processor speed/FSB speed/L2 cache size cpu installed. Refer to the user manual for the motherboard for the correct speed processor. If no user manual is available try a processor with a slower FSB speed, smaller L2 cache, or slower processor speed.
+
*You have the wrong processor speed, FSB speed, L2 cache size cpu installed. Refer to the User Manual for the motherboard for the correct speed processor. If no User Manual is available try a processor with a slower FSB speed or smaller L2 cache.
*Make 2 or 3 attempts at fixing the beeping problem before deciding to recycle the motherboard.  
+
*Make 2 or 3 attempts at fixing the beeping problem before deciding to recycle the motherboard.  Ask your Instructor first.  
The heatsink fan powers up, but I get no video. You'll know if you have video because most monitors have an LED lit power button that changes color (usually green) when the motherboard senses a video sync signal. || This could be due to many issues:
+
;The heatsink fan powers up, but I get no video.  
 +
*You'll know if you have video because most monitors have an LED lit power button that changes color (usually green) when the motherboard senses a video sync signal. This could be due to many issues:
 
*The onboard video isn't working. Either use an external video card in the video card slot or use a PCI based video card and reboot.
 
*The onboard video isn't working. Either use an external video card in the video card slot or use a PCI based video card and reboot.
 
*The motherboard doesn't like the video card you are using. Change out the video card - twice. It COULD be something other than a video card causing the problem.
 
*The motherboard doesn't like the video card you are using. Change out the video card - twice. It COULD be something other than a video card causing the problem.
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*Wrong/bad processor. Use only processors that have been pretested by Advanced Testing.
 
*Wrong/bad processor. Use only processors that have been pretested by Advanced Testing.
 
*Check for blown caps - again.
 
*Check for blown caps - again.
Help getting into BIOS:
+
;Help getting into BIOS:
 
*Check to see if the CLRCMOS jumper is in the correct position. Normally, this means pins 1&2 are jumpered, but this is manufacturer dependant. A jumper in the wrong position will sometimes prohibit the motherboard from booting.
 
*Check to see if the CLRCMOS jumper is in the correct position. Normally, this means pins 1&2 are jumpered, but this is manufacturer dependant. A jumper in the wrong position will sometimes prohibit the motherboard from booting.
 
*Look at the motherboard...is there an open 4 pin Molex connector? You forgot to plug in the +12v.connector, dummy ! Turn off the power supply, plug it in, and try again.  
 
*Look at the motherboard...is there an open 4 pin Molex connector? You forgot to plug in the +12v.connector, dummy ! Turn off the power supply, plug it in, and try again.  
The button on the monitor turns green and I get writing on the screen||Congratulations ! You have a successful boot. The next trick is to intercept the booting process so you can configure the BIOS.
+
;The button on the monitor turns green and I get writing on the screen.
 +
*Congratulations ! You have a successful boot. The next trick is to intercept the booting process so you can configure the BIOS.
 
*Once the initial black and white screen appears on the monitor look for and indication of what key sequence to enter to get into the BIOS configuration area.
 
*Once the initial black and white screen appears on the monitor look for and indication of what key sequence to enter to get into the BIOS configuration area.
 
*This key sequence '''USUALLY''' involves hitting the DEL, F1, F10, or F12 key.
 
*This key sequence '''USUALLY''' involves hitting the DEL, F1, F10, or F12 key.
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[[Category:Hardware Testing]]
 
[[Category:Hardware Testing]]
 
[[Category:Howto]]
 
[[Category:Howto]]
[[Category:Advanced Testing]]
 

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STEPS NOTES AND DETAILED INSTRUCTIONS
Evaluate if the motherboard should be recycled

CHECK THE WHITEBOARD FOR EXCEPTIONS = We sometimes get requests for MoBos that are ordinarily out-of-spec.

Reasons to Recycle a motherboard include
  • The board has visible damage. This includes:
    • Blown capacitors. Visually inspect for check for ANY domed capacitors.
      Blown capacitors Check for curved or leaking top.
    • Damaged sockets. If it is an LGA socketed motherboard, check carefully for bent socket pins with a magnifying lens.
    • Dark areas on the underside of the board where a device (surface mounted) may have over heated.
  • It has one of the following socket types: Socket370, Socket462, Socket754, Socket478, slot processor (Pentium II), a dual SOCKET server board (XEON)
  • It says that it is a DELL motherboard AND is not a standard ATX format. If you do not know what a standard ATX motherboard looks like, ask an instructor to help you.
  • There are no SATA ports.
  • It is a BTX format motherboard (I/O shield is on the right hand side of the board), a multisocket server board, or have a non-standard ATX (see ATX definition below).
  • More info under "Reasons NOT to reject a motherboard on preliminary inspection" under the "Notes" section at the bottom.
Mount the board
  • Place the motherboard on the test jig, placing each peg on the jig into the matching hole on the motherboard - do NOT rest the motherboard *ON* the pegs, it could cause a short.
  • Orient the motherboard so the external ports (printer, PS2, USB, etc.) are facing you.
If there is no processor, install an appropriate CPU.
  • Look up the motherboard specification sheet for the appropriate CPU to use.
    • Unless it is a very fancy motherboard, start with the fastest CPU we have in stock for this socket type, or one which is recommended in the specification sheet.
    • Write down the maximum amount of RAM this motherboard will support, and also the type of RAM (DDR1, DDR2, DDR3 and what speed).
Installing a processor in the CPU socket BE CAREFUL!
  • Processor pins are gold alloy and bend easily. Use the standard practice for inserting CPU's in the motherboard socket as recommended in the User Manual.
  • If you bend a pin or pins, you can use a 0.5 mm mechanical pencil and magnifying lens to right the bent pins.
  • If you snap off any of the processor pins, recycle the processor and get a replacement. Each pin is required for proper functioning of the CPU.
Connect mouse and keyboard
  • Use USB or PS2 mice or keyboards.
Connect IDE devices
  • If there is an IDE connector on the motherboard, connect the IDE hard drive.
  • Before connecting the cables, visually verify the pins of the connector(s) are straight.
Connect the power supply Make sure the power switch on the power supply is in the off position before plugging the connector into the board.There are, potentially, 2 types of power connectors to be connected.
  • 24 pin Molex connectors (main power) - These connectors are actually a 20 pin connector with a 4 pin add-on
  • 4 pin Molex connector (+12V power)
  • Install the main power connector first, then the 4 pin connector. It is very easy to forget the 4 pin connector and if you do the motherboard will not boot.
Install a tested button battery Button/CMOS batteries are necessary for retaining BIOS settings when power is absent. Battery must indicate at least 2.5 VDC when tested.
Clear the CMOS chip On the motherboard, usually in the upper right quadrant and near the button battery, there will be 3 posts with a jumper on 2 of them marked CLRRTC or CMOS. On some of the newer motherboards there will be a momentary pushbutton on the motherboard marked CMOS. These perform the same function. Clearing the CMOS chip returns all settings to the factory default.
  • If there are the 3 posts present, move the jumper from pins 1 & 2 to pins 2 & 3. Wait 10 seconds. Then return the jumper to pins 1 & 2.
  • If there is a momentary pushbutton, push and hold the button for 10 seconds, then release.
  • Clearing CMOS settings can also be accomplished in the BIOS (see "Configure BIOS Settings" below).
Power up the motherboard and go into BIOS The following is the power-up procedure:
  • Add a memory stick to the first memory slot as indicated on the motherboard.
  • Turn on the power supply
  • Find the front panel header post group. Take a screwdriver and momentarily short the 2 pins labeled PWR or use a momentary push button.
  • If there is no label indicating the power posts, they are usually the two on the sides of the header group immediately following the key post (missing post).
  • If you found the correct power posts, put a momentary pushbutton switch on those 2 posts. This makes reboots much easier.
If you hear beep codes or the heatsink fan powers up but there is no video, see notes below under Power Up Trouble Shooting.
If you have trouble getting into BIOS see notes below under Power Up Trouble Shooting.
If you still have trouble try following the instructions in the User Manual for the motherboard.
Configure BIOS Settings
  • Select the choice which loads the system DEFAULTS
  • Enter the current date and time.

Enable or Disable the following settings (this list is not exclusive):

  • DISABLE floppy support
  • ENABLE hyperthreading
  • ENABLE PNP O/S
  • ENABLE ESCD/CMOS reset
  • DISABLE FullScreen Logo
  • ENABLE quick boot
  • ENABLE support for all USB devices*Plug in PS2 mouse or USB mouse if no PS2 port.
  • ENABLE support for all IDE devices (slot closest to the CPU)
  • ENABLE IDE bus mastering on all channels
  • ENABLE SATA devices as IDE
  • ENABLE SMART monitoring of disks
  • ENABLE LAN
  • ENABLE sound
  • ENABLE ACPI support if available
  • ENABLE the on-board video controller as the first video device, otherwise use the PCIe controllers.
  • ENABLE smart cpu cooling fan control
  • ENABLE Boot from other device
  • After power off - STAY OFF
  • DISABLE support for the floppy controller, MIDI, SERIAL ports, PRINTER port, LAN boot chip, boot-up floppy seek, full screen logo, RAID
  • Boot Device Priority: CD, hard drive, all others disabled.
  • SAVE your choices, exit, and reboot.
Prep Motherboard
  • Plug in the ethernet and sound cables
Boot into OS
  • Turn on the power supply and boot into UBUNTU's graphical desktop.
  • If the booting process (GRUB) insists on checking the hard drive file system for errors, let it. It only does so when it has detected a file system anomaly of some sort which it determines to be "of concern".
  • If the operating system does NOT boot to the graphical interface ask your instructor for assistance.
Test the following. Recycle board if any tests fail.

If any of the following apply go to "How to Recycle", listed as the last step.

  1. Ethernet Ports - Start up Firefox and go to an off-site web page to verify the ethernet port works. If there is no ethernet access and you KNOW the cable is live, an Ethernet PCI card can be used for internet access. You will make note of this on the motherboard label.
  2. Audio - Goto a YOUTUBE page with music to determine if sound is working.
Fill out Keeper Label
  • Select "SYSTEM/ADMINISTRATION/SYSTEM MONITOR" and see what type/speed cpu you are working with and make note of this data on the label which you are going to stick on the back of the motherboard. Stop the monitor process (kill the window).
  • Create a terminal window and type: sudo lshw then enter the root password. Scroll to the top of the window and record the following information: processor type, processor speed, socket type, cache1 size. You can multiply the external clock speed by 4 to get the FSB speed. Otherwise, after testing has completed, pull the heatsink off the processor and visually record the processor speed, cache size, and FSB speed from the CPU ship if it is an INTEL chip. If it is an AMD CPU, get this information from the 3-ring binder kept at the memory testing station.
Shut the system down Use the system halt icon to shut down.
  • POWER OFF the power supply.
Boot from the SATA drive Now we verify that SATA works correctly:
  • Remove the IDE hard drive cable from the motherboard.
  • Attach the SATA drive cable to SATA0 (SATA1 if there is no 0).
  • Turn on the power supply and power up the motherboard.
  • If you get to the UBUNTU logo you need go no further. Power down the system.
  • Note any discrepancies on the motherboard label.
  • Power off.
  • Remove all cables, cards, memory, and power connections.
Remove The Processor
  • Remove the processor and re-install the heat sink
  • Clean off and label the processor
  • Affix a "No Processor" sticker prominently on the heat sink
Finalize the testing process
  • Fill out the motherboard label completely.
  • Attach label to the back (solder/non-component) side of the motherboard.
  • Ideally, bring the processor and the board to the store at the same time, and hand them off to a store employee for pricing.
  • Kick back, return to Hardware Testing, and brag to everyone that you successfully tested a motherboard at Free Geek. Be prepared to be pummeled with apple cores, mouse pads, and used chewing gum.
How to RECYCLE a motherboard
  • Remove the CPU heatsink and, if it is of use on other types of motherboards or looks to be sell-able, save it. Otherwise, recycle the heatsink in a yellow bin.
  • Remove the processor and save it for testing later if it qualifies (it is at least the minimum speed and acceptable socket type).
  • Remove the button battery and save it for testing and reuse later.
  • Remove any easily accessible jumpers and save them. Especially the ones with extended gripping surfaces.

Notes:

Reasons NOT to reject a motherboard on preliminary inspection
  • Broken or missing memory slot attachment arms are no reason to reject a board as long as the board passes all the other tests.
  • Missing PS2 ports as long as there are USB ports available.
  • Missing on-board sound (resolved with PCI based sound cards).
  • Missing LAN ports (resolved with PCI based LAN cards).
  • Missing on-board video (resolved by PCI-e slots on the motherboard).
  • Missing PCI slots - as long as there are PS2 or USB, video, and sound ports on the board.
  • Broken or damaged Northbridge, Southbridge, or SUPERIO chip heatsinks can be replaced as can any on-board fans.
Power Up Troubleshooting

Beep codes during power on step: Power down the motherboard. The beeping normally means either:

  • You have the wrong speed memory installed. Power down the motherboard, choose the next slowest speed memory card, and reboot. This usually fixes the beeping problem.
  • You have the wrong processor speed, FSB speed, L2 cache size cpu installed. Refer to the User Manual for the motherboard for the correct speed processor. If no User Manual is available try a processor with a slower FSB speed or smaller L2 cache.
  • Make 2 or 3 attempts at fixing the beeping problem before deciding to recycle the motherboard. Ask your Instructor first.
The heatsink fan powers up, but I get no video.
  • You'll know if you have video because most monitors have an LED lit power button that changes color (usually green) when the motherboard senses a video sync signal. This could be due to many issues:
  • The onboard video isn't working. Either use an external video card in the video card slot or use a PCI based video card and reboot.
  • The motherboard doesn't like the video card you are using. Change out the video card - twice. It COULD be something other than a video card causing the problem.
  • Wrong speed memory. Use only memory that has been pretested by Advanced Testing.
  • Wrong/bad processor. Use only processors that have been pretested by Advanced Testing.
  • Check for blown caps - again.
Help getting into BIOS
  • Check to see if the CLRCMOS jumper is in the correct position. Normally, this means pins 1&2 are jumpered, but this is manufacturer dependant. A jumper in the wrong position will sometimes prohibit the motherboard from booting.
  • Look at the motherboard...is there an open 4 pin Molex connector? You forgot to plug in the +12v.connector, dummy ! Turn off the power supply, plug it in, and try again.
The button on the monitor turns green and I get writing on the screen.
  • Congratulations ! You have a successful boot. The next trick is to intercept the booting process so you can configure the BIOS.
  • Once the initial black and white screen appears on the monitor look for and indication of what key sequence to enter to get into the BIOS configuration area.
  • This key sequence USUALLY involves hitting the DEL, F1, F10, or F12 key.
  • If NO indication appears on the screen about which key to enter, start entering the above keys as soon as you get a green light indication from the monitor.

Motherboard layout.jpg

  • Motherboards GENERALLY have a standardized layout as follows:
I. Lower left quadrant contains the CPU socket, CPU heatsink, the 12 volt power connector (4 pin Molex), and all the external connectors.
II. Upper left quadrant contains the memory slots, main power connector, floppy connector, and may have one to two IDE connectors.
III. Upper right quadrant contains SATA connectors, SOUTHBRIDGE chip, RAID connector (if any), front panel header, USB header(s).
IV. Lower right quadrant contains AGP/PCIe video slots, PCI slots, button battery (this can actually be in this quadrant or the upper right), PCI extender slot, and audio header.