Load testing the PSU
Load Testing The PSU
Testing a power supply is challenging; professional load testers must check the PSU’s behavior correctly.
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 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 Hydro Ti Pro 1000W (ATX 3.0) 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
Our power supply reviews emulate real-world usage by creating loads that a power-hungry, multi-GPU setup with a powerful CPU would generate. Older components used to require more power, but there has been some press. 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 FSP Hydro Ti's efficiency first.
It does look great even at low loads (e.g., 10%, equaling 100 W), which is quite typical of the idle state in modern PCs.
Maximum load
Next is the maximum wattage this unit can hold before switching off.
|
Maximum Load |
Efficiency (in %) |
|
1275 W |
90.49% |
Efficiency looks excellent, even above 100% load. 1275 Watts is a great 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 |
|
1000 W |
0.07 |
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 Montech Titan Gold 1200W achieved the following results:
| AC Ripple (mV p-p) | +3.3 V | +5 V | +12 V |
| 100 W (10%) | 14 | 4 | 6 |
| 250 W (25%) | 12 | 5 | 8 |
| 500 W (50%) | 9 | 6 | 12 |
| 750 W (75%) | 16 | 6 | 10 |
| 1000 W (100%) | 10 | 9 | 18 |
The values are very 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.
