System and method for employing pulse width modulation for reducing vertical segregation in a gas discharge lamp
First Claim
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1. A system for driving a gas discharge lamp with a desired waveform, comprising:
- a bridge circuit configured to provide a pulse voltage signal;
a controller coupled to said bridge circuit, said controller being configured to generate a pulse width modulated signal corresponding to the desired waveform, wherein said desired waveform includes a sweeping frequency signal and a fixed frequency amplitude modulating signal, and said desired waveform is pulse width modulated at a pulse width modulation frequency to form said pulse width modulated signal corresponding to the desired waveform; and
a filter circuit coupled to said bridge circuit and said gas discharge lamp and configured to receive and filter said pulse voltage signal provided by said bridge circuit.
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Abstract
A system for driving a gas discharge lamp includes a bridge circuit providing a pulse voltage signal, a controller which generates a pulse width modulated signal corresponding to a desired waveform. A filter circuit receives and filters the pulse voltage signal to provide this to the lamp. The pulse width modulated signal corresponds to the desired waveform, and includes a sweeping frequency signal and a fixed frequency amplitude modulated signal.
19 Citations
20 Claims
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1. A system for driving a gas discharge lamp with a desired waveform, comprising:
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a bridge circuit configured to provide a pulse voltage signal;
a controller coupled to said bridge circuit, said controller being configured to generate a pulse width modulated signal corresponding to the desired waveform, wherein said desired waveform includes a sweeping frequency signal and a fixed frequency amplitude modulating signal, and said desired waveform is pulse width modulated at a pulse width modulation frequency to form said pulse width modulated signal corresponding to the desired waveform; and
a filter circuit coupled to said bridge circuit and said gas discharge lamp and configured to receive and filter said pulse voltage signal provided by said bridge circuit. - View Dependent Claims (2, 3, 4, 5, 6, 9, 18, 19, 20)
an AM/FM signal generator that provides a signal having said desired waveform; and
a pulse width modulation module coupled to said signal generator and configured to provide said pulse width modulated signal.
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3. The system in accordance with claim 2, wherein said signal generator is a digital signal processing device.
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4. The system in accordance with claim 2, wherein said pulse width modulation module operates based on a symmetrical triangle signal arrangement.
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5. The system in accordance with claim 2, wherein said pulse width modulation module operates based on an asymmetrical triangle signal arrangement.
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6. The system in accordance with claim 2, wherein said controller further comprises a microprocessor configured to receive measurement signals corresponding to current and voltage signals provided to said gas discharge lamp.
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9. The system in accordance with claim 2, wherein said filter circuit is configured as a low pass filter such that a resonant frequency of said filter is larger than frequency components of voltage spectrum of said desired lamp drive waveform and one third of said resonant frequency is located in an unused region of said voltage spectrum.
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18. The system according to claim 2 wherein said sweeping frequency signal has a frequency range between the fast azimuthal acoustic resonance mode and the first acoustic resonance mode of the lamp, and the pulse width modulation frequency is at least approximately 250 kHz.
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19. The system according to claim 18 wherein the amplitude modulating frequency and modulation index are controlled such that, when the lamp is operated with an arc tube in a vertical position, color mixing is obtained in the lamp output.
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20. The system according to claim 19 wherein the frequency sweep covers a range of approximately 10 kHz from lowest frequency to highest frequency in approximately 10 ms.
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7. A system for driving a gas discharge lamp comprising:
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a bridge circuit configured to provide a pulse voltage signal;
a controller coupled to said bridge circuit, wherein;
said controller is configured to generate a pulse width modulated signal corresponding to a desired waveform, said desired waveform includes a sweeping frequency signal and a fixed frequency amplitude modulating signal, and said controller comprises an AM/FM signal generator that provides a signal having said desired waveform, a pulse width modulation module coupled to said signal generator and configured to provide said pulse width modulated signal, and a microprocessor configured to receive measurement signals corresponding to current and voltage signals provided to said gas discharge lamp; and
a filter circuit coupled to said bridge circuit and said gas discharge lamp and configured to receive and filter said pulse voltage signal provided by said bridge circuit;
wherein said signal generator provides a signal corresponding to - View Dependent Claims (8)
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10. A method for driving a gas discharge lamp comprising:
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providing a pulse voltage signal for driving said gas discharge lamp, said pulse voltage signal being associated to a pulse width modulation signal corresponding to a desired waveform;
filtering said pulse voltage signal and providing said filtered pulse voltage to said gas discharge lamp; and
generating said pulse width modulated signal corresponding to a desired waveform, wherein said desired waveform includes a sweeping frequency signal and a fixed frequency amplitude modulating signal, and said desired waveform is pulse width modulated at a pulse width modulation frequency to form said pulse width modulated signal corresponding to the desired waveform. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
generating a signal having said desired waveform by a signal generator; and
providing said signal having said desired waveform to a pulse width modulation module so as to generate said pulse width modulated signal.
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12. The method in accordance with claim 11 further comprising the step of generating said signal having said desired waveform via a digital signal processing device.
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13. The method in accordance with claim 11 further comprising the step of operating said pulse width modulation module based on a symmetrical ramp signal arrangement.
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14. The method in accordance with claim 11, further comprising the step of operating said pulse width modulation module based on an asymmetrical ramp signal arrangement.
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15. The method in accordance with claim 11 further comprising the step of receiving measurement signals corresponding to current and voltage signals provided to said gas discharge lamp.
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16. The method in accordance with claim 14 further comprising the step of generating a signal corresponding to
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17. The method in accordance with claim 11 wherein said filtering step further comprises the step of setting a resonant frequency of a filter circuit to be larger than frequency components of voltage spectrum of said desired lamp drive waveform and one third of said resonant frequency is located in an unused region of said voltage spectrum.
Specification
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Current AssigneeKoninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
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Original AssigneeKoninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
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InventorsCammack, David Alan
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Primary Examiner(s)Clark; Vanessa
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Assistant Examiner(s)Alemu; Ephrem
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Application NumberUS09/684,196Time in Patent Office1,201 DaysField of Search315/291,307,224,247,209 R,244,225,246US Class Current315/224CPC Class CodesH05B 41/2928 for protecting the lamp aga...H05B 41/3928 for high-pressure lamps, e....Y02B 20/00 Energy efficient lighting t...
