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Notebooks, PDAs, and Printers

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How to support, upgrade, and add peripheral devices to notebooks ... include one for a Secure Digital (SD) Card and one for a Compact Flash Card. Can be hot-swapped ... – PowerPoint PPT presentation

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Title: Notebooks, PDAs, and Printers


1
Chapter 12
  • Notebooks, PDAs, and Printers

2
You Will Learn
  • How to support, upgrade, and add peripheral
    devices to notebooks
  • About technologies relating to personal digital
    assistants (PDAs)
  • How printers work and how to troubleshoot them

3
Notebook Computers
4
Notebook Computers
  • Use same technology as PCs, but with
    modifications
  • Use less power
  • Take up less space
  • Can withstand movement and jars
  • Use thin LCD panels for display
  • Use small memory modules and CPUs
  • Cost more than comparable PCs

5
Notebook Computers
  • Power sources
  • AC adapter
  • DC adapter
  • Battery pack
  • Types of batteries
  • Ni-Cad (nickel-cadmium)
  • NiMH (nickel-metal-hydride)
  • Lithium Ion
  • Future battery solution
  • Fuel cell battery

6
Notebooks versus PCs
  • Notebooks
  • Generally purchased as a whole unit not likely
    to upgrade hardware and OS
  • Tend to be proprietary
  • Have some universal support issues, but
    procedures vary between brands
  • PCs
  • Highly modular
  • Components can be interchanged, upgraded, and
    enhanced

7
Types of Memory Used by Notebooks
8
Upgrading Memory
9
Upgrading Memory
10
Upgrading Memory
11
Other Field Replaceable Units (FRUs) for Notebooks
  • Hard drive
  • LCD panel
  • Motherboard
  • CPU
  • Keyboard
  • PC Card socket assembly
  • CD-ROM drive
  • Floppy drive
  • Sound card
  • Pointing device
  • AC adapter
  • Battery pack
  • DC controller

12
Comparing Hard Drives
13
Replacing a Hard Drive
14
Connecting Peripheral Devicesto Notebooks
  • Port on notebook itself
  • Port replicator
  • Docking station
  • PC Card
  • Also called PCMCIA (Personal Computer Memory Card
    International Association) Card
  • USB port

15
Connecting Peripheral Devices via Notebook Ports
16
Connecting Peripheral Devices via a Port
Replicator
17
Example of a Docking Station
18
Connecting Peripheral Devices via PC Cards
19
PC Cards
  • Once intended only for memory cards, PC Card
    slots are now used by many devices
  • Four standards
  • Latest specification CardBus
  • Improves I/O speed
  • Increases bus width to 32 bits
  • Supports lower-voltage PC Cards while maintaining
    backward compatibility
  • Three types (Type I, Type II, and Type III),
    which vary in thickness

20
PC Cards
  • OS must provide two services
  • Socket service
  • Card service
  • Might contain a data cable to an external drive,
    or might be self-contained
  • Other smaller slots include one for a Secure
    Digital (SD) Card and one for a Compact Flash
    Card
  • Can be hot-swapped
  • Can interface with a network

21
PC Cards
22
PC Cards
23
PC Cards
24
Using a PC Card to Interface with a Network
25
Adding Devices with a USB Port
  • Popular way of adding devices to notebooks
  • Easy installation

26
Adding Devices with a USB Port
27
Supporting Notebooks
  • Apply same troubleshooting guidelines as for
    desktop PCs
  • Be aware of warranty issues
  • Loaded OS and hardware configuration are
    specific see documentation for details

28
Notebook Manufacturers
29
PDAs
  • Small, handheld computers with their own OS and
    applications
  • Battery powered
  • Use either a grayscale or color active matrix or
    dual-scan passive matrix display
  • Can sometimes benefit from additional memory
  • Include a stylus
  • Might use an AC/DC adapter
  • Might have fold-out keyboard option

30
PDAs
31
Optional Accessories for PDAs
32
Considerations When Purchasing a PDA
  • What applications come with it what can be added
    later?
  • Easy to use? Thorough documentation?
  • Is synchronization easy?
  • What support is available from manufacturer?
  • Type of batteries? Battery life?

continued
33
Considerations When Purchasing a PDA
  • Can it use e-mail and the Web? Extra hardware or
    software required?
  • Can additional devices be purchased?
  • What OS does it use? How easy to use?
  • What is the warranty?
  • What is the price?

34
Battery Life on a PDA
  • Short battery life is the one largest complaint
    risk losing data and applications if battery runs
    all the way down
  • Use cradle and adapter

35
Applications on a PDA
  • Some come with all application software
    preinstalled
  • Some require user to download applications at
    additional cost
  • Some support applications that come preinstalled
    and cannot download others
  • Some allow downloading e-mail or Web site content
  • Some can access Internet directly by way of a
    modem or wireless connection

36
Connecting a PDA to a PC
  • Synchronization
  • Process by which PDA and PC talk to each other
    through universal cradle, cable, and USB or
    serial connection
  • Capabilities
  • Backup information from PDA to PC
  • Work with PDA files on PC and download
    applications from Web
  • Some PDAs synchronize with a desktop or notebook
    computer through wireless technology

37
PDA Operating Systems
  • Principal difference between the two main OSs for
    PDAs is in the applications they support
  • Pocket PC
  • More versatile
  • Palm OS
  • Less complex
  • Easier to use
  • Best choice for simple tasks

38
PDA OS Manufacturers
39
Printers
  • Local printers connect directly to computer via
    parallel port, serial port, USB port, infrared
    connection, wireless connection, IEEE 1394 port,
    SCSI port, or PC Card connection
  • Network printers are accessed over the network

40
Main Types of Printers
  • Laser
  • Ink-jet
  • Dot-matrix
  • Thermal printers and solid ink printers

41
Laser Printers
  • Use electrophotographic process
  • Range from small, personal desktop models to
    large network printers capable of handling and
    printing large volumes continuously
  • Require interaction of mechanical, electrical,
    and optical technologies

42
How a Laser Printer Works
  • Places toner on electrically charged rotating
    drum
  • Deposits toner on paper as paper moves through
    the system at same speed the drum is turning

43
Six Steps of Laser Printing
  • Cleaning
  • Conditioning
  • Writing
  • Developing
  • Transferring
  • Fusing
  • Take place inside toner cartridge
  • Use components that undergo the most wear

44
Six Steps of Laser Printing
45
Step 1 Cleaning
46
Step 2 Conditioning
  • Conditions drum to contain a high electrical
    charge

47
Step 3 Writing
  • Laser beam discharges a lower charge to only
    those places where tone is to go

48
Step 3 Writing
  • Data from PC is received by formatter (1) and
    passed to DC controller (2) which controls laser
    unit (3)
  • Scanning mirror (4) is turned clockwise by
    scanning motor
  • Laser beam is reflected off scanning mirror,
    focused by focusing lens (5) and sent to the
    mirror (6)
  • Mirror deflects laser beam to a slit in the
    removable cartridge and on to the drum (7)

49
Step 3 Writing
50
Step 4 Developing
  • Toner is placed onto the drum where the charge
    has been reduced

51
Step 4 Developing
52
Step 5 Transferring
  • Strong electrical charge draws toner off drum
    onto paper takes place outside the cartridge

53
Step 6 Fusing
  • Heat and pressure fuse toner to paper

54
Ink-Jet Printers
  • Small
  • Print color inexpensively
  • Tend to smudge on inexpensive paper
  • Slower than lasers

55
How an Ink-Jet Printer Works
  • Print head moves across paper, creating one line
    of text with each pass
  • Shoots ionized ink at a sheet of paper in a
    matrix of small dots
  • Several technologies are used to form ink
    droplets (eg, bubble-jet)
  • Uses ink cartridges

56
Ink-Jet Cartridges
57
Photo-Quality Ink-Jet Printers
  • New generation of ink-jet printers that give
    photo-quality results
  • Mix different colors of ink to produce a new
    color that then makes a single dot

58
Dot-Matrix Printers
  • Less expensive lesser quality
  • Impact printer can print multicopy documents
  • Print head moves across width of the paper, using
    pins to print a matrix of dots on the page
  • Uses a ribbon
  • If print head fails, buy a new printer

59
Dot-Matrix Printers
60
Thermal Printers andSolid Ink Printers
  • Relatively new printer technologies
  • Non-impact printers that use heat to produce
    printed output

61
Thermal Printers
  • Use wax-based ink that is heated by heat pins
    that melt ink onto paper
  • Internal logic of the printer determines which
    pins get heated in order to produce the printed
    image
  • Popular in retail applications for printing bar
    codes and price tags
  • Can burn dots onto special paper or use a ribbon
    that contains wax-based ink

62
Solid Ink Printers
  • Store ink in solid blocks that are easy to
    handle several can be inserted in printer to be
    used as needed
  • Solid ink is melted into the print head which
    spans the width of the paper
  • Head jets the liquid ink onto the paper as it
    passes by on a drum

63
Solid Ink Printers
  • Advantages
  • Simple design
  • Excellent print quality
  • Easy to set up and maintain
  • Disadvantage
  • Time it takes (15 minutes) for the print head to
    heat up

64
Printer Manufacturers
65
Installing a Local Printer
  • Physically attach printer to computer (via
    parallel, serial, USB, SCSI, IEEE 1394 port PC
    Card or Infrared connection or wireless access
    point)
  • Install printer drivers
  • Have Windows do it
  • Use printer manufacturers installation program
    (best way)
  • Alternately, use Windows Printer window to
    install
  • Test the printer

66
Installing a Network Printer
  • Network printer contains a NIC and connects
    directly to the network or is shared on the
    network by another PC
  • Can use Network Neighborhood or My Network Places
    to install a network printer on a remote PC

67
Troubleshooting Guidelinesfor Printers
  • Printer maintenance
  • General printer troubleshooting
  • Problems with laser printers
  • Problems with ink-jet printers
  • Problems with dot-matrix printers

68
Printer Maintenance
  • Procedures vary widely from manufacturer to
    manufacturer and printer to printer
  • Make sure consumables for the printer are on hand
  • Research printer documentation or manufacturers
    Web site for specific maintenance tips
  • Clean inside and outside of the printer

69
General Printer Troubleshooting
  • Isolate the problem
  • Application attempting to use the printer
  • OS and printer drivers
  • Connectivity between PC and printer
  • Printer itself

70
Addressing Printer Problems Caused by Hardware
  • Verify a printer self-page can print
  • Problem with printer cable

71
Problems with Laser Printers
  • Poor print quality due to low toner
  • Printer stays in warm-up mode
  • Paper Jam or Paper Out message is displayed
  • Printer images are distorted
  • Printing is slow
  • A portion of the page does not print

72
Problems with Ink-Jet Printers
  • Print quality is poor
  • Printing is intermittent or absent
  • Lines or dots are missing from the printed page
  • Ink streaks appear on the printed page

73
To Clean Ink-Jet Nozzles
74
Problems with Dot-Matrix Printers
  • Print quality is poor
  • Print head moves back and forth, but nothing
    prints

75
Chapter Summary
  • Devices that provide for greater portability and
    how to support them
  • Notebook computers Personal digital assistants
    (PDAs)
  • Printers and how to support them
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