Details Details PDF BIBTEX RIS Title Computer-Aided Multi-Layer Design of Switch-Mode Power Circuits Journal title International Journal of Electronics and Telecommunications Yearbook 2010 Volume vol. 56 Issue No 3 Authors Wojciechowski, Jacek ; Modzelewski, Juliusz ; Ogrodzki, Jan ; Opalski, Leszek ; Zamłyński, Krzysztof Divisions of PAS Nauki Techniczne Publisher Polish Academy of Sciences Committee of Electronics and Telecommunications Date 2010 Identifier DOI: 10.2478/v10177-010-0041-0 ; eISSN 2300-1933 (since 2013) ; ISSN 2081-8491 (until 2012) Source International Journal of Electronics and Telecommunications; 2010; vol. 56; No 3 References Abu-Qahouq J. (2002), Unified steady-state analysis of softswitching DC-DC converters, IEEE Transactions on Power Electronics, 17, 5, 684. ; del-Aguila-Lopez D. (2007), A discrete-time technique for the steady-state analysis of nonlinear class-E amplifiers, IEEE Transactions on Circuits and Systems I: Regular Papers, 54, 6, 1358. ; Basso Ch. (2008), Switch-mode power supplies: Spice simulations and practical designs. ; Bedrosian D. (1992), Time-domain analysis of networks with internally-controlled switches, IEEE Transactions on Ciruits and System I: Fundamental Theory and Applications, 39, 3, 199. ; Bedrosian D. (1992), An accelerated steady-state method for networks with internally controlled switches, IEEE Transactions on. Circuits and Systems I: Fundamental Theory and Applications, 39, 7, 520. ; Ben-Yaakov S. (1993), Average simulation of PWM converters by direct implementation of behavioral relationships, null, 510. ; Bukowski M. (1995), Steady-state time-domain analysis of nonlinear circuits with periodic input via secant method, null, 135. ; Burdio J. (1995), A unified discrete-time state-space model for switching converters, IEEE Transactions on Power Electronics, 10, 6, 694. ; Celik M. (1996), A new method for the steady-state analysis of periodically excited nonlinear circuits, IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications, 43, 12, 964. ; Chan C. (1992), A fast and exact time-domain simulation of switched mode power regulators, IEEE Transactions on. Industrial. Electronics, 39, 4, 341. ; Chudobiak W. (1969), Frequency and power limitations of Class-D transistor amplifiers, IEEE J. Solid State Circuits, SC-4, 1, 25. ; Chung H. (1994), Fast computer-aided simulation of switching power regulators based on progressive analysis of the switches' state, IEEE Transactions on Power Electronics, 9, 2, 206. ; Contreras-Sampayo J. (2001), Steadystate algorithm for switching power electronic devices, IEE Proceedings Electric Power Applications, 148, 2, 245. ; Dalaci K. (2004), The design of a push-pull switch-mode power supply for AC drives, null, 2, 1201. ; B. De Kelper (2002), A comprehensive approach to fixed-step simulation of switched circuits, IEEE Transactions on Power Electronics, 17, 2, 216. ; Femia N. (1995), Internal analysis in power electronics, Journal of Ciruits, Systems, and Computers, 5, 3, 317. ; Femia N. (2002), Steady-State analysis of soft-switching converters, IEEE Transactions on Circuit and. Systems I: Fundamental Theory and Applications, 49, 7, 939. ; Femia N. (2003), Steady-state analysis of PWM DC-to-DC regulators, IEEE Transactions on Aerospace and Electronic Systems, 39, 1, 318. ; Guinjoan F. (1997), Large-signal modeling and simulation of switching DC-DC converters, IEEE Transactions on Power Electronics, 12, 3, 485. ; Hua G. (1994), Novel zero-current transition PWM converters, IEEE Transactions on Power Electronics, 9, 6, 601. ; <i>IRF Hexfet Power MOSFETs</i>, International Rectifier, USA, 2010. Available at: <a target="_blank" href='http://www.irf.com'>www.irf.com</a> ; Kato T. (1993), Efficient steady state analysis method with sensitivities of switch timings by the shooting method, null, 550. ; Kato T. (1994), Multi-rate transient analysis of power electronic circuits by the envelope-following method with sensitivities of switch timings, null, 2, 1277. ; Kato T. (1997), Periodic steady-state analysis by a modified shooting method for a power electronic circuit, null, 367. ; Kazimierczuk M. (1995), Resonant power converters. ; Kazimierczuk M. (2008), RF Power Amplifiers. ; Kessler D. (2004), Power losses and efficiency of class-E power amplifier at any duty ratio, IEEE Transactions on Circuits and Systems I: Regular Papers, 51, 9, 1675. ; Kundert K. (1990), Steady-state methods for simulating analog and microwave circuits, doi.org/10.1007/978-1-4757-2081-5 ; Li D. (1998), A comparison of steady-state methods for power electronic circuits, null, 2, 1084. ; Lizhong Z. (1995), Analysis and steady-state of nonlinear networks with ideal switches, IEEE Transactions on Circuits and System I: Fundamental Theory and Applications, 42, 4, 212. ; Luciano A. (1990), A fast time-domain algorithm for the simulation of switching power converters, IEEE Transactions on Power Electronics, 5, 3, 363. ; Maksimović D. (1991), Switching converters with wide DC conversion range, IEEE Transactions on Power Electronics, 6, 1, 151. ; Maksimovic D. (1997), Automated steady-state analysis of switching power converters using a general-purpose simulation tool, null, 2, 1352. ; Massarini A. (1997), Analysis of networks with ideal switches by state equations, IEEE Transactions on Circuits and System I: Fundamental Theory and Applications, 44, 8, 692. ; <i>SimPowerSystems 4 User Guide</i>, The Mathworks, Inc., Massachusettts, 2007. ; Modzelewski J. (2002), Power supply problems of class-D and class-DE high-frequency tuned power amplifiers, null, 325. ; Mrcarica Z. (1999), Time-domain analysis of nonlinear switched networks with internally controlled switches, IEEE Transactions on Circuit and. Systems I: Fundamental Theory and Applications, 46, 3, 373. ; Nakahara M. (1997), A fast computer algorithm for switching converters, IEEE Transactions on Power Electronics, 12, 1, 180. ; Ogrodzki J. (1994), Circuit simulation methods and algorithms. ; Ogrodzki J. (1999), The charge-flux method in simulation of first kind switched circuits, null, 475. ; J. Ogrodzki, M. Skowron, J. Wojciechowski, L. J. Opalski, M. Bukowski, J. Modzelewski, and K. Zamłyński, "SWITCH-1. Prototype circuit simulator for switch-mode circuits. Users Guide", Technical Report, Warsaw University of Technology, Warsaw, Poland, 1999. ; J. Ogrodzki, "OPTIMA version 2.0e - Users Guide", Technical Report, Warsaw University of Technology, Warsaw, 1995. ; Opal A. (1990), Consistent initial conditions of linear switched networks, IEEE Transactions on Circuits and Systems, 37, 3, 364. ; Opalski L. (1992), GOSSIP- a generic system for statistical circuit design, null, 572. ; Pala-Schonwalder P. (1995), A discrete-time approach to the steady-state analysis and optimization of non-linear autonomous circuits, International Journal of Circuit Theory and Applications, 23, 297. ; Pejović P. (1994), A method for fast time-domain simulation of networks with switches, IEEE Transactions on Power Electronics, 9, 4, 449. ; Pejović P. (1995), A new algorithm for simulation of power electronic systems using piecewise-linear device models, IEEE Transactions on Power Electronics, 10, 3, 340. ; <i>PSPICE - Circuits Analysis Reference Manual, ver. 8.0</i>, MicroSim Corp., July 1997. ; Shirsavar A. (2004), Teaching practical design of switch-mode power supplies, IEEE Trans. Education, 47, 4, 467. ; <i>SPECTRE Users Guide</i>, Cadence Design System, 1997. ; <i>STM Transistor Families</i>, ST Microelectronics, Available at: <a target="_blank" href='http://www.st.com'>www.st.com</a> ; Suetsugu T. (2004), Analysis and design of class E amplifier with shunt capacitance composed of nonlinear and linear capacitances, IEEE Transactions on Circuits and Systems I: Regular Papers, 51, 7, 1261. ; Tabrizi M. (2004), High frequency class E switch-mode power amplifier design and optimization with random search algorithm, null, 283. ; Trevisio C. (1994), A ZVS-ZCS-PWM self-resonant DC-DC sepic converter, null, 1, 176. ; Tseng C. (1998), On the ZVT-PWM Cuk converter, IEEE Transactions on. Industrial. Electronics, 45, 4, 674. ; Tse K. (1999), Quadratic state-space modeling technique for analysis and simulation of power electronic converters, IEEE Transactions on Power Electronics, 14, 6, 1086. ; Valsa J. (1995), SWANN - A programme for analysis of switched analogue non-linear networks, International Journal of Circuit Theory and Applications, 23, 369. ; Vlach J. (1995), Analysis of nonlinear networks with inconsistent initial conditions, IEEE Transactions on Circuit and. Systems I: Fundamental Theory and Applications, 42, 4, 195. ; Vlach J. (1997), Modern CAD methods for analysis of switched networks, IEEE Transactions on Circuit and. Systems I: Fundamental Theory and Applications, 44, 8, 759. ; E. Ven den Ejinde (1990), Steady-state analysis of a periodically excited nonlinear system, IEEE Transactions on Circuit and. Systems, 37, 2, 232. ; Vorpérian V. (1988), Quasisquare-wave converters: Topologies and analysis, IEEE Transactions on Power Electronics, 3, 2, 183. ; Wang Q. (1996), A waveform-relaxation technique for steadystate initialization of circuits with nonlinear elements and ideal diodes, IEEE Transactions on. Power Delivery, 11, 3, 1437. ; White J. (1991), An envelope-following approach to switching power converter simulation, IEEE Transactions on Power Electronics, 6, 2, 303. ; Wilson T. (1988), Life after the schematic: The impact of circuit operation on the physical realization of electronic power supplies, Proceedings of the IEEE, 76, 4, 325. ; Wong B. (1997), A general-oriented simulation technique for power electronic systems using quadratic branch voltage extrapolation, IEEE Transactions on Industrial Electronics, 44, 4, 492. ; Wong B. (1998), Steady-state analysis of PWM DC/DC switching regulators using iterative cycle time-domain simulation, IEEE Transactions on Industrial Electronics, 45, 3, 421. ; Wong B. (1999), Dual loop iteration algorithm for steady-state determination of current-programmed DC/DC switching converters, IEEE Transactions on Circuit and. Systems I: Fundamental Theory and Applications, 46, 4, 521. ; Wojciechowski J. (1998), Symbolic large-signal analysis of switched circuits, Circuits, Systems, and Signal Processing Journal, 17, 3, 321. ; Wu M. (1998), Development of an integrated CAD tools for switching power supply design with EMC performance evaluation, IEEE Transactions on Industry Applications, 34, 2, 364. ; Yaskiv V. (2001), The new methods of switch-mode power supply designing for computer facilities, null, 87. ; Yuan F. (2003), Computer methods for switched circuits, IEEE Transactions on Circuit and. Systems I: Fundamental Theory and Applications, 50, 8, 1013. ; Zamłyński K. (1994), Electrothermal analysis of ICs, null, 17. ; Zamłyński K. (1998), Idealized models of switches for SPICE and OPTIMA simulation of circuits with internally controlled elements, null, 287.