Hi Workhourse
It's now available from my homepage ... look at the prototype 2 page 😉
By the way, how are your amps going .... something new?
It's now available from my homepage ... look at the prototype 2 page 😉
By the way, how are your amps going .... something new?
Presently engaged in developing the 5KW class-d module for subwoofers using hi speed optocouplers and discrete gate drivers....6N137, 2SD882/2SB772, 3pairs of IRFP360 in parallel, +-160VDC rails, 150Khz switching frequency....
5 kW .... that's a lot 😎
Why not use the kind of divers used in the UcD?
Will the levelshifter be to slow for +-160V?
5 kW for a sub .... is it for auto use? ....... at +-160VDC it must be in 2 ohm🙂
What oscillation scheme are you using?
Why not use the kind of divers used in the UcD?
Will the levelshifter be to slow for +-160V?
5 kW for a sub .... is it for auto use? ....... at +-160VDC it must be in 2 ohm🙂
What oscillation scheme are you using?
The project is intended for pro-audio application only....
Opto-coupled level shifters are much easier way to do the level-shifting at such hi voltage....
UCD type level-shift drivers are prone to Cross-Conduction at such high voltage levels and also they require much larger deadtime with such hi rails...
We have implemented NEGATIVE GATE BIAS of -5V to turn off the mosfets much faster.....which is much more reliable then simply turning the gate voltage to zero in regular versions
Forced Clock at 150KHZ
Opto-coupled level shifters are much easier way to do the level-shifting at such hi voltage....
UCD type level-shift drivers are prone to Cross-Conduction at such high voltage levels and also they require much larger deadtime with such hi rails...
We have implemented NEGATIVE GATE BIAS of -5V to turn off the mosfets much faster.....which is much more reliable then simply turning the gate voltage to zero in regular versions
Forced Clock at 150KHZ
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