Output Current Ripple Reduction of LED Driver Using Ceramic-Capacitor-Input Circuit and Buck-Boost Converter

Kadota, Mitsuhiro; Hirano, Shoji; Hatakeyama, A.; Wãda, Keiji

doi:10.1541/ieejias.139.806

IEEJ Trans. IA

2019

DOI: 10.1541/ieejias.139.806

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Output Current Ripple Reduction of LED Driver Using Ceramic-Capacitor-Input Circuit and Buck-Boost Converter

Mitsuhiro Kadota

Shoji Hirano

A. Hatakeyama³

et al.

Abstract: This article proposes an LED driver that consists of a ceramic-capacitor-input rectifier and a buck-boost converter. The LED driver has an advantage of long life because it does not contain any electrolytic capacitors. However, the issue with electrolytic capacitor-less LED driver is that the ripple of the smoothed voltage becomes large due to insufficient capacitance of the smoothing capacitor. The proposed method, which uses the discontinuous current mode of a buck-boost converter, reduces the output current… Show more

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2022

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Stochastic Optimization Approach for Current Channel Arrangement of LED Lights Fed by AC Direct LED Drivers

Enayati¹,

Yousefi²,

Asadpour-Ahmadchal³

2022

EEENG

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Background: Because of significant challenges in locating conventional drivers into luminaires, and also cost issues a noticeable attitude toward AC direct LED drivers has been shaped. Nevertheless, multiplicity of target parameters like output lumen, efficacy in lumen per watt, power consumption, PF, THD and so on limits designers to select optimal design of LED modules applying AC direct LED drivers. Methods: The most crucial issue in the design phase is selecting Optimal Number of LEDs in Current Channels (ONLCC) fed by AC direct driver. The main contribution of the paper is utilizing an optimization method based on a stochastic search to optimize the aforementioned parameters. Results: The parameters to be optimized are inserted into the predefined objective functions. Different case studies conducted in the presented work show that the proposed method finds the optimal parameters while the objective function is minimized. Such a paradigm can save time spent in the design phase. Furthermore, a stability study is conducted to explore the stochastic search capability in solving the ONLCC problem. Conclusion: The obtained results from the simulation are supported by practical tests. All the validation tests in practice are conducted in the electro-optics laboratory of the Mazinoor lighting industry.

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Stochastic Optimization Approach for Current Channel Arrangement of LED Lights Fed by AC Direct LED Drivers

Enayati¹,

Yousefi²,

Asadpour-Ahmadchal³

2022

EEENG

View full text Add to dashboard Cite

show abstract

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Output Current Ripple Reduction of LED Driver Using Ceramic-Capacitor-Input Circuit and Buck-Boost Converter

Cited by 1 publication

References 15 publications

Stochastic Optimization Approach for Current Channel Arrangement of LED Lights Fed by AC Direct LED Drivers

Stochastic Optimization Approach for Current Channel Arrangement of LED Lights Fed by AC Direct LED Drivers

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