Understanding you Motherboard - External

The motherboard also has external connectors for devices such as keyboards mice and printers. We will take a quick look at these connectors and show which is which. Although it is difficult to plug pieces in the incorrect slot due to there shape and size differences, it helps to have the knowledge of what you are doing rather than just finding the one that fits.




Explanation....


1 - PS/2 Connectors

ATX boards have 2 PS/2 connectors, one for the mouse and one for the keyboard. They are the same size the same shape but a different colour. This is because the Mouse and keyboard connectors are not interchangeable. Plugging the keyboard in to the mouse connector and vice versa will make them both useless. The usual way for these to be plugged in is the mouse into the Green connector and the keyboard into the purple connector.


2 - USB (Universal Serial Bus) Ports

USB is getting more and more popular for external components. So much so that you can even buy external USB hard disks now. The big hype about USB as that you can change the devices on the USB without switching the power off the computer. If you have a mouse and a Scanner plugged into USB for example, and you wanted to play your new game on your USB controller, you could unplug your Scanner and plug in your game controller. The system would then recognise the change and let you use the controller straight away. You will normally get 2 USB ports with an option to add an extra 2 via a cable.


3 - Parallel Port

The parallel port is mainly used for scanners and printers, and is associated with LPT1. Parallel ports send data in parallel i.e. more than one bit at a time. If the channel is 8bits wide then a parallel port would send 8 bits at a time.


4 - Game Port

The Game port is really just a serial port normally found on a sound card. as the picture above has onboard sound in order to show you everything an ATX motherboard can have on it, the game port is above the sound connectors. Gamepads and joysticks plug into the game port. The game port is a female connector and larger than that of the standard COM port.


5 - Sound card Connectors

The Sound card that is built into the board has three connectors, these are Speaker out, this is your main output for your computer speakers, depending on your sound chip you may or may not need powered speakers. Check with the motherboard manual for this. Then you will have the Line in, Line in is for external sources of audio that you want to hear through your computer or possibly record, i.e. from your Hi-Fi. The last of the 3 is the Mic in port. This is for the Microphone. The Microphone can again be used to add sound to recording or just to play through your speakers as a karaoke system.


6 - Display Connector

This motherboard also has onboard graphics, if this is the case with your motherboard then you will have this connector on your motherboard. The Display connector is also female (meaning the pins will be on the end of the monitor cable.) If you have a standard graphics card then this connector will be on the back of your graphics card.


7 - COM (communications) Port


The COM port is used for peripherals such as mice and modems, becoming less popular now though as USB and PS/2 have taken over. Motherboards seem to only have the 1 COM port now in favour of more USB ports.

Understanding Your Motherboard - Internal

Understanding your motherboard is about pointing out what the bits of your motherboard actually do, if you are not used to building or upgrading your own machine you will want to know the ins and outs of the motherboard. The motherboard is a very important piece of equipment in your PC as it is connected to everything. Anything of major importance is plugged straight into the board. Some things on a motherboard are meant to be changed and altered to suit your own specifications, other things are strictly to be left alone unless fully qualified. We will try to give you a brief bit of history if there is any on each of these parts and some specifications.

I will start with the internal connecters and ports and then move on to the External ones. You can use the numbers on the image to jump straight to that section.




1. PCI Slot
2. AGP slot
3. North Bridge
4. CPU Socket
5. DIMM Slot
6. Battery
7. Molex Power connector
8. IDE Ports
9. S-ATA Ports
10. South Bridge
11. USB 2.0 Header
12. Firewire Header

Explanation...


1 - PCI (Peripheral Component Interconnect) slot

The PCI bus was developed by Intel, however This local bus is not only for Intel produced micro processors, you will find it very difficult to find a motherboard without a PCI slot on it. You will find that you will get a number of PCI slots from 1 up to about 6. The PCI bus runs at 33Mhz and normally 32bits. The PCI bus was the first one to fully support plug and play, where IRQ's and other resources are set up by the OS and there are no need to alter jumpers etc on the hardware. The PCI bus supports a wide range of peripherals from sound cards to DVD decoders and graphics accelerators. PCI is now the standard for internal peripherals except for graphics cards which have now moved over to the faster AGP port.

2 - AGP (Accelerated Graphics Port)

The AGP was designed specifically for video cards. AGP was really forced in to the computer world as graphics cards required more and more bandwidth. AGP provided not only a faster bus speed (66Mhz 1x - 133Mhz 2x - 266Mhz 4x effectively) but allowed fast access to the main memory allowing for greater storage space in the memory for textures etc. Unlike the ISA and PCI local buses the AGP is a port and not a bus, this is because it is not expandable, it only involves the two devices the graphics card and the CPU. AGP still uses 32bits but is based on the PCI 2.1 standard which allowed 66Mhz transfer rate instead of 33Mhz.

Not on Picture - ISA (Industry Standard Architecture) slot
The ISA slot is an old type of connector for internal peripherals such as modems and network cards. ISA is a system bus running a lot slower than the PCI and AGP bus speeds. ISA runs at only a 8Mhz maximum, although some systems do allow this to be overclocked to 12Mhz. Still very slow and as new motherboards are introduced the ISA slot is being left behind. It is hard to find components for the ISA bus now, if you are looking for ISA components then second hand stores are the best place to look, Network cards, sound cards and modems can still be found. ISA is a 16 bit bus, allowing for 16bits of data to be sent simultaneously.

3 - Chipset - North Bridge (with heatsink)

The Motherboards chipset can be described as what sets it apart from other boards in its category. Different chipsets contain different features and components. A chipset is a number of integrated circuits built onto the board to provide specific functions e.g. one part of the chipset may be an onboard component such as a modem or sound chip. Other parts may be used to control the CPU functions. Most chipsets are designed to work with only one "class" of CPU although now many older chipsets support more than one type of CPU such as socket 7 which supports the Pentium, Cyrix 686, Cyrix MII, AMD K6 and K6-2. There are certain restrictions though to what type of processor a chipset can handle because of the logic that the CPU uses to access the memory and its cache etc. Since these chips are working harder with each generation, motherboard manufacturers have started to put heatsinks on the main parts of the chipset to disperse some of the heat. For more information on chipsets see our What does a chipset do article.

4 - CPU (Central Processing Unit) socket

All the CPU "sockets look very similar, however they are different in the way they have different amount of pins and in different layouts. Because of this getting the right one is essential. A socket 7 CPU and a socket A CPU as well as a socket 370 CPU all look the same from above but will not fit in each others sockets. As well as sockets, Motherboards can also have CPU slots, slots look completely different to the image above of a CPU socket. If any of you own a N64 console or an older Sega Mega Drive you will no what a cartridge looks like. Slot CPU's are not much different to this.

5 - DIMM (Double Inline Memory Module) slots

These are by far the most common memory slots at the moment, the others are SIMMs (Single Inline Memory Module) and RIMM's (Rambus Inline Memory Module). DIMM's are used on virtually every board except for those on early P4 boards which predominantly use RIMM's. The standards for DIMM's are PC100 and PC133 and DDR266/33/400. PC100 is memory running at 100Mhz and PC100 at 133Mhz. DDR is Double Data Rate memory which effectively doubles the speed of the memory giving greater speeds i.e. 266/33/400 Mhz

6 - Motherboard Battery

The battery gives the board a small amount of power in order to store some vital data on your machine when the power is off. Data stored is that like the time and date so you don't have to reset them every time you boot the machine up. Motherboard batteries are usually long lasting Lithium batteries. Removing this can reset all the data on your machine including the BIOS settings, however not replacing this correctly can lead to irreparable damage to the motherboard. Only remove the battery if it is dead or if you can't have access any other way to resetting the data on your machine by use of the clear CMOS jumper or something similar.

7 - ATX Power connector

The standard ATX power connector, the cable for this will be coming from the PSU, a clip is normally provided to make sure you get them in the correct order. As a tip, don't try to push too hard if its stuck, check to see that it is in the correct way, I have seen plenty of power connectors where the pins have pushed out some of the connectors, these can be difficult to get back into place, so its best to be careful.


8 - IDE connector

The connector to which you will insert an IDE cable (supplied with motherboard) IDE cables connect devices such as hard disks, CD Drives and DVD Drives. The current 3 standards of IDE devices are ATA 33/66/100. the numbers specify the amount of data in Mb/s in a max burst situation. In reality there is not much chance of getting a sustain data rate of this magnitude. Both the connectors and devices are backwards compatible with each other, however they will only run at the slowest rated speed between them. All IDE cables will come with a red line down one side, this red line is to show which way it should be plugged in. The red line should always connect to pin one of the IDE port. Checking your motherboard documentation should show you which end is pin one. In some cases it will be written on the board itself.
In the case of ATA 66/100 there is a certain order that you plug devices in, the cable is colour coded to help you get them in the correct order.
• The Blue connector should be connected to the system board
• The Black connector should be connected to the master device
• The Grey Connector should be connected to the slave device


9 - Serial ATA Connector

Serial ATA or more commonly seen as S-ATA is a new way of connecting your Hard Drives to your PC. S-ATA drives have the capability of being faster than the IDE counterparts and also have smaller thinner cables which help with the airflow of the system. S-ATA hard disks are fast becoming the norm for hard drive technology. Make sure your next motherboard has S-ATA connectors on-board.
Not in Picture - Floppy Drive Connector
More simple than the IDE connector you only have to remember to get the red line to pin 1 of the connector and the red line to pin 1 on the floppy drive, This port is only to be used with floppy drives. You may not have a floppy controller on your motherboard as its slowly being phased out as more people are using writable CD's and DVDs to transfer data, to store data and to use as boot up discs.

10 - Chipset - South Bridge

When we talk about chipsets you mainly only ever hear about the North bridge. Even those into PC technology have a hard time naming the south bridges without looking them up. Names like Nforce 2 and KT600 are North bridges. The South Bridge does an important job as well. It handles things like the PCI bus, onboard Network and sound chips as well as the IDE and S-ATA buses.
Not on Picture - BIOS (Basic Input Output System) Chip
The BIOS holds the most important data for your machine, if configured incorrectly it could cause your computer not to boot correctly or not at all. The BIOS also informs the PC what the motherboard supports in terms off CPU etc. This is why when a new CPU is introduced that physically fits into a slot or socket you may need a BIOS update to support it. The main reason for this is that different CPU's use different logics and methods and so the BIOS has to understand certain instructions from the CPU to recognise it.

11 - USB 2.0 header

As well as having USB ports on the rear of the motherboard, motherboard manufacturers often add a couple of USB headers so you can connect optional cables for extra USB ports. These cables are often supplied and you only need to add them on if you need the extra connectivity. USB 2.0 replaced USB 1.1 as a much faster solution. It is backwards compatible meaning all USB 1.1 devices will work in these new USB 2.0 ports.


12 - Firewire header

Firewire is also known as IEEE 1394. It is basically a high performance serial bus for digital and audio equipment to exchange data. The technology preceded USB but yet is faster than any current USB port. Often used for transferring digital video to the PC straight from a digital camera. The FireWire header onboard means you can install a FireWire port on your machine. Again these cables are often supplied as an optional extra which you will need to check with the retailer to see if they are supplied with your board.

Motherboard

Motherboard Basics

The motherboard is the main part of your computer that everything else plugs into. Sometimes it is called the system board. A typical motherboard is a sheet of olive green or brown fiberglass with a myriad of thin gold lines on it and chips sticking off of it.

By itself, the motherboard is just an empty plate. Its the hardware that sits on it that does the work. On it sits the CPU, memory sockets, BIOS, etc. The little gold lines act like electronic roadways of information between each of these features.

These roads enable the different parts of the computer to communicate and perform the functions of your computer, all with the motherboard being the hub of the activity. Because of this "central-ness" in your PC's operation, the motherboard is a key ingredient to performance in your PC. All of your hardware is tied together though the circuitry of your motherboard, so the speed in which your motherboard handles and slings around information is key to any speed you will get out of your PC.

Minimally, a motherboard will include the CPU, a math coprocessor (usually included in the CPU nowdays), clock/timing circuitry, cache, RAM, BIOS, parellel and serial ports, and expansion slots. I will briefly touch on each component on the motherboard.


The CPU

The CPU is usually the most prominent chip on your motherboard. It will be imprinted with the type of CPU that it is, such as "AMD K6-2" or "Intel Pentium II" and it will have the chip manufacturer's logo on it. If you cannot see this, you'll probably see a CPU fan. On Socket 7 motherboards, the processor itself is barely visible. Instead you'll see a large fan which sits upon it. This fan is quite large and is screwed right on top of the CPU. Its job is to keep the CPU cool while the system is on.

Newer motherboards with Pentium II, III, or Athlon processors cannot hide the CPU under the fan. The processor, on these boards, is tall and sticks straight up off the board. You will see a CPU fan attached to one side of the processor. Today's CPU's get extremely hot while they are in operation.

The CPU is the computer's brain. It's job is to process information and sling information around to all of the various hardwares that need it. CPU's vary in sizes and speeds.

The above are the absolute basics. For more detailed info on the processor, go to the Processor section.


The BIOS

The BIOS is another very important part of your computer that makes its home on your motherboard. "BIOS" stands for Basic Input/Output System. It usually resides on a series of chips. These chips are typically the biggest chips on your motherboard other than the CPU and the chipset. Also, there is usually a big sticker on it that says BIOS. The sticker also says what kind of BIOS it is, such as Award or AMIBIOS, and what year it is.

If the CPU is the brain, the BIOS is the nervous system. It takes care of the behind-the-scenes stuff, much like our nervous system makes sure we breathe while we aren't thinking about it. BIOS handles the dirty work: how the floppy disks grab data or what happens when you press a key on your keyboard. You know...thegrunt work. It also kicks in when you turn on your computer, letting the computer know how many drives it has and where they are.

When you turn on your computer, the BIOS determines what hardware is installed. It finds out if the hardware is working and if any of the parts have their own BIOS. If it finds any BIOS type programming on any of the parts, it lets those parts take inventory before returning to its task. For example, most video cards have their own BIOS chip. So, the main BIOS turns control over to the video card until it is done, then resumes to check the rest of the computer.

All this happens behind the scenes every time you boot. You may notice the POST, or Power On Self Test, plus you'll also see your various lights flash. When your BIOS tests the hard drive, floppy drive, and keyboard, you'll see lights flash on them. Once all this is done, your BIOS loads up the operating system. It does this by looking for and reading your various boot up files such as Config.sys and Autoexec.bat. From there, your operating system takes over.

As you can see, BIOS is important. Every computer needs it. And like CPU's, it comes in versions. The versions are based on years though. The newer the BIOS, the newer and fancier parts it can handle. You can usually see what date yours is by looking at the sticker on the chip itself, but if you don't have a little sticker, you can go to the BIOS screen on your monitor. This is done sometimes by hitting F1 shortly after you power up your computer. Here it should tell you who made the BIOS and when.
Most of the time, you buy new BIOS by buying a new motherboard. It comes with it. It is usually hard to find BIOs chips otherwise and install them yourself. Most newer computers have upgradable BIOS where you pop in new BIOS software and it copies this data over to the chips. This is called "flashing" your bios.


Math Coprocessors

There is not too much to say about math coprocessors. It is basically a number cruncher or a real fast calculator. It cranks out fast answers to math problems, helping the CPU do its job faster because it doesn't have to think as hard. It can take care of the floating point calculations.

Coprocessors are optional in older computers. They just speed up math. Do you need one? Well, if you are running math intensive software such as CAD drawing or other software that plays with arrays, irrational numbers, or trigonometric functions, yeah, a coprocessor might be something worth having. Some might think spreadsheets could use a coprocessor, but really, these do not require much math since it is mostly addition and subtracting. For almost all typical business applications, like the word processor, there really isn't a point.

If you have a 486DX or a Pentium, you already have a coprocessor. They're built right in. All modern processors, or any processor you would most likely see in a decent computer, has the coprocessor built in. If you have an SX machine, you dont have one. With these CPU's you will have to get an external one that fits into a separate slot on the motherboard. If you have such a setup, you'll find that the coprocessor is almost as large as the CPU. It is probably the most noticeable chip on the board other than the CPU.

In short, the math coprocessor is now a non-issue, since it is built-in to ALL computers made in the last few years.


DIP Switches and Jumpers

Dip switches and jumpers are your way of telling the computer what is installed on it. DIP switches are very small and are usually flipped with a pointed object such as a bent paper clip or a ballpoint pen.

Jumpers are small pins on the board with plastic or metal devices that go over the pins. This device is called a bridge. When the bridge is connected to any two pins, it completes the circuit between those pins, telling the computer what it need to know. Jumpers are much more common than switches, but they are harder to use. If asked to remove a bridge, always save it for later. A little trick is to leave the bridge hanging on one pin. The computer will think the bridge is gone, but its still there so that you don't lose it. Also, knowing the jumper settings for your device can be a chore. You must have the device's manual to do it.


Integrated Circuitry


Many times you'll have your I/O and video circuitry built right on to your motherboard.

Usually, I/O adapters on the motherboard are of the IDE/EIDE interface and they are marked HDD for hard drive and FDD for the floppy. You simply plug your data ribbons into these and you can bypass the need for a separate I/O card. The downside is that if you want to use a system other than that on the motherboard, you have to disable the circuitry on the board. For example, if you feel like using SCSI, then you'll have to disable the IDE on the board. For most users, using the IDE interface on the board works just fine. Some more expensive boards have SCSI adapters hard-wired onto the board.

Other motherboards have built in video circuitry. This is less common than the drive interface, but it happens. This allows you to bypass buying a separate video card and saves a slot. But, again, if you want to upgrade your video later on, you'll have to disable the video on the board and buy that fancy new card anyway.


The Rest

Other than the above , you have the battery, the keyboard connector, the expansion slots, and the Memory(SDRAM) slots.

The battery is pretty noticeable. It is a little cylinder just like your run of the mill Energizer, but shorter. Most batteries are small, round, and flat. These types fit into a small socket and are held in my a small metal tab. Its job is mainly to keep the system time and a few other settings when the computer's power is off. If you are asked what time it is or what kind of hard drive you have when you turn on your computer, you probably need a new battery.

The keyboard connector is self-explanatory, so let me explain.=) You plug your keyboard into it. The prongs on your keyboard wire's end will match up (hopefully) with the little holes on the connector on the motherboard. They come in large 5-pin setups or smaller PS/2's. This complicated setup is usually located next to the battery.

Expansion slots are explained in the Cards section of the site. They come in different types: ISA, PCI, and AGP.