Kind of suddenly struck me that the apparent resistance of a capacitor decreases with increasing frequency, so, thinking in the time domain, as we switch the capacitor more often, its "resistance" decreases, and more of the signal is shunted to the common/ground... funny that I hadn't thought of a capacitor as a "frequency-dependent resistor", when I've actually designed a current-measurement circuit that uses a switching capacitor to make a current-nulling node.
Anglicized pronunciation of "wein bridge." I believe Max Wein would have pronounced his name something like "veen" (rhymes with "seen"), but any german speakers are welcome to correct me.
These lectures are solid gold !.....cheers.
Спасибо вам за ваш труд, вы помогаете понимать тонкости!
Kind of suddenly struck me that the apparent resistance of a capacitor decreases with increasing frequency, so, thinking in the time domain, as we switch the capacitor more often, its "resistance" decreases, and more of the signal is shunted to the common/ground... funny that I hadn't thought of a capacitor as a "frequency-dependent resistor", when I've actually designed a current-measurement circuit that uses a switching capacitor to make a current-nulling node.
What's a "Wayne bridge"?
Anglicized pronunciation of "wein bridge." I believe Max Wein would have pronounced his name something like "veen" (rhymes with "seen"), but any german speakers are welcome to correct me.