Discharge lamp using acoustic resonant oscillations to ensure high efficiency
First Claim
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1. A low-pressure metal halide high intensity discharge lamp, comprising:
- a light transmissive arc tube for containing an arc discharge, said arc tube having electrodes at opposite ends thereof;
a fill disposed in said arc tube, said fill including at least one metal halide, the metal being selected from the group consisting of sodium, scandium, thallium, lithium, indium, zinc, lanthanum, cerium and mixtures thereof, the halide being selected from the group consisting of bromides, chlorides, iodides and mixtures thereof;
said fill further including a buffer gas selected from the group consisting of xenon, krypton, and mercury vapor, said buffer gas being present in sufficient quantity to limit chemical transport of energy from said arc discharge to the walls of said arc tube;
a radio frequency electrical power source; and
means connected to said electrodes for coupling said radio frequency electrical power source to said fill for exciting acoustic resonant oscillations therein, said acoustic resonant oscillations producing a substantially uniform mixture of the ingredients comprising said fill, thereby producing an efficient and substantially straight arc discharge within said arc tube.
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Abstract
In an electroded metal halide high intensity discharge lamp, the arc is ignited and acoustic resonant oscillations are excited in the fill by a high frequency electrical power supply in order to thoroughly mix the ingredients comprising the fill. Either an amplitude modulated or a non-amplitude-modulated power supply can be used to drive the arc. The result is highly efficient straight arc operation of the lamp even in the horizontal burning position.
31 Citations
14 Claims
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1. A low-pressure metal halide high intensity discharge lamp, comprising:
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a light transmissive arc tube for containing an arc discharge, said arc tube having electrodes at opposite ends thereof; a fill disposed in said arc tube, said fill including at least one metal halide, the metal being selected from the group consisting of sodium, scandium, thallium, lithium, indium, zinc, lanthanum, cerium and mixtures thereof, the halide being selected from the group consisting of bromides, chlorides, iodides and mixtures thereof; said fill further including a buffer gas selected from the group consisting of xenon, krypton, and mercury vapor, said buffer gas being present in sufficient quantity to limit chemical transport of energy from said arc discharge to the walls of said arc tube; a radio frequency electrical power source; and means connected to said electrodes for coupling said radio frequency electrical power source to said fill for exciting acoustic resonant oscillations therein, said acoustic resonant oscillations producing a substantially uniform mixture of the ingredients comprising said fill, thereby producing an efficient and substantially straight arc discharge within said arc tube. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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- 10. A method of operating a low pressure electroded metal halide arc lamp having a fill enclosed by an arc tube, which method comprises igniting an arc within said fill by exciting said fill with acoustic oscillations at a resonant frequency for said arc tube, said acoustic oscillations at the resonant frequency producing a substantially uniform mixing of the ingredients comprising said fill so that efficacy is improved and said arc is substantially straight within said arc tube.
Specification