Details

Title

Computer-Aided Multi-Layer Design of Switch-Mode Power Circuits

Journal title

International Journal of Electronics and Telecommunications

Yearbook

2010

Volume

vol. 56

Numer

No 3

Publication authors

Divisions of PAS

Nauki Techniczne

Description

International Journal of Electronics and Telecommunications (IJET, eISSN 2300-1933, untill 2013 also print ISSN 2081-8491) is a periodical of Electronics and Telecommunications Committee of Polish Academy of Sciences and it is published by Warsaw Science Publishers of PAS. It continues tradition of the Electronics and Telecommunications Quarterly (ISSN 0867-6747) established in 1955 as the Rozprawy Elektrotechniczne. The IJET is a scientific periodical where papers present the results of original, theoretical, experimental and reviewed works. They consider widely recognized aspects of modern electronics, telecommunications, microelectronics, optoelectronics, radioelectronics and medical electronics.

The authors are outstanding scientists, well‐known experienced specialists as well as young researchers – mainly candidates for a doctor's degree. The papers present original approaches to problems, interesting research results, critical estimation of theories and methods, discuss current state or progress in a given branch of technology and describe development prospects. All the papers published in IJET are reviewed by international specialists who ensure that the publications are recognized as author's scientific output.

The printed periodical is distributed among all those who deal with electronics and telecommunications in national scientific centers as well as in numeral foreign institutions, and it is subscribed by many specialists and libraries. Its electronic version is available at http://ijet.pl.

The papers received are published within half a year if the cooperation between author and the editorial staff is efficient. The papers may be submitted to the editorial office by the journal web page http://ijet.pl.

Publisher

Polish Academy of Sciences Committee of Electronics and Telecommunications

Date

2010

Identifier

ISSN 2081-8491 (until 2012) ; eISSN 2300-1933 (since 2013)

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.

DOI

10.2478/v10177-010-0041-0

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