Computer Hardware Basics


As you just read, computer hardware are those parts of your system you can actually see and touch. This includes your system unit and everything connected to it, including your monitor, keyboard, mouse, and printer.

We'll take a close look at all the various pieces of hardware you can have in a computer system including those parts you can't always see because they're built in to your system unit. So, if you're curious about microprocessors and memory and modems and monitors, read on this is the chapter for you!

Your PC's System Unit The Mother Ship

The most important piece of hardware in your computer system is the system unit. This is the big, ugly box that houses your disk drives and many other components. You can find system units that lie horizontally on your desk (like the one in Figure 1.2) or ones that stand straight up (like the one in Figure 1.3). You can even find some computers that build the system unit into the monitor.

Figure 1.2. A desktop-type computer system unit.

graphics/01fig02.gif


Figure 1.3. A system unit in a mini-tower configuration.

graphics/01fig03.gif


graphics/noteguy_icon.gif

Vertical system units often are called towers or mini-towers.


The back of the system unit typically is covered with all types of connectors. This is because all the other parts of your computer system connect to your system unit, and they all have to have a place to plug in. And, because each component has its own unique type of connector, you end up with the assortment of jacks (called ports in the computer world) that you see in Figure 1.4.

Figure 1.4. The back of a typical system unit just look at all those different connectors!

graphics/01fig04.jpg


graphics/noteguy_icon.gif

Desktop computer systems are composed of all these separate components. Laptop PCs, on the other hand, have all that stuff crammed into a single case. So, you don't have a separate system unit, monitor, keyboard, and mouse they're part of one very compact unit. Learn more about laptop computers in the section "Laptop PCs Lightweight All-in-One Systems," later in this chapter.


All the good stuff in your system unit is inside the case. With most system units, you can remove the case to peek and poke around inside.

To remove your system unit's case, make sure the unit is unplugged, then look for some big screws or thumbscrews on either the side or back of the case. (Even better read your PC's instruction manual for instructions specific to your unit.) With the screws loosened or removed, you should then be able to either slide off the entire case, or pop open the top or back.

When you open the case on your system unit, you see all sorts of computer chips and circuit boards. The really big board located at the base of the computer (to which everything else is plugged into) is called the motherboard, because it's the "mother" for your microprocessor and memory chips, as well as for the other internal components that enable your system to function. This motherboard contains several slots, into which you can plug additional boards (also called cards) that perform specific functions.

caution

graphics/cautionguy_icon.gif

Always turn off and unplug your computer before attempting to remove the system unit's case and be careful about touching anything inside. If you have any built-up static electricity, you can seriously damage the sensitive chips and electronic components with an innocent touch.


As you can see in Figure 1.5, most PC motherboards contain six or more slots for add-on cards. For example, a video card enables your microprocessor to transmit video signals to your monitor. Other available cards enable you to add sound and modem/fax capabilities to your system.

Figure 1.5. What your PC looks like on the inside a big motherboard with lots of add-on boards attached.

graphics/01fig05.gif


Microprocessors: The Main Engine

We're not done looking at the system unit just yet. Buried somewhere on that big motherboard is a specific chip that controls your entire computer system. This chip is called a microprocessor or a central processing unit (CPU).

The microprocessor is the brains inside your system. It processes all the instructions necessary for your computer to perform its duties. The more powerful the microprocessor chip, the faster and more efficiently your system runs.

Microprocessors carry out the various instructions that let your computer compute. Every input and output device hooked up to a computer the keyboard, printer, monitor, and so on either issues or receives instructions that the microprocessor then processes. Your software programs also issue instructions that must be implemented by the microprocessor. This chip truly is the workhorse of your system; it affects just about everything your computer does.

Different computers have different types of microprocessor chips. Many IBM-compatible computers use chips manufactured by Intel. Some use Intel-compatible chips manufactured by AMD and other firms. But all IBM-compatible computers that run the Windows operating system use Intel-compatible chips.

In addition to having different chip manufacturers (and different chip families from the same manufacturer), you'll also run into microprocessor chips that run at different speeds. CPU speed today is measured in gigahertz (GHz). A CPU with a speed of 1GHz can run at one billion clock ticks per second! The bigger the gigahertz number, the faster the chip runs. If you're still shopping for a new PC, look for one with the combination of a powerful microprocessor and a high clock speed for best performance.

graphics/noteguy_icon.gif

The Apple Macintosh uses chips made by Motorola that are totally different from the Intel-compatible chips. It's because of the different processor configurations that software written for the Macintosh won't run on IBM-compatible computers and vice versa.


Computer Memory: Temporary Storage

Speaking of memory, before your CPU can process any instructions you give it, your instructions must be stored somewhere, in preparation for access by the microprocessor. These instructions along with other data processed by your system are temporarily held in the computer's random access memory (RAM). All computers have some amount of memory, which is created by a number of memory chips. The more memory that's available in a machine, the more instructions and data that can be stored at one time.

Memory is measured in terms of bytes. One byte is equal to approximately one character in a word processing document. A unit equaling approximately one thousand bytes (1,024, to be exact) is called a kilobyte (KB), and a unit of approximately one thousand (1,024) kilobytes is called a megabyte (MB). A thousand megabytes is a gigabyte (GB).

Most computers today come with at least 256MB of memory, and it's not uncommon to find machines with 512MB or more. To enable your computer to run as many programs as quickly as possible, you need as much memory installed in your system as it can accept or that you can afford. Extra memory can be added to a computer by installing a new memory module, which is as easy as plugging a "stick" directly into a slot on your system's motherboard.

If your computer doesn't possess enough memory, its CPU must constantly retrieve data from permanent storage on its hard disk. This method of data retrieval is slower than retrieving instructions and data from electronic memory. In fact, if your machine doesn't have enough memory, some programs will run very slowly (or you might experience random system crashes), and other programs won't run at all!

Hard Disk Drives: Long-Term Storage

Another important physical component inside your system unit is the hard disk drive. The hard disk permanently stores all your important data. Some hard disks today can store up to 300 gigabytes of data and even bigger hard disks are on the way. (Contrast this to your system's random access memory, which stores only a few hundred megabytes of data, temporarily.)

A hard disk consists of numerous metallic platters. These platters store data magnetically. Special read/write heads realign magnetic particles on the platters, much like a recording head records data onto magnetic recording tape.

Before data can be stored on any disk, including your system's hard disk, that disk must first be formatted. A disk that has not been formatted cannot accept any data. When you format a hard disk, your computer prepares each track and sector of the disk to accept and store data magnetically.

caution

graphics/cautionguy_icon.gif

If you try to reformat your hard disk, you'll erase all the programs and data that have been installed so don't do it!


Of course, when you buy a new PC, your hard disk is already formatted for you. (And, in most cases, your operating system and key programs also are preinstalled.)

Disk Drives: Portable Storage

Along with a hard disk drive, some computers have a removable disk drive. This is older technology, however, as these removable disks often called floppy disks or diskettes don't hold a lot of data. (A standard 3 1/2" floppy disk only holds 1.44MB of data.) For that reason, most newer computers no longer include diskette drives although these drives were standard issue on older model PCs.

If you want to transfer data from one PC to another, there are better technologies available such as rewritable CDs, discussed next.

CD-ROM Drives: Storage on a Disc

There's a third type of disk that is now standard on personal computer systems. This disc is called a CD-ROM. (The initials stand for compact disc read-only memory.)

CD-ROM discs, such as the one in Figure 1.6, look just like the compact discs you play on your audio system. They're also very similar in the way they store data (audio data in the case of regular CDs; computer data in the case of CD-ROMs).

Figure 1.6. Store tons of data, digitally, on a shiny CD-ROM disc.

graphics/01fig06.jpg


Information is encoded at a disc-manufacturing plant, using an industrial-grade laser. This information takes the form of microscopic pits (representing the 1s and 0s of computer binary language) below the disc's surface. Similar to hard and floppy disks, the information is arranged in a series of tracks and sectors, but the tracks are so close together that the disk surface is highly reflective.

Data is read from the CD-ROM disc via a drive that uses a consumer-grade laser. The laser beam follows the tracks of the disc and reads the pits, translating the data into a form your system can understand.

By the way, the ROM part of CD-ROM means that you can only read data from the disk; unlike normal hard disks and disks, you can't write new data to a standard CD-ROM. However, recordable (CD-R) and rewritable (CD-RW) drives are available that do let you write data to CD discs although they're a bit more expensive than standard CD-ROM drives.

DVD Drives: Even More Storage on a Disc

Beyond the CD-ROM is the newer DVD medium. DVDs can contain up to 4.7GB of data (compared to 700MB for a typical CD-ROM), and therefore are ideally suited for large applications or games that otherwise would require multiple CDs. Similar to standard CD-ROMs, most DVDs are read-only although all DVD drives can also read CD-ROM discs. In addition, most DVD drives play full-length DVD movies, which turns your PC into a mini movie machine.

And, just as there are recordable CD-ROM drives, you can also find recordable DVD drives. These DVD-R drives are a little expensive, but the prices are coming down and they let you record an entire movie on a single disc.

graphics/noteguy_icon.gif

DVD really isn't an acronym for anything in particular. Some manufacturers claim that it stands for digital versatile disc or digital video disc, but it's really just a bunch of initials with no real meaning.


Keyboards: Fingertip Input

Computers receive data by reading it from disk, accepting it electronically over a modem, or receiving input directly from you, the user. You provide your input by way of what's called, in general, an input device; the most common input device you use to talk to your computer is the keyboard.

A computer keyboard, similar to the one in Figure 1.7, looks and functions just like a typewriter keyboard, except that computer keyboards have a few more keys. Some of these keys (such as the arrow, PgUp, PgDn, Home, and End keys) enable you to move around within a program or file. Other keys provide access to special program features. When you press a key on your keyboard, it sends an electronic signal to your system unit that tells your machine what you want it to do.

Figure 1.7. A standard PC keyboard.

graphics/01fig07.gif


Most PC keyboards look like the one in Figure 1.7. Some keyboards, however, have an ergonomic design that splits the keyboard into right and left parts and twists and tilts each side for maximum comfort. In addition, some manufacturers make wireless keyboards that connect to your system unit via radio signals thus eliminating one cable from the back of your system.

Mice: Point-and-Click Input Devices

It's a funny name, but a necessary device. A computer mouse, like the one shown in Figure 1.8, is a small handheld device. Most mice consist of an oblong case with a roller underneath and two or three buttons on top. When you move the mouse along a desktop, an onscreen pointer (called a cursor) moves in response. When you click (press and release) a mouse button, this motion initiates an action in your program.

Figure 1.8. Roll the mouse back and forth to move the onscreen cursor.

graphics/01fig08.jpg


Mice come in all shapes and sizes. Some have wires, and some are wireless. Some are relatively oval in shape, and others are all curvy to better fit in the palm of your hand. Some have the typical roller ball underneath, and others use an optical sensor to determine where and how much you're rolling. Some even have extra buttons that can be programmed for specific functions or a scroll wheel you can use to scroll through long documents or Web pages.

Of course, a mouse is just one type of input device you can hook up to your PC. Trackballs, joysticks, game controllers, and pen pads all count as input devices, whether they work in conjunction with a mouse or replace it. You can use one of these alternative devices to replace your original mouse or (in some cases) to supplement it.

If you have a portable PC, you don't have a separate mouse, but rather a built-in pointing device of some sort a touchpad, rollerball, or TrackPoint (the thing that looks like a little rubber eraser). Fortunately, you don't have to use the built-in pointing device on a portable PC; most portables let you attach an external mouse, which then overrides the internal device.

Modems: Getting Connected

Almost all PC systems today include a modem. A modem enables your computer to connect to telephone lines and transmit data to and from the Internet and commercial online services (such as America Online).

graphics/noteguy_icon.gif

The word "modem" stands for "modulate-demodulate," which is how digital data is sent over traditional analog phone lines. The data is "modulated" for transmittal, and "demodulated" upon receipt.


Modems come in either internal (card-based) or external (hooking up to an open port on the back of your system) models. Internal modems usually fit into a slot on your motherboard and connect directly to a telephone line. External modems are free-standing devices that connect to your system unit by cable and hook directly to a phone line.

If you connect to the Internet via a broadband connection, you probably have an external cable or DSL modem. These devices work just like traditional phone line modems, but are specifically designed to work with the data transmitted over digital cable and DSL lines.

Sound Cards and Speakers: Making Noise

Every PC comes with some sort of speaker system. While some older PCs had a speaker built into the system unit, most systems today come with separate right and left speakers, sometimes accompanied by a subwoofer for better base. (Figure 1.9 shows a typical right-left-subwoofer speaker system.) You can even get so-called 5.1 surround sound speaker systems, with five satellite speakers (front and rear) and the ".1" subwoofer great for listening to movie soundtracks or playing explosive-laden videogames.

Figure 1.9. A typical set of right and left external speakers, complete with subwoofer.

graphics/01fig09.jpg


All speaker systems are driven by a sound card that is installed inside your system unit. If you upgrade your speaker system, you also might need to upgrade your sound card accordingly.

Video Cards and Monitors: Getting the Picture

Operating a computer would be difficult if you didn't constantly receive visual feedback showing you what your machine is doing. This vital function is provided by your computer's monitor.

The traditional monitor, similar to the one shown in Figure 1.10, is a lot like a little television set. Your microprocessor electronically transmits words and pictures (text and graphics, in PC lingo) to your monitor, in some approximation of how these visuals would appear on paper. You view the monitor and respond according to what you see onscreen.

Figure 1.10. A traditional tube-type video monitor.

graphics/01fig10.jpg


Although the traditional monitor uses a picture tube (called a cathode ray tube or CRT, similar to that used in a normal television set) to display its picture, another type of monitor does away with the tube. A so-called flat-screen monitor, such as the one in Figure 1.11, uses an LCD display instead which is not only flat, but also very thin. These are the same types of displays used in portable PCs, and are now standard on many new PC systems.

Figure 1.11. A space-saving, flat-screen video monitor.

graphics/01fig11.jpg


You measure the size of a monitor by measuring from corner to corner, diagonally. The traditional desktop monitor is normally a 14" or 15" monitor; larger 17" and 19" monitors are becoming more common as they become more affordable.

tip

graphics/tipdude_icon.gif

The measurement is different for tube-type monitors than it is for flat-screen monitors. This is because a flat-screen monitor displays its images all the way to the edge of the screen, and traditional tube-type monitors don't. For that reason, a 15" flat-screen monitor has the same size picture as a 17" tube-type monitor.


The monitor itself does not generate the images it displays. These images are electronically crafted by a video card installed inside your system unit. To work correctly, both video card and monitor must be matched to display images of the same resolution.

Resolution refers to the size of the images that can be displayed onscreen and is measured in pixels. A pixel is a single dot on your screen; a full picture is composed of thousands of pixels. The higher the resolution, the sharper the resolution which lets you display more (smaller) elements onscreen.

Resolution is expressed in numbers of pixels, in both the horizontal and vertical directions. Older video cards and monitors could only display 640x480 or 800x600 pixel resolution; you want a card/monitor combination that can display at least 1024x768 resolution.

Printers: Making Hard Copies

Your monitor displays images in real time, but they're fleeting. For permanent records of your work, you must add a printer to your system. Printers create hard copy output from your software programs.

You can choose from various types of printers for your system, depending on your exact printing needs. The two main types of printers today are laser and inkjet printers.

Laser printers work much like copying machines, applying toner (powdered ink) to paper by using a small laser. Inkjet printers, on the other hand, shoot jets of ink to the paper's surface to create the printed image. Inkjet printers are typically a little lower priced than laser printers, although the price difference is shrinking.

You also can choose from either black-and-white or color printers. Black-and-white printers are faster than color printers and better if you're printing memos, letters, and other single-color documents. Color printers, however, are great if you have kids, and they're essential if you want to print pictures taken with a digital camera.

By the way, there's a type of "combination" printer available that combines a printer with a scanner and a fax machine. If you need all these devices and are short on space, these are pretty good deals.

Laptop PCs Lightweight All-in-One Systems

Before we wrap up this chapter, we need to discuss a slightly different type of computer. This type of PC combines all the various elements (except for a printer) into a single case and then adds a battery so that you can use it on the go. This type of PC is called a laptop or notebook computer.

Laptop PCs, like the one in Figure 1.12, feature a flip-up LCD screen. When the screen is folded down, the PC is very portable; when the screen is flipped up, the keyboard is exposed.

Figure 1.12. A typical laptop PC all those components in a single package.

graphics/01fig12.gif


All laptop PCs include some sort of built-in pointing device but typically not a standalone mouse. A portable might have a touchpad, rollerball, or Trackpoint (which looks like a miniature joystick in the middle of the keyboard). Speakers typically are built into the base of the unit, and various types of disk drives are located on the sides or underneath.

The key thing about laptop PCs in addition to their small sizes and light weights is that they can operate on battery power. Depending on the PC (and the battery), you might be able to operate a laptop for four hours or more before switching batteries or plugging the unit into a wall outlet. That makes laptops great for use on airplanes, in coffeshops, or anywhere plugging in a power cord is inconvenient.

The only bad thing about laptop PCs is that they're a little more expensive than a similarly equipped desktop PC. That's because all the normal components used in a desktop PC have to be shrunk down to a more compact size of a laptop model.

The Absolute Minimum

Here are the key points to remember from this chapter:

  • Your computer system is composed of various pieces of hardware, almost all of which plug into that big beige box called the system unit.

  • You interface with your computer hardware via a piece of software called an operating system. The operating system on your new computer is probably some version of Microsoft Windows.

  • You use specific software programs to perform specific tasks, such as writing letters and editing digital photos.

  • The brains and engine of your system is the system unit, which contains the microprocessor, memory, disk drives, and all the connections for your other system components.

  • To make your system run faster, get a faster microprocessor or more memory.

  • Data is temporarily stored in your system's memory; you store data permanently on some type of disk drive either a hard disk, floppy disk, or CD-ROM.




Absolute Beginner's Guide to Computer Basics
Absolute Beginners Guide to Computer Basics (2nd Edition)
ISBN: 0789731754
EAN: 2147483647
Year: 2003
Pages: 253

flylib.com © 2008-2017.
If you may any questions please contact us: flylib@qtcs.net