We conducted several tests with this power supply, as described in the article Hardware Secrets Power Supply Test Methodology.
First we tested this power supply with five different load patterns, trying to pull around 20%, 40%, 60%, 80%, and 100% of its labeled maximum capacity (actual percentage used listed under “% Max Load”), watching the behavior of the reviewed unit under each load. In the table below, we list the load patterns we used and the results for each load.
If you add all the powers listed for each test, you may find a different value than what is posted under “Total” below. Since each output can have a slight variation (e.g., the +5 V output working at +5.10 V), the actual total amount of power being delivered is slightly different than the calculated value. In the “Total” row, we are using
the real amount of power being delivered, as measured by our load tester.
The +12VA and +12VB inputs listed below are the two +12 V independent inputs from our load tester. During our tests, the +12VA and +12VB input were connected to the power supply single +12 V rail (the EPS12V connector was installed on the +12VB input of our load tester).
|Input||Test 1||Test 2||Test 3||Test 4||Test 5|
|+12VA||5 A (60 W)||11 A (132 W)||16 A (192 W)||22 A (264 W)||27 A (324 W)|
|+12VB||5 A (60 W)||10 A (120 W)||16 A (192 W)||21 A (252 W)||27 A (324 W)|
|+5V||2 A (10 W)||4 A (20 W)||6 A (30 W)||8 A (40 W)||10 A (50 W)|
|+3.3 V||2 A (6.6 W)||4 A (13.2 W)||6 A (19.8 W)||8 A (26.4 W)||10 A (33 W)|
|+5VSB||1 A (5 W)||1.5 A (7.5 W)||2 A (10 W)||2.5 A (12.5 W)||3 A (15 W)|
|-12 V||0.5 A (6 W)||0.5 A (6 W)||0.5 A (6 W)||0.5 A (6 W)||0.5 A (6 W)|
|Total||149.1 W||313.1 W||452.3 W||614.8 W||751.1 W|
|% Max Load||19.9%||41.7%||60.3%||82.0%||100.1%|
|Room Temp.||45.5° C||45.3° C||46.9° C||45.5° C||48.8° C|
|PSU Temp.||44.8° C||45.3° C||46.3° C||48.5° C||49.9° C|
|Ripple and Noise||Pass||Pass||Pass||Pass||Pass|
|AC Power||176.7 W||363.4 W||529.8 W||732.0 W||919.0 W|
|AC Voltage||113.4 V||111.5 V||107.6 V||105.2 V||103.0 V|
The XFX PRO 750 W passed our test with flying colors, being able to deliver its labeled wattage at high temperatures.
Efficiency was very good, between 81.7% and 86.2%. The 80 Plus Bronze certification requires a minimum 82% efficiency at light (20%) and full loads, and this unit presented 81.7% efficiency at full load. This happens because the 80 Plus tests are conducted at 23° C, while ours were done between 45° C and 49° C, and efficiency drops with temperature. But this value was close enough of the advertised efficiency.
Voltage regulation was superb, with all voltages within 3% of their nominal values, including the -12 V output. The ATX12V specification allows voltages to be up to 5% from their nominal values (10% for the -12 V output). Therefore this power supply presents voltages closer to their nominal values than necessary all the time.
Noise and ripple levels were always extremely low. Below you can see the results for the power supply outputs during test number five. The maximum allowed is 120 mV for the +12 V and -12 V outputs, and 50 mV for the +5 V, +3.3 V, and +5VSB outputs. All values are peak-to-peak figures.
Let’s see if we can pull even more from the XFX PRO 750 W.