If I understand correctly, that big inductor between Gate and Drain is short for the DC signal. Hence, it's a diode-connected MOS that is always in saturation mode, but blocks the AC so that the input AC signal does not propagate to the Drain terminal? Been working on Analog CMOS for so many years, but never thought of putting a big inductor between Gate and Drain. Usually, just short them with wire.
This was done in Windwos with SiMetrix: www.simetrix.co.uk/ Similar simulations can be performed in Windows or on a Mac with LTSpice: www.analog.com/en/design-center/design-tools-and-calculators/ltspice-simulator.html
If I understand correctly, that big inductor between Gate and Drain is short for the DC signal. Hence, it's a diode-connected MOS that is always in saturation mode, but blocks the AC so that the input AC signal does not propagate to the Drain terminal? Been working on Analog CMOS for so many years, but never thought of putting a big inductor between Gate and Drain. Usually, just short them with wire.
Thank you.
Hi,
Is there similar tool for windows
This was done in Windwos with SiMetrix: www.simetrix.co.uk/
Similar simulations can be performed in Windows or on a Mac with LTSpice: www.analog.com/en/design-center/design-tools-and-calculators/ltspice-simulator.html