Anonymous
6/26/2025, 1:00:11 AM
No.16707573
>>16683085
Simple question. Other relevant boards were too braindead to answer:
In electronics, is a transmission line, specifically a trace, that is designed to have an impedance where the imaginary part is zero (R+jX ; X=0) unable to produce an inductive spike? Meaning there wont be a response dV/dT to arbitary dI/dT. Does this hold true across the spectrum and for any arbitary mismatch?
IMO signals can be reflected. So we might 'see things' on the trace, but their amplitude will always be equal or lower than that of the signal that was reflected and it is a response to a change in voltage, not current.
Simple question. Other relevant boards were too braindead to answer:
In electronics, is a transmission line, specifically a trace, that is designed to have an impedance where the imaginary part is zero (R+jX ; X=0) unable to produce an inductive spike? Meaning there wont be a response dV/dT to arbitary dI/dT. Does this hold true across the spectrum and for any arbitary mismatch?
IMO signals can be reflected. So we might 'see things' on the trace, but their amplitude will always be equal or lower than that of the signal that was reflected and it is a response to a change in voltage, not current.