SPICE - A guide to circuit simulation and analysis using PSpice. Computer-aided analysis and design is fast becoming a required skill for today’s electronic engineers/technicians. SPICE is often the tool of choice. However because it runs on a mainframe or VAX-class computer, it must usually be learned at the PC level using the PSpice simulator. This volume provides a time-and-effort-saving introduction to the PSpice simulator as a requisite for moving to SPICE. The author introduces SPICE simulation; considers DC and AC circuits; outlines semiconductor devices modelling; explores digital logic circuits; and considers difficulties.

References in zbMATH (referenced in 21 articles , 2 standard articles )

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  1. Pourgholi, Mahdi; Boroujeni, Elham Amini: An iterative LMI-based reduced-order observer design for fractional-order chaos synchronization (2016)
  2. Toscano, L.; Stella, S.; Milotti, E.: Using graph theory for automated electric circuit solving (2015)
  3. Kandić, D.B.; Reljin, B.D.; Reljin, I.S.: Electrical network functions of common-ground uniform passive RLC ladders and their Elmore’s delay and rise times (2013)
  4. Vasilescu, Gabriel; Chen, Luonan: Spice simulation of intracellular transport: free diffusion (2011)
  5. Zhang, Xiaoming; Peng, Jianhua: Amplitude death in conjugate variable coupled nonidentical chaotic systems (2011)
  6. Kumngern, Montree; Dejhan, Kobchai: A BJT technology-based current-mode square rooting circuits (2010)
  7. Radwan, A.G.; Soliman, A.M.; Elwakil, A.S.: Design equations for fractional-order sinusoidal oscillators: four practical circuit examples (2008)
  8. Li, Enying; Wen, Guilin; Li, Guangyao: Hopf bifurcation of Hénon map analysis and circuit implementation based on PSpice (2007)
  9. Moschytz, George S.: A comparison of continuous-time active RC filters for the analog front end (2007)
  10. Radwan, A.; Soliman, A.M.; Elwakil, A.S.: 1D digitally-controlled multiscroll chaos generator (2007)
  11. Kiliç, Recai: Experimental modifications of VOA-based autonomous and nonautonomous Chua’s circuits for higher dimensional operation (2006)
  12. Kiliç, Recai; Saraçoğlu, Ö. Galip; Yildirim, Fatma: A new nonautonomous version of Chua’s circuit: Experimental observations (2006)
  13. Tamaševičius, A.; Mykolaitis, G.; Bumelienė, S.; Baziliauskas, A.; Krivickas, R.; Lindberg, E.: Chaotic Colpitts oscillator for the ultrahigh frequency range (2006)
  14. Alhama, Francisco; Campo, Antonio; Zueco, Joaquín: Numerical solution of the heat conduction equation with the electro-thermal analogy and the code PSPICE (2005)
  15. Thamilmaran, K.; Senthilkumar, D.V.; Lakshmanan, M.; Ishaq Ahamed, A.: Strong chaos in a forced negative conductance series LCR circuit (2005)
  16. Urquia, A.; Martin, C.; Dormido, S.: Design of SPICELib: a Modelica library for modeling and analysis of electric circuits (2005)
  17. Włodarski, Zdzisław: Modelling dynamic hysteresis loops and iron losses by the use of equivalent circuits (2005)
  18. Yildirim, Fatma; Uzunhisarcikli, Esma; Kiliç, Recai; Alçi, Mustafa: Experimental verification of high frequency performance of FTFN-based simple chaotic circuit (2005)
  19. Flores, Juan: Complex fans: A representation for vectors in polar form with interval attributes (1999)
  20. Horno, J.; González-Fernández, C.F.; Hayas, A.: The network method for solutions of oscillating reaction-diffusion systems (1995)

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