The results with different load resistors suggest, that the capacitor would be still charged during second pulse, because the open circuit voltage is much higher than the capacitor voltage.
The results with different load resistors suggest, that the capacitor would be still charged during second pulse, because the open circuit voltage is much higher than the capacitor voltage.
but please be aware that the first pulse has a voltage which is higher than the second so the cap will get charge in the increasing voltage side of the first pulse and stop charging whenever the voltage starts decreasing so I don't think it will charge anymore. Am I looking for a charge pump capacitor?
You're assuming a voltage source charging the capacitor, but the measurements clarify that it isn't a voltage source. When operated with some kind of impedance matching, the behaviour is between a voltage and current source.
dont complicate stuff as you say i feel you are unnecessarily complicating matters by using some thing or the other
try to understand that though the capacitor discharges in the negative half cycle of the wave it can still recharge in the second waveform ip
then again i feel something like a hunch have you tried this out in an RL series discharging plot for the response of RL series ckt is similar to the waveform
dont complicate stuff as you say i feel you are unnecessarily complicating matters by using some thing or the other
try to understand that though the capacitor discharges in the negative half cycle of the wave it can still recharge in the second waveform ip
then again i feel something like a hunch have you tried this out in an RL series discharging plot for the response of RL series ckt is similar to the waveform