ࡱ>  [bjbj xx +++++???8w3?* <+#A A ^##++F0'0'0'#X++0'#0'0'4{BDp?#XEHu0\:$+ M!|0'!d-"] %r #### : Revision History DateDescriptionContributor1/1/07Initial CreationDonald Heer1/8/07Updated Testing SpecificationsDonald Heer1/15/07Formatting / Parts List / Target Feature SetDonald Heer1/31/07Testing Plan / Parts ListDonald Heer3/1/07Style Selections/Formatting Locked StylesDonald Heer1/7/08Updated RequirementsDonald Heer1/6/09Improved Testing PlanDonald Heer Introduction The project described in this document is a two channel DC variable DC power supply intended to be constructed by students in the ECE322 course at Oregon State University. This project will be loosely associated with the TekBots program and should be based on previous student experience. The project needs to be the best fit for the following priorities; Educational Merit, Student Time Commitment, Instructor Buy-in, Future Re-usability, and cost. Customer Requirements & Product Background The ECE322 course lab component has not been updated to reflect new teaching methods our new content since 1996. This course is badly in need of these updates. The TekBots group was asked to help to develop a new lab experience to better fit modern methods and information. No restriction were placed on the development other than those enforced by the lecture portion of the course in terms of duration, student enrollment, lab facilities, and previous student experience. From this information, many possible themes and/or ideas were generated with a DC power supply being the best candidate selected. The deliberations and trade-offs made to decide on a DC power supply are outside the scope of this document and are not covered. Criteria of Interest Educational Merit The project needs to help students learn new information as efficiently as possible. The metric of educational merit is a some what ambiguous term. Educational merit is ascribed on a rating of 2, 1, or 0 points. Points are assigned through group deliberations with a group assignment of merit. Factors that are reviewed during group deliberation are: Connection to Lecture: Rather than having a lab in a vacuum, it is best to lab the lab material and tasks support the lecture material and visa versa. Students learning using multi-sensory approaches and performing tasks that require knowledge synthesis are better able to retain and use knowledge. Fundamentals: Projects that help to expose more fundamental knowledge rather than specific niche topics give the students a stronger basis for later coursework. Sophistication: Is the project appropriate for the student level? Typical student transcripts are reviewed and project difficulty is matched to student experience. How many different areas of knowledge are required? Is the number of missing topics acceptable? Can a student be expected to learn what is missing? Real World Similarity: Does the project adequately show the real world of engineering? Is the project contrived or to idealized to show the messy nature of engineering. Does the project force students to connect multiple disciplines inside and outside of electrical engineering? Student Time Commitment This is the expected number of hours per week a student will spend on the project. This time includes scheduled lab time and time outside of lab as well. Instructor Buy-in If the instructor likes the project they are more likely to involve the project in their lecture material. This creates a tighter connection between lecture and lab and promotes better student understanding. Future Re-usability Will the project be re-usable by the student either for classes or for some external purpose? Projects that have a clear path for reuse allow for amortization of student effort and monetary investment. This allows for a justification of more sophistication. Cost This is the actual cost in dollars of the project. Product Space Analysis DC power supplies commonly fall into one of two categories, switching and linear. Switching supplies are more modern and involve voltage conversion through charging and discharging of capacitors and inductors. This method allows for both step-down voltage conversion and step-up voltage conversion. Linear voltage regulation allows for only step-down conversion with excess voltage converted to heat and waste. Target Feature Set Two channels, one positive and the other negative when referenced ground. Each channel must: Supply a minimum of 2 volts for all loads (lower is better) Be capable of supplying 12 volts while loaded to 900mA. At any load less than 900mA the power supply still needs to be able to achieve 2 (or less) and 12 volts (or more) Current limiting circuitry for each channel, protecting above 1 amp +/- 10%. Voltage ripple less than 0.75Vp-p per channel with both channels fully loaded to 900mA. External connections for leads and voltage adjustment. Safely equipped with a cooling fan that should not normally be running at 70F but should reach rated speed around 95F. Discharges the filter capacitor on each channel to under 3 volts in 5 seconds or less when the main power switch is turned to off and there is no load present on the output of the supply. Maximally student designed Utilizes a safety fuse. Human safe with short circuit protection Easily accessible AC power switch. A clearly visible power indication light. Core concepts drawn from lecture portion of ECE322 Voltage Regulators must use BJTs Force design specification skills Introduce physical prototyping skills Help student to understand value of simulation before build Motivate proper diligence through student responsibility Architectural Overview Implementation Approaches The project will be done with linear voltage regulation as it more directly relies on the concepts taught in ECE322. The concept of DC analysis and input/output impedance is strongly emphasized in linear regulators. Switching supplies while more efficient and relying on similar concepts introduce transient elements that are not in the scope of the course and could needlessly confuse students. The enforced use of BJTs also causes students to work more with the concepts from the course. While this is an artificial restriction, it should result in better prepared students. The design must be able to supply rated current at the specified voltage range. This restriction will force students to explore input and output impedances to best design their circuits. This approach shows the interconnection of circuits, as no circuit (including power supplies) exists in a vacuum. A purchased kit with included custom PCB while allowing for easy student success would not meet the goals of a student authored design. Even if many of the parts were removed and students asked to calculate values, the lab would feel contrived and very few solutions would exist. Flexibility was deemed more important than ease of use. Top Level Description Theory of Operation The designed power supply connects to a US standard AC wall outlet of 120VAC. It draws no more than 500mA while delivering fully power to its two DC voltage outputs. There are two output channels, one positive and one negative. Both channels share a single common ground. Each output is to be adjustable by a potentiometer. Each voltage output will supply voltages fro 2 to 12 volts. As current is drawn from the outputs, the voltage will remain steady until 900mA is reached. At 900mA of current, the power supply will be come a constant current source allowing for over current protection. Optionally there will be indicator LED denoting when the power supply over currents. Internal to the power supply is a thermal protection circuit that monitors the power supply temperature. It will activate a fan to cool the supply when it begins to over heat. Optionally if the fan is not sufficient to handle the over heating, the power supply will be deactivated before permanent damage occurs. Top level block diagram  EMBED Visio.Drawing.11  Figure 1: Basic Power Supply Block Diagram Top level interface definition NameTypeDescriptionAC InputInputFrequency: 60Hz Voltage: 120VAC Maximum Current: .5 AmpsPositive Voltage OutputOutputVoltage Range: Supply a minimum of 2 volts for all loads (lower is better) Be capable of supplying 12 volts while loaded to 900mA Max Current @ All Voltages: .9 Amp Current Limit: 1 Amps +/- 10% Maximum Ripple: .75 VPPNegative Voltage OutputOutputVoltage Range: Supply a minimum of -2 volts for all loads (lower is better) Be capable of supplying -12 volts while loaded to 900mA Max Current @ All Voltages: .9 Amp Current Limit: 1 Amps +/- 10% Maximum Ripple: .75 VPPPositive Supply Over Current Indicator (optional)OutputTurn On: 1 Amps +/- 10% Indication: Visual or AudibleNegative Supply Over Current Indicator (optional)OutputTurn On: 1 Amps +/- 10% Indication: Visual or AudiblePositive Voltage AdjustmentInputAdjustment Method: Dial/Potentiometer Full Scale: Single TurnNegative Voltage AdjustmentInputAdjustment Method: Dial/Potentiometer Full Scale: Single TurnV+Internal PowerNominal Voltage: 18VDC Max Current: 900mA Maximum Ripple: .75 VPPV-Internal Power???Fan SupplyInternal Power???Discharge SupplyInternal Power???Discharge SignalInternal Signal??? Functional Unit Descriptions Chassis Chassis Drawings AC Rectifier AC Rectifier block image. This diagram shows the external interfaces to the functional unit, the major internal pieces of the block, and the major interfaces between major pieces inside this block. AC Rectifier interface definition This is a detailed tabular description of the interfaces in and out of the functional unit. At this level and below, interface definitions will likely become more detailed. AC Rectifier Schematic and Theory of Operation This section should cover how the schematic you have designed operates. It needs to be as detailed as you can make it, and include information about when your schematic does not, for example maybe at high temperatures. Positive Voltage Regulator Block Diagram Positive Voltage Regulator interface definition Positive Voltage Regulator Schematic and Theory of Operation Negative Voltage Regulator Negative Voltage Regulator interface definition Negative Voltage Regulator Schematic and Theory of Operation Fan Controller Fan Controller interface definition Fan Controller Schematic and Theory of Operation Capacitor Discharge Capacitor Discharge interface definition Capacitor Discharge Schematic and Theory of Operation Extra Credit Circuits Extra Credit Circuits interface definition Extra Credit Circuits Schematic and Theory of Operation Testing Block Tests For this project Items that fall under functional tests are listed below along with recommended testing procedures. AC Rectifier - Two channels, one positive and the other negative when referenced to ground Power the AC rectifier with wall input. Set the multimeter to measure DC voltage. Connect the power supplys ground to the ground of the multimeter. Connect one output of the AC rectifier to the voltage input of the multimeter. Check the reading on the multimeter. Connect the other output of the rectifier to the voltage input of the multimeter. Check the reading on the multimeter. PASS: One output reads positive value and the other one reads negative value when referenced to ground. FAIL: Both outputs are positive, negative, or zero when referenced to ground. AC Rectifier - Rectify 60Hz, 120 VACrms to DC Power the AC rectifier with wall input. Connect the power supplys ground to the ground of the multimeter. Connect one output of the AC rectifier to the voltage input of the oscilloscope. Check the oscilloscope output. Connect the other output of the AC rectifier to the voltage input of the oscilloscope. Check the oscilloscope output. PASS: The oscilloscope reads DC voltage for both rectifier outputs. FAIL: The oscilloscope reads AC voltage or no voltage for either output. AC Rectifier - Capable of supplying at least 900mA amp per channel continuously Follow the instruction on the ECE322 test station. Connect the ECE322 test station to the AC rectifier outputs. Connect the ECE322 test station to an ampmeter. Switch the station to test channel 1. Decrease the resistance of the test station until the ampmeter reads at least 900mA Switch the station to test channel 2. Decrease the resistance of the test station until the ampmeter reads at least 900mA PASS: The ampmeter for both channels reads at least 900mA. FAIL: The ampmeter does not read at least 900mA for either channel. AC Rectifier - Voltage ripple out of the filter is less than 0.75Vp-p per channel with both channels fully loaded to 900mA Follow the instruction on ECE322 test station. Connect ECE322 test station to the AC rectifier outputs. Connect the ECE322 test station to an ampmeter. Switch the station to test channel 1. Decrease the resistance of the test station until the ampmeter reads at least 900mA. Connect VOLT+ of the test station to the voltage input of the oscilloscope. Check oscilloscope waveform. Switch the station to test channel 2. Decrease the resistance of the test station until the ampmeter reads at least 900mA. Connect VOLT+ of the test station to the voltage input of the oscilloscope. Check oscilloscope waveform. PASS: The oscilloscope waveform shows voltage ripples smaller than 0.75Vpp for both channels. FAIL: The oscilloscope waveform shows voltage ripple larger than 0.75Vpp for either channel. AC Rectifier - Easily accessible AC power switch Visual inspection by the TA PASS: The AC power switch is mounted on the front or back side of the power supply and can turn the system on and off FAIL: The AC power switch is not mounted on the front or back side of the power supply or cannot turn the system on and off AC Rectifier - A clearly visible power indication light Flip the power switch to on mode. Check the indication light. PASS: The power indication light is mounted on the front or back side of the power supply and can turn on and off with the switch FAIL: The power indication light is not mounted on the front or back side of the power supply or cannot turn on and off with the switch AC Rectifier - Assembled safely and with no electrical hazards and utilizes a safety fuse Make sure the power supply is not plugged into the wall. Open the fuse socket. Check if a fuse (at least 1 amp) is present. PASS: The power supply is assembled safely without loose wire(s) and potential shortage, and a fuse is present in the fuse socket. FAIL: The power supply is not assembled safely or has loose wire(s) or shorts, or a fuse is not present in the fuse socket. Voltage Regulators - One positive channel when referenced to ground is capable of supplying at least 900mA continuously (2 ~ 12V) Follow the instruction on ECE322 test station. Connect channel 1 of the ECE322 test station to the power supplys ground and positive channel. Connect the ECE322 test station to an ampmeter. Connect the ECE322 test station to a voltmeter. Switch the station to test channel 1. Set the power supply to output 12V or higher. Decrease the resistance of the test station until the ampmeter reads at least 900mA. Check both the voltmeter and the ampmeter. Set the power supply to output 2V or lower. Decrease the resistance of the test station until the ampmeter reads at least 900mA. Check both the voltmeter and the ampmeter. PASS: 10% of 12V and 10% of 900mA can be displayed at same time on the voltmeter and ampmeter AND 10% of 2V and 10% of 900mA can be displayed at same time on the voltmeter and ampmeter. FAIL: 10% of 12V and 10% of 900mA cannot be displayed at same time on the voltmeter and ampmeter OR 10% of 2V and 10% of 900mA cannot be displayed at same time on the voltmeter and ampmeter. Voltage Regulators - One negative channel when referenced to ground is capable of supplying at least -900mA continuously (-2 ~ -12V) Follow the instruction on ECE322 test station. Connect channel 2 of the ECE322 test station to the power supplys ground and negative channel. Connect the ECE322 test station to an ampmeter. Connect the ECE322 test station to a voltmeter. Switch the station to test channel 2. Set the power supply to output -12V or higher magnitude. Decrease the resistance of the test station until the ampmeter reads at least -900mA. Check both the voltmeter and the ampmeter. Set the power supply to output -2V or lower magnitude. Decrease the resistance of the test station until the ampmeter reads at least -900mA. Check both the voltmeter and the ampmeter. PASS: 10% of -12V and 10% of -900mA can be displayed at same time on the voltmeter and ampmeter AND 10% of -2V and 10% of -900mA can be displayed at same time on the voltmeter and ampmeter. FAIL: 10% of -12V and 10% of -900mA cannot be displayed at same time on the voltmeter and ampmeter OR 10% of -2V and 10% of -900mA cannot be displayed at same time on the voltmeter and ampmeter. Voltage Regulators - Must supply a range of at least 2 ~ 12V under all load conditions Make sure the power supply does not have a load. Using a voltmeter and measure the positive channel of the power supply with reference to its ground. Adjust the positive channel control knob of the power supply to output the highest voltage. Check the voltmeter. Adjust the positive channel control knob of the power supply to output the lowest voltage. Check the voltmeter. Adjust the negative channel control knob of the power supply to output the highest magnitude of voltage. Check the voltmeter. Adjust the negative channel control knob of the power supply to output the lowest magnitude of voltage. Check the voltmeter. PASS: The power supply have passed the previous two tests, AND can supply a range of at least 2 ~ 12V with no load. FAIL: The power supply did not pass one or both of the previous two tests, OR cannot supply a range of at least 2 ~ 12V with no load. Voltage Regulators - Positive Channel has overload protection to limit current to 1A 10% Follow the instruction on ECE322 test station. Connect channel 1 of the ECE322 test station to the power supplys ground and positive channel. Connect the ECE322 test station to an ampmeter. Switch the station to test channel 1. Decrease the resistance of the test station until the ampmeter reads at least 1A. Check the ampmeter. Slowly keep on decreasing the resistance until minimum resistance is reached. Check the ampmeter. PASS: 1A 10% was observed for positive channel. FAIL: 1A 10% was not observed for positive channel. Voltage Regulators Negative Channel has overload protection to limit current to -1A 10% Follow the instruction on ECE322 test station. Connect channel 2 of the ECE322 test station to the power supplys ground and negative channel. Connect the ECE322 test station to an ampmeter. Switch the station to test channel 2. Decrease the resistance of the test station until the ampmeter reads at least 1A. Check the ampmeter. Slowly keep on decreasing the resistance until minimum resistance is reached. Check the ampmeter. PASS: -1A 10% was observed for negative channel. FAIL: -1A 10% was not observed for negative channel. Voltage Regulators - Power supply assembled safely and with no electrical hazards Open the black cover of the power supply. Examine the inside. PASS: The power supply is assembled safely without loose wire(s), loose board(s), and potential shortage. FAIL: The power supply is not assembled safely with loose wire(s), or loose board(s), or potential shortage. Voltage Regulators - BJT Usage Visually verify components used. All semiconductor components used in construction of voltage regulator blocks must BJT components. PASS: All silicon components are BJTs FAIL All silicon components are not BJTs Thermal Protection Block - Functional cooling fan Turn on the power supply and wait for 30 seconds. Observe the fan. Touch the thermistor with two fingers. Observe the fan. PASS: The fan is not running at 70o F (room temperature) AND the fan starts to run at around 95o F (when touched with fingers). Fail: The fan is running at below 70o F AND/OR the fan does not start to run at above 95o F. Thermal Protection Block - Design should use an OPAMP and a BJT or MOSFET to control the fan. Check the fan circuit with the designed schematic. PASS: The fan circuit was designed using an OPAMP and a BJT or MOSFET. FAIL: The fan circuit was designed without using an OPAMP or a BJT or MOSFET. Thermal Protection Block - The fan and its control circuit are assembled safely and with no electrical hazards. Short the power supplys positive channel to ground. Wait for about 20 ~ 30 seconds. Check the fan. PASS: The fan turns on after shorting the positive output to ground, AND is assembled without any loose wire(s), loose board(s), and no potential shortage. FAIL: The fan does not turn on within 30 seconds after shorting the positive output to ground, OR is assembled with loose wire(s), loose board(s), or has potential shortage, OR the power supply is damaged due to shortage. Capacitor Discharge Block - The filter capacitor for the positive channel discharges to under 3 volts in 5 seconds or less when the main power switch is turned to off AND no load presents on the output of the supply. Connect a voltmeter to the power supplys positive channel and ground. Turn on the power supply and wait for 30 seconds. Turn off the power supply and wait for 5 seconds. Check the voltmeter. PASS: The voltmeter displays less than 3 volts after 5 seconds. . FAIL: The voltmeter displays more than 3 volts after 5 seconds. Capacitor Discharge Block - The filter capacitor for the negative channel discharges to under magnitude of -3 volts in 5 seconds or less when the main power switch is turned to off AND no load presents on the output of the supply. Connect a voltmeter to the power supplys negative channel and ground. Turn on the power supply and wait for 30 seconds. Turn off the power supply and wait for 5 seconds. Check the voltmeter. PASS: The voltmeter displays less than magnitude of -3 volts after 5 seconds. . FAIL: The voltmeter displays more than magnitude of -3 volts after 5 seconds. Capacitor Discharge Block - Design used one (or more) MOSFETS Check the discharge circuit with the designed schematic. PASS: The discharge circuit was designed using at least one MOSFET. FAIL: The discharge circuit was designed without at least one MOSFET. Capacitor Discharge Block - Capacitor ripple voltage still meets spec outlined in earlier sections. Connect the power supply ground to the oscilloscope ground. Connect the power supply positive channel to the oscilloscope Check oscilloscope waveform. Connect the power supply ground to the oscilloscope ground. Connect the power supply negative channel to the oscilloscope Check oscilloscope waveform. PASS: The oscilloscope waveform shows voltage ripples smaller than 0.75Vpp for both channels. FAIL: The oscilloscope waveform shows voltage ripple larger than 0.75Vpp for either channel. System Tests Each channel must be capable of supplying at least 900mA per channel continuously Follow the instruction on ECE322 test station. Connect the ECE322 test station to the power supplys ground. Connect channel 1 of the ECE322 test station to the power supplys positive channel. Connect channel 2 of the ECE322 test station to the power supplys negative channel. Connect the ECE322 test station to an ampmeter. Switch the station to test channel 1. Decrease the resistance of the test station until the ampmeter reads at least 900mA. Switch the station to test channel 2. Decrease the resistance of the test station until the ampmeter reads at least 900mA. PASS: 900mA 10% can be outputted for both channels. FAIL: 900mA 10% cannot be outputted for both channels. Voltage output between 2 and 12 volts under 900mA load Follow the instruction on ECE322 test station. Connect the ECE322 test station to the power supplys ground. Connect channel 1 of the ECE322 test station to the power supplys positive channel. Connect channel 2 of the ECE322 test station to the power supplys negative channel. Connect the ECE322 test station to an ampmeter. Connect the ECE322 test station to a voltmeter. Switch the station to test channel 1. Set the power supply to output 12V or higher. Decrease the resistance of the test station until the ampmeter reads at least 900mA. Check both the voltmeter and the ampmeter. Switch the station to test channel 2. Set the power supply to output magnitude of -12V or higher. Decrease the resistance of the test station until the ampmeter reads at least magnitude of -900mA. Check both the voltmeter and the ampmeter. Set the power supply to output magnitude of -2V or lower. Decrease the resistance of the test station until the ampmeter reads at least magnitude of -900mA. Check both the voltmeter and the ampmeter. Switch the station to test channel 1. Set the power supply to output 2V or lower. Decrease the resistance of the test station until the ampmeter reads at least 900mA. Check both the voltmeter and the ampmeter. PASS: 10% of 12V and 10% of 900mA can be displayed at same time on the voltmeter and ampmeter AND 10% of 2V and 10% of 900mA can be displayed at same time on the voltmeter and ampmeter. FAIL: 10% of 12V and 10% of 900mA cannot be displayed at same time on the voltmeter and ampmeter OR 10% of 2V and 10% of 900mA cannot be displayed at same time on the voltmeter and ampmeter. An overload to limit current to 1A 10% Follow the instruction on ECE322 test station. Connect channel 1 of the ECE322 test station to the power supplys ground and positive channel. Connect channel 2 of the ECE322 test station to the power supplys ground and negative channel. Connect the ECE322 test station to an ampmeter. Switch the station to test channel 1. Decrease the resistance of the test station until the ampmeter reads at least 1A. Check the ampmeter. Slowly keep on decreasing the resistance until minimum resistance is reached. Check the ampmeter. Switch the station to test channel 2. Decrease the resistance of the test station until the ampmeter reads at least -1A. Check the ampmeter. Slowly keep on decreasing the resistance until minimum resistance is reached. Check the ampmeter. PASS: 1A 10% was observed for both positive and negative channels. FAIL: 1A 10% was not observed for either channel. Safely equipped with a cooling fan that should not normally be running at 70oF, but should reach rated speed around 95oF Turn on the power supply and wait for 30 seconds. Observe the fan. Touch the thermistor with two fingers. Observe the fan. Short the power supplys positive channel to ground. Wait for about 20 ~ 30 seconds. Check the fan. PASS: The fan is not running at 70o F (room temperature) AND the fan starts to run at around 95o F (when touched with fingers), AND The fan turns on after shorting the positive output to ground, AND is assembled without any loose wire(s), loose board(s), and no potential shortage. Fail: The fan is running at below 70o F AND/OR the fan does not start to run at above 95o F, AND The fan does not turn on within 30 seconds after shorting the positive output to ground, OR is assembled with loose wire(s), loose board(s), or has potential shortage, OR the power supply is damaged due to shortage. Discharges the filter capacitor on each channel to under 3 volts in 5 seconds or less when the main power switch is turned to off and there is no load present on the output of the supply. Connect a voltmeter to the power supplys positive channel and ground. Turn on the power supply and wait for 30 seconds. Turn off the power supply and wait for 5 seconds. Check the voltmeter. Connect a voltmeter to the power supplys negative channel and ground. Turn on the power supply and wait for 30 seconds. Turn off the power supply and wait for 5 seconds. Check the voltmeter. PASS: The voltmeter displays less than 3 volts after 5 seconds for both channels. FAIL: The voltmeter displays more than 3 volts after 5 seconds for either channel. External connections for leads and voltage adjustment Visual inspection by the TA PASS: The power supply has at least three external connections and two voltage adjustments. FAIL: The power supply does not have at least three external connections and two voltage adjustments. Assembled safely and with no electrical hazards Open the black cover of the power supply. Examine the inside. PASS: The power supply is assembled safely without loose wire(s), loose board(s), and potential shortage. FAIL: The power supply is not assembled safely with loose wire(s), or loose board(s), or potential shortage. Voltage ripple out of each channel less than 0.75V per channel with both channels fully loaded to 900mA Follow the instruction on ECE322 test station. Connect ECE322 test station to the power supply outputs. Connect the ECE322 test station to an ampmeter. Switch the station to test channel 1. Set the output voltage to 12VDC and -12VDC as appropriate. Decrease the resistance of the test station until the ampmeter reads at least 900mA. Connect VOLT+ of the test station to the voltage input of the oscilloscope. Check oscilloscope waveform. Switch the station to test channel 2. Decrease the resistance of the test station until the ampmeter reads at least 900mA. Connect VOLT+ of the test station to the voltage input of the oscilloscope. Check oscilloscope waveform. PASS: The oscilloscope waveform shows voltage ripples smaller than 0.75Vpp for both channels. FAIL: The oscilloscope waveform shows voltage ripple larger than 0.75Vpp for either channel. Utilizes a safety fuse Make sure the power supply is not plugged into the wall. Open the fuse socket. Check if a fuse (at least 1 amp) is present. PASS: A fuse is present in the fuse socket. FAIL: A fuse is not present in the fuse socket. Easily accessible AC power switch Visual inspection by the TA PASS: The AC power switch is mounted on the front or back side of the power supply and can turn the system on and off FAIL: The AC power switch is not mounted on the front or back side of the power supply or cannot turn the system on and off. A clearly visible power indication light Flip the power switch to on mode. Check the indication light. 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