Sinrace Power Supply Technology (Shenzhen) Co., Ltd.

Some websites will use a regular PC on their PSU review. The problem is that high-end power supplies nowadays can deliver at least 600 W and a regular PC is not able to pull all this power. Even if you use a very high-end PC with two CPUs, several hard disk drives and even four video cards, you won’t be able to say how much power you are pulling at a given moment and you also won’t be able to say up to how much power you were able to pull from the power supply, since you are not using any measurement device.

A methodology some publications use is setting up a passive load, by connecting the power supply to a series of wire resistors. With this approach you can say how much current and thus power the power supply is delivering by applying ohm’s law (I = V / R or P = V^2 / R), as the voltage and resistance are known. Even though this is an interesting idea, there are some problems with this approach as well. First, you will need to build a resistor net for each output to be used at the same time (we’ve seen some publications adding a resistor net to only one of the power supply’s output or to all outputs but at different moments, not at the same time). Second, you can see some smoke coming from the resistors, as they will heat a lot and they can burn (some publications will add a fan over the resistors). Third, this is a passive load test and computers are dynamic systems, meaning that they can pull a lot of power at one moment and then reduce the power consumption some seconds later and then increase the power consumption again after some more seconds. With a passive load like this you also won’t be able to measure automatically several important features like efficiency and protections.

One word about efficiency. Efficiency is the relation between how much DC power the power supply is being able to deliver and how much AC power it is pulling from the power grid to deliver it. With the above methodology this can be calculated if you add an AC power meter to the power supply AC input. As you will have the amount of DC power the power supply is delivering and the amount of AC power the power supply is pulling from the power grid, efficiency will be given by the formula DC power / AC power.

The best way to review power supplies is using an active load tester, like Chroma 8000. This machine will accurately measure the maximum current and power a power supply is capable of delivering and is also able to measure several other parameters and features, like all power supply protections. The only problem with this tool is that it costs almost USD 50,000.

There are some load testers on the market that internally have just a series of wire resistors, so the commentaries about resistor load are also valid for such machines.

We mentioned the methodology suggested by one engineer from Intel, Andrew Watts. His approach is to add a current sensor to each power supply output and connecting them to a digital oscilloscope and to a data collector, then connecting the data collector to a PC running monitoring software. This is a very interesting approach, however the problem with this methodology is that you still need a PC to generate the system load.