1. PC Maintenance: Preparing for A+ Certification Chapter 3: Case, Electricity, and Power Supplies

2. Chapter 3 Objectives Select an appropriate case for a PC Select an appropriate case for a PC Understand electrical basics Understand electrical basics Select an appropriate power supply Select an appropriate power supply Troubleshoot a PC using electrical testing Troubleshoot a PC using electrical testing Select appropriate power conditioning and backup devices Select appropriate power conditioning and backup devices

3. Selecting a Case Construction Construction Form Factor (AT, ATX) Form Factor (AT, ATX) Number of drive bays Number of drive bays Power supply (if included) Power supply (if included)

4. Case Form Factors ATX: ATX: Loose wires coming from power switch, will connect to motherboard later Loose wires coming from power switch, will connect to motherboard later Bezel for the motherboard’s built-in I/O ports in back Bezel for the motherboard’s built-in I/O ports in back

5. Case Form Factors AT: AT: Power switch connects to power supply Power switch connects to power supply Slots in case floor for plastic stand-offs Slots in case floor for plastic stand-offs

6. Drive Bays InternalExternal Small Hard disk 3 ½” floppy ZIP drive Large Some older hard disks CD 5 ¼” floppy

7. Drive Bays

8. Electricity Basics Voltage Voltage Current Current Wattage Wattage Resistance Resistance

9. Voltage Difference in charge between the positive and negative poles Difference in charge between the positive and negative poles Can be positive or negative volts (v) Can be positive or negative volts (v) Ordinary household current is 110v in the USA, or 220v in most of Europe Ordinary household current is 110v in the USA, or 220v in most of Europe

10. Current Measurement of the volume of electricity Measurement of the volume of electricity Measured in amperes, or amps Measured in amperes, or amps Controlled by the device that is drawing the current Controlled by the device that is drawing the current

11. Wattage Derived by multiplying voltage and current Derived by multiplying voltage and current Examples: Examples: 5 amps of +12v power = 60 watts 5 amps of +12v power = 60 watts 1.5 amps of +5v power = 7.5 watts 1.5 amps of +5v power = 7.5 watts 10 amps of +3.3v power = 33 watts 10 amps of +3.3v power = 33 watts

12. Resistance Amount of obstacle in the electricity’s path Amount of obstacle in the electricity’s path Measured in ohms (Ω) Measured in ohms (Ω) Resistance of less than 20 ohms required for electrical operation Resistance of less than 20 ohms required for electrical operation Infinite ohms ( ∞ ), no connection Infinite ohms ( ∞ ), no connection

13. Grounding Creating a path of little resistance to the ground Creating a path of little resistance to the ground Acts as a protection against over-voltage Acts as a protection against over-voltage Achieved by the third prong in an outlet plug Achieved by the third prong in an outlet plug

14. AC and DC AC: Alternating Current AC: Alternating Current Ordinary household current Ordinary household current Alternates positive and negative poles at 60 Hz Alternates positive and negative poles at 60 Hz Good for sending power over long distances Good for sending power over long distances DC: Direct current DC: Direct current Batteries Batteries Positive and negative poles stay fixed Positive and negative poles stay fixed Lower overhead Lower overhead Portable Portable

15. Electrical Measurements Analog multimeter Analog multimeter Uses a needle gauge Uses a needle gauge Continuously variable Continuously variable Digital multimeter Digital multimeter Uses a digital display Uses a digital display Precise values Precise values More suitable for computers More suitable for computers

16. Measuring Resistance Set multimeter to ohms Set multimeter to ohms Place probes on either end of the wire or circuit in question Place probes on either end of the wire or circuit in question

17. Measuring Voltage Must be measured with computer on Must be measured with computer on Use back- probing Use back- probing Place black probe on grounding wire (black) Place black probe on grounding wire (black) Place red probe on wire to be tested Place red probe on wire to be tested

18. Measuring Current Must be measured with computer on Must be measured with computer on Multimeter must be placed in-line Multimeter must be placed in-line Difficult to do with most computer components Difficult to do with most computer components

19. Types of Power Supplies Form factor Form factor AT AT ATX ATX Other sizes Other sizes Wattage Wattage

20. AT Power Supply P8 and P9 connectors to motherboard P8 and P9 connectors to motherboard Power switch attached directly Power switch attached directly +5v, -5v, +12v, and -12v power +5v, -5v, +12v, and -12v power

21. AT Connectors

22. ATX Power Supply Single 20-wire connector to motherboard Single 20-wire connector to motherboard No direct connection to power switch No direct connection to power switch +5v, -5v, +12v, -12v, and +3.3v power +5v, -5v, +12v, -12v, and +3.3v power

23. ATX Power Supply Wires

24. Power Supply Connectors Molex Molex Used for most drive types Used for most drive types Mini Mini Used for 3.5” floppy drives Used for 3.5” floppy drives

25. Determining Wattage Requirements Read label on power supply Read label on power supply Calculate wattage drawn by each component Calculate wattage drawn by each component Compare total amount drawn to label Compare total amount drawn to label

26. Failed Power Supply Fan won’t spin Fan won’t spin Inconsistent power provided (fan revs and sags) Inconsistent power provided (fan revs and sags) System will not boot (appears dead) System will not boot (appears dead)

27. Overloaded Power Supply Typically overloads at startup Typically overloads at startup Problems occur when drives spin up Problems occur when drives spin up System may spontaneously reboot when multiple drives are accessed System may spontaneously reboot when multiple drives are accessed

28. Testing a Power Supply Check voltage on the Power_Good pin Check voltage on the Power_Good pin AT: Pin 1 on P8 (orange wire) AT: Pin 1 on P8 (orange wire) ATX: Pin 8 (gray wire) ATX: Pin 8 (gray wire) Use back-probing Use back-probing Range should be +3v to +6v Range should be +3v to +6v

29. Surge suppressor No backup power No backup power Protects from damage due to spikes Protects from damage due to spikes Does not protect from damage due to sags Does not protect from damage due to sags

30. Uninterruptible Power Supply Standby UPS Standby UPS Serves as surge suppressor Serves as surge suppressor Switches to battery backup when needed Switches to battery backup when needed Online UPS Online UPS Serves as a surge suppressor Serves as a surge suppressor Runs constantly on battery, recharged from AC Runs constantly on battery, recharged from AC