Active PFC voltage measured across the switch

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mike buba

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Hi, initially I am trying to reduce noise in my Active PFC circuit (see this thread), and while doing more testing and simulations I discovered interesting voltage waveforms across the switch. My model looks like this:


And when I record voltage I get this. Only 1/4 of the period is shown and the second figure shows detail.


I would expect the voltage to be equal to the PWM pulses... in that way, I could focus on identifying reverse recovery spikes and reducing noise (this thread still active). I am also measuring something similar in the real system:

Your browser is not able to display this video.


If I put another capacitor, e.g. 2.4 mF, at the rectifier output, the MATLAB Simulink simulation does not give this 'strange' voltage waveform across IGBT, i.e. it is significantly reduced.

But Active PFC schematics on the web do not show any capacitors at the rectifier outputs (e.g. 1, 2 or 3).
Should I go with full-wave rectified voltage or try to smooth it by adding capacitors?
 

Your video has square-ish pulses at 25% duty cycle. As each pulse ends, it instigates ringing. The ringing decays during the idle period.

The ringing amplitude is 'jittery' although its frequency is unchanging. Such ringing is common where an inductor and capacitor are neighbors, allowing them to interact at a resonant frequency. Your schematic has an inductor and capacitor.

Some frames of your video show faint pulses repeating during idle periods. It's uncertain whether these occur due to the ringing.
 
It's not clear which circuit nodes are probed in the oscillscope waveforms. Free-wheeling oscillations of the PFC boost converter are no problems as such.
 

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