• Title of article

    Time-domain response and sensitivity of periodically switched nonlinear circuits

  • Author/Authors

    Yuan، Fei نويسنده , , Li، Quan نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2003
  • Pages
    -1435
  • From page
    1436
  • To page
    0
  • Abstract
    This paper presents a new sampled-data simulation method for analysis of the response and sensitivity of periodically switched circuits with mildly nonlinear elements at time points of an equal interval. Using the Volterra functional series and interpolating the Fourier series, the method extends the sampled-data simulation algorithm of linear circuits to periodically switched nonlinear circuits. In addition, it extends the two-step algorithm for periodically switched linear circuits to periodically switched nonlinear circuits to handle inconsistent initial conditions encountered at switching instants. The method is a general computer-oriented formulation method. It does not require costly Newton-Raphson iterations. Instead, it performs preprocessing computation of a set of constant matrices and vectors that are used in subsequent simulation steps. The response and sensitivity at time points of an equal space are obtained using elementary matrix algebra. The method is most effective if the nonlinear characteristics of circuits is mild and computationally efficient if the response and sensitivity over a long period of time are needed. The method has been implemented in a computer program. Simulation results on example circuits are compared with those from PSPICE, brute-force (BF), charge conservation, and linear multistep predictor-corrector methods to show the speed and accuracy of the method. The normalized difference between the response and sensitivity of example circuits obtained from the proposed method and those from PSPICE and BF at nonswitching time points is below 0.5%. The accuracy of the method at switching time points is verified using charge conservation.
  • Keywords
    methods , numerical , adaptive optics , instrumentation
  • Journal title
    IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS
  • Serial Year
    2003
  • Journal title
    IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS
  • Record number

    61299