I have a pulse transformer that can't seem to get output on. It is designed for 12 volt DC input and 1000 Volt DC bi-polar output. I am attempting to drive it with 12 volts /10 AMPS DC via a 60V 30A Mosfet. The coil sits between positive rail and Drain of Mosfet.
The diagram looks like it has a ferrite core so it is probably intended to be used at a pulse frequency of >10KHz. What frequency are you driving it with?
Even with lower primary current you should get considerable voltage across it's output.
The diagram looks like it has a ferrite core so it is probably intended to be used at a pulse frequency of >10KHz. What frequency are you driving it with?
Even with lower primary current you should get considerable voltage across it's output.
Well, it SHOULD be working so something mysterious is happening....
When you say you are using a function generator, what waveform are you selecting as the output? You should be using a pulse or square waveform and the amplitude should be between zero and about 10V. It would be a good idea to connect a resistor between the gate and ground (~1K) if there isn't one already as you want the gate to sit at ground potential until driven high.
The MOSFET is switching fine as I have driven other simpler/smaller coils with this setup without a problem. I am driving it with square waves at 10V. One correction to my original post: My supply is 20V DC.
I am connecting one input of the pulse transformer input to 20V DC and the other input is connected to the drain of the MOSFET.
Even with a 20V supply it should still switch nicely with 10V of drive.
Do you know how much current it is consuming at the moment?
Do you have an oscilloscope?
Can you measure the voltage between the drain and source of the MOSFET for me please, with and without the function generator output turned on.
So grateful for your help and input. It will be a little while before I can give more feedback and do more testing as I have burned through my latest order of MOSFETS. In about a week I will be ordering a MOSFET board from IXYS that will hopefully give me more reliability in my testing.