Load testing the PSU
Load Testing The PSU
Testing a power supply is a challenge, and you need professional load testers to check the PSU's behavior the right way.
The first basic test is performed with a simple power supply tester. It = doesn't load the PSU with more than a couple of Watts, but it helps determine if the power supply unit is operational. There's a self-check indicating if the voltages are at the proper levels. As you can see, there have been no issues with the FSP DAGGER PRO 850 W unit.
The following setup was used for the remainder of the testing:
- Voltcraft VC-870 Digital Multimeter - voltage measurement (+ Fluke 97 scope meter)
- Oscilloscope - GW INSTEK GDS 3154
- DC load - original solution
- Fluke 97 Scope meter (a measurement of voltage and ripple),
- Voltcraft SL-451 decibel meter (volume measurement)
- ACUVIM-IIRF – for measuring active power (input from the socket).
- PCE Instruments PCE-DT 50 tachometer – for the measurement of the rotational speed of the fan.
Measurements are taken only using 230 V input voltage.
Efficiency
In our power supply reviews, we emulate real-world usage by creating such loads as a power-hungry, multi-GPU setup with a powerful CPU would generate. Older components used to require more power, but there has been some progress. In a typical configuration, reaching over 500-600 Watts of power draw is difficult. Checking efficiency is a relatively easy thing to accomplish. Let’s take a look at the FSP ’s efficiency first.
It does look very good even at low loads (e.g., 10%, equaling 120 W), which is quite typical of the idle state in modern PCs.
Maximum load
Next up is the maximum wattage that this unit can hold before switching off.
|
Maximum Load |
Efficiency (in %) |
|
953 W |
88,98 % |
Efficiency looks excellent, even above 100% load. 953 Watts is a good value, but you wouldn’t want to come close to that for very long.
ErP Lot 6 Power Off wattage
We looked at the powered-off status (ErP/EuP), productivity mode (when we stress the CPU), and gaming. The lower the wattage, the more efficient the PSU. It is that simple.
|
ErP Lot 6 Power Off |
Value in Watts |
|
850 W |
0.21 |
This is well below the 0.5 W requirement.
Ripple testing
First up is the ATX12V V2.2 specification for DC output ripple:
|
ATX12V Ver 2.2 Noise/Ripple Tolerance |
|
|
Output |
Ripple (mV p-p) |
|
+3.3 V |
50 |
|
+5 V |
50 |
|
+12 V |
120 |
The FSP DAGGER PRO 850 W achieved the following results:
|
AC Ripple (mV p-p) |
+3.3 V |
+5 V |
+12 V |
|
85 W (10%) |
14 |
12 |
40 |
|
212,5 W (25%) |
16 |
15 |
35 |
|
425 W (50%) |
20 |
18 |
25 |
|
637,5 W (75%) |
25 |
20 |
24 |
|
850 W (100%) |
27 |
25 |
35 |
The values are well within tolerance. Even in the worst-case scenario (100% load), it is not even a quarter of the allowed number, so this is not worrying.
