Uniform intensity led driver circuit
First Claim
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1. An electronic circuit for providing drive to a driven element, said driven element having a first lead and having a second lead connected to a first power source, said electronic circuit comprising:
- a driving terminal connected to said first lead of said driven element;
a second terminal connected to a second power source;
means for carrying current from said driving terminal to said second terminal;
means for sensing the impedance of said driven element; and
means for providing that for a given different between voltage levels of said first and second power sources, the average value of current flowing between said driving terminal and said second terminal remains approximately constant for a range of said impedance of said driven element, comprising;
switch means connected between said driving terminal and said second terminal; and
means for operating said switch means in response to said impedance of said driven element such that said switch means is closed for a duty cycle proportional to said impedance of said driven element, said means for operating comprising;
means for providing a sense signal having a sense voltage lower than the voltage of said first power source by an amount approximately proportional to said impedance of said driven element; and
means responsive to said sense signal for controlling said duty cycle of said switch means to be proportional to said sense voltage comprising;
means for generating a ramp voltage; and
means for comparing said sense voltage to said ramp voltage and providing to said switch means a drive signal when said ramp voltage is greater than said sense voltage.
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Abstract
A unique driver circuit for providing constant average current through a driven element or elements having varying impedance first samples the impedance at the drive terminal in order to determine impedance of the driven elements. For increasing impedance of the driven elements, the duty cycle of the driving signal is increased, thereby resulting in a near-constant average current through the driven elements when the number of driven elements in series is changed.
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Citations
6 Claims
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1. An electronic circuit for providing drive to a driven element, said driven element having a first lead and having a second lead connected to a first power source, said electronic circuit comprising:
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a driving terminal connected to said first lead of said driven element; a second terminal connected to a second power source; means for carrying current from said driving terminal to said second terminal; means for sensing the impedance of said driven element; and means for providing that for a given different between voltage levels of said first and second power sources, the average value of current flowing between said driving terminal and said second terminal remains approximately constant for a range of said impedance of said driven element, comprising; switch means connected between said driving terminal and said second terminal; and means for operating said switch means in response to said impedance of said driven element such that said switch means is closed for a duty cycle proportional to said impedance of said driven element, said means for operating comprising; means for providing a sense signal having a sense voltage lower than the voltage of said first power source by an amount approximately proportional to said impedance of said driven element; and means responsive to said sense signal for controlling said duty cycle of said switch means to be proportional to said sense voltage comprising; means for generating a ramp voltage; and means for comparing said sense voltage to said ramp voltage and providing to said switch means a drive signal when said ramp voltage is greater than said sense voltage.
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2. An electronic circuit for providing drive to a driven element, said driven element having a first lead and having a second lead connected to a first power source, said electronic circuit comprising:
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a driving terminal connected to said first lead of said driven element; a second terminal connected to a second power source; means for carrying current from said driving terminal to said second terminal; means for sensing the impedance of said driven element; and means for providing that for a given difference between voltage levels of said first and second power sources, the average value of current flowing between said driving terminal and said second terminal remains approximately constant for a range of said impedance of said driven element, said means for providing comprising; switch means connected between said driving terminal and said second terminal; and means for operating said switch means in response to said impedance of said driven element such that said switch means is closed for a duty cycle proportional to said impedance of said driven element, said means for operating comprising; means for providing a sense signal having a sense voltage lower than the voltage of said first power source by an amount approximately proportional to said impedance of said driven element; and means responsive to said sense signal for controlling said duty cycle of said switch means to be proportional to said sense voltage comprising; a first clock input terminal receiving a first clock input signal; a NOR gate having a first input terminal connected to said first clock input terminal, a second input terminal, and an output terminal connected to said means for said operating said switch means; and a comparator having a non-inverting input terminal provided with said sense voltage, an inverting input terminal provided with a voltage which ramps from the voltage of said first power source toward the voltage of said second power source during the time when said first clock input signal is in a first state, and an output terminal connected to said second terminal of said NOR gate. - View Dependent Claims (3, 4)
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5. An electronic circuit for providing drive to a driven element, said driven element having a first lead and having a second lead connected to a first power source, said electronic circuit comprising:
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a driving terminal connected to said first lead of said driven element; a second terminal connected to a second power source; means for carrying current from said driving terminal to said second terminal; means for sensing the impedance of said driven element, comprising; a first transistor having a first current carrying terminal connected to said driving terminal and a second current carrying terminal connected to said second power source, resistance means having a first terminal connected to said driving terminal and having a second terminal connected to a control terminal of said first transistor, a second transistor having a first current carrying terminal connected to said control terminal of said first transistor and a second current carrying terminal connected to said second power source, a third transistor having a first current carrying terminal connected to said first power source and having a control terminal connected to said driving terminal, and a fourth transistor having a first current carrying terminal connected to a second current carrying terminal of said third transistor, a second current carrying terminal connected to said second power source, and a control terminal connected to said control terminal of said first transistor, the output of said means for sensing being taken from said first current carrying terminal of said fourth transistor, said output providing a sense voltage lower than the voltage of said first power source by an amount approximately proportional to said impedance of said driven element; and means for providing that in response to said sense voltage the average value of current flowing between said driving terminal and said second terminal remains constant for a range of values of said sense voltage comprising; switch means connected between said driving terminal and said second terminal, and means for operating said switch means such that said switch means is closed for a duty cycle proportional to said sense voltage. - View Dependent Claims (6)
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Specification