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Harmonic balance surrogate-based immunity modeling of a nonlinear analog circuit

C Gazda, Dries Vande Ginste (UGent) , Hendrik Rogier (UGent) , Ivo Couckuyt (UGent) , Tom Dhaene (UGent) , K Stijnen and H Pues
(2013) IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY. 55(6). p.1115-1124
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Organization
Abstract
A novel harmonic balance surrogate-based technique to create fast and accurate behavioral models predicting, in the early design stage, the performance of nonlinear analog devices during immunity tests is presented. The obtained immunity model hides the real netlist, reduces the simulation time, and avoids expensive and time-consuming measurements after tape-out, while still providing high accuracy. The model can easily be integrated into a circuit simulator together with additional subcircuits, e.g., board and package models, as such allowing to efficiently reproduce complete immunity test setups during the early design stage and without disclosing any intellectual property. The novel method is validated by means of application to an industrial case study, being an automotive voltage regulator, clearly showing the technique's capabilities and practical advantages.
Keywords
CONDUCTED ELECTROMAGNETIC DISTURBANCES, IBCN, INTEGRATED-CIRCUITS, NEURAL-NETWORKS, INJECTION, SUSCEPTIBILITY, Direct power injection (DPI) test, harmonic balance, immunity model, surrogate modeling, voltage regulator

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Citation

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MLA
Gazda, C., et al. “Harmonic Balance Surrogate-Based Immunity Modeling of a Nonlinear Analog Circuit.” IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY, vol. 55, no. 6, 2013, pp. 1115–24, doi:10.1109/TEMC.2013.2247610.
APA
Gazda, C., Vande Ginste, D., Rogier, H., Couckuyt, I., Dhaene, T., Stijnen, K., & Pues, H. (2013). Harmonic balance surrogate-based immunity modeling of a nonlinear analog circuit. IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY, 55(6), 1115–1124. https://doi.org/10.1109/TEMC.2013.2247610
Chicago author-date
Gazda, C, Dries Vande Ginste, Hendrik Rogier, Ivo Couckuyt, Tom Dhaene, K Stijnen, and H Pues. 2013. “Harmonic Balance Surrogate-Based Immunity Modeling of a Nonlinear Analog Circuit.” IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY 55 (6): 1115–24. https://doi.org/10.1109/TEMC.2013.2247610.
Chicago author-date (all authors)
Gazda, C, Dries Vande Ginste, Hendrik Rogier, Ivo Couckuyt, Tom Dhaene, K Stijnen, and H Pues. 2013. “Harmonic Balance Surrogate-Based Immunity Modeling of a Nonlinear Analog Circuit.” IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY 55 (6): 1115–1124. doi:10.1109/TEMC.2013.2247610.
Vancouver
1.
Gazda C, Vande Ginste D, Rogier H, Couckuyt I, Dhaene T, Stijnen K, et al. Harmonic balance surrogate-based immunity modeling of a nonlinear analog circuit. IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY. 2013;55(6):1115–24.
IEEE
[1]
C. Gazda et al., “Harmonic balance surrogate-based immunity modeling of a nonlinear analog circuit,” IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY, vol. 55, no. 6, pp. 1115–1124, 2013.
@article{4399397,
  abstract     = {{A novel harmonic balance surrogate-based technique to create fast and accurate behavioral models predicting, in the early design stage, the performance of nonlinear analog devices during immunity tests is presented. The obtained immunity model hides the real netlist, reduces the simulation time, and avoids expensive and time-consuming measurements after tape-out, while still providing high accuracy. The model can easily be integrated into a circuit simulator together with additional subcircuits, e.g., board and package models, as such allowing to efficiently reproduce complete immunity test setups during the early design stage and without disclosing any intellectual property. The novel method is validated by means of application to an industrial case study, being an automotive voltage regulator, clearly showing the technique's capabilities and practical advantages.}},
  author       = {{Gazda, C and Vande Ginste, Dries and Rogier, Hendrik and Couckuyt, Ivo and Dhaene, Tom and Stijnen, K and Pues, H}},
  issn         = {{0018-9375}},
  journal      = {{IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY}},
  keywords     = {{CONDUCTED ELECTROMAGNETIC DISTURBANCES,IBCN,INTEGRATED-CIRCUITS,NEURAL-NETWORKS,INJECTION,SUSCEPTIBILITY,Direct power injection (DPI) test,harmonic balance,immunity model,surrogate modeling,voltage regulator}},
  language     = {{eng}},
  number       = {{6}},
  pages        = {{1115--1124}},
  title        = {{Harmonic balance surrogate-based immunity modeling of a nonlinear analog circuit}},
  url          = {{http://doi.org/10.1109/TEMC.2013.2247610}},
  volume       = {{55}},
  year         = {{2013}},
}
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