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Modeling of Hybrid Ultra-capacitors for Power Electronic Applications Using PSPICE/ORCAD™


Affiliations
1 Senior Research Fellow, Capacitors Division, CPRI, Bangalore- 560080, India
2 Addl. Director, Capacitors Division, Central Power Research Institute, Bangalore- 560080, India
     

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Hybrid ultra-capacitors are the integration of super capacitor and battery technologies. For performance improvement of a hybrid capacitor based system, accurate modeling is one of the requirements. Hybrid ultra-capacitor or Hybrid Capacitor (HUC) is modeled and then simulated from fundamental circuit of super capacitor with focus on leakage resistance parameter variation. Super Capacitor (SC) - MAXWELLTM 100F is simulated in its 5th order and simplified to 2nd order maintaining charge sustenance. All the simulations are performed for the first time in PSPICE/ORCADTM. The paper focuses on charging/ discharging capability of the model in time domain, such that the properties of high energy density, high power density and cycle life of the hybrid capacitors retain.

Keywords

Supercapcitor, hybrid ultra-capacitor, modeling, simulation, PSPICE/ORCADTM.
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  • Modeling of Hybrid Ultra-capacitors for Power Electronic Applications Using PSPICE/ORCAD™

Abstract Views: 197  |  PDF Views: 0

Authors

J. Pradeep Kumar Rao
Senior Research Fellow, Capacitors Division, CPRI, Bangalore- 560080, India
H. N. Nagamani
Addl. Director, Capacitors Division, Central Power Research Institute, Bangalore- 560080, India

Abstract


Hybrid ultra-capacitors are the integration of super capacitor and battery technologies. For performance improvement of a hybrid capacitor based system, accurate modeling is one of the requirements. Hybrid ultra-capacitor or Hybrid Capacitor (HUC) is modeled and then simulated from fundamental circuit of super capacitor with focus on leakage resistance parameter variation. Super Capacitor (SC) - MAXWELLTM 100F is simulated in its 5th order and simplified to 2nd order maintaining charge sustenance. All the simulations are performed for the first time in PSPICE/ORCADTM. The paper focuses on charging/ discharging capability of the model in time domain, such that the properties of high energy density, high power density and cycle life of the hybrid capacitors retain.

Keywords


Supercapcitor, hybrid ultra-capacitor, modeling, simulation, PSPICE/ORCADTM.



DOI: https://doi.org/10.33686/prj.v12i3.189325