Hi all,
I need to build a circuit that has it's normal "ground" terminal ~10V below the high side of the output of a DC-DC converter whose output is 400V above true signal ground. Between the 400V and 390V terminals, the circuit needs to provide a reference voltage that is stiff to load currents flowing between 400V and 390V which can be as high as 0.1mA. Low dissipation in the 10V reference is extremely important--whatever circuit or component I use, it can't dissipate more than 150mW internally--less is better. I've already found that using a voltage divider between 0V and 400V is not stiff enough without dissipating a significant amount of power in the divider chain. A zener and resistor also causes too much power consumption.
Does anyone have a suggestion of how to build such a device? Perhaps there is already a commercial component out there to do such a thing.
(For reference, I want to drive a P-Channel high side MOSFET to switch the 400V. This P channel MOSFET is part of a half bridge (along with a low side N-channel MOSFET) to provide fast on and off rise time switching (~100ns) between 400V and -15V while also allowing for variable on times (out to infinity, which means bootstrapping drivers won't work). The 10V between 400V and 390V will be used to power the P-channel's gate drive circuit.)
Thanks!