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Electricity and power supplies
Unit objectives: Identify electrostatic discharge, and
follow ESD safe practices while working with computer components
Install a new power supply in a PC Troubleshoot faulty power supplies
Topic A
Topic A: Electrical safety Topic B: Power supplies Topic C: Power supply troubleshooting
Characteristics of electricity
Electricity — Flow of electrons Conductor — Permits flow of electricity Insulator — Inhibits flow of electricity Voltage — Force of electricity caused by
difference in charge at two locations– Measured in volts– Also called “potential” or “potential difference”– Officially designated as uppercase V– May see it as lowercase v
continued
Characteristics, continued
Current — Measure of the flow of electrons past a given point – Measured in amps, or amperes– Must be a complete circuit (closed
circuit)– Direct current — Flows in one direction,
at constant voltage, through circuit – Alternating current — Flows repeatedly
back and forth through the circuit, at constantly varying voltage levels
continued
Characteristics, continued
Resistance — Force that opposes the flow of DC through a conductor – Measured in ohms (Ω)
Impedance — Like resistance, but applies to AC
Power – Measured in watts– Calculate by multiplying voltage by current
Energy — Electrical power delivered over time
Activity A-1
Examining the characteristics of electricity
Electricity
Current can kill The 1–10–100 rule Calculating current
V = i * r Resistance of the human body is
about 500 KΩ (500,000 Ω)
Safety precautions
Don’t touch exposed contacts Touch only insulated handles of tools Leave covers on equipment Work one-handed Don’t insert anything into wall outlets Remove jewelry, watches, etc. Keep hands clean and dry Don’t work in wet surroundings
Activity A-2
Considering electrical safety
Electrostatic discharge (ESD)
Buildup of charges Static dangers Discharge voltages
– 3000+ volts to feel– 8000+ volts to see spark– 35,000 volts on a dry day on carpet– 30 volts can damage electronics
Preventing static buildup
Don’t shuffle your feet Increase the humidity: 50-60% Keep yourself grounded Wear cotton, not synthetics Remove carpeting Use air ionization system
Preventing static discharge
Equalize charge differences safely– Unplug the equipment– Touch the metal chassis or power supply
Keep yourself and equipment connected together– Wrist straps and antistatic mats– Static-safe bags
Goal is to be at a charge potential that’s equal with the device you’re servicing (not with ground)
Service on a properly grounded bench
Antistatic (ESD) wrist straps
Typical internal components
Power supply
CD-ROM drive
Hard drive
CPU/fan
Motherboard
Adapter card
Slide catch, move to open side of case
Slide catches
Determining which side to open
Ports and connectors attached to motherboard
Open this side to access components
Removable front cover
Alignment postsAlignment holes
Spring catches
Activity A-3
Opening the computer case while following proper ESD precautions
Topic B
Topic A: Electrical safety Topic B: Power supplies Topic C: Power supply troubleshooting
PC power supply
Converts AC wall voltage to DC voltages for PC components
Includes a fan Provides some conditioning functions Can maintain power during brief drops and
outages
Power supply specifications
Rated by DC power output in watts– Modern systems typically =>300 watts– Older systems <200 watts
Rating isn’t an indicator of power draw– Draws only the power needed to supply
internal components
Typical power requirements
Motherboard 30 W
Memory 10 W per 2 GB
CPU 45–145 W or more
Hard drive 5–15 W
CD-ROM drive 5–20 W
Floppy drive 5–10 W
Adapter card 5–30 W
Standard outputs
+/- 5 V +/- 12 V + 3.3 V
Power connectors
Two standards– Drive power connectors– Motherboard power connectors
Peripheral power connector
Molex connector Typically used to connect hard drives and
optical drives
Floppy power connector
Berg connector Smaller than Molex Typically used to connect floppy drives
SATA power connector
New, for Serial ATA drives
Wire colors
Wire color Molex Berg SATA Voltage
Yellow 1 4 13, 14, 15 +12 V
Red 4 1 (optional) 7, 8, 9 +5 V
Black 2 and 3
2 (optional) and 3
4, 5, 610, 11,12
Ground
Orange 1, 2, 3 +3.3 v
Motherboard power connectors
Dual power connectors (P8/P9)
Single power connector
Power supply form factors
Describes size and shape Must fit:
– Case – Motherboard – Other components
Activity B-1
Identifying your computer’s power supply
Installing a power supply
1. Shut down computer
2. Unplug computer
3. Remove cover from computer
4. Disconnect all power wires from components, including motherboard
5. Remove retaining screws
6. Remove power supply
7. Install new power supply and screw it into place
8. Connect power wires to components as needed, including motherboard
9. Replace cover
10.Plug computer into outlet, and boot system to test your work
Selecting the voltage
Set power supply to run on 110-120 VAC or 220-240 VAC
With computer off, slide switch Usually located near power cord port
continued
Selecting the voltage, continued
Improperly set voltage, can cause computer to:– Fail to turn on– Operates improperly– Incur serious damage
www.voltagevalet.com/elec_guide.html
Activity B-2
Installing a new power supply
Topic C
Topic A: Electrical safety Topic B: Power supplies Topic C: Power supply troubleshooting
An AC signal
Power problems
Blackout — Total loss of power Brownout — Brief decrease in voltage
level Noise — Disruption of smoothly
varying AC signal Spike — Very brief increase in voltage Surge — Brief increase in voltage
(longer than spike)
Power conditioning
Surge protectors – Filter out spikes and surges
Battery backup devices– Condition the power signal– Some protect against brownouts– Continuous UPS vs. standby UPS– UPS monitoring and management software
Generators– Provide power for extended periods– Use a variety of fuels– Computer-grade generators produce clean,
consistent AC signals
Activity C-1
Discussing power conditioning equipment
Electrical measurements
Measure electrical values with a multimeter
Multimeters can be digital or analog Use to measure
– Resistance– Voltage– Current– Continuity
Measuring resistance
1. Turn off the device you’re measuring and disconnect it from its power source
2. You might need to disconnect the device from its circuit
3. Set the multimeter to read resistance
4. Touch the two leads of the multimeter together
5. Touch the black and red probes to either side of the circuit to be measured
6. Read the resistance from the meter’s display
Measuring voltage
1. Verify the power supply is on
2. Set your multimeter to read either DC or AC voltage
3. Touch the black probe to the ground, and touch the red probe to the spot where you want to measure the voltage
4. Read the voltage from the meter’s display
You must exercise care when taking voltage readings as the computer is powered up
Measuring current
Break the circuit and insert the meter in the break
Ammeter doesn’t require break Clamp ammeters are often used to
measure current flow in 110 V and higher circuits
Measuring continuity
Set your multimeter to display resistance (ohms) and look for circuits with zero resistance
Also can use continuity mode, if available
Power supply tester
Alternative to manual test with multimeter
Takes approximately 30 minutes
Follow instructions for your specific tester
Advantages:– Less susceptible to human
error– Results are more conclusive– Safer to perform
Activity C-2
Measuring electrical values
Power supply problems
Computer fails to boot when powered on, but boots after Ctrl+Alt+Del
Computer intermittently stops working or reboots
You don’t have enough power connectors for all the devices you want to install
Computer fails to boot at all (no lights or beeps); fans don’t start
Computer fails to boot, but fans start
The Power_Good signal
Signals CPU that power is stable and sufficient
+5 V over specific wire Must arrive at correct time
Activity C-3
Troubleshooting power supply problems
Electricity and power supplies
Identified electrostatic discharge, and followed ESD safe practices while working with computer components
Installed a new power supply in a PC Resolved problems with faulty power
supplies
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