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Module 3

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The AT power supply has two 6-pin (12 pins) motherboard power connectors (P8/P9) ... vary depending on the type of motherboard that is being installed (AT or ... – PowerPoint PPT presentation

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Title: Module 3


1
Module 3
  • Assembling a Computer

Version 3.1
2
Before beginning any assembly process, it is a
good idea to review safety procedures.
  • Keep the work area free of clutter and keep it
    clean.
  • Keep food and drinks out of the work area.
  • A computer monitor may store up to 25,000 volts,
    so avoid opening one unless trained to do so.
  • Remove all jewelry and watches.
  • Make sure the power is off and the power plug has
    been removed when working inside the computer.
  • Never look into a laser beam. Lasers are found in
    computer related equipment.
  • Make sure that a fire extinguisher and first aid
    kit is available.
  • Cover sharp edges with tape when working inside
    the computer case.

3
Basic Safety Procedures
  • Use an antistatic mat and grounding wrist strap.
  • Use antistatic bags to store and move computer
    components.
  • Do not remove or install components while the
    computer is on.
  • Ground often to prevent static charges from
    building up by touching a piece of bare metal on
    the chassis or power supply.
  • Work on a bare floor because carpets can build up
    static charges.
  • Hold cards by the edges to avoid touching chips
    or the edge connectors on the expansion cards.

4
Basic Safety Procedures
  • Do not touch chips or expansion boards with a
    magnetized screwdriver.
  • Turn off the computer before moving it. This is
    to protect the hard drive, which is always
    spinning when the computer is turned on.
  • Do not place a circuit board of any kind onto a
    conductive surface.
  • Do not use a pencil or metal tipped instrument to
    change DIP switches or to touch components. The
    graphite in the pencil is conductive and could
    easily cause damage.
  • Do not allow anyone who is not properly grounded
    to touch or hand off computer components. This is
    true even when working with a lab partner. When
    passing components, always touch hands first to
    neutralize any charges.

5
ESD Precautions
  • Electrostatic discharge (ESD) is more commonly
    referred to as static electricity.
  • ESD is probably the greatest enemy when a user
    unwraps newly purchased computer parts and
    components while preparing to assemble the
    computer.
  • The best way to protect against ESD is to use an
    anti-static mat, a grounding wrist strap, and
    anti-static bags.

6
ESD Precautions
  • Always review the ESD precautions before
    beginning the assembly process.
  • Keep all computer parts in anti-static bags.
  • Keep the humidity between 20 - 30 percent.
  • Use grounded mats on workbenches.
  • Use grounded floor mats in work areas.
  • Use wrist straps when working on computer parts,
    except when working on monitors or power
    supplies.
  • Periodically touch unpainted grounded metal parts
    of the computer to lower the static energy of the
    body.

7
Computer Cases
  • There are three basic types of computer cases
  • Desktop
  • Tower
  • Mini-tower
  • Mid-tower
  • Full tower
  • Portable
  • Whether buying a tower or desktop, it is
    recommended that it conforms to the ATX standard
    and has at least a 250-watt power supply (300
    watts is ideal.)
  • The desktop case is considered the most difficult
    to upgrade.

8
Desktop Computers
  • The desktop design is one of the more familiar
    case styles. Desktop units are designed to sit
    horizontally on the desktop.
  • The two important considerations in choosing a
    desktop case style for a computer are
  • Available desktop space
  • Form factor
  • The newest form factor, and the one most often
    encountered, is the ATX.

9
Tower Computers
  • Tower cases are usually designed to sit
    vertically on the floor beneath a desk.
  • Tower cases come in three sizes
  • Mini towers
  • Mid towers
  • Full-size towers

10
Power Supplies
  • The power supply is one of the most important
    parts that needs to be understood. The power
    supply unit provides electrical power for every
    component inside the system unit.
  • The power supply plays the critical role of
    converting commercial electrical power (AC), into
    DC required by the components of the computer.
  • There are two basic types of power supplies
  • AT power supplies Designed to support
    AT-compatible motherboards. 
  • ATX power supplies Designed according to newer
    ATX design specifications to support the ATX
    motherboard.

11
Power Supplies
  • There are two major distinctions between the
    legacy AT and the new ATX power supplies.
  • The AT power supply has two 6-pin (12 pins)
    motherboard power connectors (P8/P9)
  • The ATX power supplies use a single 20-pin power
    connector (P1).
  • In the ATX-compatible power supply, the cooling
    fan pulls air through the case from the front and
    exhausts it out the rear of the power supply
    unit.
  • The AT design pulls air in through the rear of
    the power supply unit and blows it directly on
    the AT motherboard.

12
Power Supplies
  • The power supply produces four (five in the ATX)
    different levels of well-regulated DC voltage for
    use by the system components.
  • These are 5V, -5V, 12V, and -12V.
  • In ATX power supplies, the 3.3V level is also
    produced and is used by the second-generation
    Intel Pentium processors.

13
Power Supplies
14
Motherboard Location Map
  • A motherboard location map shows where the major
    components and hardware is located on the
    motherboard. A motherboard map can be found in
    the documentation that comes with the motherboard.

15
Configuring the Motherboard
  • Configuring the motherboard typically means the
    following
  • Installing the CPU
  • Installing the heat sink and fan
  • Installing RAM
  • Connecting the power supply cables to the
    motherboard power connectors and connecting
    miscellaneous connectors to the correct switches
    and status lights on the front case panel.
  • Setting the system BIOS

16
Configuring the Connectors
  • For the disk controllers, always remember that a
    colored stripe on the data cable is pin-1.
  • Most modern connectors are "keyed" by a missing
    pin or a blocked connector, so they cannot be
    fitted the wrong way.
  • Usually, the colored wire(s) in a power cable are
    positive and the white or black wire(s) are
    ground or negative.

17
CPU Interfaces
  • There are two main types of CPU interfaces.
  • Socket type (e.g., socket 7) - Socket 7 has been
    the standard interface, although the newer
    systems are now using different sockets. It is
    the only interface used by at least one
    generation of Intel Pentium processors (Pentium
    I) as well as AMD and Cyrix chips.
  • Slot type (e.g., slot 1.) - Slot type interfaces
    use a slot similar to expansion cards. Slot 1 is
    the Single Edge Contact (SEC) interface used only
    by the Intel Pentium II processor family.

18
RAM
  • The two types of memory modules used on most PCs
    are
  • Dual Inline Memory Module (DIMM)
  • Single Inline Memory Module (SIMM)

19
RAM
  • Dual Inline Memory Module (DIMM)
  • 168-pin
  • DIMM cards are inserted straight into the slots
  • When DIMM sizes are mixed on the motherboard, it
    is important to remember to put the DIMM with the
    largest memory size in the first bank.

20
RAM
  • Single Inline Memory Module (SIMM)
  • 72-pin
  • SIMM cards are inserted at an angle of about 45
    degrees
  • Each bank of memory for a SIMM has two sockets.
    You must fill the first bank before moving onto
    the next. Additionally, each bank must be filled
    with RAM modules that have the same access time
    and size.

NOTE A bank is a group of memory slot used to
install RAM
21
RAM
  • Rambus Inline Memory Module (RIMM)
  • 184 pins
  • RIMM modules use only the direct Rambus memory
    chips (RDRAM)
  • RDRAM is characterized by its high bus speed.
  • RIMMs require that if you do not fill all RIMM
    slots with RDRAM memory, you must keep the empty
    slots filled with termination boards

22
Connecting the Power Supply
  • The power supply converts the alternation current
    (AC) line from your home to the direct current
    (DC) needed by the personal computer.
  • This process will vary depending on the type of
    motherboard that is being installed (AT or ATX).
  • Sometimes it is helpful to delay attaching the
    power connector to the board until all the
    components have been installed that need to go
    on the motherboard.
  • This allows for more working space inside the
    case.

23
Connecting the Power Supply
  • WARNING Do not open the power supply it contains
    a capacitors which can hold Electricity (WHICH
    CAN KILL) even if the computer is power off for a
    week, if not longer. If you do open it WHICH IS
    NOT RECOMMENDED, take all precautions and ensure
    you work with one arm behind your back to direct
    the electricity away from the heart. Also ensure
    that you have no jewelry on (such as a watch or
    rings). However again THIS IS NOT RECOMMENDED and
    still cannot protect you 100 and is still
    potentially dangerous.

24
AT Power Supply
  • AT power supplies are considered legacy
  • AT motherboards have a 12 pin connector and the
    AT power supply has two 6 pin connectors (P8 and
    P9).
  • Plug the P8 and P9 wire lead connectors in the
    12-pin power connector.
  • Make sure the black wires are in the middle,
    right next to each other or the motherboard could
    be damaged.

25
ATX Power Supply
  • ATX is currently the most common type of power
    supply.
  • ATX motherboards have a single 20 pin connector
    (P1).
  • The connector is keyed for easy installation.

26
Connecting Floppy Drives
  • The floppy drive exchanges data with the
    motherboard devices, including the
    microprocessor, via a 34-pin flat ribbon (data)
    cable
  • Usually, a red stripe on the edge of the cable
    identifies pin-1. Lining the red-stripe edge with
    pin-1 of the drive connector or drive controller
    interface assures a correct alignment.
  • If the cable is incorrectly oriented it becomes
    immediately apparent on power up by the fact that
    the floppy drive LED light comes on immediately
    and stays on.

27
Connecting Floppy Drives
  • Current system BIOS versions can support up to
    two floppy drives on one controller via a daisy
    chain cable arrangement. Cable pin-outs 10
    through 16 are cross-wired between the middle
    drive connector and end drive connector,
    producing a twist that reverses the Drive Select
    (DS) configuration of the drive plugged into the
    end connector of the ribbon cable. This feature,
    called cable select, automatically configures the
    drive on the middle connector as Drive B and the
    drive on the end connector as Drive A.

28
Installing a Hard Drive or CD-ROM
  • Attaching the hard drive and CD-ROM are basically
    similar.
  • First, the jumper settings should be properly
    set.
  • The designation of a hard drive or CD-ROM drive
    as either master or slave is generally determined
    by the jumper configuration, not by the order in
    which the drive is daisy-chained to the other
    drive.
  • The hard drive that is used to boot the computer
    should be set as the primary master
  • The only exception is if the drive is jumpered
    (set to) "cable select" and both the system and
    ribbon cable support cable select.

29
Connecting a Hard Drive or CD-ROM
  • Hard drives and CD-ROM drives communicate with
    the rest of the system using ribbon cables.
  • Ribbon cables are widely used to connect
    peripherals such as floppy drives and hard drives
    internally.
  • IDE cable ribbon cables used for hard drives and
    CD-ROM drives typically have 40 pins and can
    connect two devices to each cable.

30
Power On Self Test
  • Whenever a computer starts up, a series of tests
    are automatically performed to check the primary
    components in the system, such as the CPU, ROM,
    memory, and motherboard support circuitry.
  • The routine that carries out this function is
    referred to as the POST.
  • POST is a hardware diagnostics routine that is
    built into the system BIOS.
  • The basic function of the POST routine is to make
    sure that all the hardware the system needs for
    startup is there and that everything is
    functioning properly before the boot process
    begins.

31
Power On Self Test
  • POST also provides some basic troubleshooting to
    determine what devices have failed or have
    problems initializing during this pre-startup
    hardware check.
  • The POST routine provides error or warning
    messages whenever it encounters a faulty
    component.
  • Post error codes take the form of a series of
    beeps that identify a faulty hardware component.

32
Power On Self Test
  • If the Post advances up to the point where video
    can be displayed, the error codes are displayed
    on the monitor.
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