A compact electrolytic-free two-stage universal input offline LED driver

Pervaiz, Saad; Kumar, Ashish; Afridi, Khurram K.

doi:10.1109/apec.2016.7468201

Cited by 9 publications

(1 citation statement)

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“…The output filter components are L o = 150 µH and C o = 3.3 µF. The use of electrolytic capacitors, even in the power factor correction stage, is avoided in order to achieve high circuit reliability [12]. The resonant inverter stage was implemented using IRF840LC MOSFET transistors.…”

Section: Resultsmentioning

confidence: 99%

Two-Phase Resonant Converter to Drive High-Power LED Lamps

et al. 2019

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This paper presents the design and modeling of a two-phase resonant converter that drives a LED lamp with a high-frequency pulsed current free of instabilities and flicker effect, fulfilling the recommendations of the IEEE PAR 1789-2015, so that it enables visible light-based communication at a 10 kB/s bit rate. The dynamic study of the converter takes into consideration the effect of the reflected impedance of the output filter on the AC side. In order to evaluate the dynamic response of the converter, a Spice model is defined. A 120 W prototype intended for street lighting applications has been built to validate the analysis and modeling.Electronics 2020, 9, 53 2 of 13 obtained from the envelope model of the converter. The experimental validation of the model is presented in Section 4, finalizing with the discussion of the results. Two-Phase Series-Parallel Resonant ConverterThe two-phase series-parallel (LC s C p ) resonant converter [8], shown in Figure 1, consists of the resonant inverter stage loaded by a center tap rectifier [9].Electronics 2019, 8, x FOR PEER REVIEW 2 of 13 model is obtained from the envelope model of the converter. The experimental validation of the model is presented in Section 4, finalizing with the discussion of the results. Two-phase Series-parallel Resonant ConverterThe two-phase series-parallel (LCsCp) resonant converter [8], shown in Figure 1, consists of the resonant inverter stage loaded by a center tap rectifier [9].

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Section: Resultsmentioning

confidence: 99%