Voltage and current limiting phase-triggered battery charger with continuous optimization of charging rate
First Claim
1. In a battery charging circuit for providing a battery with a charging current not greater than a predetermined current limit and a charging voltage not greater than a predetermined voltage limit, the improvement comprising:
- means for sensing the amount of charging current provided to the battery by the charging circuit, said charging current sensing means generating a first signal indicative of the amount of charging current;
a first adjustable zener diode operating in its linear region as an amplifier, and having an anode, a cathode, and a reference terminal, said first signal being applied to said reference terminal of said first adjustable zener diode wherein the amount of current flow through said first adjustable zener diode from cathode to anode is generally proportional to the amount of charging current;
means for sensing the amount of charging voltage provided across the battery by the charging circuit, said charging voltage sensing means generating a second signal indicative of the level of charging voltage;
a second adjustable zener diode operating in its linear region as an amplifier and having an anode, a cathode, and a reference terminal, said second signal being applied to said reference terminal of said second adjustable zener diode wherein the amount of current flow through said second adjustable zener diode from cathode to anode is generally proportional to the amount of charging voltage; and
means responsive to said current flow through said first adjustable zener diode and to said current flow through said second adjustable zener diode, said responsive means regulating the charging current and charging voltage so that the charging current is provided to the battery at a level not greater than said predetermined current limit and the charging voltage is provided across the battery at a level not greater than said predetermined voltage limit, whereby the charging rate is continuously optimized.
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Abstract
A battery charging circuit includes a silicon controlled rectifier full wave bridge that has its input connected across a conventional 60 hertz alternating current power line. The output of the bridge provides 120 hertz pulsating direct current to the battery being charged. The duration of each direct current charging pulse is determined by phase triggering of the silicon controlled rectifiers in the bridge. The silicon controlled rectifiers are triggered at a predetermined, identical firing angles by a conventional unijunction transistor relaxation oscillator which in turn is regulated by an output voltage and output current sensing circuit that established the noted firing angles so as to regulate, and limit at desirable upper valves, the charging voltage and current applied to the battery. The output sensing circuit includes as primary components a pair of adjustable zener diodes operating in their linear or active regions so as to function as amplifiers, one for output current regulation and the other for output voltage regulation.
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Citations
5 Claims
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1. In a battery charging circuit for providing a battery with a charging current not greater than a predetermined current limit and a charging voltage not greater than a predetermined voltage limit, the improvement comprising:
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means for sensing the amount of charging current provided to the battery by the charging circuit, said charging current sensing means generating a first signal indicative of the amount of charging current; a first adjustable zener diode operating in its linear region as an amplifier, and having an anode, a cathode, and a reference terminal, said first signal being applied to said reference terminal of said first adjustable zener diode wherein the amount of current flow through said first adjustable zener diode from cathode to anode is generally proportional to the amount of charging current; means for sensing the amount of charging voltage provided across the battery by the charging circuit, said charging voltage sensing means generating a second signal indicative of the level of charging voltage; a second adjustable zener diode operating in its linear region as an amplifier and having an anode, a cathode, and a reference terminal, said second signal being applied to said reference terminal of said second adjustable zener diode wherein the amount of current flow through said second adjustable zener diode from cathode to anode is generally proportional to the amount of charging voltage; and means responsive to said current flow through said first adjustable zener diode and to said current flow through said second adjustable zener diode, said responsive means regulating the charging current and charging voltage so that the charging current is provided to the battery at a level not greater than said predetermined current limit and the charging voltage is provided across the battery at a level not greater than said predetermined voltage limit, whereby the charging rate is continuously optimized. - View Dependent Claims (2)
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3. In a battery charging circuit for providing a battery with a charging voltage and current not greater than predetermined limits, the charging circuit including a full wave, silicon controlled rectifier bridge having an input for receiving alternating current, and having an output for providing pulsating direct current to said battery, the durations of the direct current pulses applied to the battery, and thus the effective level of voltage and amount of current applied to the battery, being determined by the firing angles of silicon controlled rectifiers forming a part of said bridge, the improvement comprising:
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means for sensing the amount of charging current provided to the battery by the charging circuit, said charging current sensing means generating a first signal indicative of the amount of charging current; a first adjustable zener diode operating in its linear region as an amplifier, and having an anode, a cathode and a reference terminal, said first signal being applied to the reference terminal of said first adjustable zener diode wherein the amount of current flow through said first adjustable zener diode from cathode to anode is generally proportional to the amount of charging current; means for sensing the amount of charging voltage provided across the battery by the charging circuit, said charging voltage sensing means generating a second signal indicative of the level of charging voltage; a second adjustable zener diode operating in its linear region as an amplifier, and having an anode, a cathode and a reference terminal, said second signal being applied to the reference terminal of said second adjustable zener diode wherein the amount of current flow through said second adjustable zener diode from cathode to anode is generally proportional to the amount of charging voltage; and means responsive to current flow through both said first and second adjustable zener diodes, said responsive means establishing and regulating the said firing angles of the silicon controlled rectifiers forming a part of said bridge, wherein charging voltage and current are provided to the battery at levels not greater than said predetermined limits, whereby the charging rate is continuously optimized. - View Dependent Claims (4, 5)
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Specification