Add to ORKGIn this paper, a detailed theoretical prediction and experimental verification of acoustic resonance frequency distribution in a small wattage metal-halide (MH) lamp is presented. Extensive experiments have been conducted on 35 W MH lamps to investigate different methods for avoiding acoustic resonance. The results indicate that randomized switching scheme cannot eliminate arc instabilities caused by acoustic resonances in small wattage MH lamps. A stable arc can be obtained when the lamp is operated above the highest acoustic resonance frequency.link_to_subscribed_fulltex
For energy efficiency and material cost reduction it is preferred to drive high-intensity discharge ...
Abstract.- This paper deals with the supply of HID lamps at high frequency avoiding acoustic resonan...
For high pressure sodium (HPS) lamps, the progress of semi-conductor technology has provided conside...
The increasing speed of modern power electronics opens a way to study the stability of high-intensit...
The prediction of acoustic resonance frequency distribution and modeling of small wattage metal-hali...
Based on a simplified approach to the prediction of acoustic resonance frequency distribution, a fre...
Acoustic resonance (AR) phenomenon occurs in metal halide lamps and can cause light flicker, lamp ar...
Acoustic resonances are observed in high-pressure discharge lamps operated with ac input modulated p...
In the article, a method for preventing acoustic resonance of high-pressure lamps has been proposed....
It is widely perceived that the ageing process of a MH lamp will shift the distribution of the acous...
With the last decades, the high pressure sodium (HPS) lamp has been supplied in high frequency in or...
International audienceA finite element model including plasma simulation is used to calculate the am...
An improved physical high-intensity discharge lamp model that combines the concept of acoustic reson...
To detect acoustic resonance (AR) in metal halide (MH) lamps, a simple high-sensitivity method with ...
Metal halide lamp is one kind of the most compact high-performance light sources. Because of their g...
For energy efficiency and material cost reduction it is preferred to drive high-intensity discharge ...
Abstract.- This paper deals with the supply of HID lamps at high frequency avoiding acoustic resonan...
For high pressure sodium (HPS) lamps, the progress of semi-conductor technology has provided conside...
The increasing speed of modern power electronics opens a way to study the stability of high-intensit...
The prediction of acoustic resonance frequency distribution and modeling of small wattage metal-hali...
Based on a simplified approach to the prediction of acoustic resonance frequency distribution, a fre...
Acoustic resonance (AR) phenomenon occurs in metal halide lamps and can cause light flicker, lamp ar...
Acoustic resonances are observed in high-pressure discharge lamps operated with ac input modulated p...
In the article, a method for preventing acoustic resonance of high-pressure lamps has been proposed....
It is widely perceived that the ageing process of a MH lamp will shift the distribution of the acous...
With the last decades, the high pressure sodium (HPS) lamp has been supplied in high frequency in or...
International audienceA finite element model including plasma simulation is used to calculate the am...
An improved physical high-intensity discharge lamp model that combines the concept of acoustic reson...
To detect acoustic resonance (AR) in metal halide (MH) lamps, a simple high-sensitivity method with ...
Metal halide lamp is one kind of the most compact high-performance light sources. Because of their g...
For energy efficiency and material cost reduction it is preferred to drive high-intensity discharge ...
Abstract.- This paper deals with the supply of HID lamps at high frequency avoiding acoustic resonan...
For high pressure sodium (HPS) lamps, the progress of semi-conductor technology has provided conside...