IEEE Access (Jan 2020)

The Correct Equation for the Current Through Voltage-Dependent Capacitors

  • Utkarsh Jadli,
  • Faisal Mohd-Yasin,
  • Hamid Amini Moghadam,
  • Jordan R. Nicholls,
  • Peyush Pande,
  • Sima Dimitrijev

DOI
https://doi.org/10.1109/ACCESS.2020.2997906
Journal volume & issue
Vol. 8
pp. 98038 – 98043

Abstract

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Two different equations for the current through voltage-dependent capacitances are used in the literature. One equation is obtained from the time derivative of charge that is considered as capacitance-voltage product: dQ/dt = d[C(V )V ]/dt = C(V)[dV /dt] + V [dC(V)/dt]. In the second equation, the term V[dC(V)/dt] does not exist: dQ/dt =C(V)[dV/dt]. This paper clears the ongoing confusion caused by the difference between these two equations. We use the voltage-dependent parasitic capacitance of a commercial Schottky diode in reverse bias mode to test experimentally both equations. The result is that it is incorrect to add the term V [dC(V)/dt] in the first equation with the measured capacitance. We also perform a theoretical analysis, which shows that the differential capacitance, C(V) = dQ/dV, in the correct current equation corresponds to the physical parameters of the diode capacitance.

Keywords