Illumination device using pulse width modulation of a LED
First Claim
1. An illumination device including:
- (a) a solid state light source for producing light;
(b) a pulse modulation power control circuit for periodically activating the light source to produce light at a level above the light produced by a sustainable steady-state power level; and
(c) a luminescent substance for producing illumination, where the luminescent substance produces illumination in response to light from the light source and further where the luminescent substance continues to produce illumination after the light source has stopped producing light;
wherein the average light output of the light source is greater than the average light output obtainable from the light source at the sustainable steady-state power level.
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Accused Products
Abstract
An illumination device utilizing a pulse modulation technique of a solid state light source to provide increased light output for a given heat load. In a preferred embodiment, power is supplied in pulses to periodically activate a short wavelength (i.e., blue) emitting LED, which in turn stimulates a phosphor-based color conversion system to produce sustained white light. In response to a pulse of power, the LED emits an intense burst of short wavelength light. The burst of light from the LED briefly excites the phosphor system, producing a bright illumination. During the interval while power is dissipated in the LED, the LED warms. After the pulse ends and before the next pulse begins, the LED cools because no more power is dissipated in the LED. However, the phosphorescent behavior of the phosphor system causes it to continue to glow for a period of time after being excited. The intensity of the illumination produced by the phosphor gradually decays during this period. The average illumination produced by the preferred embodiment over the entire period from the beginning of one pulse to the beginning of the next is higher than a conventional LED illumination device using constant power dissipation for a given heat load.
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Citations
18 Claims
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1. An illumination device including:
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(a) a solid state light source for producing light; (b) a pulse modulation power control circuit for periodically activating the light source to produce light at a level above the light produced by a sustainable steady-state power level; and (c) a luminescent substance for producing illumination, where the luminescent substance produces illumination in response to light from the light source and further where the luminescent substance continues to produce illumination after the light source has stopped producing light; wherein the average light output of the light source is greater than the average light output obtainable from the light source at the sustainable steady-state power level. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An illumination device including:
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(a) at least one light emitting diode for producing light; (b) a power circuit for supplying a pulse modulated power signal to each light emitting diode to produce light at a level above the light produced by a sustainable steady-state power level; (c) a casing at least partially encompassing each light emitting diode and the power circuit; and (d) phosphor for producing illumination positioned in the illumination device such that the illumination is output by the illumination device, where the phosphor produces illumination in response to light from each light emitting diode and further where the phosphor continues to produce illumination after each light emitting diode has stopped producing light; wherein the average light output of the illumination device is greater than the average light output obtainable from the illumination device at the sustainable steady-state power level.
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11. An illumination device including:
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(a) at least one light emitting diode for producing light; (b) phosphor for producing illumination positioned in the illumination device such that the illumination is output by the illumination device, where the phosphor produces illumination in response to light from each light emitting diode and further where the phosphor continues to produce illumination after each light emitting diode has stopped producing light; (c) a heat sink for dissipating heat produced by each light emitting diode; (d) a pulse generator for supplying a pulse modulated power signal to each light emitting diode to produce light at a level above the light produced by a sustainable steady-state power level, where the pulse generator produces the pulse modulated power signal by converting power received from a power supply; and (e) a casing at least partially encompassing each light emitting diode and the phosphor; wherein the average light output of the illumination device is greater than the average light output obtainable from the illumination device at the sustainable steady-state power level. - View Dependent Claims (12)
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13. A method of producing illumination, the method including:
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(a) supplying a power signal to a light source, where the light source produces light in response to the power signal at a level above the light produced by a sustainable steady-state power level and causes a luminescent substance to produce illumination; (b) ceasing to supply a power signal to the light source, where the light source ceases to produce light in response to the ceasing of the power signal, and where the luminescent substance produces a gradually decaying illumination after the light source ceases to produce light; and (c) repeating steps (a) and (b) to produce an average illumination; wherein the average light output from the light source is greater than the average light output obtainable from the light source at the sustainable steady-state power level. - View Dependent Claims (14)
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15. A method of producing an output illumination, the method including:
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(a) supplying a power signal to at least one light emitting diode, where each light emitting diode produces light in response to the power signal at a level above the light produced by a sustainable steady-state power level and causes a phosphorescent substance to produce illumination; (b) ceasing to supply a power signal to said at least one light emitting diode, where each light emitting diode ceases to produce light in response to the ceasing of the power signal to such light emitting diode; and (c) repeating steps (a) and (b) to produce the output illumination; wherein the average light output of the at least one light emitting diode is greater than the average light output obtainable from the at least one light emitting diode at the sustainable steady-state power level.
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16. A system for producing illumination, the system including:
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(a) means for supplying a power signal to a light source, where the light source produces light in response to the power signal at a level above the light produced by a sustainable steady-state power level and causes a luminescent substance to produce illumination; (b) means for ceasing to supply a power signal to the light source, where the light source ceases to produce light in response to the ceasing of the power signal, and where the luminescent substance produces a gradually decaying illumination after the light source ceases to produce light; and (c) means for repeating steps (a) and (b) to produce an average illumination; wherein the average light output of the light source is greater than the average light output obtainable from the light source at the sustainable steady-state power level. - View Dependent Claims (17)
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18. A system for producing an output illumination, the system including:
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(a) means for supplying a power signal to at least one light emitting diode, where each light emitting diode produces light in response to the power signal at a level above the light produced by a sustainable steady-state power level and causes a phosphorescent substance to produce illumination; (b) means for ceasing to supply a power signal to said at least one light emitting diode, where each light emitting diode ceases to produce light in response to the ceasing of the power signal to such light emitting diode; and (c) means for repeating steps (a) and (b) to produce the output illumination; wherein the average light output of the at least one light emitting diode is greater than the average light output obtainable from the at least one light emitting diode at the sustainable steady-state power level.
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Specification