Passive transformerless battery charging circuit
First Claim
1. A charging circuit for charging a low voltage battery from an AC supply voltage, said charging circuit comprising:
- input terminals adapted to be connected to the AC supply and output terminals adapted to be connected to an associated battery, first and second charging means, means capacitively coupling said first and second charging means to said input terminals, said first charging means including means for providing to the battery at said output terminals a rectified relatively large charging current at a relatively low output voltage, said second charging means including means for providing to the battery at said output terminals during alternate half cycles of the AC supply voltage a limited charging current at a relatively high output voltage, said first charging means including control means for terminating the current flow from said first charging means to said output terminals when the voltage of the associated battery reaches a predetermined level.
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Accused Products
Abstract
A flashlight battery charging circuit includes a diode bridge which full-wave rectifies an AC voltage supplied from a 120 VAC supply through a coupling capacitor. The output terminals of the bridge are coupled to the battery through a Zener diode circuit which terminates current flow from the bridge to the battery when the battery voltage reaches a predetermined level. A storage capacitor has one terminal thereof connected to the coupling capacitor and the other terminal thereof connected to the output of the rectifying bridge through a diode and to the battery through a current-limiting resistor and an LED. The storage capacitor is charged during alternate half cycles of the AC supply voltage to a relatively high voltage and on the remaining half cycles is discharged through the current-limiting resistor and the LED to supply to the battery a limited current at a relatively high voltage.
18 Citations
20 Claims
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1. A charging circuit for charging a low voltage battery from an AC supply voltage, said charging circuit comprising:
- input terminals adapted to be connected to the AC supply and output terminals adapted to be connected to an associated battery, first and second charging means, means capacitively coupling said first and second charging means to said input terminals, said first charging means including means for providing to the battery at said output terminals a rectified relatively large charging current at a relatively low output voltage, said second charging means including means for providing to the battery at said output terminals during alternate half cycles of the AC supply voltage a limited charging current at a relatively high output voltage, said first charging means including control means for terminating the current flow from said first charging means to said output terminals when the voltage of the associated battery reaches a predetermined level.
- View Dependent Claims (2, 3, 4, 5, 6)
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7. A charging circuit for charging a low voltage battery from an AC supply voltage, said charging circuit comprising:
- rectifying means having an input coupled to the AC supply and an output, said rectifying means providing at its output a rectified AC input voltage, a storage capacitor coupled to the AC supply, capacitor charging means connected between said rectifying means output and said storage capacitor and operative during alternate half cycles of the AC supply voltage for charging said storage capacitor to a relatively high voltage, and discharge means coupled to said storage capacitor for delivering therefrom to the associated battery a limited charging current at a relatively high voltage during the remaining half cycles of the AC supply voltage.
- View Dependent Claims (8, 9, 10, 11, 12, 19)
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13. A charging circuit for charging a low voltage battery from an AC supply voltage, said charging circuit comprising:
- full-wave rectifying means having an input and an output, means coupling the AC supply to said input for providing thereat an AC input voltage, said rectifying means being responsive to said AC input voltage for producing at said output a rectified relatively large charging current at a relatively low output voltage, control means coupling said output to the associated battery for terminating the current flow from said output to the battery when the voltage of the battery reaches a predetermined level, a storage capacitor connected to said coupling means, capacitor charging means connected between said output and said storage capacitor and operative during alternate half cycles of the input voltage for charging said storage capacitor to a relatively high voltage, and discharge means coupled to said storage capacitor for delivering therefrom to the associated battery a limited charging current at a relatively high voltage during the remaining half cycles of the AC input voltage.
- View Dependent Claims (14, 15, 16, 17, 18, 20)
Specification