Add to ORKGMagnetic ballast discharge lamp modeling has been extensively studied because these lamps can be an important source of harmonics. Discharge lamp models usually represent the arc voltage by a square waveform. However, this waveform can be far from actual arc voltages, which affects the accuracy of the lamp models. This paper investigates the actual arc voltage behavior of discharge lamps from laboratory measurements and proposes a novel characterization of these voltages to reformulate the conventional models. The accuracy of the new model is validated with experimental measurements
Fluorescent lamps are low pressure discharge lamps and playing an important role in illumination sys...
The well-known half-bridge square wave voltage generator will be used to supply energy to a gas disc...
A Spice-compatible dynamic conductance model of a fluorescent lamp for use in electronic ballast si...
Harmonic modeling of high intensity discharge lamps with magnetic ballast has been extensively studi...
The current number of magnetic and electronic ballast discharge lamps in power distribution systems...
High intensity discharge lamps with magnetic ballast are energy-efficient lighting devices commonly ...
Based on a simplified approach to the prediction of acoustic resonance frequency distribution, a fre...
Based on the physical laws of plasma discharge, a simplified but accurate model that can be easily i...
A simple physical low pressure discharge lamp model has been proposed in this paper. The new model i...
© 2019, School of Electrical Engineering and Informatics. All rights reserved. In order to reduce th...
An improved physical high-intensity discharge lamp model that combines the concept of acoustic reson...
The use of compact fluorescent lamps (CFLs) in utility distribution systems is spreading due to ener...
Low-pressure discharge lamps obey a set of physical laws that are different from those of high-press...
Arc discharge loads such as discharge lamps require high ignition voltage (several kilo-volt to 20 k...
The master’s thesis is devoted to exploiting of gas-discharge lamps and their dependence on frequenc...
Fluorescent lamps are low pressure discharge lamps and playing an important role in illumination sys...
The well-known half-bridge square wave voltage generator will be used to supply energy to a gas disc...
A Spice-compatible dynamic conductance model of a fluorescent lamp for use in electronic ballast si...
Harmonic modeling of high intensity discharge lamps with magnetic ballast has been extensively studi...
The current number of magnetic and electronic ballast discharge lamps in power distribution systems...
High intensity discharge lamps with magnetic ballast are energy-efficient lighting devices commonly ...
Based on a simplified approach to the prediction of acoustic resonance frequency distribution, a fre...
Based on the physical laws of plasma discharge, a simplified but accurate model that can be easily i...
A simple physical low pressure discharge lamp model has been proposed in this paper. The new model i...
© 2019, School of Electrical Engineering and Informatics. All rights reserved. In order to reduce th...
An improved physical high-intensity discharge lamp model that combines the concept of acoustic reson...
The use of compact fluorescent lamps (CFLs) in utility distribution systems is spreading due to ener...
Low-pressure discharge lamps obey a set of physical laws that are different from those of high-press...
Arc discharge loads such as discharge lamps require high ignition voltage (several kilo-volt to 20 k...
The master’s thesis is devoted to exploiting of gas-discharge lamps and their dependence on frequenc...
Fluorescent lamps are low pressure discharge lamps and playing an important role in illumination sys...
The well-known half-bridge square wave voltage generator will be used to supply energy to a gas disc...
A Spice-compatible dynamic conductance model of a fluorescent lamp for use in electronic ballast si...