Gregory's ServerYou know pulse resistors are specialized when a manufacturer in China sells them at a higher price than Vishay in the US... And the official website shows zero stock. #electronics
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 Huge pulse capacitor is huge. Cornell-Dubilier 941C series #electronics 0.1 Ω pulse resistors arrived. Time to do more test on the original quick-and-dirty HV pulser before building a proper one: 31.2 A short circuit, 200 V open-circuit, so the effective ESR is 6.4 Ω, a bit on the high side. The di/dt is high, 10-90 rise time is just 400.0 ns, it's 65 A/µs - I'm already violating the absolute maximum of the SCR. #electronics Saying I'm building a "8/20 μs impulse surge protector tester" sounds boring, I think I'll start calling it a "0.3 megawatt pulser" instead. I hope I can rightfully call it a "megawatt pulser" when I break the 2000-volt barrier one day... :blobcatgiggle: #electronics Just found a workable solution to switch 4000 volts and 2000 amps. Time to go old-school!!! Except there are three problems. The tube has no trigger electrode, only free running is possible. Each tube costs over $200. Also, each tube is filled with 5.44 MBq of radioactive tritium ☢️ ! #electronics Just finished the construction of my new 8/20 μs impulse generator. Its output surge should be in compliance with IEC 61000-4-5 now, but I haven't checked it yet. Need to get some sleep and continue the test tomorrow. Working with lethal voltage at midnight is definitely not a good idea... #electronics My impulse generator's current output failed to meet the standard waveform requirement. The rise time is 50% too short. I think I didn't wind that inductor correctly. Just ordered a simple LCR meter to continue the experiment (trimming an inductor with a oscilloscope or VNA is just too awkward). #electronics LCR meter arrived, indeed, the inductor I winded was 50% too low. I pushed the windings together while looking at the readings, within 10 seconds I brought it within design specification. Time for a test... Then I immediately blow the entire circuit up by connecting 200 V to 5 V input... ⚡💥 :doge: #electronics Success, the output waveform of my 8/20 μs impulse generator prototype is now IEC 61000-4-5 compliant! Peak current: 200 A New plan: abusing a MOSFET gate driver to drive a SCR's gate to get high-side switching. Now I need to figure out how much Common Mode Transient Immunity do I need. My circuit is *literally* a surge generator. #electronics Rewired the isolated DC-DC converter to float on top of the high voltage instead of ground. No more explosions, even a small-signal transistor can drive the gate with ease. #electronics Look at my gate turn-on waveform... Man-made horrors beyond comprehension. #electronics In electronics, everything is an LC resonator if your layout is bad enough. #electronics |
I'd just like to interject for a moment. What you’re referring to as a "8/20 μs surge", is in fact, a 1.2/50-8/20 μs surge, or as I've recently taken to calling it, the output from a 1.2/50 µs combination wave generator. The 8/20 μs waveform is not a surge unto itself, but rather just the generator's short-circuit current output as defined by IEC 61000-4-5. It's normally generated in combination with the 1.2/50 µs open-circuit voltage waveform. All the so-called "8/20 μs wave" are really the "1.2/50-8/20 μs" combinational wave... #electronics
I'd just like to interject for a moment. What you’re referring to as a "8/20 μs surge", is in fact, a 1.2/50-8/20 μs surge, or as I've recently taken to calling it, the output from a 1.2/50 µs combination wave generator. The 8/20 μs waveform is not a surge unto itself, but rather just the generator's short-circuit current output as defined by IEC 61000-4-5. It's normally generated in combination with the 1.2/50 µs open-circuit voltage waveform. All the so-called "8/20 μs wave" are really the "1.2/50-8/20...