Journal of VLSI Design Tools & Technology (JoVDTT)

A Zero Voltage Switching (ZVS) based Resonant Converter (RC) has been simulated and the performance
is analyses in this paper. A ZVS based resonant converter working under load independent output voltage and no-
load regulation is presented in the paper.Pulse width modulation (PWM) is a technology used to regulate output
voltage. The major transitions of a full-bridge converter that achieves zero-voltage switching across the whole line
and load range by using a linked inductor are detailed. The associated inductor doesn't considerably shorten the
duty cycle or trigger voltage ringing across the output rectifier since it doesn't truly show as a series inductance
throughout the load current routing.The outcome of the converter is devoid from disturbances, as shown by the
PSPICE simulation, and these converters could be utilizedfor a variety of airborne operations.

Yungtaek Jang, Milan M. Jovanovic, and Yu-Ming Chang, “A New ZVS-PWM Full-Bridge Converter,” IEEE Transactions on Power

Electronics, VOL. 18, NO. 5, SEPTEMBER 2003.

C.Nagarajan and, M.Madheswaran, “Analysis and Simulation of LCL Series Resonant Full Bridge Converter Using PWM Technique

with Load Independent Operation” ICTES’08, a Inter National conference. vol. 1, pp. 199-207,( Dec.2007).

R. Ayyanar and N. Mohan, “Novel soft-switching dc–dc converter with full ZVS-range and reduced filter requirement—Part I:

Regulated-output applications,” IEEE Trans. Power Electron., vol. 16, pp. 184–192,( Mar.2001).

Apeldoorn, O., and Schmidt, P. Single transistor three-phase power conditioner with highpower factor and isolated output.In IEEE

APEC Record, pp.731–737, (1994).

C.Nagarajan, M.Muruganandam and D.Ramasubramanian – ‘Analysis and Design of CLL Resonant Converter for Solar Panel -

Battery systems- International Journal of Intelligent systems and Applications (IJISA), Vol.5 (1),pp.52-58, 2013

Thangaraju, M. Muruganandam and C. Nagarajan ,- ‘Implementation of PID Trained Artificial Neural Network Controller for

Different DC Motor Drive’ Middle-East Journal of Scientific Research,Vol. 23 (4), 606-618, 2015

C.Nagarajan and M.Madheswaran - ‘Experimental Study and steady state stability analysis of CLL-T Series Parallel Resonant

Converter with Fuzzy controller using State Space Analysis’- Iranian Journal of Electrical & Electronic Engineering, Vol.8 (3),

pp.259-267, September 2012

Raju, G. S. N., and Doradla, S., “An LCL resonant converter with PWM control analysis,simulation, and implementation,” IEEE

Trans. Power Electron., Vol. 10, No. 2, pp. 164–174,March 1995.

Bhat, A. K. S., “Analysis and design of LCL-type series resonant converter,” 12th InternationalTelecommunications Energy

Conference, 1990 (INTELEC ’90), pp. 172–178, Orlando, FL, 21–25 October 1990.

Belaguli, V., and Bhat, A. K. S., “Series-parallel resonant converter operating in discontinuouscurrent mode-analysis, design,

simulation, and experimental results,” IEEE Trans. CircuitsSyst. I: Fundam. Theory Appl., Vol. 47, No. 4, pp. 433–442, April 2000.

Borage, M., Tiwari, S., and Kotaiah, S., “LCL-T resonant converter with clamp diodes: Anovel constant-current power supply with

inherent constant-voltage limit,” IEEE Trans. Indust.Electron., Vol. 54, No. 2, pp. 741–746, April 2007.

Borage, M., Tiwari, S., and Kotaiah, S., “Analysis and design of an LCL-T resonant converteras a constant-current power supply,”

IEEE Trans. Indust. Electron., Vol. 52, No. 6, pp. 1547–1554, December 2005.

Borage, M. B., Nagesh, K. V., Bhatia, M. S., and Tiwari, S.,“Characteristics and design of anasymmetrical duty-cycle-controlled

LCL-T resonant converter,” IEEE Trans. Power Electron.,Vol. 24, No. 10, pp. 2268–2275, October 2009.