Dimmable ballast control circuit
First Claim
1. A circuit for controlling the brightness of a light coupled to a dimmable electronic ballast, said circuit comprising:
- a photodiode for detecting an ambient light level and producing a first voltage level in response to said detected light level;
a first amplifier for amplifying said first voltage level, said first amplifier having a first summing junction coupled to said photodiode and a first reference junction coupled to a ground potential;
a reference diode for producing a reference voltage level;
a second amplifier for outputting the difference between said first voltage level and said reference voltage level, said second amplifier having a second summing junction coupled to said output of said first amplifier and a second reference junction coupled to said reference diode; and
a Darlington transistor pair, coupled at a base to an output of said second amplifier, at an emitter to the dimmable ballast, and at a collector to a ground potential, for amplifying the output;
of said second amplifier and producing a second voltage level between said emitter and said ground potential;
whereby the brightness of the light is set by the dimmable ballast in response to said second voltage level.
1 Assignment
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Accused Products
Abstract
A control circuit for controlling the light output level of a dimmable fluorescent light ballast such as the Mark VII ballast manufactured by Advance Transformer, Inc. The circuit operates from power supplied by the Mark VII ballast through a 300 to 500 microamp DC current loop. The control circuit includes a photo sensor that detects the level of ambient light in a room, and in response to the detected light level, the circuit sets a voltage level from 2 and 10 volts between the two output leads for the current loop on the ballast. At 2 volts, the light is at its dimmest level, which is 20 percent of its maximum brightness, while at 10 volts, the light is at the 100 percent level. Between 2 and 10 volts, the light'"'"'s brightness is set on a linear scale between 20 and 100 percent.
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Citations
11 Claims
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1. A circuit for controlling the brightness of a light coupled to a dimmable electronic ballast, said circuit comprising:
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a photodiode for detecting an ambient light level and producing a first voltage level in response to said detected light level; a first amplifier for amplifying said first voltage level, said first amplifier having a first summing junction coupled to said photodiode and a first reference junction coupled to a ground potential; a reference diode for producing a reference voltage level; a second amplifier for outputting the difference between said first voltage level and said reference voltage level, said second amplifier having a second summing junction coupled to said output of said first amplifier and a second reference junction coupled to said reference diode; and a Darlington transistor pair, coupled at a base to an output of said second amplifier, at an emitter to the dimmable ballast, and at a collector to a ground potential, for amplifying the output;
of said second amplifier and producing a second voltage level between said emitter and said ground potential;whereby the brightness of the light is set by the dimmable ballast in response to said second voltage level. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A circuit for controlling the brightness of a light coupled to a dimmable electronic ballast, said circuit comprising:
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a photodiode for detecting a light level and producing a first voltage level in response to said detected light level; a first amplifier for amplifying said first voltage level, said first amplifier having a first summing junction coupled to said photodiode and a first reference junction coupled to a ground potential; a first resistor, coupled at a first terminal to the output of said first amplifier; a first capacitor, coupled to a second terminal of said first resistor to create a first RC time constant; a reference diode for producing a reference voltage level; a second amplifier for outputting the difference between said first voltage level and said reference voltage level at a rate determined by said first time constant, said second amplifier having a second summing junction coupled to said second terminal of said first resistor and having a second reference junction; a potentiometer, coupled to said reference diode and having a wiper coupled to said second reference junction, for adjusting said reference voltage at said second reference junction; a switch, coupled to said first terminal of said first resistor, for coupling a second resistor in parallel with said first resistor to decrease said time constant and thus increase said rate at which said second amplifier responds to the difference between said first voltage level and said reference voltage level; a Darlington transistor, coupled at a base to an output of said second amplifier, at an emitter to the dimmable ballast, and at a collector to a ground potential, for amplifying the output of said second amplifier and producing a second voltage level between said emitter and said ground potential; voltage setting means, including a first diode coupled between said collector and said ground potential and a second diode coupled between said first diode and said ground potential, for ensuring said second voltage level is above about 1.7 volts; a zener diode, coupled between said emitter and said ground potential in parallel with said Darlington transistor and said voltage setting means, for limiting said second voltage level to about 12 volts; and a second capacitor, coupled in parallel with said zener diode between said emitter and said ground potential, for limiting noise on said second voltage level; whereby the brightness of the light is set by the dimmable ballast in response to said second voltage level. - View Dependent Claims (10, 11)
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Specification