If you have purchased all the necessary hardware your are ready assemble your PC. Before unpacking your components from its original anti-static bags you must put on your anti-static wrist strap, which will discharge your self. It is important that you discharge yourself or there is a danger that you can damage your components by anti-static shock by touching the components. If you don't have an anti-static wrist strap you can discharge your self by touching the metal edges of your ATX case, although this is not recommended. Be careful not to cut yourself as some ATX cases have sharp edges. Have all the mounting screws that come with the motherboard and a philips screw driver handy as you would need them during the later stages. Now you can proceed to the first step:
Step-Motherboard Installation.1.Install Motherboard
The first thing you should do is unpack your ATX case. Take off the cover of your case so that you can access the inside. Place the case on a desk so that you are looking down towards the open case. Your case should come with motherboard mounting screws. If your ATX back plate it not already fitted you can fit it by placing your plate near the ATX back plate cut out and pushing the plate outwards, it should clip on.
Now place your motherboard on top of the mounting screw holes. Make sure your ATX devices on the motherboard such as PS/2 and parallel port are facing towards ATX back plate cut out. Gently push your motherboard towards the cut out, every devices should fit easily into its corresponding cut out, as shown below.
The screw holes on your motherboard should align with the screw holes on your case. Place your screws that came with the case into the appropriate holes and gently screw it on using a screw driver.
The motherboard is now securely mounted to the case. You can now place the ATX power connector to the motherboard. Your ATX case should come with a power supply unit (PSU) and should already be mounted to the case. The ATX power connector is shown on image below.
Place the ATX power connector on top of the power socket on the motherboard. Push down the power connector and it should clip onto the socket. If you try to fit the power connector the wrong way round, it won't fit, it will only fit one way. So, if the power connector does not go in, it should go in the other way round.
2.Install a Processor (CPU)
Locate the processor socket on your motherboard. I am installing an Intel PIII 866 processor on a socket 370 as shown on the following image. The installation would be slightly different if you have a different processor i.e. Slot1 PIII CPU, P4 Socket 478, Core 2 Duo Socket 775, AMD Slot A / Socket A, Socket AM2 CPU etc.
Raise the brown lever on the socket and slowly put the processor in place. You have to make sure the pin 1 of your CPU goes into the pin 1 of your CPU socket otherwise the CPU would not get into the socket, so don't try to force it in. It will go in gently if you fit it correctly. Now close the brown lever which will securely hold the CPU in place.
If you bought a retail boxed CPU it would include a heatsink + fan. If you bought an OEM CPU make sure you got a fan that is correct for the speed of your CPU, otherwise your CPU will overheat and behave abnormally or could be damaged. Take off the plastic cover from the bottom of the CPU fan that covers the heat transfer pad. Now place the CPU fan on top the CPU and push down the metal clips on the fan so that it clips onto the CPU socket.
CPU fan has a power connector which needs to be connected to CPU fan power socket on your motherboard as shown on the image above.
Finally, you have to specify what frequency (speed) your CPU is running at. This can be done using jumper settings, or on some modern motherboard it can be done in the BIOS, or your motherboard may have automatic detection for your CPU frequency. Please refer to your motherboard manual for more details. The motherboard I am using (Abit BX133) has a dip-stick jumper setting and it can be setup in the BIOS. I have left the jumper setting to default as I will use the BIOS to specify the CPU frequency. The CPU runs at the bus speed of 133Mhz therefore I will use the settings 133 * 6.5(multiplier) under the BIOS, which will the run the CPU at 866Mhz.
3.Install Memory - SDRAM
Installing memory is quite simple. Find the SDRAM banks on your motherboard, they should look similar to the banks below. Notice the memory banks has a white clip on each side. Make sure you release the clips so it bends to each side.
Hold each corner of the SDRAM placing it on top of the bank 1. You will notice that the SDRAM has a cut at the bottom side, it is there to prevent the memoy going in the wrong way round. If you are holding the SDRAM the incorrect way you will not be able insert it. Gently push down the SDRAM and it should clip on to the memory bank. The two white clips will now become straight holding each corner of the memory. If you have more that one SDRAM perform same steps as above but placing the SDRAM in memory bank 2 and so on.
4.IDE or SATA Hard drive
Please choose the type of hard drive you will be using to build the system. If you have an IDE hard drive (also known as ATA or PATA) then choose IDE. If you have SATA ( Serial ATA) hard drive then choose SATA. If you don't know what type hard drive you have, then look at the image below and choose the one that matches your hard drive
(i)Install IDE Hard Drive
If you look at the rear side of an IDE hard drive it should look similar to the image below.
The IDE/ATA connector is on the left hand side which consists of many pins. Next to the IDE connector is the jumper setting for the drive. The jumper should be set to Master, which is the default setting for a new HDD. Any other device sharing the same IDE cable should be set to Slave. Different HDD has different jumper settings, please refer to your HDD manual for more information. On the right hand side, next to the jumpers is the power connector. Every device except FDD uses this type of power connector.
Figure 1 and 2 below shows what an ATA 66 and a power cable looks like. The ATA 66 cable which is also known as UDMA 66 cable is an advance IDE cable, which offers higher performance and data integrity than the standard IDE cable. ATA 66 cable consists of 80 conductor cable where as the standard IDE cable consists of 40 conductor cable. I am using an ATA 66 cable because the above HDD is an ATA 100 drive which requires an ATA 66 cable.
Figure 1 - ATA 66 Cable
Figure 2 - Power cable
Place your hard drive into the HDD mounting slot of your case, make sure the IDE/ATA connector is facing outwards. Screw the HDD to the case using screws provided with the HDD or the ATX case.
Insert the ATA 66 cable into the ATA connector of the HDD. Make sure the pin 1 on the cable is connected to pin 1 on the HDD connector. Pin 1 is the red or pink strip on the edge of an ATA cable. Most new IDE/ATA cables are designed so that it will only go in one way which will correspond to pin 1.
Push the power cable into the power connector as shown. The power cable is designed to go in one way, so you shouldn't have any problems.
Connect the other end of the ATA 66 cable to the primary ATA socket of your motherboard as shown. Make sure the pin 1 on the cable connects to the pin 1 on the ATA socket.
That's it you have successfully installed a HDD.
(ii)Install SATA Hard Drive
If you look at the rear side of a SATA hard drive it should look similar to the image below.
Figure 1 - SATA Hard drive
The SATA cable connector is on the left hand side which consists of few pins. Next to the SATA connector on the right side is SATA power connector which consist of many pins. You will notice that SATA hard drives do not have any jumper settings for slave or master as each drive will connect to a dedicated SATA port on the motherboard.
Place your hard drive into the HDD mounting slot of your case, make sure the SATA connector is facing outwards. Screw the HDD to the case using screws provided with the HDD or the ATX case.
Now have a look at the SATA data cable as show on the image below. You need to connect one end of the SATA data cable to the SATA connector of the hard drive. Look at the top of the cable to see which way it should go in. It would only fit one way so you can not fit it the wrong way round. Gently push the cable into place.
Figure 2 - SATA Cable
The image below is a SATA power connector. This needs to be connected to the power socket of the SATA hard drive. Gently push it into place. It will only fit one way so there is no danger of fitting it wrong way round.
Figure 3 - SATA Power cable
If you have an old ATX power supply you will not have a SATA power connector as they only have 12V molex connector. In this case, if you do not want to replace your power supply unit then you can get a 'Molex to SATA' power cable converter as shown on figure 4.
Figure 4 - Molex to SATA Power cable converter
Finally you need to fit the other end of the SATA data cable to a SATA socket / port on the motherboard. Again it will only fit one way and gently fit into position. It does not matter which socket you plug it into as it will work on any SATA socket. But it is better to plug it into SATA socket 1 if you only have one hard drive. If you add another SATA device you can connect it to SATA socket 2 and so on.
Figure 5 - SATA Socket (port) on motherboard
5.Install Floppy Disk Drive
The rear side of a floppy drive looks similar to the following image.
The black connector on the left hand side is the floppy disk connector. It is different from the IDE connector and uses a different cable. The small white connector on the right hand side is the power connector for the floppy drive. Figure 1 and 2 below shows what a floppy drive cable and floppy drive power connector looks like.
Figure 1 - Floppy drive cable.
Figure 2 - Floppy drive power cable
Place the floppy drive into the FDD mounting slot as shown. Screw the drive securely into place.
Insert the floppy drive cable into the floppy drive connector. Make sure the pin 1 on the cable connects to the pin 1 on the floppy drive connector. As you already know by now that pin 1 is the red or pink strip on the edge of the floppy drive cable. Most floppy drive cables are designed so that it will only go in on way, so you can not connect it incorrectly.
Push the floppy drive power cable to the power connector. This will only go in on way.
Finally connect the other end of the floppy drive cable to floppy drive connector on your motherboard. Make sure pin 1 on the cable connects to pin 1 on the connector.
6.Install CD / DVD-ROM
If you look at the rear side of your CD / DVD-ROM it should look similar to image shown on figure 1.
On the right hand side you have the power connector. Next to power connector you have the IDE connector. On the left hand side near the IDE connector you have the jumper settings for the DVD-ROM. The jumper is set to Master by default. I am connecting the DVD-ROM on a separate IDE cable therefore I will leave the jumper setting toMaster. However if you are sharing an IDE cable with another device like HDD, then you would have to set jumper to Slave, as your HDD would be set to Master. Next to the jumpers you have the CD Audio-Out socket. One side of your audio cable connects to this socket and other side connects to the sound card cd-in socket. This would allow you to listen to Audio CD's on your computer.
Figure 1
Figure 2
Mount your CD/DVD-ROM drive into its mounting slot. Use the supplied screws to screw the drive into position.
Figure 3
Connect the IDE cable to the drives IDE connector. Make sure the pin 1 on the cable is connected to pin 1 on the drives IDE connector. Pin 1 is the red or pink strip on the edge of an IDE cable. Connect the other end of the IDE cable to the IDE socket on your motherboard as shown in figure 4. Again, make sure you conncet the cable to pin 1. The IDE socket could be your primary or secondary socket depending which socket you choose. If your HDD is on the primary IDE socket and your secondary IDE socket is free, then it is better to use your secondary IDE socket for the CD/DVD-ROM.
Figure 4
Finally connect the power cable to power connector and connect the audio cable to the CD Audio-Out socket as shown on figure 3.
please refer step 7 to 10 On Assemble the PC - Part 2
11.Finalizing Stage
Now that you have installed all the necessary hardware there are still few more things you need to do before switching on your PC for the first time. Your ATX case has a power switch which turns the PC on, a reset switch for resetting the system, a power LED which comes on when the PC is switched on and a hard drive LED which flashes when data is being written or read from your hard drive. You also have an internal speaker.
Figure 1 - Power and Reset switch
The switches and LED's need to be connected to its corresponding connectors on the motherboard. Please refer to your motherboard manual to locate where the connectors are. Different motherboards place the connectors in different locations. The connectors for the switches and LED's are normally grouped together. They should look similar to the image below.
Figure 2 - Switch and LED connectors
Every cable is normally labeled, they are normally named as follows, but could be slightly different on your system.
Power switch | Power / PWR-SW |
| Reset switch | Reset |
| Power LED | Power LED / PWR-LED |
| Hard drive LED | HDD-LED / IDE LED |
| Speaker | SPK / Speaker |
The connectors on the motherboard are also labeled but may be too small to see. Instead refer to your motherboard manual which would provide details on which pins you should connect the cables to. The image below shows how the pins may be organised on your motherboard.
Once you have connected all the cables to the correct pins on the motherboard, you are ready to switch the PC on. At this point you can close the cover of your ATX case but don't screw it on just yet as you might have possible problems that needs rectifying. Connect all the cables to back of ATX case. These includes the main power cable that connects to the power supply. PS/2 mouse and keyboard that connects to the PS/2 ports. Monitor cable that connects to the graphics card port, etc. Finally the moment has arrived. Switch on your monitor first. Your ATX power supply might have a main power switch at the back so make sure that is switched on. Now switch the PC on by pressing the power switch on the front of the ATX case. If you have performed all the tasks without any mistakes and providing that none of the main components are faulty, the PC should boot. When the PC boots you should see the name of the BIOS manufacturer, such as AWARD BIOS displayed on your monitor. Your CPU type, speed and the amount of memory should be displayed as shown on image below.
If your motherboard has a plug and play BIOS and is set to automatic device detection by default, then you would see your IDE devices being detected followed by a prompt complaining about missing operating system. If your motherboard does not detect the hardware, then you need to proceed to the BIOS setup screen by pressing DEL or F1 or F2 depending on your motherboard. Congratulations you have completed building your own PC. You now need to proceed to the software section which explains how to setup the BIOS, Hard disk and install an operating system.
If things did not go smoothly and your PC does not switch on then go to the troubleshooting section for possible solutions.
