We all know that there’s a significant risk of receiving fake hardware when buying parts from less reputable sources. These counterfeit parts are usually a much cheaper component relabeled as a more expensive one, with a consequent reduction in performance. It goes without saying that the fake is lower quality then, but by just how much? [Denki Otaku] has a video comparing two power FETs, a real and a fake one, and it makes for an interesting watch.

For once the fact that a video is sponsored is a positive, for instead of a spiel about a dodgy VPN or a game involving tanks, he takes us into Keysight’s own lab to work with some high-end component characterization instruments we wouldn’t normally see. A curve tracer produces the equivalents of all those graphs from the data sheet, while a double pulse tester puts the two transistors through a punishing high-power dynamic characteristic examination. Then back in his own lab we see the devices compared in a typical circuit, a high-power buck converter. The most obvious differences between the two parts reveal something about their physical difference, as a lower parasitic capacitance and turn-on time with a higher on resistance for the fake is a pointer to it being a smaller part. Decapping the two side by side backs this up.

So it should be no surprise that a fake part has a much lower performance than the real one. In this case it’s a fully working transistor, but one that works very inefficiently at the higher currents which the real one is designed for. We can all be caught by fakes, even Hackaday scribes.