hi,

quick question about sampled vs continuous time system phase.

when using  sampled system (here dc/dc converter) there is an additional delay td of e^-jwtd in the loop due to sampling. Therefore, my expectation (and excel's) was to have a difference in phase in Bode plots when approaching the sampling frequency. However, pss + pac shows somehow different results. Attached spectre's sim results and excel calculations.

It seems pss+pac phase results start rolling off much closer to the sampling frequency than e^-jwtd predicts.

Does anyone know why it is so?

Thank you Ken for the reply. I'll double check and come back in case of additional questions.

Best regards

I cannot make any sense of your question.  Are you thinking the output switch is the only sampling process in a DC/DC converter.  What about the PWM?

I am confused as to why are asking me.  Why would I have an opinion on what signals you should be looking at?

I hope you understand that you won't see a perfect sin(x)/x as the sampling processes in a switching converter are not ideal sample & hold processes.  Instead they will have sin(x)/x characteristics.

Both the PWM and the switch & filter are blocks that exhibit both sampling and memory, and so I would expect to contribute sin(x)/x like characteristics.

The whole thing is a loop, so I would expect to see sin(x)/x characteristics pretty much everywhere.

I'm afraid you are going have to figure out what is going on on your own.  I have very limited information and so can only guide you with generalities ad I feel like I have pretty much done all I can.

I encourage you to try to understand what you are seeing.  It is my experience that SpectreRF results can be challenging to interpret, but can provide insight if you take the time to understand them.

-Ken

Presumably you performed a PAC analysis to see the sin(x)/x behavior.  So your input is not DC.  It is a sinusoid swept over a wide range of frequencies.  The sampiing comes from the clock on q1.  The voltage on the capacitor will be a sampled-and-held version of the input.  It won't be a simple sin(x)/x because of the influence of inductor and imperfections in the switch.

for completeness: I've updated my calculations with the sinc behaviour due to sampling. Now, the phase rolls off much closer to fs frequency as per attached pic.