Battery charger with polarity sensing and timer
First Claim
1. A battery charger comprising a charging circuit to charge a battery and a control circuit to control said charging circuit, said charging circuit having a pair of electrical contacts to be connected to a corresponding pair of terminals of the battery to be charged to transfer charge thereto and a power supply having a pair of sources of opposite polarity and each connected to a respective one of said pair of electrical contacts by a respective one of a pair of current switches, said control circuit including an operational amplifier having an input connected to said charging circuit and an output operable upon said switches and being operable to monitor charging current flowing in said charging circuit and operate one of said current switches to connect to said one of said contacts a source of the same polarity as that of the one of said battery terminal connected thereto, said control circuit maintaining said charging current in said charging circuit at a predetermined level and having a reference input applied to said amplifier, said reference input being connected to said one of said contacts to apply a reference voltage of the same polarity as said one of said sources to said reference input.
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Accused Products
Abstract
A battery charge system includes an electronic polarity sensing, a charging circuit and a timer. When a battery to be charged is connected, the polarity sensing circuit automatically recognizes the polarity of the inserted battery and the drive circuit charges the battery with correct polarity current for the required period of time. The charge timing circuit indicates when charging is taking place and when the charge is finished. When the battery is removed and another battery is inserted, the device is reset and the process is repeated.
33 Citations
7 Claims
- 1. A battery charger comprising a charging circuit to charge a battery and a control circuit to control said charging circuit, said charging circuit having a pair of electrical contacts to be connected to a corresponding pair of terminals of the battery to be charged to transfer charge thereto and a power supply having a pair of sources of opposite polarity and each connected to a respective one of said pair of electrical contacts by a respective one of a pair of current switches, said control circuit including an operational amplifier having an input connected to said charging circuit and an output operable upon said switches and being operable to monitor charging current flowing in said charging circuit and operate one of said current switches to connect to said one of said contacts a source of the same polarity as that of the one of said battery terminal connected thereto, said control circuit maintaining said charging current in said charging circuit at a predetermined level and having a reference input applied to said amplifier, said reference input being connected to said one of said contacts to apply a reference voltage of the same polarity as said one of said sources to said reference input.
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4. A battery charger comprising a charging circuit to charge a battery and a control circuit to control said charging circuit, said charging circuit having a pair of electrical contacts to be connected to a corresponding pair of terminals of the battery to be charged to transfer charge thereto and a power supply having a pair of sources of opposite polarity and each connected to a respective one of said pair of electrical contacts by a respective one of a pair of current switches, said control circuit monitoring current flowing in said charging circuit and operating one of said currant switches to connect to said one of said contacts one of said sources having the same polarity as that of the one of the battery terminals connected to said one of said contacts, said control circuit including a timer to maintain operation of said charging circuit for a predetermined period and an operational amplifier having a reference input, said control circuit maintaining charging current in said circuit at a predetermined level for said predetermined period and changing said reference voltage to reduce said charging current upon expiration of said predetermined period.
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5. A battery charger comprising a charging circuit to charge a battery and a control circuit to control said charging circuit, said charging circuit having a pair of electrical contacts to be connected to a corresponding pair of terminals of the battery to be charged to transfer charge thereto and a power supply having a pair of sources of opposite polarity and each connected to a respective one of said pair of electrical contacts by a respective one of a pair of current switches, said control circuit monitoring current flowing in said charging circuit and operating one of said current switches to connect to one of said contacts one of said sources having the same polarity as that of the one of the battery terminals connected to said one of said contacts, said control circuit including a timer to maintain operation of said charging circuit for a predetermined period, initiation of said timer being controlled by an opto isolator responsive to initial current flow in said charging circuit upon connection of said battery to said one of said sources to start said timer.
- 6. A battery charger comprising a charging circuit to charge a battery and a control circuit to control said charging circuit, said charging circuit having a pair of electrical contacts to be connected to a corresponding pair of terminals of the battery to be charged to transfer charge thereto and a power supply having a pair of sources of opposite polarity and each connected to a respective one of said pair of electrical contacts by a respective one of a pair of current switches, said control circuit monitoring current flowing in said charging circuit and operating one of said current switches to connect to one of said contacts one of said sources having the same polarity as that of the one of the battery terminals connected to said one of said contacts, said control circuit including a timer to maintain operation of said charging circuit for a predetermined period, said timer being initiated by initial current flow in said charging circuit upon connection of said battery to said one of said sources and providing a signal upon expiration of said period, said control circuit further including an operational amplifier having an output connected to said switches, a reference input connected to said one of said contacts to apply a reference voltage thereto of the same polarity as said one of said sources and an inverting input connected to said charging circuit to provide an inverting voltage indicative of current flow in said charging circuit, said output modulating charging current from said sources to maintain said reference voltage and inverting voltage of the same magnitude.
Specification