Chapter Three

Chapter Three Hardware Basics: Peripherals

Input Devices Output Devices Storage Devices Computer Systems: The Sum of Its Parts Chapter Outline  1999 Addison Wesley Longman

Input: From Person to Processor Person Processor Input Device  1999 Addison Wesley Longman

The Omnipresent Keyboard • Do you know where these keys are located on the keyboard and how to use them? • Letters, Numbers, Cursor Keys, Delete Key, Enter (Return) Key, and Function Keys  1999 Addison Wesley Longman

Pointing Devices Mouse TouchScreen Joystick GraphicsTablet Trackball  1999 Addison Wesley Longman

Reading Tools • Optical-mark readers • Bar-code readers • Magnetic-ink character readers • Wand readers  1999 Addison Wesley Longman

Digitizing the Real World Videodigitizing Hand-held Scanner Audio digitizing Flatbed Scanner  1999 Addison Wesley Longman

Audio Digitizers Audio digitizers contain circuitry to digitize sounds from microphones and other audio devices.  1999 Addison Wesley Longman

Video Digitizers Video digitizers contain circuitry to digitize frames from camcorders and other video sources.  1999 Addison Wesley Longman

Scanners Scanners capture and digitize images from external paper sources.  1999 Addison Wesley Longman

Output: From Pulses to People Paper Video Monitor Sound Controlling Other Machines  1999 Addison Wesley Longman

Digital Cameras Digital cameras turn real-world scenes into digital images that can be stored and manipulated by the computer. The images, stored in memory, can be transferred to a computer for either editing or storage.  1999 Addison Wesley Longman

Screen Output • Video Monitor • Also called Video Display Terminal (VDT) • Image exists in video memory—VRAM • Monitor size is measured diagonally across the screen  1999 Addison Wesley Longman

Pixels • Images are made up ofdots called pixels forpicture elements • The number of pixelsaffects the resolutionof the monitor • The higher the resolution,the better the image quality  1999 Addison Wesley Longman

Raster Graphics • arrangement of pixels into rows & columns • character mode (25*80) • graphics mode (350*720) • higher resolution (600*800, 768*1024)  1999 Addison Wesley Longman

Color Depth (Pixel Depth) • The amount of information per pixel is known as the color depth • Monochrome (1 bit of information per pixel) • Gray-scale (8 bits of information per pixel) • Color (8 or 16 bits of information per pixel) • True color (24 or 32 bits of information per pixel)  1999 Addison Wesley Longman

Examples of Color Depth 4-bit depth 1-bit depth 8-bit depth 16-bit depth  1999 Addison Wesley Longman

Classes of Monitors CRT (cathode ray tube) LCD (liquid crystal display)  1999 Addison Wesley Longman

CRT (Cathode Ray Tube) • A CRT is a television-style monitor • Its features include: • Clear image • Quick response time • Low cost • Very popular  1999 Addison Wesley Longman

LCD (Liquid Crystal Display) • LCDs comprise flat-panel monitors • Features of flat-panel monitors include: • Lighter weight • More compact • More expensive • Dominate the portablecomputer market  1999 Addison Wesley Longman

Characters • letters (5*7 dot matrix) • Chinese characters • 16 * 16 （可辨認） • 24 * 24 （清晰） • 32 * 32 ... • 64 * 64 （美觀）  1999 Addison Wesley Longman

Paper Output • Paper output is sometimes called hard copy • Hard copy can come from one of two kinds of printers: • Impact printers • Non-impact printers  1999 Addison Wesley Longman

Printer • impact printers - noisy, non-graphic • character printer • line printer • dot matrix printer • non-impact printers • thermal-wax-transfer printer • ink-jet printer • laser printer  1999 Addison Wesley Longman

Impact Printers • Line printers • Used by mainframes formassive jobs • Limited characters available • Dot-matrix printers • Image formed from dots printed on paper • Good for text and graphics • Inexpensive  1999 Addison Wesley Longman

Non-impact Printers • Laser printers • Image transferred to paper with laser beam • Faster and more expensivethan dot-matrix • High-resolution hard copy  1999 Addison Wesley Longman

Non-impact Printers • Ink-jet • Dots of ink are sprayed onto the paper to form the image • High-resolution hard copy • Some models printcan print colorphotographs  1999 Addison Wesley Longman

Other Non-impact Printers • Plotters • Image transferred to paper with ink pens • Very high resolution • Excellent for scientific and engineering applications  1999 Addison Wesley Longman

Output You Can Hear • Synthesizers can beused to generate music and sounds • Many computershave synthesizers • Sound cards havebuilt-in synthesizers  1999 Addison Wesley Longman

Machines Controlling Other Machines • By turning bit information into movements (robots) or measurements (sensors), machines can control other machines: • Automated factory equipment • Telephone switchboards • Robot arms • Spacecraft  1999 Addison Wesley Longman

Secondary Storage:Input and Output • Peripherals with both input and output functions. This form of storage is semi-permanent • Examples include: • Magnetic tape • Magnetic disks • Optical disks  1999 Addison Wesley Longman

Magnetic Tape • Magnetic tape is a common form of storage for mainframe computers. • Information is accessedsequentially • Massive storage for lowcost but retrieval is slow  1999 Addison Wesley Longman

Magnetic Tape • backup storage • 7 or 9 tracks • 2400 ft • 800, 1600, 6400 bpi • blocked • 70GB, 200GB  1999 Addison Wesley Longman

Hard Disks Magnetic Disks Floppy Disk Zip Disks and Zip Drive  1999 Addison Wesley Longman

Magnetic Disk • semi-random access • access time • seek time • latency time • data transfer time  1999 Addison Wesley Longman

Hard Disks • Hard disks are: • Rigid, magnetically sensitive metal disks. • Designed so that information can be randomly accessed • Designed for large storage capacity • Able to access data quickly • Not removable from the drive  1999 Addison Wesley Longman

Diskettes • Diskettes are: • Flexible, magnetically sensitive plastic disks • Information can be randomly accessed. • Has limited storage capacity • Access of data not as quickas hard disks • Removable from the drive  1999 Addison Wesley Longman

Magnetic Disk (II) • floppy disk • 8, 5 3/4, 3 1/2 inch (1.44M) • movable read/write head • track, sector • hard disk • faster, larger (8.4G, 12G, 30G) • cylinder, track, sector  1999 Addison Wesley Longman

Optical Disks • CD-ROM and magneto-optical disks provide: • Random access of information • A high storage capacity • Have an access time that varies but is slower than hard disks • Are removable from the drive  1999 Addison Wesley Longman

Optical Disk • CD-ROM (compact disk ROM) • about 600 MB • can be created on PC (CD-R, WORM) • rewritable optical disk (CD-RW)  1999 Addison Wesley Longman

Storage Capacity A single CD-ROM can hold as much information as • 450 1440K diskettes • 500 books (text only)  1999 Addison Wesley Longman

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Chapter Three

Chapter Three

Chapter Three:

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