ATX power supply tester with digital LCD display to test desktop PC computer PSUPRODUCT CODE: TX280A
Multi-function computer power supply tester tool with digital LCD display.
Test all +3.3, +5 and +12 Volt power supply outputs with this handy, easy to use power tester.
This handy ATX, BTX & ITX power supply test meter has a clear blue backlit LCD screen to display the range of power supply voltage values. See the voltages your computer power supply is producing and check each of its connectors.
A built-in beeper emits an audio tone alarm to alert for no, over and under voltage conditions.
Inlcudes 3 LED lights to signal 3.3, 5 & 12 Volt connection.
This versatile, multi function ATX power supply test tool allows you to test the connectivity and power supply from 20 pin or 24 pin motherboard, 4, 6, 8 pin, 4 pole Molex and 15 pin SATA power connections.
Failure to boot or start, corrupted data, blue screens of death, and severe system damage can result from incorrect power being supplied to your computer.
Tests SATA power
No voltage alarm
Low voltage alarm
Displays atx p.g. values
ATX output connectors check
Tests Xeon power connectors
LCD displays atx power voltages
Tests Pentium 4 power connector
Accurate voltage indicator +/- 0.1v
Tests 20-pin and 24-pin power supplies
Tests pci-express / pci-e power connector
Tests standard 4-pin power supply connectors
Tests for +3.3v, -12v, pg, +5vsb, +12v, -5v, +5v output
Warranty & returns: 90-day return to base refund or replace guarantee
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How to use:
How To Test a Power Supply Using a Power Supply Tester
Testing a power supply unit involves working around high voltage electricity, a potentially dangerous activity. Proceed with caution.
Important: Do not skip this step! Safety should be your primary concern during a power supply test with a PSU tester and there are several points you should be aware of before beginning.
Open you case: turn off the PC, remove the power cable, and unplug anything else connected to the outside of the computer.
To make your power supply test easier, you should move your disconnected and open case somewhere you can easily work with it, like on a table or other flat and non-static surface. You won't need your keyboard, mouse, monitor, or other external peripherals.
Unplug the power connectors from each and every internal device inside the computer.
Tip: An easy way to make sure each power connector is unplugged is to work from the power cable bundle coming from the power supply. Each group of wires should terminate to one or more power connectors.
Note: It's not necessary to remove the actual power supply from the computer nor should you need to disconnect any data cables or other cables not connected to the power supply.
As you're organising the power cables, We recommend rerouting them and pulling them away from the computer case as much as possible. This will make it as easy as possible to plug the power connectors into the power supply tester.
Check to make sure that the power supply voltage switch located on the power supply is properly set for your country.
In NZ, this switch should be set to 220/230V.
Plug both the ATX 24 Pin Motherboard power connector and ATX 4 pin motherboard power connector into the power supply tester.
Note: Depending on the power supply that you have, you may not have a 4 pin motherboard connector but instead have a 6 pin or 8 pin variety. If you have more than one type, only plug one in at a time along with the 24 pin main power connector.
Plug the power supply into a live outlet and flip the switch on the back.
Note: Some power supplies do not have a switch on the back. If the PSU you're testing does not, simply plugging the device in is sufficient to provide power.
Press and hold the ON/OFF button on the power supply. You should hear the fan inside the power supply begin to run.
Important: Just because the fan is running does not mean that your power supply is supplying power to your devices properly. Also, some power supply fans do not run when being tested with a power supply tester even though the PSU is fine. You'll need to continue testing to confirm anything.
The LCD display on the power supply tester should now be lit and you should see numbers in all the fields.
Note: The motherboard power connectors plugged into the power supply tester support the entire range of voltages that your PSU can deliver, including +3.3 VDC, +5 VDC, +12 VDC, and -12 VDC.
If any voltage reads "LL" or "HH" or if the LCD screen does not light up at all, the power supply is not working properly. You'll need to replace the power supply.
Note: You're just looking at the LCD screen at this point. Don't worry about any other lights or voltage indicators not located on the actual LCD readout.
Check Power Supply Tolerances and confirm that the voltages reported by the power supply tester are within approved limits.
If any voltage is outside of the range shown, or the PG Delay value isn't between 100 and 500 ms, replace the power supply. The power supply tester is designed to give an error when a voltage is out of range but you should check yourself just to be safe.
If all the reported voltages fall within tolerance, you've confirmed that your power supply is working properly. If you'd like to test the individual peripheral power connectors, continue testing. If not, skip to Step 15.
Turn off the switch on the back of the power supply and unplug it from the wall.
Plug in one connector to the appropriate slot on the power supply tester: a 15 pin SATA power connector, a 4 pin Molex power plug connector, or a 4 pin Floppy Drive Power connector.
Note: Do not connect more than one of these peripheral power connectors at a time. You probably won't damage the power supply tester doing so but you won't be accurately testing the power connectors either.
Important: Both of the motherboard power connectors that you connected to the power supply tester in Step 6 should remain plugged in throughout these tests of the other power connectors.
Plug in your power supply and then flip on the switch on the back if you have one.
The lights labelled +12V, +3.3V, and +5V correspond to the voltages being delivered through the connected peripheral power connector and should light up appropriately. If not, replace the power supply.
Important: Only the SATA power connector delivers +3.3 VDC. You can see the voltages delivered by the different power connectors by looking at the ATX Power Supply Pinout Tables.
Repeat this process, beginning with Step 11, testing the voltages for the other power connectors. Remember, only test one at a time, not counting the motherboard power connectors that stay connected to the power supply tester the entire time.
Once your testing is complete, turn off and unplug the power supply, disconnect the power cables from the power supply tester, and then reconnect your internal devices to power.
Assuming your power supply tested good or you've replaced it with a new one, you can now turn your computer back on and/or continue troubleshooting the problem you are having.
Important: A power supply test using a power supply tester is not a true "load" test - a test of the power supply under more realistic usage conditions.