motherboard

electronics
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Also known as: mainboard, mobo
Related Topics:
computer

motherboard, printed circuit board (PCB) that connects all components of a general-purpose computer. A motherboard is often referred to as the “backbone” or “spine” of a computer.

A motherboard is easily identified, as it is the largest board inside a computer’s casing. In tower computers, it stands vertically on the tower’s left or right side. While motherboards come in a variety of types and sizes—each designed to be placed in a different kind of computer and to work with different types of processors and memory—they all have the same basic components. The base of any motherboard is made of a hard sheet of nonconductive material, usually plastic. On this sheet, thin lines of copper or aluminum foil, known as “traces,” form the circuits between the motherboard’s components. These traces lead to slots into which the computer’s central processing unit (CPU), random-access memory (RAM), and expansion cards (e.g., graphic cards) are placed. The motherboard also has sockets for connecting to hard drives, disk drives, and front panel ports via cables and wires. Finally, the motherboard has ports that allow it to connect to a computer’s external components, such as its monitor, keyboard, and mouse.

In addition to its role as the computer’s “spine,” a motherboard contains the system’s BIOS (Basic Input/Output System), making it the computer’s “brain” as well. The BIOS is the computer’s firmware, or permanent software. When a user turns on a computer, the software starts the initialization process by inspecting the hardware with a power-on self-test (POST). After ensuring that there are no problems, the BIOS locates the master boot record (MBR), which instructs the BIOS on how to “boot” (start) the system. The program also manages data between the computer’s operating system (OS) and all external devices, such as the mouse or keyboard. Through the BIOS, a user can access the hardware’s information, change the order in which the computer boots up its components, and set a master password.

The motherboard evolved from another device called a backplane. Like a motherboard, a backplane is a PCB, but it lacks any processing or storage elements and is simply an electrical connector. When computer were first made, each individual component of a computer received its own circuit board. Each circuit board plugged into the backplane to communicate with other parts of the computer. The arrival of microprocessors enabled the backplane to house pieces of the computer, such as the CPU and memory.

The first backplane to qualify as a motherboard was the Planar Breadboard, designed by IBM engineer Patty McHugh and used in the 1981 IBM Personal Computer. The board consisted of a 4.77 megahertz microprocessor, 16 KB of memory, 8-bit ISA connectors, and ports for connecting a keyboard and a cassette tape (for data storage). Other components, such as a display adapter or hard disk controller, had to be added, in the style of a backplane, by placing a plug-in board, or “expansion card,” into one of the motherboard’s expansion slots.

In 1984 IBM introduced the advanced-technology (AT) motherboard, now called the “full AT.” This board had the basic design that is still familiar today, and it became the standardized motherboard for all desktops and tower cases. At about 30 cm (12 inches) by 33 cm (13 inches), though, the size of the board made it difficult to upgrade a computer, much less fit the board into the new, more popular slimline desktop cases. The production of the Baby AT (BAT) motherboard in 1989 solved these problems, as its measurements were a relatively petite 21.6 cm (8.5 inches) by 33 cm (13 inches).

Like other motherboards at that time, the BAT included chips that could support keyboards, mice, floppy disk drives, and other components—manufacturers had realized that the more functions of a computer a motherboard could run, the more money they could save in production. By the end of the 20th century, many motherboards did not require expansion cards to provide users with quality audio, video, and networking. Beginning with the laptop and notebook computers of the 1990s (and continuing with smartphones and tablets), some devices no longer accepted cards at all. Nor was one necessary; every important component was integrated.

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Today the only motherboards that accept expansion cards are generally dedicated to a specific purpose, such as playing new computer games with a state-of-the-art graphics card. Deciding between low-cost integration or the high performance allowed by expansion cards is one of the primary considerations for consumers when they are building or purchasing a new computer.

Adam Volle