2018
DOI: 10.11591/ijpeds.v9.i4.pp1718-1724
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A Single Switch Parallel Quasi Resonant Converter Topology for Induction Heating Application

Abstract: In this paper 32 KHZ Single phase Single switch Parallel Resonant converter topology (SSPR) using power MOSFET is simulated using MATLAB simulink for the different duty cycle and the THD, Power with respect to change in duty cycle is compared . The workingcoil is the combination of R, L in parallel with C which produces the output power of 1.7KW to 3KW with variation in duty cycle at higher value in duty cycle we get less THD and more power. The operating frequency is selected nearer to the resonant frequency … Show more

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Cited by 16 publications
(6 citation statements)
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“…There are many soft-switching converters (SSCs) that have been developed successfully in the last few decades. These converters have enabled power semiconductor devices in switch-mode power supplies (SMPS) to operate at preferred conditions, consequently resulting in better performance, high power density, and efficiency (Moradisizkoohi and Mohammed, 2017;Geetha et al, 2018). In general, the SSCs can be grouped into three different families according to their operating principles (Outeiro and Buja, 2015): (1) quasi RCs (QRCs) and multi RCs (MRCs) (Liu et al, 1987;Moradisizkoohi and Mohammed, 2017;Geetha et al, 2018), (2) resonant-transition converters (RTCs) (Tuomainen and Kyyra, 2005;Martins et al, 2006), and (3) RPCs.…”
Section: Resonant Power Convertersmentioning
confidence: 99%
“…There are many soft-switching converters (SSCs) that have been developed successfully in the last few decades. These converters have enabled power semiconductor devices in switch-mode power supplies (SMPS) to operate at preferred conditions, consequently resulting in better performance, high power density, and efficiency (Moradisizkoohi and Mohammed, 2017;Geetha et al, 2018). In general, the SSCs can be grouped into three different families according to their operating principles (Outeiro and Buja, 2015): (1) quasi RCs (QRCs) and multi RCs (MRCs) (Liu et al, 1987;Moradisizkoohi and Mohammed, 2017;Geetha et al, 2018), (2) resonant-transition converters (RTCs) (Tuomainen and Kyyra, 2005;Martins et al, 2006), and (3) RPCs.…”
Section: Resonant Power Convertersmentioning
confidence: 99%
“…Their effectiveness is reliant on the reliability of the input voltage [1]. Grid power quality problems can occur when machinery is supplied either directly by the utility or through adjustable speed drives (ASD) [2]. As a result, avoiding overheating and subpar performance by keeping the voltage at rated can reduce costs and negative effects on the environment.…”
Section: Introductionmentioning
confidence: 99%
“…Thus the new bridgeless PFC converter is introduced to reach 98%of efficiency and 0.99 power factors. The benefit of using this bridgeless converter is only two switches are used and in turn the conduction loss is lesser, control circuit is simple, overall efficiency holds high [1], [2], [6].the different topologies are CUK,SEPIC,ZETA are controlling the DC voltage with only one switch which improves the power quality in AC mains [3].The low power factor and high THD of the power semiconductor is discussed in [4], [5].The DC-DC Resonant converter for PFC using Half Bridge technique [7], [8].The Continuous Conduction Mode of Bridgeless SEPEIC Converter uses the Power Factor Correction Rectifier [9]. SRF Theory using active power filter for renewable energy in [10], quasi resonant converter with single switch and two stage quasi z source DC-DC converter technique discussed in [11], [12] resonant converter using hybrid switching scheme for DC -DC converter [13].…”
Section: Introductionmentioning
confidence: 99%