Battery-powered IR transmitter having constant power output
First Claim
1. A battery operated IR transmitter comprising at least one IR LED energized by a source of voltage for passing current during transmission of pulses of data, said IR transmitter including an energy regulator for maintaining transmission energy through the at least one IR LED substantially constant regardless of fluctuations in said voltage, wherein the energy regulator includes:
- a switch for selectively feeding said pulses of data through the at least one IR LED for a controlled time duration, a control capacitor for charging to a control voltage from said battery when the switch is in a non-conductive state and for discharging through the at least one IR LED when the switch is in a conductive state, a triggering capacitor coupled to a source of constant current for charging linearly to a triggering voltage when the switch is in said non-conductive state, and a triggering circuit coupled to the switch, the control capacitor and the triggering capacitor and being responsive to a difference between the triggering voltage and a predetermined fraction of the control voltage for triggering the switch into the conductive state;
whereby as the control voltage decreases, the triggering capacitor charges to a lower voltage before the switch is triggered into the conductive state and the switch conducts for a longer time thereby increasing the duration of current through the at least one LED array;
said source of constant current and triggering capacitor being preselected so that the product of the current through the at least one LED array and the duration thereof remain substantially constant for a range of control voltages.
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Accused Products
Abstract
In a battery operated IR transmitter having at least one IR LED energized by a source of voltage for passing current during transmission of pulses of data, the IR transmitter includes an energy regulator for maintaining transmission energy through the at least one IR LED substantially constant regardless of fluctuations in the voltage. The current is passed for a time duration that increases as the voltage decreases, the time duration being a function of the voltage so as to maintain the transmission energy substantially constant.
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Citations
6 Claims
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1. A battery operated IR transmitter comprising at least one IR LED energized by a source of voltage for passing current during transmission of pulses of data, said IR transmitter including an energy regulator for maintaining transmission energy through the at least one IR LED substantially constant regardless of fluctuations in said voltage, wherein the energy regulator includes:
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a switch for selectively feeding said pulses of data through the at least one IR LED for a controlled time duration, a control capacitor for charging to a control voltage from said battery when the switch is in a non-conductive state and for discharging through the at least one IR LED when the switch is in a conductive state, a triggering capacitor coupled to a source of constant current for charging linearly to a triggering voltage when the switch is in said non-conductive state, and a triggering circuit coupled to the switch, the control capacitor and the triggering capacitor and being responsive to a difference between the triggering voltage and a predetermined fraction of the control voltage for triggering the switch into the conductive state;
whereby as the control voltage decreases, the triggering capacitor charges to a lower voltage before the switch is triggered into the conductive state and the switch conducts for a longer time thereby increasing the duration of current through the at least one LED array;
said source of constant current and triggering capacitor being preselected so that the product of the current through the at least one LED array and the duration thereof remain substantially constant for a range of control voltages. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification