Journal ArticleDOI
Microcontroller Power Mode Stabilized Power Factor Correction Stage for High Intensity Discharge Lamp Electronic Ballast
TLDR
In this article, a two-stage ballast system with a power factor correction (PFC) and a resonant inverter for high-intensity discharge lamps is presented, which includes a microcontroller whose proposed algorithm implements a power loop and a voltage loop, both to control the PFC, and generates the transistor drive signals of the RI.Abstract:
This paper presents new design considerations and a control strategy for a two-stage ballast system; power factor correction (PFC) and resonant inverter (RI), for high intensity discharge lamps. The ballast includes a microcontroller whose proposed algorithm implements a power loop and a voltage loop, both to control the PFC, and generates the transistor drive signals of the RI. The power loop adjusts the lamp power in steady state and the voltage loop controls the PFC during the ignition and warm-up time. System stability is studied to verify that the PFC stage provides the ballast with the required stability in long and medium term, while the short term stability is assured by the high output impedance of the LCC inverter, operating in open loop at constant switching frequency. The resulting performance of the ballast shows improvements in ignition repeatability, warm-up time reduction, robustness of the resonant inverter operation, and simple and accurate power control, including dimming operationread more
Citations
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Journal ArticleDOI
Dimming of High-Brightness LEDs by Means of Luminous Flux Thermal Estimation
TL;DR: In this article, an estimator of the luminous flux emitted by an LED is defined based on the characterization of the LEDs, and the estimator provides the flux value from only two temperature values (the case temperature and ambient temperature).
Journal ArticleDOI
Novel Single-Stage Self-Oscillating Dimmable Electronic Ballast With High Power Factor Correction
Jen-Cheng Hsieh,J Lin +1 more
TL;DR: A novel self-oscillating electronic ballast with dimming capability and high power factor correction (PFC) is proposed in this paper, which integrates a buck-boost PFC stage with a half-bridge LCC series-parallel resonant inverter.
Proceedings ArticleDOI
Electronic driver without electrolytic capacitor for dimming High Brightness LEDs
TL;DR: In this paper, a dc-to-dc converter is used to drive an assembly of high-brightness LEDs, based on a new dc to dc converter, operating with a peak current control, keeping the current through the LEDs constant independently of the bus voltage.
Journal ArticleDOI
Digital Control of a Low-Frequency Square-Wave Electronic Ballast With Resonant Ignition
TL;DR: Digital control is utilized as a simple solution to achieve multimode control, including resonant lamp ignition, LFSW transitions, and lamp current and power regulation.
Journal ArticleDOI
Active Virtual Ground—Bridgeless PFC Topology
TL;DR: In this article, a bridgeless power factor correction (PFC) topology using a recently proposed controllable LCL filter, namely active virtual ground to achieve efficient power conversion, and high-frequency common mode voltage reduction.
References
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Book
Resonant Power Converters
TL;DR: In this article, the authors present the following classes of converters: 1) Current-Driven Rectifiers, 2) Voltage driven rectifiers, 3) Parallel Resonant Inverters, 4) Series Resonant Converters, and 5) Controlled Resonant Induction Converters.
Journal ArticleDOI
Approximate small-signal analysis of the series and the parallel resonant converters
TL;DR: In this article, approximate transfer functions of series and parallel resonant converters are given which are in good agreement with the results of exact analysis as well as the results obtained in experiments, and it is shown that the dominant behavior of these transfer functions is determined by the output low-pass filter modified by the internal impedance of the converter.
Journal ArticleDOI
Small-signal analysis of frequency-controlled electronic ballasts
TL;DR: In this article, a modified phasor transformation is proposed that converts a frequency-modulated signal into an equivalent time-varying PHASOR model of the LCC resonant ballast, which explicitly models the effect of the frequency modulation on the envelopes of the outputs and facilitates ac analysis of the ballast in addition to envelope transient simulation, and is verified through comparison of experimental and simulation results.
Journal ArticleDOI
Power-mode-controlled power-factor corrector for electronic ballast
TL;DR: This paper proposes that the PFC section is to provide the power stability of the system while the inverter section operates in open loop, and the power variation in the lamp caused by its aging is prevented.
Journal ArticleDOI
Design of LC/sub p/C/sub s/ resonant inverters as a power source for HID lamp ballast applications
TL;DR: In this paper, a new criterion for the design of resonant inverters for driving high-intensity-discharge (HID) lamps is presented, which behaves almost as a power source.