Ignition for ceramic metal halide high frequency ballasts
First Claim
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1. A method of controlling an oscillator of a high frequency ballast driving a metal halide lamp comprising:
- receiving power from an alternating current (AC) power supply;
converting the received power to direct current (DC) power wherein the converted DC power is provided to the controller of the ballast;
initializing a controller of the ballast in response to receiving the DC power at the controller;
closing a power supply loop of the oscillator via a switch, said power supply loop including the converted DC power and a ground path, wherein the oscillator generates AC power from the converted DC power and provides the generated AC power to the lamp when the power supply loop is closed;
monitoring a current of the power supply loop of the oscillator; and
open circuiting the power supply loop of the oscillator via the switch when the monitored current is above a current threshold, said current threshold indicating that the lamp has not ignited;
providing an ignition pulse train to the lamp for a first period, wherein providing the ignition pulse train comprises;
closing the power supply loop of the oscillator via the switch such that the oscillator provides power to the lamp for an ignition pulse period;
thereafter determining whether the lamp has ignited;
thereafter open circuiting the power supply loop of the oscillator via the switch such that the oscillator does not provide power to the lamp for an inter-pulse cooling period if the determining indicates that the lamp has not ignited;
repeating said closing the power supply loop of the oscillator, determining whether the lamp has ignited, and open circuiting the power supply loop of the oscillator a predetermined number of times or until the lamp has ignited;
thereafter determining whether the lamp has ignited;
thereafter open circuiting the power supply loop of the oscillator for an additional cooling period if said determining indicates that the lamp has not ignited; and
repeating the above if the lamp has not ignited; and
upon conclusion of the additional cooling period, providing a second ignition pulse train to the lamp for a second period;
thereafter determining whether the lamp has ignited;
thereafter detuning an inductor of the oscillator for a sleep period if said determining indicates that the lamp has not ignited.
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Abstract
A high frequency ballast for a metal halide lamp comprises a controller, a switch, and an oscillator. The controller selectively enables and disables the oscillator via the switch to ignite the lamp. The switch is in a power supply loop of the oscillator and selectively open circuits and close circuits the power supply loop. When the switch close circuits the power supply loop, the oscillator oscillates and provides power to the lamp. When the switch open circuits the power supply loop, the oscillator does not oscillate and does not provide power to the lamp.
12 Citations
16 Claims
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1. A method of controlling an oscillator of a high frequency ballast driving a metal halide lamp comprising:
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receiving power from an alternating current (AC) power supply; converting the received power to direct current (DC) power wherein the converted DC power is provided to the controller of the ballast; initializing a controller of the ballast in response to receiving the DC power at the controller; closing a power supply loop of the oscillator via a switch, said power supply loop including the converted DC power and a ground path, wherein the oscillator generates AC power from the converted DC power and provides the generated AC power to the lamp when the power supply loop is closed; monitoring a current of the power supply loop of the oscillator; and open circuiting the power supply loop of the oscillator via the switch when the monitored current is above a current threshold, said current threshold indicating that the lamp has not ignited; providing an ignition pulse train to the lamp for a first period, wherein providing the ignition pulse train comprises; closing the power supply loop of the oscillator via the switch such that the oscillator provides power to the lamp for an ignition pulse period; thereafter determining whether the lamp has ignited; thereafter open circuiting the power supply loop of the oscillator via the switch such that the oscillator does not provide power to the lamp for an inter-pulse cooling period if the determining indicates that the lamp has not ignited; repeating said closing the power supply loop of the oscillator, determining whether the lamp has ignited, and open circuiting the power supply loop of the oscillator a predetermined number of times or until the lamp has ignited; thereafter determining whether the lamp has ignited; thereafter open circuiting the power supply loop of the oscillator for an additional cooling period if said determining indicates that the lamp has not ignited; and repeating the above if the lamp has not ignited; and upon conclusion of the additional cooling period, providing a second ignition pulse train to the lamp for a second period; thereafter determining whether the lamp has ignited; thereafter detuning an inductor of the oscillator for a sleep period if said determining indicates that the lamp has not ignited. - View Dependent Claims (2, 3, 4, 5)
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6. A high frequency metal halide lamp ballast for providing power to a metal halide lamp from an alternating current (AC) power source, said ballast comprising:
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a direct current (DC) converter for receiving AC power from the AC power source and providing DC power; an oscillator connected in a power supply loop with the converter for receiving the DC power from the DC converter and connected to the lamp for providing a high frequency output to the metal halide_lamp; a switch having a first mode and a second mode, said switch connected to the power supply loop for the oscillator such that when the switch is in the first mode the power supply loop is enabled and the oscillator provides the high frequency output to the metal halide lamp and such that when the switch is in the second mode the power supply loop is disabled and the oscillator does not provide the high frequency output to the metal halide lamp; and a controller connected to the switch for controlling the mode of the switch in either the first mode or the second mode to selectively enable or disable the power supply loop for the oscillator; wherein the controller ignites the lamp by repeatedly toggling the mode of the switch between the first and second modes to close circuit and open circuit the power supply loop such that the oscillator pulses the high frequency output to the lamp, and wherein the controller maintains the closed power supply loop for the oscillator when a current of the power supply loop indicates that the lamp has ignited, and wherein the controller open circuits the power supply loop for a cooling period when the lamp has not ignited; and wherein the controller is further configured to detect how many cooling periods occur, and wherein the controller is further configured, upon detecting two consecutive cooling periods, to detune an inductor of the oscillator for a sleep period. - View Dependent Claims (7, 8, 9, 10)
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11. A light source comprising:
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a metal halide lamp for providing light in response to receiving power; and a ballast for igniting the lamp and providing power to the lamp from an alternating current (AC) power source, said ballast comprising; a direct current (DC) converter for receiving AC power from the AC power source and converting the received AC power to DC power; an oscillator connected in a power supply loop with the converter for receiving the DC power from the DC converter and connected to the lamp for providing a high frequency output to the lamp; a switch having a first mode and a second mode, said switch connected to the power supply loop for the oscillator such that when the switch is in the first mode, the power supply loop is enabled and the oscillator provides the high frequency output to the lamp and such that when the switch is in the second mode, the power supply loop is disabled and the oscillator does not provide the high frequency output to the lamp; and a controller connected to the switch for controlling the mode of the switch in either the first mode or the second mode to selectively enable or disable the power supply loop for the oscillator; wherein the controller ignites the lamp by repeatedly toggling the mode of the switch between the first and second modes to close circuit and open circuit the power supply loop such that the oscillator pulses the high frequency output to the lamp, and wherein the controller maintains the closed power supply loop for the oscillator when a current of the power supply loop indicates that the lamp has ignited, and wherein the controller open circuits the power supply loop for a cooling period when the lamp has not ignited; and wherein the controller is further configured to detect how many cooling periods occur, and wherein the controller is further configured, upon detecting two consecutive cooling periods, to detune an inductor of the oscillator for a sleep period. - View Dependent Claims (12, 13, 14, 15, 16)
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Specification