Method and device for lighting ultra-high pressure discharge lamps
First Claim
1. A method of lighting an ultra-high pressure discharge lamp in which a pair of electrodes are disposed confronting each other with a spacing of not more than 1.5 mm therebetween in an arc tube forming part of an envelope of quartz glass, an arc tube encapsulating mercury in art amount of 0.15 mg/mm3, the method comprising the steps of:
- operating the lamp at a first lamp power;
reducing a lamp power supplied to the pair of electrodes to a reduced level that enables arc discharge in a transition state from a lighting state to extinction such that the temperature of the electrodes remains higher than an evaporating temperature of the arc tube encapsulating mercury to prevent deposition of the mercury on said pair of electrodes, thereby beginning a shutdown process for the lamp;
maintaining the lamp power at the reduced level for a predetermined time period; and
shutting down a supply of current to the electrodes.
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Accused Products
Abstract
There is provided an improved method of lighting an ultra-high pressure discharge lamp in which a pair of electrodes are disposed confronting each other with a spacing of not more than 1.5 mm therebetween in an arc tube forming part of an envelope of quartz glass, the arc tube encapsulating mercury in an amount of 0.15 mg/mm3, the method including the steps of: reducing a lamp power supplied to the pair of electrodes to a degree such as not to stop arc discharge in a transition state from a lighting state to extinction; keeping the lamp power thus reduced for a predetermined time period; and shutting down the supply of current to the electrodes.
29 Citations
4 Claims
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1. A method of lighting an ultra-high pressure discharge lamp in which a pair of electrodes are disposed confronting each other with a spacing of not more than 1.5 mm therebetween in an arc tube forming part of an envelope of quartz glass, an arc tube encapsulating mercury in art amount of 0.15 mg/mm3, the method comprising the steps of:
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operating the lamp at a first lamp power;
reducing a lamp power supplied to the pair of electrodes to a reduced level that enables arc discharge in a transition state from a lighting state to extinction such that the temperature of the electrodes remains higher than an evaporating temperature of the arc tube encapsulating mercury to prevent deposition of the mercury on said pair of electrodes, thereby beginning a shutdown process for the lamp;
maintaining the lamp power at the reduced level for a predetermined time period; and
shutting down a supply of current to the electrodes. - View Dependent Claims (2, 3)
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4. A device for lighting an ultra-high pressure discharge lamp, comprising:
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an igniter for initiating lighting of the ultra-high pressure discharge lamp by applying pulses of a high voltage thereto;
a stabilized lighting circuit connected to the igniter for causing the ultra-high pressure discharge lamp to perform stabilized lighting; and
a power control section for controlling power supply from the stabilized lighting circuit to the ultra-high pressure discharge lamp, the power control section having a lamp power output reduction control function which serves to control the stabilized lighting circuit so that a first lighting power is stably supplied from the stabilized lighting circuit to the high-pressure discharge lamp in steady lighting, while controlling the stabilized lighting circuit so that a second lighting power outputted to the ultra-high pressure discharge lamp is reduced to a lamp power that enables arc discharge between a pair of electrodes in a transition state from steady lighting to extinction of the ultra-high pressure discharge lamp such that the temperature of the electrodes remains higher than an evaporating temperature of a mercury to prevent deposition of the mercury on said pair of electrodes, wherein the second lighting power is applied to begin a shutdown process of the lamp, and wherein the pair of electrodes are positioned not more than 1.5 mm apart.
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Specification