Abstract
Utility voltage fluctuations not compensated by the low-frequency voltage loop of the power factor correction (PFC) stage cause a perceptible variation in the light emitted by lamps, unpleasant for the human eye and known as flicker effect. A novel extension of the digital control for PFC stages analyses the input voltage, detects the fluctuations in the range of human flicker sensitivity and modifies the PFC output voltage controller to avoid their propagation to the DC bus. The purpose of the controller is to make the PFC compatible with any second stage lamp driver, assuring the mitigation of the lamp light variation caused by utility disturbances in consistent with the human eye perception. The controller is implemented in a field programmable gate array. A constant lamp luminance is achieved with this digital controller with no dependence on the next ballast stage.
Highlights
Nowadays, the power conversion systems leverage the digital control capabilities to introduce more flexible power conversion strategies and increase the reliability
Laboratory experiments that illustrate the performance of the digital controller have been carried out with electronic ballast for a 150 W HPS lamp (LUCALOX)
Since the compensation of the utility fluctuation is carried out by the power factor correction (PFC) stage, it can be connected to other type of second stages and light sources [14], [15], [28] and [38]
Summary
The power conversion systems leverage the digital control capabilities to introduce more flexible power conversion strategies and increase the reliability. Designers have the choice between two main families of digital device technologies for fast prototyping. The first family [1]-[4] is associated to microcontrollers and Digital Signal Processor (DSP) controllers. These components integrate a performing microprocessor core along with several peripherals. The alternative family is the Field Programmable Gate Arrays (FPGAs) technology [9], [10]. These devices consist of predesigned elementary cells and interconnections that are fully programmable by the end user
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