Design and Implementation of 150 W AC/DC LED Driver with Unity Power Factor, Low THD, and Dimming Capability

Tung, Ngo Thanh; Tuyen, Nguyen Duc; Huy, Nguyen Minh; Phong, Nguyen Hoai; Cuong, Ngo Cao; Phương, Lê Minh

doi:10.3390/electronics9010052

Cited by 12 publications

(14 citation statements)

References 29 publications

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“…The input capacitor C in is useful for further improvement of the input power factor. The use of a power factor correction capacitor C in is a standard method used in the magnetic ballast in the case of fluorescent lamps [18].…”

Section: Passive Drive Circuitsmentioning

confidence: 99%

Passive and Active Topologies Investigation for LED Driver Circuits

Musumeci¹

2021

Light-Emitting Diodes and Photodetectors - Advances and Future Directions [Working Title]

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In this chapter, a survey of LED driver circuits is presented. The driver circuit is a crucial component in the LED light system. It provides the correct voltage and current values for the best brightness and long life. Furthermore, the driver circuits contribute to obtaining high efficiency and reliability light system. Several lighting applications need different driver topologies that meet the use requirement and the energy sources available. In actual applications, passive and active circuits are implemented to satisfy the LED driver electrical requirements and cost-effective demands. The LED driver circuits investigation evaluate the issues and the solutions in the LED lighting systems connected to a DC source such as a battery or AC line. The AC line connection requisites such as the power factor correction and the harmonic distortion are dealt with both the driver topology and control optimization. Also, the volume reduction need is examined in the circuitry choice. Moreover, the different topologies of the power converters isolated and not isolated used in the driver circuits based on both the power request and supply source are described and critically evaluated.

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Section: Passive Drive Circuitsmentioning

confidence: 99%

Passive and Active Topologies Investigation for LED Driver Circuits

Musumeci¹

2021

Light-Emitting Diodes and Photodetectors - Advances and Future Directions [Working Title]

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“…Due to the fact that single-phase ac mains is the primary power supply in homes, offices, streets, etc., ac-dc LED drivers are required to ensure good performance and compliance with regulations (i.e., efficiency, rated life-time hours, harmonic injection, dimming performance and flicker free operation). Paper [7] presents a very practical approach to the classic two-stage solution for ac-dc LED drivers using commercial ICs. The first stage is a boost converter (i.e.…”

Section: The Present Issuementioning

confidence: 99%

Latest Developments in LED Drivers

Lamar

2020

Electronics

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“…Power Factor General aspects about power quality, power factor and harmonic distortion in electrical systems [1][2][3][4][5][6][7] Converters PFC Provision of a general description of PFC converters, cascade buck-boost,Ćuk converter, flyback circuit, and boost converter [6,[8][9][10][10][11][12] Fuzzy logic control PFC converter control using fuzzy logic in the application to supply power to a fed brushless DC motor [13] Predictive control Predictive control application for PFC converters, the system calculates the future value of the duty cycle [11,14] Digital Controller It shows a brief review of different applications of converters using digital controllers [15][16][17][18][19][20] LED applications Application of PFC converters for LED lighting using full-bridge and half-bridge rectifiers [21][22][23] Photovoltaic applications Description of the application of PFC converters in photovoltaic systems [17,24] Voltage Imbalance Describe main works related to the imbalance in half-bridge rectifiers. This issue is addressed in this work [25][26][27][28] Power Factor Correction This article focuses on showing that the proposed topology allows the reduction of the capacitor imbalance in a half-bridge boost converter.…”

Section: Topic Description Referencesmentioning

confidence: 99%

“…The inductors coupled in the interleaved PFC buck-boost converter operate in discontinuous conduction mode to achieve PFC. Additional work can be seen in [23] that presents the implementation of a two-stage light-emitting diode driver. The LED driver circuit design drives a 150 W LED module.…”

Section: Introductionmentioning

confidence: 99%

Design, Analysis, and Implementation of an Equalizer Circuit for the Elimination of Voltage Imbalance in a Half-Bridge Boost Converter with Power Factor Correction

2020

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For the implementation of a boost converter, the half-bridge topology provides a simpler conversion circuit; however, the voltage imbalance between the capacitors is a critical factor since traditional control methodology decreases the power factor when correcting the imbalance. Consequently, this paper proposes a circuit to correct such imbalance keeping the power factor at the same time. Then, this work carries the analysis, simulation, and implementation of a strategy to reduce voltage imbalance in a half-bridge boost converter with correction of the power factor. The first part offers a description of the equalizer circuit; then, an average model is employed to perform the mathematical analysis. Later, a comparison via simulation is undertaken including other conventional converters in different scenarios. Moreover, an experimental laboratory setup is made; the results show that the equalizer circuit reduces voltage imbalance between the capacitors in a half-bridge booster converter.

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Design and Implementation of 150 W AC/DC LED Driver with Unity Power Factor, Low THD, and Dimming Capability

Cited by 12 publications

References 29 publications

Passive and Active Topologies Investigation for LED Driver Circuits

Passive and Active Topologies Investigation for LED Driver Circuits

Latest Developments in LED Drivers

Design, Analysis, and Implementation of an Equalizer Circuit for the Elimination of Voltage Imbalance in a Half-Bridge Boost Converter with Power Factor Correction

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