Single ballast for powering high intensity discharge lamps
First Claim
1. A ballast circuit for at least two serially connected, high pressure gas discharge lamps, the circuit comprising:
- an electromagnetic ballast arrangement receptive of an input power signal, providing an output ballast voltage for driving said lamps during steady state operation of said lamps, providing an open circuit ballast voltage (OCV) when said lamps are disconnected from said arrangement;
an ignitor circuit for producing at least one ignitor pulse of high voltage and high frequency with respect to said open circuit ballast voltage, to initiate lamp starting;
a non-shunted lamp of the at least two lamps; and
at least one capacitance shunting the at least one remaining lamp providing a sufficiently low impedance to a high frequency ignitor pulse that a substantial portion of said pulse first appears across a non-shunted lamp during lamp starting so as to start said non-shunted lamp and then, when the voltage across said non-shunted lamp falls, to impress a substantial portion of the OCV across said shunted lamp to initiate its starting, wherein the at least one capacitance is selected such that the phase of the ignitor pulse at the at least one remaining lamp is different from the non-shunted lamp such that the voltage peaks across each of said lamps do not add together in real time.
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Accused Products
Abstract
A ballast circuit for a plurality of serially connected, high pressure gas discharge lamps comprises an electromagnetic ballast arrangement receptive of an input power signal, providing an output ballast voltage for driving the plurality of lamps, and providing an open circuit ballast voltage (OCV) when the lamps are disconnected from the arrangement. An ignitor circuit is connected between the ballast arrangement and the first lamp, and produces at least one ignitor pulse, per each half cycle of the ballast voltage, of high voltage and high frequency compared to the open circuit ballast voltages to initiate starting of the first lamp. A capacitance shunts one of the lamps providing a sufficiently low impedance to a high frequency ignitor pulse so that a substantial portion of the pulse first appears across a non-shunted lamp during lamp starting so as to start the non-shunted lamp and then, when the voltage across the non-shunted lamp falls, to impress a substantial portion of the OCV across the shunted lamp to initiate its starting. When the number of serially connected lamps extends to more than two, the value of each shunting capacitance is selected such that the phase of ignitor pulse is not equal at any two lamps in real time. Furthermore, the shunting capacitance acts to provide a small reignition voltage spike phase shift so that the reignition spikes do not add in real time so as to reduce the required sustaining voltage.
49 Citations
20 Claims
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1. A ballast circuit for at least two serially connected, high pressure gas discharge lamps, the circuit comprising:
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an electromagnetic ballast arrangement receptive of an input power signal, providing an output ballast voltage for driving said lamps during steady state operation of said lamps, providing an open circuit ballast voltage (OCV) when said lamps are disconnected from said arrangement;
an ignitor circuit for producing at least one ignitor pulse of high voltage and high frequency with respect to said open circuit ballast voltage, to initiate lamp starting;
a non-shunted lamp of the at least two lamps; and
at least one capacitance shunting the at least one remaining lamp providing a sufficiently low impedance to a high frequency ignitor pulse that a substantial portion of said pulse first appears across a non-shunted lamp during lamp starting so as to start said non-shunted lamp and then, when the voltage across said non-shunted lamp falls, to impress a substantial portion of the OCV across said shunted lamp to initiate its starting, wherein the at least one capacitance is selected such that the phase of the ignitor pulse at the at least one remaining lamp is different from the non-shunted lamp such that the voltage peaks across each of said lamps do not add together in real time. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
wherein the at least one remaining lamp is a plurality of remaining lamps; - and,
wherein the at least one capacitance is a plurality of capacitances.
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10. The ballast circuit of claim 1 wherein each of the capacitances is selected such that the phase of the ignitor pulse at each of the remaining lamps is different from any of the remaining lamps such that the voltage peaks across each of said lamps do not add together in real time.
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11. A ballast circuit for a plurality of serially connected, high pressure gas discharge lamps the circuit comprising:
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an electromagnetic ballast arrangement receptive of an input power signal, providing an output ballast voltage for driving said plurality of lamps during steady state operation of said lamps, and providing an open circuit ballast voltage when said lamps are disconnected from said arrangement;
an ignitor circuit for producing at least one ignitor pulse of high voltage and high frequency with respect to said open circuit ballast voltage, to initiate lamp starting;
a non-shunted lamp; and
at least one capacitance shunting each one of the remaining lamps providing a sufficiently low impedance to a high frequency ignitor pulse that a substantial portion of said pulse first appears across a non-shunted lamp during lamp starting so as to start said non-shunted lamp and then, when the voltage across said non-shunted lamp falls, to impress a substantial portion of the same or a subsequent ignitor pulse across said shunted lamp to initiate its starting, wherein each capacitance is selected such that the phase of the ignitor pulse at each of the remaining lamps is different from any of the remaining lamps such that the voltage peaks across each of said lamps do not add together in real time; and
said capacitance having a value sufficiently low to prevent current flow in the non-shunted lamp of sufficient magnitude as would cause premature lamp degradation due to sputtering of its electrodes when said shunted lamp is not on. - View Dependent Claims (12, 13, 14, 15, 16, 17)
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18. A ballast circuit for at least two serially connected, high pressure gas discharge lamps, the circuit comprising:
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an electromagnetic ballast arrangement receptive of an input power signal, providing an output ballast voltage for driving said plurality of lamps during steady state operation of said lamps, and providing an open circuit ballast voltage (OCV) when said lamps are disconnected from said arrangement;
an ignitor circuit for producing at least one ignitor pulse of high voltage and high frequency with respect to said open circuit ballast voltage, to initiate lamp starting;
a non-shunted lamp of the at least two lamps; and
at least one phase shifting circuit configured to shunt the at least one remaining lamp acting to;
provide a sufficiently low impedance to a high frequency ignitor pulse so that a substantial portion of said pulse first appears across said non-shunted lamp during lamp starting so as to start said non-shunted lamp and then, when the voltage across said non-shunted lamp falls, to impress a substantial portion of the high frequency ignitor pulse across said shunted lamp to initiate its starting; and
,provide sufficient phase shift of the OCV comprising reignition spikes at each of the remaining lamps such that the reignition spikes do not occur in the same phase at more than one lamp such that the voltage peaks across each of said lamps do not add together in real time. - View Dependent Claims (19, 20)
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Specification