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dcb · 04-26-2011, 08:52 PM

As with many of you, I'm still scratching my head on things like high side drivers and associated expenses and complexities.

So the phrase "pulse transformers" keeps coming up, and I sort-of get it, and want to do some experiments on said same. Looking for some pointers.

I treated myself to one of those fancy shmancy DSO-2250 usb oscilloscopes so I can get a reasonably accurate picture and ensure the waveform edges are nice and vertical. And I figure I can do some experimenting with ferrites and wire and an igbt (starting with a 100 amp 6 pack) on the desk and see if the gate is charging/discharging quickly before hooking it up to power.

I should also be able to determine what the lowest frequency it can sustain 100% duty cycle is and plan on doing a refresh pulse at that interval (minus some safety factor).

I figure 12v input to the pulse transformer, what turns ratio for +16 and -8 gate voltages? 2:1?

We want the pulse transformer power switching right next to the gate I assume, minimal stray capacitance/inductance.

Has anyone been down this path that can offer some starting points? Or caveats? I sort of assume the idea is to make the transformer hold at least enough charge to saturate the gate plus whatever it needs to charge it quickly without "destroying" it.

Thanks in advance.

04-26-2011, 08:52 PM	#1 (permalink)
dcb needs more cowbell Join Date: Feb 2008 Location: ÿ Posts: 5,038 pimp mobile - '81 suzuki gs 250 t 90 day: 96.29 mpg (US) schnitzel - '01 Volkswagen Golf TDI 90 day: 53.56 mpg (US) Thanks: 158 Thanked 269 Times in 212 Posts	pulse transformers? As with many of you, I'm still scratching my head on things like high side drivers and associated expenses and complexities. So the phrase "pulse transformers" keeps coming up, and I sort-of get it, and want to do some experiments on said same. Looking for some pointers. I treated myself to one of those fancy shmancy DSO-2250 usb oscilloscopes so I can get a reasonably accurate picture and ensure the waveform edges are nice and vertical. And I figure I can do some experimenting with ferrites and wire and an igbt (starting with a 100 amp 6 pack) on the desk and see if the gate is charging/discharging quickly before hooking it up to power. I should also be able to determine what the lowest frequency it can sustain 100% duty cycle is and plan on doing a refresh pulse at that interval (minus some safety factor). I figure 12v input to the pulse transformer, what turns ratio for +16 and -8 gate voltages? 2:1? We want the pulse transformer power switching right next to the gate I assume, minimal stray capacitance/inductance. Has anyone been down this path that can offer some starting points? Or caveats? I sort of assume the idea is to make the transformer hold at least enough charge to saturate the gate plus whatever it needs to charge it quickly without "destroying" it. Thanks in advance. __________________ WINDMILLS DO NOT WORK THAT WAY!!!