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Form Factors, Power Supplies, and Working Inside a Computer

1. PROTECT THE EQUIPMENT AGAINST STATIC ELECTRICITY OR ESD Suppose you come indoors on a cold day pick up a comb and touch your hair Sparks fly What happened Static electricity caused the sparks Electrostatic discharge ESD commonly known as static electricity is an electrical charge at rest When you came indoors this charge built up on your hair and had no place to go An ungrounded con ductor such as wire that is not touching another wire or a nonconductive surface such as your hair holds a charge until the charge is released When two objects with dissimilar electrical charges touch electricity passes between them until the dissimilar charges become equal To see static charges equalizing turn off the lights in a room scuffyour feet on thescar pet and touch another person Occasionally you canfSee and feel the chargain your fingers If you can feel the charge you discharged at least 1 500 volts oftatic electricity If you hear the discharge you released at least 6 000 volts If you_see the discharge you released at least 8 000 volts of ESD A charge of onlywhO volts can damage electronic components You can wane touch a chip on an expansion card or motherboard damage the chip with ESD and never feel hear or see the discharge ESD can cause two types of damage in an electronic component catastrophic failure and aipset failure A catastrophic failure destroys the component beyond use An upset failure damages t
2. a f IND INO K j 1435487389 ch02_CTP qxd 7 30 09 5 17 PM CHAPTER 2 Orange 3 3V Page 40 Form Factors Power Supplies and Working Inside a Computer 3 3V Orange Brown Orange 3 3V 12V Blue Black COM COM Black Red 5V PS_ON Green Black COM COM Black Red 5V COM Black Black COM COM Black Gray PWR_ON NC White Purple 5VSB 5V Red Yellow 12V1 5V Red Yellow 12V1 5V Red Orange 3 3V COM Black Figure 2 6 P1 24 pin power connector follows ATX Version 2 2 and higher standards Courtesy Course Technology Cengage Learning For more informati ad in this chapter check out the form factor Web site sponsored Another featutesof an ATX motherboard is a soft switch sometimes called the soft power feature If an operating system supports the feature it can turn off the power to a system after the shutdown procedure is done In addition BIOS setup can be configured to cause a keystroke or network activity to power up the system wake on LAN When a user presses the power switch on the front of the case while the computer is on the OS goes through a normal shutdown procedure before powering off There are several variations of ATX motherboards A less popular one is the Mini ATX which is a smaller ATX motherboard 11 2 x 8 2 that can be used with ATX cases and power supplies Ano
3. tems notebooks can present difficulties in expansion The smallest notebook cases are called subnotebooks or netbooks Notebook designs are often highly proprietary but are generally designed to conserve space allow portability use less power and produce less heat The case fan in a notebook usually attaches to a thermometer and runs only when temperature needs to be lowered Table 2 2 lists a few case and power supply manufacturers Manufacturer Antec www antec com ASUS www asus com Cooler Master www coolermaster com ENlight Corporation www enlightcorp com Lian Li www lian li com PC Power and Cooling www pcpowerandcooling com s Rosewill www rosewill com i Silverstone www silverstonetek com og Sunus Suntek www suntekgroup com Thermaltake Zalman A B Resellers sometimes closely match the domain name of a manufacturer so that you might accidentally land on their site For example if you key in www lianli com without the hyphen you re taken to a reseller s site rather than the Lian Li site Toward our goal of learning about power supplies and the electrical current they provide let s turn our attention to understanding how electricity is measured and about some of its properties MEASURES AND PROPERTIES OF ELECTRICITY In our modern world we take electricity for granted and we miss it terribly when it s cut off Nearly everyone depends on it but few really understand it B
4. Also at some case panels don t use up and out with a little prying and pulling Ch Figure 2 39 One screw holds the side panel in place Courtesy Course Technology Cengage Learning 5 If you plan to remove several components draw a diagram of all cable connections to the motherboard adapter cards and drives You might need the cable connection dia gram to help you reassemble Note where each cable begins and ends and pay particular attention to the small wires and connectors that connect the front of the case to the motherboard It s important to be careful about diagramming these because it is so easy 1435487389 ch02_CTP qxd 7 30 09 5 18 PM Page 76 D CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Figure 2 40 Slide the side panel to the front of the case and then lift it off the case Courtesy Course Technology Cengage Learning to connect them in the wrong position later when you reassemble felt tip marker to make a mark across components to indicate a ca ou Ca board that ever probably placement motherboard orientation speaker c you can simply line up the marks when you re won t work for the front case wires because they are s all For these consider writ ing down the color o ires and their positio pins see Figure 2 41 Figure 2 41 Diagram the pin locations of the color coded wires that connect to the front of the case Courtesy C
5. Researching the Market for a UPS for Your Computer System On a computer system that you can access determine how much wattage output a UPS should have in the event of a total blackout and estimate how long the UPS should sustain LD Nl 1435487389 ch02_CTP qxd 7 30 09 5 19 PM Page 96 a ay CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer power Research the market and report on the features and prices of a standby UPS and an inline UPS Include the following information in your report Wattage supported Length of time the power is sustained during total blackout Line conditioning features AC backup present or not present for the inline UPS Surge suppressor present or not present Number of power outlets on the box and other features Written guarantees a a dR dR A Brand name model vendor and price of the device PROJECT 2 6 Detecting EMI Use a small inexpensive AM radio Turn the dial to a low frequency aWay from a station Put the radio next to several electronic devices List the devices in order from th one pro ducing the most static to the one producing the least static List n to the devices when they are idle and in use PROJECT 2 7 Calculating Wattage Capacity for Your System Do the following to compare the wattage capacity of the power supply installed in your computer to the recommended value 1 Using the free power supply wattage calcu
6. The monitor however receives the full 110 volts of AC voltage converting that current to DC Direct current flows in only one direction Think of electrical current like a current t of water that flows from a state of high pressure to a state of low pressursOt Elect current flows from a high pressure state a hot to a state of rest cal When the two lines ee your house and enter an electrical device such as a lamp elec tricity flows through the device to complete the circuit between the hot line and the neutral line The device contains resistors and other electrical components that control the flow of electricity between the hot and neutral lines In a controlled environment the hot source then seeks and finds a state of rest by returning to the power station on the neutral line A short circuit or a short occurs when uncontrolled electricity flows from the hot line to the neutral line or from the hot line to ground Electricity naturally finds the easiest route to a state of rest Normally that path is through some device that controls the current flow and then back through the neutral line If an easier path one with less resistance is available the electricity fol lows that path This can cause a short a sudden increase in flow that can also create a sudden increase in temperature enough to start a fire and injure both people and equipment Never put yourself in a position where you are the path of least resistance between t
7. electromagnetic interference EMI electrostatic discharge ESD field replaceable unit FRU FlexATX form factor ground bracelet intelligent UPS inverter joule line conditioners low profile cases MicroATX mid tower multimeter NLX notebook cases overclocking P1 connector POST power on self test power conditioners power supply power supply tester power supply unit PSU radio frequency interference RFI LD Nl rectifier resistor riser card sags slimline cases smart UPS soft power soft switch spikes static electricity surge protector surge suppressor swells tower case transformer transistor uninterruptible power supply UPS volt voltage selector switch watt 1435487389_ch02_CTP qxd 7 30 09 5 19 PM Page 93 How many pins does the P1 connector have that use the ATX Version 2 2 standard Cee ee Se Fe 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 a a Reviewing the Basics 93 What are the maximum dimensions for a motherboard that uses the MicroATX form factor Which form factor is a smaller version of the MicroATX form factor Which form factor uses a riser card on the edge of the motherboard How many pins does the main power connector on a BTX motherboard have Which type of case form factor is best for keeping a system cool Which type of computer case is most popular for desktop systems Wh
8. pole and is also grounded at the breaker box where the electricity enters your house You can look at a three prong plug and see the three lines hot neutral and ground see Figure 2 16 Neutral Hot Ground Figure 2 16 A polarized plug showing hot and neutral and a three prong plug showing hot neutral and ground Courtesy Course Technology Cengage Learning x 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 50 D CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Generally electricians use green or bare wire for the ground wire white for neutral and black for hot in home wiring for 110 volt circuits In a 220 volt circuit black and red are hot white is neutral and green or bare is ground To verify that a wall outlet is wired cor rectly use a simple receptacle tester as shown in Figure 2 17 Even though you might have a three prong outlet in your home the ground plug might not be properly grounded To know for sure always test the outlet with a receptacle tester House AC voltage in the United States is about 110 V but know that in other countries this is not always the case In many countries the standard is 220 V Outlet styles also vary from one country to the next Use a receptacle tester to verify that hot neutral and ground are wired correctly Courtesy Course Technology Cengage Learning SOME COMMON ELECTRONIC COMPONENTS Its important you understand what basi
9. 2 Form Factors Power Supplies and Working Inside a Computer Figure 2 28 Both surge suppressors alert you when protection is not working The small surge suppressor is designed to travel with a laptop Courtesy Course Technology Cengage Learning a protection light that indicates the device is protecting equipment from overvoltage also called transient voltage on AC power lines and telephone lin s Surge suppressors can come as power strips wall mounted units that plug into ACvouitlets of consoles designed to sit beneath the monitor on a desktop Some provide RJ 11 telephone jacks to protect modems and fax machinestftom spik s Be aware too that not all power strips are surge suppressors some power strips only multiply the number of outlets without offering any protection fr m a power surge A surge suppressor might be a shunt type that absorbs the surge a series type that blocks the surge from flowing or a combination of the two A suppressor is rated in joules which is a measure of work or energy One joule pronounced jewel is the work or energy required to produce one watt of power in one second and a suppressor is rated as to the amount of joules it can expend before it no longer can work to protect the circuit from the power surge Suppressors are commonly rated from 250 joules to several thousand joules the higher the better Some suppressors are also rated by clamping voltage also called let through volt
10. I think figuring out how to open a computer case is the most difficult part 5 18 PM Page 73 D How to Work Inside a Computer Case 73 plastic bag or cup handy to hold screws When you reassemble the PC you will need to insert the same screws in the same holes This is especially important with the hard drive because screws that are too long can puncture the hard drive housing Opening a Computer Case of disassembling If you need help figuring it out check the user manual or Web site of the case manufacturer To remove the cover of your PC do the following 4 Many newer cases require you to remove the faceplate on the front of the case first Other cases require you to remove a side panel first and really older cases require you to first remove the entire sides and top as a single unit Study your case for the correct approach 4 Most cases have panels on each side of the case that can be removed It is usu ally necessary to only remove the one panel to expose the top of the mother board To know which panel to remove look at where the ports are on the rear of the case For example in Figure 2 35 the ports on this motherboard are on the left side of the case indicating the bottom of the motherboard is on the left Therefore you will want to remove the right panel to expose the top of this is side Figure 2 35 Decide which side panel to remove Courtesy Course Technology Cengage Learning 1435487389 _ch
11. The Internet is a good source of information Try using Google com and searching on PC diag nostic card reviews POWER SUPPLY TESTER A power supply tester is used to measure the output of each connector coming from the power supply You can test the power supply when it is outside or inside the case Connect the motherboard P1 connector to the tester plug up the power supply and turn on the tester An LCD panel reports the output of each lead see Figure 2 33 The tester also has plugs for other cables including the SATA cable PCIe x16 cable and Molex cable In Figure 2 33 the 12 V line on the additional 4 pins of the P1 connector reads LL which indicates low output MULTIMETER A multimeter see Figure 2 34 is a more general purpose tool that can measure several characteristics of electricity in a variety of devices Some multimeters can measure voltage current resistance or continuity Continuity determines that two ends of a cable or fuse are connected without interruption Set to measure voltage you can use it to measure output of each pin on a power supply connector Set to measure continuity a multimeter is useful to test fuses or to determine if a cable is good or to match pins on one end of a cable to pins 1435487389 ch02_CTP qxd 7 30 09 5 18 PM Page 71 D How to Work Inside a Computer Case on the other end To learn how to use a multimeter to measure the voltage output of a power supply
12. The UPS also provides some filtering of the AC A UPS offers these benefits 4 Conditions the line to account for both brownouts and spikes 4 Provides backup power during a blackout 4 Protects against very high spikes that could damage equipment LD Nl 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 66 D 66 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Figure 2 29 Line conditioner by Tripp Lite has six outlets and is rated to support up to 1800 watts of conditioned power Courtesy of TrippLite A UPS device that is suitably priced for personal computer systems is designed as a standby device battery powered circuit is used when A imput fails an inline device battery powered circuit is used continually or a line interactive d vice which combines features of the first two Several variations of these three types of UPS devices are on the market at widely varying prices A common UPS devac is a rather heavy box that plugs into an AC outlet and pro Ch vides one or more outletsfor the computer and the monitor see Figure 2 30 It has an on off switehy requires no maintenance and is very simple to install Use it to pro vide uninterruptible power to your desktop computer and monitor during a blackout It s best not to cOMnect it to nonessential devices such as a laser printer or scanner Expect a UPS to provide power during a blackout long enough for you to save your work and shut down the s
13. and determine if it is supplying correct voltages see the content Electricity and Multimeters on the CD that accompanies this book Figure 2 33 Use a power supply tester to test the output of each power confleetor on a power supply Courtesy Course Technology Cengage Learning Figure 2 34 This digital multimeter can be set to measure voltage resistance or continuity Courtesy Course Technology Cengage Learning 71 To measure DC voltage Data hold switch Install the red probe at the positive jack on the meter Install the black probe at the negative jack on the meter To measure AC voltage To measure resistance To measure continuity Function switch 1435487389_ch02_CTP qxd 7 30 09 5 18 PM Page 72 AS adz 72 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer 4 A 4 SAFETY PRECAUTIONS Here are some important safety precautions that will help keep you and your equipment safe as you go through the process of taking it apart and putting it back together Make notes as you work so that you can backtrack later if necessary When you re first learning to take a computer apart it s really easy to forget where everything fits when it s time to put it back together Also in troubleshooting you want to avoid repeating or overlooking things to try To stay organized and not lose small parts keep screws and spacers orderly and in one place
14. drive memory the OS or even user error might be suspected as the source of the problem and then systematically eliminated before the electrical system is suspected This section will help you to be aware of symptoms of electrical problems so that you can zero in on the source of an electrical problem as quickly as possible 1435487389_ch02_CTP qxd 7 30 09 5 18 PM Page 86 7TA ady 86 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer haa amp da d A Possible symptoms of a problem with the electrical system are The PC appears dead no lights no spinning drive or fan The PC sometimes halts during booting After several tries it boots successfully Error codes or beeps occur during booting but they come and go You smell burnt parts or odors Definitely not a good sign The PC powers down at unexpected times The PC appears dead except you hear a whine coming from the power supply Without opening the computer case the following list contains some questions you can ask and things you can do to solve a problem with the electrical system The rule of thumb is try the simple things first Most PC problems have simple solutions A A a haha IN IN If you smell any burnt parts or odors don t try to turn the system on Identify the component that is fried and replace it When you first plug up power to a system and hear a whine coming from the power supply the powe
15. inside one of these devices be careful that you are not grounded Later in the chapter you will learn that being grounded while working on sen sitive low voltage electronic equipment such as a motherboard or processor is a good thing and the best way to ground yourself is to wear an antistatic grounding bracelet connected to ground However when working on a CRT monitor power supply or laser printer don t wear the anti static bracelet because you don t want to be ground for these high voltage devices How to work inside a power supply or CRT monitor is not covered in this book and is not considered a skill needed by an A certified support technician The power supply and monitor are both consid ered to be a field replaceable unit FRU That means as a support technician you are expected to know how to replace one when it breaks but not how to repair one LD Nl 1435487389_ch02_CTP qxd 7 30 09 5 17 PM Page 59 7TA ady Protect Yourself and the Equipment Against Electrical Dangers 59 Go to www youtube com and search on discharge a CRT monitor to see some interesting videos that demonstrate the charge inside a monitor long after the monitor is turned off and unplugged As for proper procedures I m not endorsing all these videos just watch for fun The A exams expect you to know about the dangers of high voltage when working inside a power supply CRT monitor or laser printer gt N N P y O
16. is likely you can use an adapter to convert one connector to another To find an adapter search a good Web site such as Cables To Go www cablestogo com that sells computer parts and cables For example if your power supply does not have a 12 V 6 pin connector for your PCIe x16 video card you can buy an inexpensive adapter to convert two Molex cables to this type of connector see Figure 2 22 4 Feature 3 A power supply might have a voltage selector switch on the back For example the voltage selector switch on the power supply in Figure 2 21 can be set to 230 V or 115 V When in the United States set the switch to 115 V Be sure to never change the switch setting until you first turn off and unplug the power supply 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 54 D 54 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer On off switch Voltage selector switch Four screw holes Figure 2 21 Holes in the rear of an ATX power supply match up with holes in the ATX case to anchor the power supply to the case Courtesy Course Technology Cengage Learning Connector Description P1 20 4 pin connector is the main mother connector POON 0 4 pin connector with four pins removed so the or can fit into a 20 pin P1 motherboard connector 4 pin 12 V auxiliary motherboard connector used for extra power to the processor 8 pin 12 V auxiliary motherboard connector used for ex
17. of cases are on the market for each form factor The computer case sometimes called the chassis houses the power supply motherboard expansion cards and drives The case has lights and switches on the front panel that can be used to control and monitor the PC Generally the larger the case the larger the power supply and the more amps current it carries These large cases allow for the extra space and power needed for a larger number of devices such as multiple hard drives needed in a server 1435487389_ch02_CTP qxd 7 30 09 5 17 PM Page 44 AS ady 44 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Computer cases come in different colors and have cool features such as clear plastic panels so you can see lights inside Ports that connect by cables to the motherboard might be mounted on the front top side or rear of the case When you select a case be aware that the power supply is often included with the case and it s important to match the power supply to the electrical needs of the system How to do that is coming up later in the chapter Cases for personal computers and notebooks fall into three major categories desktop cases tower cases and notebook cases Figure 2 11 shows examples of each of the three main tower cases as well as two desktop cases Full size tower Midsize tower Minitower Desktop Slimline desktop o i at Figure 2 11 Tower and desktop cases Cou
18. per ay i T aN ve i N Y we E E eae M i o i i N Se re RY Sa has N i y y ka p y a k o Now that you have a basic understanding of electricity you re ready to take a closer look at the features of a power supply and how to select one A power supply also known as a power supply unit PSU is a box inside a computer case see Figure 2 20 that supplies power to the motherboard and other installed devices Recall that a power supply serves as both a rectifier and transformer to convert AC house current to DC and to step down voltage from 110 V or 220 V to 3 5 5 and 12 V Let s now turn our attention to the features of a power supply TYPES AND CHARACTERISTICS OF POWER SUPPLIES As you select the right power supply for a system you need to be aware of the following power supply features 4 Feature 1 The form factor of a power supply determines the size of the power supply and the placement of screw holes used to anchor the power supply to the case see Figure 2 21 4 Feature 2 Consider the type and number of power cables and connectors the unit provides Connector types are shown in Table 2 4 If a power supply doesn t have the 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 53 D Selecting a Power Supply 53 a f IND INO K j Figure 2 20 This case comes with a power supply power cord and bag of screws Courtesy Course Technology Cengage Learning connector you need it
19. ratings of two different UPS devices Compare a smart UPS to one that does not interface with a PC but otherwise has similar ratings 3 Compare the prices and features of two different power supplies that are rated at 500 watts PROJECT 2 3 Finding PC Power Supply Facts Remove the cover from your home or lab PC and answer the following questions 1 How many watts are supplied by your power supply The number 1s usually printed on the label on the top of the power supply 2 How many cables are supplied by your power supply 3 Where does each cable lead 4 Does the back of the power supply have a switch that can p be set for 230 volts Eur6pe or 1415 volts U S Building a Circuit PROJECT 2 4 Building a Circuit to Turn On a Light 1 From the following components build a circuit to turn on a light 4 An AC light bulb or LED Note An LED has polarity it must be connected with the negative and positive terminals in the correct positions 4 A double A battery Note A 9 volt battery can burn out some bulbs 4 A switch A knife switch or even a DIP switch will work 4 Three pieces of wire to connect the light the switch and the battery 2 Add a second battery to the circuit and record the results 3 Add a resistor to the circuit and record the results 4 Place an extra wire in the middle of the circuit running from the battery to the switch thus making a short and record the results PROJECT 2 5
20. which protects computer components from ESD can clip to the side of the computer case and eliminate ESD between you and the case Courtesy Course Technology Cengage Learning 4 Ground mats Ground mats dissipate ESD and are commonly used by bench techni cians also called depot technicians who repair and assemble computers at their work benches or in an assembly line Ground mats have a connector in one corner that you can use to connect the mat to ground see Figure 2 25 If you lift a component off the mat it is no longer grounded and is susceptible to ESD so it s important to use a ground bracelet with a ground mat Figure 2 25 A ground mat dissipates ESD and should be connected to ground Courtesy Course Technology Cengage Learning 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 61 D Protect Yourself and the Equipment Against Electrical Dangers 61 4 Static shielding bags New components come shipped in static shielding bags also called antistatic bags These bags are a type of Faraday cage named after Michael Faraday who built the first cage in 1836 A Faraday cage is any device that protects against an electromagnetic field Save the bags to store other devices that are not currently installed in a PC As you work on a computer know that a device is not protected from ESD if you place it on top of the bag the protection is inside the bag see Figure 2 26 a f IND N K j gag 2 26 Gus s
21. 02 CTP qxd 7 30 09 5 18 PM Page 74 D 74 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer motherboard Lay the case down to its left so the ports and the motherboard are sitting on the bottom Later depending on how drives are installed it might become necessary to remove the bottom panel in order to remove the screws that hold the drives in place 4 Locate the screws that hold the side panel in place Be careful not to unscrew any screws besides these The other screws probably are holding the power supply fan and other components in place see Figure 2 36 Figure 2 36 Locate the screws that hold the t r in place arning e panel toward the rear and then lift it off Figure 2 37 Slide the panel to the rear of the case Courtesy Course Technology Cengage Learning 4 Newer cases require you to pop the front panel off the case before removing the side panels Look for a lever on the bottom of the panel and hinges at the top Squeeze the lever to release the front panel and lift it off the case see Figure 2 38 1435487389 ch02_CTP qxd 7 30 09 5 18 PM Page 75 D How to Work Inside a Computer Case 75 Then remove a single screw see Figure 2 3 e panel to the front and then off the case screws these Figure 2 38 Newer cases require you to remove the front panel before removing the side panel of a computer case Courtesy Course Technology Cengage Learning a see Figur
22. 1435487389 ch02_CTP qxd 7 30 09 CHAPTER 2 In this chapter you will learn e About different form factors used for computer cases mother boards and power supplies e How electricity is measured and about electrical components e How to select a power supply e How to protect yourself and your equipment against the dangers of electricity e How to work inside a computer case e How to troubleshoot electrical problems 5 17 PM Page 35 LD ar Form Factors Power Supplies and Working Inside a Computer his chapter focuses on the power supply which provides power to all other components inside the computer case Several types of power supplies are available The form factor of the computer case and motherboard drive which type of power supply can be installed in a system Therefore we begin the chapter discussing the form factors of computer cases motherboards and power supplies To troubleshoot problems with the power system of a PCyyou ne d a basic understanding of electricity You ll learn about th measure ments of electricity and the form in which itcomes to you as house current The chapter then covers how to select a power supply and how to protect a computer system fromedamage caused by electrical problems Next we discuss how to take a computer apart and put it back together again Finally wetalk about ways to detect and correct problems with the PC s electrical syste
23. 2 31 PC support technician tools Courtesy Course Technology Cengage Learning Here is a list of essential tools 4 Ground bracelet ground mat or ground gloves to use when working inside the com puter case How to use them is covered earlier in the chapter 4 Flathead screwdriver 4 Phillips head or crosshead screwdriver 1435487389 ch02_CTP qxd 7 30 09 5 17 PM Page 69 a ay How to Work Inside a Computer Case 69 4 Torx screwdriver set particularly size T15 4 Tweezers preferably insulated ones for picking pieces of paper out of printers or dropped screws out of tight places 4 Extractor a spring loaded device that looks like a hypodermic needle When you push down on the top three wire prongs come out that can be used to pick up a screw that has fallen into a place where hands and fingers can t reach 4 Recovery CD or DVD for any OS you might work on You might need several depending on the OSs you support The following tools might not be essential but they are very convenient 4 Cans of compressed air small portable compressor or antistatic vacuum cleaner to clean dust from inside a computer case 4 Cleaning solutions and pads such as contact cleaner monitor wipes and cleaning solutions for CDs DVDs tapes and drives 4 Multimeter to check cables and the power supply output 4 Power supply tester 4 Needle nose pliers for removing jumpers and for holding objects especially those pesky n
24. 5487389 _ch02 CTP qxd 7 30 09 5 18 PM Page 84 84 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Figure 2 56 Drives in this removable bay are held in place with screws on each side of the bay Courtesy Course Technology Cengage Learning STEPS TO PUT A COMPUTER BACK TOGETHER To reassemble a computer reverse the process of disassembling Do the following 1 Install components in the case in this order power supply drives motherboard and cards When installing drives know that for some systems it s easier to connect data 1435487389 _ch02 CTP qxd 7 30 09 5 18 PM Page 85 D Troubleshooting the Electrical System 85 cables to the drives and then slide the drives into the bay If the drive is anchored to the bay with screws be careful to align the front of the drive flush with the front of the case before installing screws see Figure 2 57 Figure 2 57 Align the front of the drive flush with the case front and then anchor Courtesy Course Technology Cengage Learning 2 Connect all data and power cables Before you double check each connection to make sure it 1 TROUBLESHOOTING THE ELECTRICAL SYSTEM Electrical problems can occur before or after the boot and can be consistent or intermittent Many times PC repair technicians don t recognize the cause of a problem to be electrical because of the intermittent nature of some electrical problems In these situations the hard
25. 6 pin PCle Ay Floppy drive 24 pin P1 8 pin PCle 4 pin Aux on Figure 2 1 Computer power supply with connectors Courtesy Course Technology Cengage Learning When you are deciding which form factor to use the motherboard drives the decision because it determines what the system can do After you ve decided to use a certain form factor for the motherboard you must use the same form factor for the case and power 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 37 D Form Factors Used by Computer Cases Motherboards and Power Supplies 37 supply Using a matching form factor for the motherboard power supply and case assures you that 4 The motherboard fits in the case 4 The power supply cords to the motherboard provide the correct voltage and the connectors match the connections on the board 4 The holes in the motherboard align with the holes in the case for anchoring the board to the case 4 Holes in the case align with ports coming off the motherboard 4 For some form factors wires for switches and lights on the front of the case match up with connections on the motherboard gt N N P y O 4 The holes in the power supply align with holes in the case for anchoring the power supply to the case TYPES OF FORM FACTORS When selecting a computer case motherboard and power supply choose a design that fits its intended use For instance you might find that you need a high end tower
26. 80 conductor IDE cable Older hard drives use an 80 conductor IDE ribbon cable Newer drives use narrow SATA cables rather than rib bon cables See Figure 2 45 for a comparison of the three ribbon cables Remove the cables to all drives Remove the power supply cords from the drives Notice as you Replacing an Expansion Card disconnect the power cord the Molex connector is shaped so it only connects in one direction see Figure 2 46 1435487389 _ch02 CTP qxd 7 30 09 5 18 PM Page 78 D CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Figure 2 44 A serial ATA cable connects to a serial ATA connector in only one direction Use red connectors on the motherboard first Courtesy Course Technology Cengage Learning 34 pin floppy drive cable with twist 40 pin IDE cable with 40 wires 40 pin IDE cable with 80 fine wires 80 conductor cable Figure 2 45 A system might have up to three types of ribbon cables Courtesy Course Technology Cengage Learning 8 Do the following to remove the expansion cards 4 Remove any wire or cable connected to the card 4 Remove the screw holding the card to the case see Figure 2 47 4 Grasp the card with both hands and remove it by lifting straight up If you have trouble removing it from the expansion slot you can very slightly rock the card from end to end not side to side Rocking the card from side to side might spread the slot opening and weaken the
27. NG THE POWER SUPPLY The easiest way to fix a power supply you suspect is faulty is to replace it When selecting a replacement power supply be sure the new power supply uses the correct form factor that provides the correct output voltages is adequately rated for power in watts and has all the power connectors needed by your system To determine if the power supply really is the problem turn off the PC open the computer case and set the new power supply on top of the old one Disconnect the old power supply s cords and plug the PC devices into the new power supply Turn on the PC and verify that the new power supply solves your problem before installing it Replacing a Power Supply The A IT 220 702 Practical Application exam expects you to know how to select and install a power supply Know it must match wattage requirements and have the correct connector types and number of connectors to meet the demands of the system Remember from earlier in the chapter that yowW Need to consider the monitor and the power supply to be black boxes Never removesthe cover or put your hands inside this equipment unless you know about the hazards of charged ors and have been trained to deal with them Both the power supply andethe moni angerous level of electricity even after you turn Ch them off and disconnect them from a he power supply and monitor contain enough power to give you a strong shock i n they are unplugged Follow thes
28. RM FACTOR The NLX New Low profile Extended form factor for low end personal computer mother boards was developed by Intel in 1998 to improve on an older and similar form factor called the LPX form factor In these systems the motherboard has only one expansion slot in which a riser card also called a bus riser daughter card or daughter board is mounted Expansion cards are mounted on the riser card and the card also contains connectors for the floppy and hard drives The riser card on an NLX motherboard is on the edge of the board which differs from the LPX motherboard that had the riser card near the center of the board The NLX standard applies only to motherboards NLX motherboards are designed to use ATX power supplies An example of an NLX system is shown in Figure 2 10 The A 220 701 Essentials exam expects you to know the purpose of the riser card also called a daughter board used with the NLX form factor S Riser card for expansion slots a and other connectors CPU with heat sink attached Ch Lk Two PCI slots iid Two ISAsvslots eae a ies ina i ai a I i ma rer a Motherboard Ports on rear of board for peripheral devices Figure 2 10 The NLX form factor uses a riser card that connects to the motherboard the riser card provides expansion slots for the expansion cards Courtesy Course Technology Cengage Learning TYPES OF COMPUTER CASES Several types and sizes
29. able power conditioner installed at the breaker box in your house or building unplug all power cords to the PC printers monitors and the like Sometimes when the power returns sudden spikes are accompanied by another brief outage You don t want to subject your equipment to these surges When buying a surge suppressor look for those that guarantee against damage from lightning and that reimburse for equipment destroyed while the surge suppressor is in use When shopping for a surge protector look for these features 4 Joules rating more than 600 joules and the time it takes for the protection to start working less than 2 nanoseconds is good Warranty for connected equipment UL seal of approval A light that indicates the surge protection is working Let through voltage rating Line noise filtering hea da da d dD If you use a phone line for Internet access look for a data line protector to protect the modem from spikes in the phone line When you plug in a surge protector know that if the protector is nof grounded using a three prong outlet the protector cannot do its job One more thing to considef You can purchase a whole house surge protection system that installed by amelectricianat your breaker box It s more expensive but your entire housewrGfficetbuilding Is protected LINE CONDITIONERS In addition to providing protection against spikes line conditioners also called power conditionersyregulate or con
30. aches its destination it is made more suitable for driving our electrical devices by decreasing voltage and increasing current Direct current DC travels in only one direction and is the type of current that most electronic devices require including computers A rectifier is a device that converts AC to DC and an inverter is a device that converts DC to AC A transformer is a device that changes the ratio of voltage to current Large transformers reduce the high voltage on power lines coming to your neighborhood to a lower voltage before the current enters your home The transformer does not change the amount of power in this closed system if it decreases gt N N K y 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 48 D 48 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer voltage it increases current The overall power stays constant but the ratio of voltage to current changes is illustrated in Figure 2 14 Figure 2 14 A transformer keeps power constant but changes the ratio of current to voltage Courtesy Course Technology Cengage Learning A computer power supply changes and conditions the house electrical current in several ways functioning as both a transformer and a rectifier It steps down the voltage from the 110 volt house current to 3 3 5 and 12 volts and changes incoming alternating current to direct current which the computer and its peripherals require
31. age which is the voltage point at which a suppressor begins to absorb or block voltage Normally house current is rated at 110 V so you would think the clamping voltage should be close to this number such as around 130 V However the clamping voltage value is best not set this low House current regularly spikes past 200 V and a PC power supply is designed to handle these types of quick spikes If the surge suppressor kicks in to work on these spikes not only is it unnecessary but the suppressor is likely to wear out prematurely A clamping voltage of 330 V or higher is appropriate The difference between a joule rating and a clamping voltage rating for a suppressor is that the clamping voltage rating determines at what point the suppressor begins to work and the joule rating has to do with how much work the suppressor can do The circuitry inside the suppressor that handles a surge can burn out if a surge is too high or lasts too long In this case most suppressors continue to work just like a normal extension cord providing no surge protection Because of this fact it s important that a surge suppressor have a light indicator that says the suppressor part of the device is still working Otherwise you might not have protection and not even know it 1435487389_ch02_CTP qxd 7 30 09 5 17 PM Page 65 7TA ady Protect Yourself and the Equipment Against Electrical Dangers 65 Whenever a power outage occurs unless you have a reli
32. any FlexATX MicroATX or ATX case that follows the ATX 2 03 A higher standard BTX FORM FACTOR The BTX Balanced Technology Extended form factor was designed by Intel in 2003 for flexibility and can be used by everything from large tower systems to those ultrasmall systems that sit under a monitor BTX was designed to take full advantage of serial ATA USB 2 0 and PCI Express technologies The BTX form factor design focuses on reducing heat with better airflow and improved fans and coolers It also gives better structural sup port for the motherboard than does ATX BTX motherboards use a 24 pin power connector that has the same pinout arrangement as the ATX 24 pin P1 connector The BTX form factor can also use one or more auxiliary power connectors for the processor fans and lighting inside the case for really cool looking systems Because the 24 pin connectors are the same a BTX motherboard can use an ATX power supply In the case configuration shown in Figure 2 8 notice how the processor is sitting immediately in front of the intake fan installed on the front of the case This intake fan together with the exhaust fan on the rear of the case produce a strong wind tunnel effect over the processor making it unnecessary to have a fan on top of the processor itself Also notice in Figure 2 8 that memory modules and expansion cards fit into the slots parallel to airflow rather than blocking airflow as they sometimes do with ATX form fact
33. arned how to match a power supply to the wattage requirements of the system earlier in the chapter A system with a standard power supply of about 250 watts that has multiple hard drives multiple CD drives and several expansion cards is most likely operating above thesated capacity of the power supply which can cause the system to unexpectedly reboot or give intermittent otherwise unexplained errors If the powerssupply ist rossly inadequate it will whine when you first plug up the power Upgrade the power supply as needed to accommo date an overloaded power system PROBLEMS WITH A FAULTY POWER SUPPLY If you suspect th power supply is faulty you can test it using either a power supply tester the easieranethod ora multimeter the more tedious method However know that a power supply that gives correct voltages when you measure it might still be the source of problems because power problems can be intermittent Also be aware that an ATX power supply monitors the range of voltages provided to the motherboard and halts the motherboard if voltages are inade quate Therefore if the power supply appears dead your best action is to replace it PROBLEMS WITH THE POWER SUPPLY FANS An improperly working fan sometimes causes power supply problems Usually just before a fan stops working it hums or whines especially when the PC is first turned on If this has just happened replace the fan if you are trained to service the power sup
34. arries a guarantee on connected equipment of 100 000 J gt N N K J md 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 68 D 68 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Content on the A 220 701 Essentials exam ends here and content on the A 220 702 Practical Application exam begins HOW TO WORK INSIDE A COMPUTER CASE In this section you ll learn how to take a computer apart and put it back together This skill is needed in this and other chapters as you learn to replace computer parts inside the case and perhaps even build a system from scratch We begin with looking at the tools a PC support technician needs to work inside a computer and then look at safety precautions you need to take to protect yourself and the equipment Finally you ll see the step by step procedures to take a PC apart and put it back together PC SUPPORT TECHNICIAN TOOLS Several hardware and software tools can help you maintain a computer and diagnose and repair computer problems The tools you choose depend on the amount of money you can spend and the level of PC support you expect to provide Essential tools for PC troubleshooting are listed here and several of then Figure 2 31 You can purchase some of these tools in a PC toolkit kits contain items you really can do without a ai HO a P Cable ties Network cable testers AC ground tester Multimeter Figure
35. at is the normal voltage of house electricity in the United States Hot wires in home wiring are normally colored and ground wires in computers are normally colored What is the difference between a transformer and a rectifier Which are found in a PC power supply What are the five voltages that can be produced by an AL X or BI X power supply Which voltage is seldom used What device uses the 12 V 6 pin power conmector What device uses the 126V 8 pin ower connector gt What is the purpose of th 4 pin auxiliary connector on a motherboard What_is th purpose of the 4 pin Molex connector How do you determine the wattage capacity needed by a power supply Which one component in a high end gaming computer is likely to draw the most power Why is a power supply dangerous even after the power is disconnected Which tool of a PC support technician is the most important tool to protect the system against ESD Which permanently damages a computer component damage caused by ESD or damage caused by EMI What is a simple way to detect EMI What is an unintended high current closed connection between two points in a circuit called What device protects a system against lighting strikes but does not protect against sags and brownouts What device protects a system against blackouts What two measurements are used to rate the capacity of a UPS What unit of measure is used to describe the amount of work a surge suppressor
36. ating is given in VA and watts and the VA rating is generally about 60 per cent higher than the watts rating The VA rating is the theoretical rating that is calcu lated by multiplying volts by amps and then added up for all the equipment The watts rating is the actual draw available to the equipment it protects Make sure both ratings are adequate for your equipment When matching a UPS to the needs of your equip ment add up total watts needed by your equipment and double it for the VA rating Then check to make sure the wattage capacity of the UPS is about 25 to 30 percent higher than the total watts required You do not want to buy a UPS that runs at full capacity This is especially important for an inline UPS because this type of UPS is constantly recharging the battery If this battery charger is operating at full capacity it is producing a lot of heat which can reduce the battery s life You should also be aware of the degree of line conditioning that the UPS provides Consider the warranty and service policies as well as the guarantee the UPS manufac turer gives for the equipment that the UPS protects For example one standby UPS by Tripp Lite that costs less than 100 claims to support up to 450 VA or 280 watts power requirements for up to 4 minutes during a complete power failure or 225 VA 140 watts for up to 15 minutes The battery has an expected lifetime of three to six years This smart UPS has a USB connector to a computer and c
37. c electronic components make up a PC and how they work Basic electronic components in a PC include transistors capacitors diodes and resistors each of which we will discuss in detail in a moment Figure 2 18 shows the symbols for these components Also notice in the figure the symbol for ground m a a a Resistor Capacitor Ground mo Diode Transistor Figure 2 18 Symbols for some electronic components and for ground Courtesy Course Technology Cengage Learning 1435487389_ch02_CTP qxd 7 30 09 5 17 PM Page 51 a ay Measures and Properties of Electricity 51 To understand how these components are constructed it helps to know that all the mate rials used to make the components fall into one of these three categories 4 Conductors Material such as gold or copper that easily conducts electricity 4 Insulators Material such as glass or ceramic that resists the flow of electricity 4 Semiconductors Material such as silicon whose ability to conduct electricity when a charge is applied falls between that of a conductor and an insulator gt N N P y O It s very important that PC components be properly grounded Never connect a PC to an outlet or use an extension cord that doesn t have the third ground plug The third line can pre vent a short from causing extreme damage In addition the bond between the neutral and ground helps eliminate electrical noise stray electrical signals withi
38. can do before it stops protecting the circuit from an electrical surge LD Nl 1435487389_ch02_CTP qxd 7 30 09 5 19 PM Page 94 27 28 29 30 31 32 33 a ay CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Why is it important to have an indicator light on a surge suppressor What are the two main types of uninterruptible power supplies How does a smart UPS differ from one that is not smart What is the purpose of a POST diagnostic card When taking a computer apart why is it important to not stack boards on top of each other When assembling a system which do you install first the drives or the motherboard List four computer symptoms that indicate a faulty power supply How much power is consumed by a load drawing 5 A with 120 V across it You suspect that a power supply is faulty but you use a multimeter to measure its voltage output and find it to be acceptable Why is it still possible that the power supply may be faulty Someone asks you for help with a computer that hangs at odd times You turn if on and work for about 15 minutes and then the computer freezes and powers down What do you do first a Replace the surge protector b Replace the power supply c Wait about 30 minutesfor thesSyst m to cool down and try again d Install an additional fant When working n a computer which of the following best protects against ESD Why a A
39. cket to provide an additional 12 V of power see Figure 2 4 A power supply that pro vides this 4 pin 12 volt power cord is called an ATX12V power supply Later boards changed 38 1435487389 ch02_CTP qxd 7 30 09 5 17 PM Page 39 D Form Factors Used by Computer Cases Motherboards and Power Supplies 39 Figure 2 4 The 4 pin 12 volt auxiliary power connector on a motherboard Courtesy Course Technology Cengage Learning the 4 pin 12 volt power connector to an 8 pin connector ihat a more amps Fog f the processor E J We Later when PCI Express slots were added to mot RR nfore power was required and a new ATX specification ATX Versions a 2 allowed for a h4 pin P1 connector which is backward compatible withs the 20 pin Pa connector The extra 4 pins on the connector pro vide 12 volts 5 volts and ss 3 volts pins Motherboards that support PCI Express and have the 24 pin p1 connector are sometimes called Enhanced ATX boards Figure 2 5 shows amp 20 pin P1 P Power cord from the power supply and a 24 pin P1 connector on a mother board Figuie 2 6 shows the pinouts for the 24 pin power cord connector which is color Oo coded i to_wires from the power supply The 20 pin connector is missing the lower four pins the photo and diagram Figure 2 5 A 20 pin power cord ready to be plugged into a 24 pin P1 connector on an ATX motherboard Courtesy Course Technology Cengage Learning
40. connection 4 As you remove the card don t put your fingers on the edge connectors or touch a chip and don t stack the cards on top of one another Lay each card aside on a flat surface Some video cards use a latch that helps to hold the card securely in the slot To remove these cards use one finger to hold the latch back from the slot as shown in Figure 2 48 as you pull the card up and out of the slot 9 Depending on the system you might need to remove the motherboard next or remove the drives next My choice is to first remove the motherboard It and the processor are the most expensive and easily damaged parts in the system I like to get them out of 1435487389 _ch02_ CTP qxd 7 30 09 5 18 PM Page 79 D Figure 2 46 Molex power connector to a drive orients in only one direction Courtesy Course Technology Cengage Learning Figure 2 47 Remove the screw holding an expansion card to the case Courtesy Course Technology Cengage Learning harm s way before working with the drives However in some cases you must remove the drives or the power supply before you can get to the motherboard Study your sit uation and decide which to do first To remove the motherboard do the following 4 Unplug the power supply lines to the motherboard Yov ll find a main power line and maybe one auxiliary power line from the power supply to the motherboard There might also be an audio wire from the CD drive to the motherboar
41. ct and to warn you that power is still getting to the system For this reason when working on ATX and BTX systems be certain to unplug the power cord and then press the power button to completely drain the power supply Only then would it be safe to work inside the case 1435487389 _ch0O2_ CTP qxd 7 30 09 5 17 PM Page 62 lain TY 62 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Figure 2 27 Use antistatic gloves to prevent static discharge between you and the equipment you are handling Courtesy Course Technology Cengage Learning The A 2202701 Essentials n emphasi at you should know how to protect computer equipment as ork on p PROTECH AGAINST EEECTROMAGNETIC INTERFERENCE Another phenomenon that can cause electrical problems with computers is electromagnetic interference EMI EMI is caused by the magnetic field produced as a side effect when elec tricity flows EMI in the radio frequency range is called radio frequency interference RFI CRT monitors and the older CRT television sets contain electronic magnets that can emit EMI Other devices that are known to emit EMI RFI are PDAs cell phones cordless phones microwave ovens magnets laser printers power supplies fluorescent lighting AC adapters bug zappers and other electric and electronic devices EMI and RFI are reduced in these devices by using EMI RFI shielding a type of Faraday cage inside the device This shielding migh
42. d Disconnect it from the motherboard m 1435487389 _ch02 CTP qxd 7 30 09 5 18 PM Page 80 D 80 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Figure 2 48 Hold the retention mechanism back as you remove a video card from its expansionsslot Courtesy Course Technology Cengage Learning 4 The next step is to disconnect wires leadingwfrompthedront of the computer case to the motherboard If you don t have the motherboard manual handy be very careful to diagram how these wires connect because they are never labeled well on a m therboard Makeja careful diagram and then disconnect the wires p Figure 2 49 shows five leads and the pins on the motherboard that receive these leads The pins are color coded and cryptically labeled on the board ou ll learn more about matching these wires to their connectors in Chapter 3 4 You re now ready to remove the screws that hold the motherboard to the case For an older motherboard instead of screws you ll see spacers that keep the board Figure 2 49 Five leads from the front panel connect to two rows of pins on the motherboard Courtesy Course Technology Cengage Learning 1435487389 _ch02 CTP qxd 7 30 09 5 18 PM Page 81 D How to Work Inside a Computer Case 81 from resting directly on the bottom of the computer case Carefully pop off these spacers and or remove the screws up to nine that hold the board to the case see Figure 2 50 an
43. d documentation While inside the case check all power connections from the power supply to the motherboard and drives Also some cases require the case s front panel be in place before the power on button will work 7 im aT E i wh ae ayy i t i Er Ta jd a Remote SW no f a 3 m EE ri E i a Figure 2 58 For an ATX or BTX power supply the remote switch wire must be connected to the motherboard before power will come on Courtesy Course Technology Cengage Learning Remember from earlier in the chapter that strong magnetic or electrical interference can affect how a power system functions Sometimes an old monitor emits too much static and EMI electromagnetic interference and brings a whole system down When you troubleshoot power problems remember to check for sources of electrical or magnetic interference such as an old monitor fluorescent lighting or an electric fan sitting near the computer case PROBLEMS THAT COME AND GO If a system boots successfully to the Windows desktop you still might have a power system problem Some problems are intermittent that is they come and go Here are some symp toms that might indicate an intermittent problem with the electrical system after the boot The computer stops or hangs for no reason Sometimes it might even reboot itself Memory errors appear intermittently Data is written incorrectly to the hard drive The keyboard
44. d then remove the board Set it aside in a safe place Figure 2 51 shows a motherboard sitting to the side of these spacers One spacer is in place and the other is lying beside its case holes Also notice in the photo the two holes in the motherboard where screws are used to connect the board to the spacers 4 The motherboard should now be free and you can carefully remove it from the case as shown in Figure 2 52 0 Remove up to nine screws that hold the motherboard to the case Courtesy Course Technology Cengage Learning Figure 2 51 This motherboard connects to a case using screws and spacers that keep the board from touching the case Courtesy Course Technology Cengage Learning 1435487389 _ch02 CTP qxd 7 30 09 5 18 PM Page 82 D 82 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Figure 2 52 Remove the motherboard from the case Courtesy Course Technology Cengage Learning oler when the motherboard is not securely seated hapter 4 the power supply from the case look for screws that attach the power Ss y to the computer case as shown in Figure 2 53 Be careful not to remove any screws that hold the power supply housing together You do not want to take the housing apart After you have removed the screws the power supply still might not be free Sometimes it is attached to the case on the underside by recessed slots Turn the case over and look on the bottom for these sl
45. de a computer and moving components around The variations in tower cases are as follows 4 Midsize towers also called midi towers or mid towers are the most versatile and most popular They are midrange in size and generally have around six expansion slots and four drive bays providing moderate potential for expansion They are used for ATX MicroATX Extended ATX Mini ATX and BTX systems LD Nl 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 45 D Form Factors Used by Computer Cases Motherboards and Power Supplies 45 J gt f N N oa y nd Figure 2 12 This slimline case by ENlight supports a MicroATX motherboard Courtesy of ENlight Corp 4 The minitower also called a microtower is the small st type of tower case and does not provide room for expansion Fey are popular for MicroATX and FlexATX systems 4 Full size towers are used for high end personal computers and servers They are usually built to accommodate ATX Mini ATX and BTX systems see Figureg2 13 Figure 2 13 Full size tower case for an ATX motherboard Courtesy Course Technology Cengage Learning 1435487389 ch02_CTP qxd 7 30 09 5 17 PM Page 46 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer NOTEBOOK CASES Notebook cases are used for portable computers that have all the components of a desktop computer The cost and power of notebook systems vary widely As with other small sys
46. dition the power providing continuous voltage during brownouts These voltage regulators can come as small desktop units They provide a degree of protection against swells or spikes temporary voltage surges and raise the voltage when it drops during brownouts or sags temporary voltage reductions They also filter EMI RFI interference from the electrical line Power conditioners are measured by the load they support in watts volt amperes VA or kilovolt amperes kVA To determine the VA required to support your system multiply the amperage of each com ponent by 120 volts and then add up the VA for all components For example a 17 inch LCD monitor has 1 3 A written on its back which means 1 3 amps Multiply that value by 120 volts and you see that the monitor requires 156 VA or 156 watts A Pentium PC with a 17 inch monitor requires about 500 VA or 500 watts of support Figure 2 29 shows a line conditioner by Tripp Lite that is rated at 1800 watts Power conditioners are a good investment if the AC in your community suffers excessive spikes and brownouts However a device rated under 1kVA will probably provide correc tions only for brownouts not for spikes Line conditioners like surge suppressors provide no protection against a total blackout complete loss of power UNINTERRUPTIBLE POWER SUPPLY Unlike a line conditioner the uninterruptible power supply UPS provides backup power in the event that the AC fails completely
47. e steps to replace a power supply 1 Turn off the power to the computer unplug the computer and press the power but ton to drain the system of power Remove the power cable Remove the computer case cover Inside the case disconnect all power cords from the power supply to other devices nm A W N Determine which components must be removed before the power supply can be safely removed from the case You might need to remove the hard drive several cards or the CD or DVD drive In some cases you may even need to remove the motherboard 6 Remove all the components necessary to get to the power supply Remember to pro tect the components from static electricity as you work 7 Unscrew the screws on the back of the computer case that hold the power supply to the case 8 Look on the bottom or back of the case for slots that hold the power supply in position Often the power supply must be shifted in one direction to free it from the slots 9 Remove the power supply 10 Place the new power supply in position sliding it into the slots the old power supply used 1435487389 ch02_CTP qxd 7 30 09 5 18 PM Page 91 a ay Chapter Summary 91 11 Replace the power supply screws 12 Replace all other components and cables 13 Replace the case cover and connect the power cord 14 Turn on the PC and verify all is working 4 A form factor is a set of specifications for the size and config
48. e computer works for a while and then stops again check its inter nal temperature You might need to install additional fans How to check the internal tem perature and solve overheating problems are covered in Chapter 4 POWER PROBLEMS WITH THE MOTHERBOARD The motherboard like all other components inside the computer case should be grounded to the chassis Look for a metal screw that grounds the board to the computer case However a short might be the problem with the electrical system if some compo nent on the board makes improper contact with the chassis This short can seriously damage the motherboard For some cases check for missing standoffs small tic or C metal spacers that hold the motherboard a short distance away from missing standoff most often causes these improper co i a standoffs not used by the motherboard that might i tom of the board and causing a short Shorts in the circuits on the motherboa the bottom of the mot damage is difficult to s are coated with plastic and quite often a d out capacitors that are spotted brown or corroded Y out capacitors in the next chapter 1435487389 ch02_CTP qxd 7 30 09 5 18 PM Page 90 D CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Never replace a damaged motherboard with a good one without first testing or replacing the power supply You don t want to subject another good board to possible damage REPLACI
49. ements ofjall components inside the case as well as USB and FireWire devices that get their power from ports connected to the motherboard ea thes points in mind when selecting the correct wattage capacity for a power supply 4 Point 1 A power Sasol produces slightly higher wattage at room temperature than it does when the temperature inside the case has risen above room temperature called oper ating temperature Therefore a power supply might have two ratings one wattage rating for room temperature called the peak rating and another rating for continuous opera tion at operating temperature sometimes called the actual rating If a power supply has only one rating assume that rating is the peak rating for room temperature To calculate the rating for continuous operation deduct about 10 to 15 percent off the peak rating For example the Silencer 610 power supply by PC Power and Cooling is rated at 610 W at operating temperature and continuous operation but has a peak rating of 670 W Point 2 Video cards draw the most power in a system and they draw from the 12 V out put So pay particular attention to this rating For example in Figure 2 23 you can see the 12 V output is 300 W Notice in the figure the unit is rated at total peak load of 450 W Point 3 Use a power supply that is rated about 30 percent higher than you expect the system will use Power supplies that run at less than peak performance last longer and don t over
50. erous situation that might lead to electrical shock or fire When you disconnect the power do so by pulling on the plug at the AC outlet To protect the power cord don t pull on the cord itself Also don t just turn offethe on off switch on the device you need to actu ally disconnect the power Note that any of the following can indicate a potential danger mann The power cord is frayed or otherwise damaged in any way Water or other liquid is on the floor around the device or spilled on it The device has been exposed to excess moisture The device has been dropped or you notice physical damage You smell a strong electronics odor The power supply or fans are making a whining noise ma ha ayh h ha You notice smoke coming from the computer case or the case feels unusually warm When working on the inside of computers printers and other electrical devices remove your jewelry that might come in contact with components Jewelry is made of metal and might conduct electricity if it touches a component Power supplies and CRT monitors the old fashioned monitors that have a large case with a picture tube contain capacitors A capacitor holds its charge even after the power is turned off and the device is unplugged A ground is the easiest possible path for electricity to follow If you are grounded and touch a charged capacitor its charge can flow through you to the ground which can shock you Therefore if you ever work
51. he component so that it does not perform well even though it may still function to some degree Upset failures are more difficult to detect because they are not consistent and not easily observed Both types of failures permanently affect the device A CRT monitor can also damage components with ESD Don t place or store expansion cards on top of or next to a CRT monitor which can discharge as much as 29 000 volts onto the screen To protect the computer against ESD always ground yourself before touching electronic components including the hard drive motherboard expansion cards processors and memory modules You can ground yourself and the computer parts by using one or more of the following static control devices or methods 4 Ground bracelet A ground bracelet also called an antistatic wrist strap or ESD bracelet is a strap you wear around your wrist The strap has a cord attached with an alligator clip on the end Attach the clip to the computer case you re working on as shown in Figure 2 24 Any static electricity between you and the case is now discharged Therefore as you work inside the case you will not damage the components with static electricity The bracelet also contains a resistor that prevents electricity from harming you LD Nl 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 60 D 60 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Figure 2 24 A ground bracelet
52. he hot line and ground A fuse is a component included in a circuit and designed to prevent too much current from flowing through the circuit A fuse is commonly a wire inside a protective case which is rated in amps If too much current begins to flow the wire gets hot and eventually melts breaking the circuit as an open switch would and stopping the current flow Many devices have fuses which can be easily replaced when damaged 1435487389 _ch02_ CTP qxd 7 30 09 5 17 PM Page 49 D Hot contacts neutral in the lamp Power station Ground J gt N N K J md Ground ae Ground Figure 2 15 Normally electricity flows from hot to neutral to make a closed circuit i co environment of an electrical device such as a lamp Courtesy Course Technology Cengage Learning which can happen To prevent uncontrolled electricity from continuin Grou ine means that the line is event of a short the electricity flows into Ch ounding serves as an escape route for because of a short the neutral line is gro connected directly to t the earth and out of contr T e eart no particular state of charge and so is always f current Beware of the different uses of black wire In PCs and in DC circuits black is used Or ground but in home wiring and in AC circuits black is used for hot The neutral line to your house is grounded many times along its way in fact at each electrical
53. heat In addition a power supply loses some of its capacity over time Also don t worry about a higher rated power supply using too much electricity Components only draw what they need To know what size power supply you need add up the wattage requirements of all components and add 30 percent Device tech nical documentation might give you the information you need Table 2 5 lists appro priate wattage ratings for common devices with the 30 percent extra already added in Point 4 The Web sites of some power supply and motherboard manufacturers have a wattage calculator where you can enter the components in your system and then the calculator will recommend the wattage you need for your power supply You will see one example of a wattage calculator in Project 2 7 at the end of this chapter 1435487389 _ch02_CTP qxd 7 30 09 5 17 PM Page 57 D RAM keyboard and mouse Selecting a Power Supply 57 Moderately priced motherboard processor 100 watts High end motherboard processor RAM 100 to 150 watts a keyboard and mouse N Fan 5 watts O IDE hard drive 25 watts SATA or SCSI hard drive 35 watts CD RW drive 25 watts DVD RW or Blu ray drive 35 watts Tape drive 25 watts Low end AGP or PCI video card 40 watts Moderately priced video card 100 watts High end PCIe x16 video card 150 300 watts PCI card 20 watts PCI e x16 card 100 watts a Liquid cooling system 50 150 watts Table 2 5 To calculate power sup
54. hieldinl A help acl components from ESD m h Si Course Technology Cengage Learning ia A Antistatic gloves You can purchase antistatic gloves designed to prevent an ESD dis l charge between you and a device as you pick it up and handle it see Figure 2 27 The gloves can be substituted for an antistatic bracelet and are good for moving packing or unpacking sensitive equipment However they tend to get in the way when working inside computer cases The best way to guard against ESD is to use a ground bracelet together with a ground mat Consider a ground bracelet essential equipment when working on a computer However if you are in a situation in which you must work without one touch the computer case or the power supply before you touch a component When passing a circuit board memory module or other sensitive component to another person ground yourself and then touch the other person before you pass the component Leave components inside their pro tective bags until you are ready to use them Work on hard floors not carpet or use antista tic spray on the carpets Generally don t work on a computer if you or the computer have just come in from the cold because there is more danger of ESD when the atmosphere is cold and dry With ATX and BTX cases know that residual power is still on even when the power switch on the rear of the case is turned off Some motherboards even have a small light inside the case to remind you of this fa
55. hrough the rest of this section on troubleshooting you ll see other possible solutions to electrical problems during the boot such as loose internal connections PROBLEMS WITH EXTERNAL POWER A brownout reduced current of the house current might cause symptoms of electrical power problems If you suspect the house current could be low check other devices that are using the same circuit A copy machine laser printer or other heavy equipment might be drawing too much power Remove the other devices from the same house circuit A line conditioner might solve the problem of intermittent errors caused by noise in the power line to the PC Try installing a line conditioner to condition voltage to the PC LD Nl 1435487389 _ch02_ CTP qxd 7 30 09 5 18 PM Page 87 D Troubleshooting the Electrical System 87 PROBLEMS WITH LOOSE INTERNAL CONNECTIONS Loose connections inside the computer case can cause a system to appear dead or reboot itself For most of the ATX and BTX power supplies a wire runs from the power switch on the front of the case to the motherboard This wire must be connected to the pins on the mother board and the switch turned on before power comes up Check that the wire is connected cor rectly to the motherboard Figure 2 58 shows a wire which is labeled REMOTE SW connected to pins on the motherboard labeled PWR SW If you are not sure of the correct connection on the motherboard see the motherboar
56. ighting PCs can emit EMI to other nearby PCs which is one reason a computer needs to be inside a case To help cut down on EMI between PCs always install face plates in empty drive bays or slot covers over empty expansion slots If mysterious intermittent errors persist on a PC one thing to suspect is EMI RFI Try moving the PC to a new location If the problem continues try moving it to a location that uses an entirely different electric circuit Move the PC away from any suspected device to eliminate it as a source A simple way to detect EMI is to use an inexpensive AM radio Turn the tuning dial away from a station and all the way down into a low frequency range With the radio on you can Testing for EMI hear the static that EMI produces Try putting the radio next to several electronic devices to detect the EMI they emit If EMI in the electrical circuits coming to the PC causes a significant problem you can use a line conditioner to filter the electrical noise that causes the EMI Line conditioners are discussed later in the chapter After you remove the source of EMI or RFI the problemsthat thesEM Causing goes away In contrast the problems caused by ESD permanently da SURGE PROTECTION AND BATTERY BACKUP The power supplies in most computers can operate over a wide range of electrical voltage inputs however operating the computer under these conditions for extended periods of time can shorte
57. lator at www antec outervision com PSUEngine enter the information about your computer system Print the resulting calculations 2 What is the recommended wattage capacity for a power supply for your system 3 Look on the printed label on the power supply currently installed in your computer What is its wattage capacity 4 If you had to replace the power supply in your system what wattage capacity would you select PROJECT 2 8 Exploring Computer System Form Factors You will need to open your computer case to answer these questions about your computer system 4 What type of case do you have 4 What are the dimensions of your motherboard in inches 4 What form factor does your motherboard use 4 How many pins does the main power connection on the motherboard have LD Nl 1435487389_ch02_CTP qxd 7 30 09 5 19 PM Page 97 a ay Real Problems Real Solutions 97 2o REAL PROBLEM 2 1 Replacing a Power Supply Suppose you turn on a system and everything is dead no lights nothing on the monitor screen and no spinning fan or hard drive You verify the power to the system works all power connections and power cords are securely connected and all pertinent switches are turned on You can assume the power supply has gone bad It s time to replace it To pre pare for this situation in a real work environment exchange power supplies with another student in your lab who is using a computer that has a power sup
58. lways touchithe computer case before touching a circuit board inside the case b Always wear a ground bracelet clipped to the side of the case c Always sit a computer on an antistatic mat when working on it What is a reasonable wattage capacity for a power supply to be used with a system that contains a DVD drive three hard drives and a high end video card a 250 watts b 1000 watts c 700 watts d 150 watts PROJECT 2 1 Taking a Lab Computer Apart and Putting It Back Together Working with a partner and using a lab computer designated to be disassembled take a computer apart It is not necessary to remove the processor from the motherboard but be very careful to properly support the motherboard and processor as you remove them from the case Then reassemble the system Don t replace the computer case panel until your instructor has inspected all cable connections Then turn on the computer and verify all is working LD Nl 1435487389_ch02_CTP qxd 7 30 09 5 19 PM Page 95 a ay Hands On Projects 95 PROJECT 2 2 Making Price and Value Comparisons Using the two computer parts retail Web sites Tiger Direct www tigerdirect com and Micro Electronics www microcenter com find out the following about products discussed in the chapter 1 Compare the prices and ratings of two different surge suppressors Print Web pages of your findings How are the surge suppressors rated 2 Compare the prices and
59. m including how to change a defective power supply This chapter is the first in a group of chapters to learn how to service computer hardware We begin with the electrical system because it s so important that you know how to protect yourself and the equipment against electrical dangers as you work In later chapters you ll want to apply the safety skills learned in this chapter Other skills learned in this chapter such as taking a computer apart and putting it back together will be useful to know in future chapters in which you will exchange other computer parts besides the power supply 35 LD Aly 1435487389_ch02_CTP qxd 7 30 09 5 17 PM Page 36 a ay 36 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer FORM FACTORS USED BY COMPUTER CASES MOTHERBOARDS AND POWER SUPPLIES This chapter is all about a computer s electrical system and power supply such as the one shown in Figure 2 1 However because motherboards power supplies and computer cases are often sold together and must be compatible with each other we begin by looking at these three components as an interconnecting system When you put together a new system or replace components in an existing system the motherboard power supply and case must all be compatible The standards that describe the size shape and major features of these components so that they work together are called form factors 4 pin Molex
60. n not only the power supply s life but also the computer s Also electrical storms can end a computer s life quite suddenly To prevent such things from happening consider installing a device to filter AC input A wide range of devices that stand between the AC outlet and computer equipment are on the market and generally fall into these four categories 4 Power strips that provide additional outlets without providing any protection from changes in AC power 4 Surge protectors which protect equipment against power spikes or surges 4 Line conditions that condition or smooth out the highs and lows in power 4 Uninterruptible power supplies UPSs that provide backup power when the AC fails All these devices should have the UL Underwriters Laboratory logo which says that the laboratory a provider of product safety certification has tested the device The UL standard that applies to surge suppressors is UL 1449 first published in 1985 and revised in 1998 Let s look at the features and benefits of the last three items in the list surge protectors line conditioners and UPSs SURGE PROTECTORS A surge protector also called a surge suppressor protects equipment against sudden changes in power level such as spikes from lightning strikes The device such as the ones shown in Figure 2 28 typically provides one or more power outlets an on off switch and 1435487389 ch02_CTP qxd 7 30 09 5 17 PM Page 64 D CHAPTER
61. n the PC sometimes caused by other elec trical equipment sitting very close to the computer TRANSISTOR A transistor is an electronic device that can serve as a gate or switch for an electrical signal and can amplify the flow of electricity Invented in 1947 the transistor is made of three layers of semiconductor material A charge either positive or negative depending on the transistor s design plac d on the center layer can cause the two outer layers of the transistor to complete a circuit to create an on state An opposite charge placed on the center lay ricansmake the reverse happen causing the transistor to create an off stategManipulating these charges to the transistor allows it to hold a logic statesof eitherson or off The on state represents binary 1 and the off state represents binary 0 when used to hold data in a computer lt p When the transistor maintains this state it requires almost no electrical power Because the initial charge sent to the transistor is not as great as the resulting current that the tran sistoxiCreates a transistor sometimes is used as a small amplifier For instance transistors are used to amplify the tiny dots or pixels on an LCD monitor screen used to create a sharper image The transistor is also used as the basic building block of an integrated circuit I which is used to build a microchip CAPACITOR A capacitor is an electronic device that can hold an electrical cha
62. ng air out of the case Blowing air out of the case does a better job of keep ing the system cool Identifying Form Factors The first ATX power supplies and motherboards used a sin gle power connector called the P1 connector that had 20 pins 1435487389 ch02_CTP qxd Figure 2 2 7 30 09 5 17 PM Page 38 D TE my a a a io gt i a ie 6 1 F T m F 1 z l ji gg aa E a HLE The CPU on an ATX motherboard sits opposite the consis for long expansion cards _ Courtesy Course Technalogy cenodge Lean Five PCI slots Audio connector to CD drive AGP slot CPU auxiliary power connector Power connector for CPU fan Bracket for CPU cooler Pentium 4 processor Extra USB connectors Serial ATA connector for HDD Exhaust fan power Two IDE connectors P1 power connector Foii drive connetior Podo T pins ou i LED connectors A das not block the room needed P1 on an ATX motherboard Figure 2 3 The first ATX P1 power connector used 20 pins Courtesy Course Technology Cengage Learning see Figure 2 3 These pins provided 3 3 volts 5 volts 12 volts 12 volts and an optional and rarely used 5 volts The electrical requirements for motherboards change over time as new technologies make additional demands for power When processors began to require more power the ATX Version 2 1 specifications added a 4 pin auxiliary connector near the proces sor so
63. ors Airflow in a BTX system is also designed to flow underneath the BTX motherboard 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 42 D 42 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Hot air out Memory Figure 2 8 Improved airflow in a BTX case and motherboard makes it unnecessary to have a fan on top of the processor Courtesy Course Technology Cengage Learning A BTX case by Gateway with a motherboard installed is S ow inFigure 2 9 This BTX case has fans on the front and rear to forcesaiffover the processor heat sink Notice in the figure the green encasementethat directspairflow over the heat sink Also notice the vents on the front case panel to help with airflow Rear exhaust fan Heat sink over processor Encasement to direct airflow over heat sink Front intake fan is behind this grid Figure 2 9 A Gateway BTX system is designed for optimum airflow Courtesy Course Technology Cengage Learning 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 43 D Form Factors Used by Computer Cases Motherboards and Power Supplies 43 When the BTX form factor was first introduced it was expected to replace ATX However BTX has not gained as much popularity with those who build custom systems as was first anticipated Even though Dell and Gateway have both produced their own BTX brand name systems it appears ATX will continue to be the most popular form factor NLX FO
64. ots If they are present determine in which direction you need to slide the power supply to free it from the case 11 Remove each drive next handling the drives with care Here are some tips 4 Some drives have one or two screws on each side of the drive attaching the drive to the drive bay After you remove the screws the drive slides to the front or to the rear and then out of the case 4 Sometimes there is a catch underneath the drive that you must lift up as you slide the drive forward 4 Some drive bays have a clipping mechanism to hold the drive in the bay First release the clip and then pull the drive forward and out of the bay see Figure 2 54 Handle the drives with care 4 Some cases have a removable bay for small drives see Figure 2 55 These bays can hold narrow drives such as hard drives floppy drives and Zip drives The bay is removed first and then the drives are removed from the bay To remove the bay first remove the screws or release the clip holding the bay in place and then slide the bay out of the case The drives are usually installed in the bay with two screws on each side of each drive Remove the screws and then the drives see Figure 2 56 1435487389 _ch02 CTP qxd 7 30 09 5 18 PM Page 83 D How to Work Inside a Computer Case 83 Figure 2 54 To remove this CD drive first pull the clip forward to release the drive from the bay Courtesy Course Technology Cengage Learning 143
65. ourse Technology Cengage Learning 6 Drives are connected to the motherboard with ribbon cables or thinner serial ATA cables Before removing any ribbon cables look for a red color or stripe down one side of each cable This edge color marks this side of the cable as pin 1 Look on the board or drive that the cable is attached to You should see that pin 1 or pin 2 is clearly marked as shown in Figure 2 42 However some boards mark pin 34 or pin 40 For these boards pin 1 is on the other side of the connector Also know that some boards and drives don t mark the pins but rather have a notch in the connector 1435487389 _ch02_ CTP qxd 7 30 09 5 18 PM Page 77 D How to Work Inside a Computer Case 77 Figure 2 42 Pin 1 for this IDE connection is clearly marked Courtesy Course Technology Cengage Learning so that a notched ribbon cable can only be inserted in one direction see Figure 2 43 Verify that the edge color is aligned with pin 1 Serial ATA cables can only connect to serial ATA connectors in one direction see Figure 2 44 Figure 2 43 The notch on the side of this floppy drive connector allows the floppy drive cable to connect in only one direction Courtesy Course Technology Cengage Learning 7 A system might have up to three types of ribbon cables A floppy drive cable has 34 pins and a twist in the cable IDE cables have 40 pins A CD or DVD drive can use either a 40 conductor IDE cable or a higher quality
66. ply If not replace the entire power supply If you replace the power supply or fan and the fan still does not work assume the problem wasn t the fan A short somewhere else in the system drawing too much power might cause the problem Don t operate the PC if the fan does not work Computers without cooling fans can quickly overheat and damage chips To troubleshoot a nonfunctional fan which might be a symptom of another problem and not a problem of the fan itself follow these steps 1 Turn off the power and remove all power cord connections to all components except the motherboard Turn the power back on If the fan works the problem is with one of the systems you disconnected not with the power supply the fan or the motherboard 2 Turn off the power and reconnect one card or drive at a time until you identify the device with the short LD Nl 1435487389 _ch02_ CTP qxd 7 30 09 5 18 PM Page 89 Troubleshooting the Electrical System 89 3 If the fan does not work when all devices except the motherboard are disconnected the problem is the motherboard or the power supply Since the power supply is less expensive and easier to replace than the motherboard try replacing it first PROBLEMS WITH OVERHEATING If a computer powers down after it has been operating for a few minutes or a few hours the problem might be caused by overheating Leave the system turned off for about 30 minutes and then try again If th
67. ply as shown in Figure 2 23 When selecting a power supply pay par ticular attention to the capacity for the 12 V rail A rail is the term used to describe each voltage line of the power supply The 12 V rail is the most used one especially in high end gaming systems Sometimes you need to use a power supply with a higher than needed overall wattage in order to get enough wattage on this one rail 4 Feature 7 Consider the warranty of the power supply and the overall quality Some come in bright colors and cables might be of higher quality than others The more expensive power supplies are quieter last longer and don t put off as much heat as less expensive ones Also expect a good power supply to protect the system against over voltage 1435487389 ch02_CTP qxd 7 30 09 5 17 PM Page 56 D CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Figure 2 23 Look on the side of a power supply for its wattage ratings Courtesy Course Technology Cengage Learning HOW TO SELECT A POWER SUPPLY When selecting a power supply match the form factor to that used by Na case and M iher board make sure it provides the connectors you need sanidjmatch the Wattage capacity to the requirements of the system In addition consider the jaga Nag price and the additional features you learned about in the previous section When deciding what wattage capacity you need for the power ieee consider the total wattage requir
68. ply rated at about the same wattage as yours Then verify that your system starts up and works LD ee 1435487389 _ch02 CTP qxd 7 30 09 5 19 PM Page 98 D
69. ply rating add up total wattage Here are the wattage needsilof four typical systems Example 1 A regular desktop system with a moderately priced mother board using socket LGA775 for Intel processors or an AMD2 socket for AMD processors one moderately priced video card two SATA hard drives a DVD RW drive and two fans needs a power supply rated at about 300 to 350 watts Example 2 A desktop system used as a file server with a high end motherboard Intel or AMD processor moderately priced video card six SATA hard drives DVD RW drive tape drive PCI RAID card and four fans needs a power supply rated at about 550 watts Example 3 A gaming system with a high end motherboard using socket LGA775 for Intel processors or an AMD2 socket for AMD processors two high end video cards two SATA hard drives a Blu ray drive and four fans needs a power supply rated at about 800 watts The two high end video cards require about 275 watts each Example 4 If a liquid cooling system used by gamers for overclocking a system is installed in the gaming system described above the power supply wattage rating should be increased to about 1000 watts Overclocking is running a processor motherboard or video card at a higher frequency than the manufacturer recommends and is not considered a best practice It might also void the warranty of a component 4 Point 5 Dell ATX power supplies and motherboards might not use the standard P1 pinouts fo
70. r ATX although the power connectors look the same For this reason never use a Dell power supply with a non Dell motherboard or a Dell motherboard with a non Dell power supply without first verifying that the power connector pinouts 1435487389_ch02_CTP qxd 7 30 09 5 17 PM Page 58 7TA ady 58 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer match otherwise you might destroy the power supply the motherboard or both End PC Noise www endpcnoise com sells a pinout converter to convert the connector of a Dell power supply or motherboard to standard ATX Also PC Power and Cooling www pcpowerandcooling com makes power supplies modified to work with a Dell motherboard PROTECT YOURSELF AND THE EQUIPMENT AGAINST ELECTRICAL DANGERS In this part of the chapter you ll learn about the physical dangers of supporting personal computers and how to protect yourself and others Then you ll learn about what can happen to damage a computer or other equipment while you are working on it and what to do to prevent that damage As you work with computers to stay safe and protect the equipment always make it a habit to apply all the safety precautions discussed here PROTECT YOURSELF AGAINST ELECTRICAL SHOCK AND BURNS To protect yourself against electrical shock when working with any electrical device includ ing computers printers scanners and network devices disconnecethe power if yousMotice a dang
71. r supply might be inadequate for the system or there might be a short Don t press the power button to start up the system Unplug the power cord so that the power supply will not be damaged The next step is to open the case and search for a short If you don t find a short consider upgrading the power supply Is the power cord plugged in If it is plugged into_a power stripiior surge suppr ssor is the device turned on and also plugged in Is the power outlet controlled by a wall switch If so is the swatch turned on Are any cable connections loose Is the circuit breakersblown2els the house circuit overloaded Are all switches on thessystem turned on Computer Monitor Uninterruptible power supply Is there a possibility the system has overheated If so wait awhile and try again If the system comes on but later turns itself off you might need additional cooling fans inside the unit Where and how to install them is covered in Chapter 4 The next step is to open the computer case and then do the following A A If the fan is not running turn off the computer unplug it press the power button open the case and check the connections to the power supply Are they secure Are all cards securely seated If you smell burnt parts turn off the system and carefully search for the source of the problem Look for shorts and frayed and burnt wires Disassemble the parts until you find the one that is damaged As you read t
72. rge for a period of time and can smooth the uneven flow of electricity through a circuit Capacitors inside a PC power supply create the even flow of current the PC needs Capacitors maintain their charge long after current is no longer present which is why the inside of a power supply can be danger ous even when it is unplugged You can see many capacitors on motherboards video cards and other circuit boards see Figure 2 19 DIODE A diode is a semiconductor device that allows electricity to flow in only one direction A transistor contains two diodes One to four diodes used in various configurations can be used to convert AC to DC Singularly or collectively depending on the configuration these diodes are called a rectifier RESISTOR A resistor is an electronic device that limits the amount of current that can flow through it In a circuit a resistor is used to protect a circuit from overload or to control the current Resistors are color coded to indicate the degree of resistance measured in ohms LD Nl 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 52 D 52 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Crosshatch on top of capacitor suit board often have embedded crossed lines on top Figure 2 19 Capacitors ona re Learning C rtesy Course 1 WG A POWER SUPPLY F N F y F Q y F i q he y y 7 N a N
73. rovides voltage selector switch fan size and posi tion on off switch wattage capacity and warranty To decide on the wattage capacity of a power supply add up the wattage requirements for all components in a system and then increase that total by about 30 percent Power supplies and monitors are considered field replaceable units and you should not work inside one unless you are trained to do so To protect a computer system against ESD use a ground bracelet ground mat and static shielding bags Protect a computer system against EMI or RFI by covering expansion slots which also reduces dust inside the case and improves airflow by not placing the system close to or on the same circuit as high powered electrical equipment and by using line conditioners Devices that control the electricity to a computer include surge suppressors line condi tioners and UPSs A surge suppressor protects a computer against damaging spikes in electrical voltage LD Nl 1435487389_ch02_CTP qxd 7 30 09 5 19 PM Page 92 7TA ady 92 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer A A Line conditioners level the AC to reduce brownouts and spikes A UPS provides enough power to perform an orderly shutdown during a blackout There are two kinds of UPSs the true UPS called the inline UPS and the standby UPS The inline UPS is more expensive because it provides continuous power The standby UPS mu
74. rtesy Course Technology Cengage Learning The following sections discuss each in turn DESKTOP CASES The first personal computers used a desktop case that sat flat on a desktop doing double duty as a monitor stand The motherboard sat on the bottom of a desktop case and the power supply was near the back If you have a desktop case designed to lie flat don t place it onsits end because the CD or DVD drive might not work properly Desktop cases are built to accommodate all form factors for personal computers Because of the space a desktop case takes it has fallen out of favor in recent years and is being replaced by smaller and more space efficient cases For low end desktop systems compact cases sometimes called low profile cases or slimline cases follow the MicroATX FlexATX or NLX form factor Likely to have fewer drive bays they generally still provide for some expansion Some cases lay flat and can be used as a monitor stand and others stand upright You can see an upright slimline case in Figure 2 12 Slimline desktop cases are gaining in popularity for low end personal computers because they come in nice colors and do double duty as a monitor stand TOWER CASES A tower case sits upright on the floor or a desk and can be as high as two feet and has room for several drives Often used for servers this type of case is also good for PC users who anticipate upgrading because tower cases provide maximum space for working insi
75. st switch from one circuit to another when a blackout begins Utility software at a remote computer or a computer connected to the UPS through a USB cable can control and manage a smart UPS 4 Data line protectors are small surge suppressors designed to protect modems from spikes on telephone lines 4 Tools necessary for a PC support technician include a ground bracelet screwdrivers tweezers extractor and recovery CDs 4 A POST diagnostic card is useful when troubleshooting startup errors caused by hardware 4 A power supply tester and multimeter can be used to measure the voltage output of power supplies In addition a multimeter can be used to test cables and fuses 4 A faulty power supply can cause memory errors dataserrors system hangs orxeboots it can damage a motherboard or other components 4 When troubleshooting the electrical systemgiconsider_the problem might be caused by external power problemssdoose connections bad components drawing too much power the power supply the motherboard or overheating For explanations of key terms see the Glossary near the end of the book alternating current AC amp ampere antistatic wrist strap ATX ATX12V power supply brownouts BTX Balanced Technology Extended bus riser capacitor clamping voltage compact cases data line protector daughter card desktop case diagnostic card diode DIP dual inline package switch direct current DC
76. stops working at odd times The motherboard fails or is damaged The power supply overheats and becomes hot to the touch The power supply fan becomes very noisy or stops hah da da da da A 1435487389 ch02_CTP qxd 7 30 09 5 18 PM Page 88 a ay CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Generally intermittent problems those that come and go are more difficult to solve than a dead system There can be many causes of intermittent problems such as an inadequate power supply overheating and devices and components damaged by ESD Each of these sources of intermittent problems is covered in this section PROBLEMS WITH AN INADEQUATE POWER SUPPLY If you have just installed a new device such as a second hard drive or a DVD drive and are con cerned that the power supply is not adequate you might test it after you finish the installation Make all the devices in your system work at the same time For instance you can make two hard drives and the DVD drive work at the same time by copying files from one hard drive to the other while playing a movie on the DVD If the new drive and the other drives each work independently but data errors occur when all work at the same time suspect a shortage of electrical power If you prefer a more technical approach you can estimate how much total wattage your system needs by calculating the watts required for each device and adding them together You le
77. such as a cup or tray Don t stack boards on top of each other You could accidentally dislodge a chip this way When handling motherboards and expansion cards don t touch the chips on the boards Hold expansion cards by the edges Don t touch any soldered components on a card and don t touch the edge connectors unless it s absolutely necessary All this helps prevent damage from static electricity To protect the chip don t touch it with a magnetized screwdriver Don t use a graphite pencil to change DIP dual inline package switch settings because graphite is a conductor of electricity and the graphite can lodge in the switch These on off switches are used on older motherboards to configure the board In a classroom environment after you have reassembled everything have your instructor check your work before you put the cover back on and power up To protect both yourself and the equipment when workingsinside a computer turn off the power unplug the computer and_thef press the power button to completely drain the power Always usesa groundebracelet Never ever touch the inside of a computer that is turned on EA Considef the monitor and the power supply to be black boxes Never remove the cover er put your hands inside this equipment unless you know about the hazards of charged capacitors and have been trained to deal with them Both the power supply and the monitor can hold a dangerous level of electricit
78. system a rack mounted server or a low profile desktop When you understand theantended use you then can decide which form factor you will use The current and better known form factors are listed_in Jable ma lt a Jam Fags are discussed next Motherboard Size ATX full size Up to 12 la popular form factor which has had many revisions D FlexATX 7 E A Up to 12 8 wide croBTX Up to 10 4 wide Smaller version of ATX Smaller version of MicroATX Has improvements over ATX and can have up to seven expansion slots Has up to four expansion slots PicoBTX Up to 8 wide None or one expansion slot NLX Up to 9 x 13 6 Used in low end systems with a riser card Table 2 1 Form factors The A 220 701 Essentials exam expects you to recognize and know the more important features of the ATX BTX Micro ATX and NLX motherboards ATX FORM FACTOR ATX Advanced Technology Extended is the most commonly used form factor today It is an open nonproprietary industry specification originally developed by Intel in 1995 and has undergone several revisions since then An ATX motherboard measures up to 12 x 9 6 The CPU and memory slots sit beside expansion slots so that full length expansion cards don t bump into the CPU or memory modules see Figure 2 2 The original ATX form factor had case fans blowing air into the case but early revisions to the form factor had fans blowi
79. t be a second layer of housing inside the device housing but is more commonly done with a chemical coating on the inside of the device housing This chemical coating might be made of an acrylic compound nickel silver or copper and is sprayed or brushed onto the inside of the housing Many electronic devices are affected by EMI RFI including computers CRT monitors and data cables If a CRT monitor flickers occasionally try moving it to a new location away from fluorescent lighting or a laser printer or turn them off If the problem goes away or lessens suspect EMI RFI For laser printers you can check with the manufacturer for instructions on how to verify that the RFI shield inside the printer is properly installed Data in data cables that cross an electromagnetic field or that run parallel with power cables can become corrupted by EMI RFI causing crosstalk Crosstalk can be partially controlled by using data cables covered with a protective material these cables are called shielded cables One thing you can do to prevent crosstalk is to use only shielded data cables especially when installing network cable However shielded cables are more LD Nl 1435487389_ch02_CTP qxd 7 30 09 5 17 PM Page 63 7TA ady Protect Yourself and the Equipment Against Electrical Dangers 63 expensive than unshielded cables Also you might need to reroute data cables so they are not running parallel to power cables or alongside fluorescent l
80. ther less popular one is the Extended ATX eATX motherboard that can be up to 12 x 13 in size it is used in rack mounted servers MICROATX FORM FACTOR The MicroATX form factor is a major variation of ATX and addresses some technolo gies that have emerged since the original development of ATX MicroATX reduces the total cost of a system by reducing the number of expansion slots on the mother board reducing the power supplied to the board and allowing for a smaller case size A MicroATX motherboard see Figure 2 7 will fit into a case that follows the ATX 2 1 or higher standard A variation of the MicroATX is the Mini ITX This form factor is smaller than the MicroATX and designed for small systems such as a home theatre system 1435487389 ch02_CTP qxd 7 30 09 5 17 PM Page 41 D Form Factors Used by Computer Cases Motherboards and Power Supplies 41 J gt f N N a y nd Figure 2 7 This MicroATX motherboard by Biostar is designed to support an AMD processor Courtesy Course Technology Cengage Learning FLEXATX FORM FACTOR aii aaa FlexATX is a variation of MicroATX It allows for maximum flexibility giving it the mann name FlexATX and therefore canbe a goodchoice for custom systems A FlexATX motherboard can be upto 9 x 7 5 The motherboard costs less has fewer features and is smaller than a MicroAT amp board FlexATX is commonly used in slimline and all in one Cases but can fitwhto
81. tra power to the processor providing more power than the older 4 pin auxiliary connector Molex 4 pin connector is used for IDE drives Table 2 4 Power supply connectors Courtesy Course Technology Cengage Learning 1435487389 _ch02 CTP qxd 7 30 09 5 17 PM Page 55 D Selecting a Power Supply 55 SATA connector used for SATA drives Connector gt N N P O Floppy drive connector 6 pin plus 2 pin 12 V connector is used by high end video cards using PCIe x16 slots to provide extra voltage to the card PCI Express Version 1 uses the 6 pin connector and PCI Express Version 2 uses the 8 pin connector To get the 8 pin connector combine both the 6 pin and 2 pin connectors ge arte Table 2 4 Power supply connectors continued Courtesy Course Technology Cengageskearning Figure 2 22 This adapter converts two Molex cables to a single 12 V 6 pin PCIe connector Courtesy Course Technology Cengage Learning 4 Feature 4 Every power supply has a fan inside its case some have two fans The fan can be mounted on the back or top of the PSU Fans range in size from 80mm to 120mm wide 4 Feature 5 A power supply might have an on off switch that controls power to the system refer back to Figure 2 21 4 Feature 6 A power supply has wattage ratings which are the amounts of power it can supply These wattage capacities are listed in the documentation and on the side of a power sup
82. ultiplying volts by ses amps Watts measure the total 4 electrical power needed to opet device The symbol for watts is W A 8 Table 2 3 Measures of electricity An ATX or BTX power supply provides these separate volt ages 12 V 12 V 5 V and 3 3 V 5 V is included in the specs for these power supplies but is almost never used A 17 inch monitor requires less than 4 A to operate A small laser printer uses about 2 A A CD ROM drive uses about 1 A Current can flow in typical computer cables and wires with a resistance of near zero Q ohm A computer power supply is rated at 2009 0 W Now let s look at how electricity gets from one place to another and how it is used in house circuits and computers AC AND DC Electricity can be either AC alternating current or DC direct current Alternating current AC goes back and forth or oscillates rather than traveling in only one direction House current in the United States is AC and oscillates 60 times in one second 60 hertz Voltage in the system is constantly alternating from positive to negative which causes the electricity to flow first in one direction and then in the other Voltage alternates from 110 V to 110 V AC is the most economical way to transmit electricity to our homes and workplaces By decreasing current and increasing voltage we can force alternating current to travel great distances When alternating current re
83. uration of hardware compo nents such as cases power supplies and motherboards The most common form factor today is ATX Popular variations in ATX include MicroATX a smaller version of ATX and FlexATX a smaller version of MicroATX Other current form factors are BTX and NLX NLX uses a riser card that plugs into the motherboard Case types include desktop low profile or slimline desktops minitower mid tower full size tower and notebook The most popular case type in use today is the mid tower Electrical voltage is a measure of the potential difference in an electrical system Electrical current is measured in amps and electrical resistance 1s measured in ohms Wattage is a measure of electrical power Wattage 1s calculated by multiplying volts by amps in a system Microcomputers req ire direct current DC which is converted from alternating current EPI AC by thesPC s power supply inside the computer case 4 A PC power supply is actually a transformer and rectifier rather than a supplier of power Materials used to make electrical components include conductors insulators and semicOnductors A transistor is a gate or switch for an electrical signal a capacitor holds an electrical charge a diode allows electricity to flow in one direction and a resistor limits electrical current Important features of a power supply to consider when purchasing it are its form factor number and type of connector types it p
84. ut to become a successful PC technician that is you don t tend to encounter fried motherboards smoking monitors or frizzed hair you need to understand electricity In addition you need to know how to use it how it s measured and how to protect computer equipment from its damaging power Let s start with the basics To most people volts ohms watts and amps are vague terms that simply mean electricity All these terms can be used to measure some characteristic of electricity as listed in Table 2 3 1435487389 ch02_CTP qxd 7 30 09 5 17 PM Page 47 D Measures and Properties of Electricity 47 Volt for example 115 V Amp or ampere for example 1 5 A Ohm for example 20 0 Watt for example 20 W A measure of electrical pressure differential Volts are measured by finding the potential difference between the pressures on either side of an electrical device in a circuit The symbol for volts is V A measure of electrical current Amps are measured by placing an ammeter in the flow of current The symbol for Amps is A A measure of resistance to electricity Devices are rated according to how much resistance they offer to electrical current The ohm rating of a resistor or other electrical device is often written somewhere on the device The symbol for ohm is Q A measure of electrical power Whereas volts and amps are measured to determine their value watts are calculated by m
85. uts on cable connectors in place while you screw them in 4 Cable ties to tie cables up and out of the way inside a computer case 4 Flashlight to see inside the PC case 4 AC outlet ground tester 4 Network cable tester you will learn to use this tool in Chapter 11 4 Loop back plugs to test ports you lkd arn aboutsthese plugs in Chapter 7 4 Small cups or bagstothelp ke p screws organized as you work mann 4 Antistatic bags a type of Faraday cage to store unused parts 4 Chip extractor to remove chips to pry up the chip a simple screwdriver is usually more effective however 4 Pen and paper for taking notes 4 POST diagnostic cards 4 Utility software virus detection software and diagnostic software on CD or floppy disk Keep your tools in a toolbox designated for PC troubleshooting If you put disks and hardware tools in the same box be sure to keep the disks inside a hard plastic case to protect them from scratches and dents In addition make sure the diagnostic and utility software you use is recommended for the hardware and software you are troubleshooting Now let s turn our attention to the details of several support technician tools including diagnostic cards power supply tester and multimeter POST DIAGNOSTIC CARDS Although not an essential tool a POST diagnostic card can be of great help to discover and report computer errors and conflicts at POST The POST power on self test is a series of tests performed b
86. y even after you turn them off and disconnect them from a power source The power supply and monitor contain enough power to kill you even when they are unplugged When unpacking hardware or software to help protect against static electricity remove the packing tape and cellophane from the work area as soon as possible To protect against static electricity keep components away from your hair and clothing Now that you know about PC technician tools and how to keep safe let s look at the steps to take apart a computer STEPS TO TAKE APART A COMPUTER A PC technician needs to be comfortable with taking apart a computer and putting it back together In most situations the essential tools you ll need for the job are a ground bracelet a Phillips head screwdriver a flat head screwdriver paper and pen As you work inside a computer be sure to use a ground bracelet the safety precautions in the chapter and the guidelines in the following list 1 If you are starting with a working computer make sure important data is first backed up Copy the data to an external storage device such as a flash drive or external hard drive 2 Power down the system unplug it and press the power button Unplug the monitor mouse keyboard and any other peripherals or cables attached and move them out of your way LD Nl 1435487389 ch02_CTP qxd 7 30 09 3 Put the computer on a table with plenty of room Have a Sometimes
87. y the startup BIOS when you first turn on a computer These tests determine if startup BIOS can communicate correctly with essential hardware components required for a successful boot If you have a problem that prevents the PC from booting that you suspect is related to hardware you can install the diagnostic card in an expansion slot on the mother board and then attempt to boot The card monitors the boot process and reports errors usually as coded numbers on a small LED panel on the card You then look up the number in the docu mentation that accompanies the card to get more information about the error and its source LD Nl 1435487389 _ch02 CTP qxd 7 30 09 5 18 PM Page 70 D 70 CHAPTER 2 Form Factors Power Supplies and Working Inside a Computer Examples of these cards are listed below Some manufacturers make cards for either desktop or laptop computers The Post Code Master card is shown in Figure 2 32 4 PC POST Diagnostic Test Card by Elston System Inc www elstonsystems com 4 PCI POST Diagnostic Test Card by StarTech com www startech com 4 Post Code Master by Microsystems Development Inc vww postcodemaster com Figure 2 32 Post Code Master diagnostic card by Microsystems Developments Inc Courtesy Course Technology Cengage Learning Before purchasing these or any other diagnostic tools or software read the documentation about what they can and cannot do and if possible read some product reviews
88. ystem Also know that a UPS is not as essential for a laptop computer as it is for a desktop because a laptop has a battery that can sustain it during a blackout The Smart UPS When you look through ads of UPS devices some of them are labeled as a smart UPS A smart UPS also called an intelligent UPS can be controlled by software from a computer For example from the front panel of some UPSs you can check for a weak battery but with a smart UPS you can perform the same function from utility software installed on your computer To accommodate this feature a UPS has a USB connection to the PC and a microprocessor on board Some activities this utility software and a smart UPS can do include the following Diagnose the UPS Check for a weak battery Monitor the quality of electricity received Monitor the percentage of load the UPS is carrying during a blackout Automatically schedule the weak battery test or UPS diagnostic test Send an alarm to workstations on a network to prepare for a shutdown haa da da da dD 1435487389 ch02_CTP qxd 7 30 09 5 17 PM Page 67 Protect Yourself and the Equipment Against Electrical Dangers 67 Figure 2 30 Uninterruptible power supply UPS Courtesy of American Power Conversion Corp 4 Close down all serve otec PS dur ackout 4 Provide pager n 10 iti anager if the power goes out 4 After a shutdown O from a remote location over the Internet Q der When Buying a UPS UPS r

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