Battery discharging and charging
First Claim
1. A discharge and charge circuit for a storage battery with a detector for fully discharging and then fully charging the storage battery to prolong the storage battery life comprising,a detector for providing an indication of when the storage battery is substantially fully discharged,first and second input terminals connected to the detector and for connection to the storage battery for delivering energy from the storage battery to the detector to produce the indication when the storage battery is substantially fully discharged,a load impedance,a charging source,and a switch for first connecting said load impedance between said first and second input terminals for discharging the storage battery and developing a signal representative of the state of charge of the storage battery and then connecting said charging source between said first and second input terminals for fully charging the storage battery immediately after the storage battery is fully discharged,wherein said detector comprises an LED and further comprising,a full-wave rectifier circuit coupling said first and second input terminals to said LED.
1 Assignment
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Accused Products
Abstract
A storage battery is first substantially fully discharged before it is charged. A load impedance is first connected across the battery to receive current from the battery and develop a signal representative of the state of charge of the battery. Sensing this signal provides an indication of when the battery becomes substantially fully discharged. The load impedance is then disconnected, and the battery then receives charging current. A full-wave rectifier couples the battery to an LED that may be coupled to the battery to provide the indication of when the battery becomes substantially fully discharged. This indication may be used to operate relays to disconnect the load impedance from across the battery and charge the battery.
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Citations
9 Claims
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1. A discharge and charge circuit for a storage battery with a detector for fully discharging and then fully charging the storage battery to prolong the storage battery life comprising,
a detector for providing an indication of when the storage battery is substantially fully discharged, first and second input terminals connected to the detector and for connection to the storage battery for delivering energy from the storage battery to the detector to produce the indication when the storage battery is substantially fully discharged, a load impedance, a charging source, and a switch for first connecting said load impedance between said first and second input terminals for discharging the storage battery and developing a signal representative of the state of charge of the storage battery and then connecting said charging source between said first and second input terminals for fully charging the storage battery immediately after the storage battery is fully discharged, wherein said detector comprises an LED and further comprising, a full-wave rectifier circuit coupling said first and second input terminals to said LED.
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3. A discharge circuit for a storage battery comprising,
first and second input terminals for connection to a storage battery, a load impedance connected between said first and second input terminals for discharging said battery, an LED for providing an indication of when said storage battery is substantially fully discharged, and circuitry coupling said first and second input terminals to said LED selected so that said LED is normally illuminated while said storage battery discharges through said load impedance and becomes extinguished when said storage battery just becomes substantially fully discharged, wherein said circuitry comprises a full-wave rectifier circuit.
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6. A discharge and charge circuit for a storage battery for fully discharging and then fully charging the storage battery to prolong the storage battery life comprising,
a detector for providing an indication of when the storage battery is substantially fully discharged, first and second input terminals connected to the detector and for connection to the storage battery to the detector to produce the indication when the storage battery is substantially fully discharged, a load impedance, a charging source, a latching circuit including said detector for selectively connecting said load impedance between said first and second input terminals for discharging the storage battery and developing a signal representative of the state of charge and connecting said charging source between said first and second input terminals for fully charging the storage battery immediately after the storage battery is fully discharged, and a switch for causing said latching circuit to disconnect said charging source from the battery and connect the load impedance across the battery, the latching circuit constructed and arranged to cause the latching circuit to disconnect the load impedance from across the battery terminals and connect the charging source to the battery terminals immediately upon the detector sensing substantially full discharge of the battery to immediately thereafter cause charging to the battery by said charging source, wherein said latching circuit is connected to said first and second input terminals so that said latching circuit receives operating power only from said battery.
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7. A discharge and charge circuit for a storage battery for fully discharging and then fully charging the storage battery to prolong the storage battery life comprising,
a detector for providing an indication of when the storage battery is substantially fully discharged, first and second input terminals connected to the detector and for connection to the storage battery to the detector to produce the indication when the storage battery is substantially fully discharged, a load impedance, a charging source, a latching circuit including said detector for selectively connecting said load impedance between said first and second input terminals for discharging the storage battery and developing a signal representative of the state of charge and connecting said charging source between said first and second input terminals for fully charging the storage battery immediately after the storage battery is fully discharged, and a switch for causing said latching circuit to disconnect said charging source from the battery and connect the load impedance across the battery, wherein said latching circuit comprises a relay having normally open contacts connected between the battery comprises a relay having normally open contacts connected between the battery and load impedance and normally closed contacts connected between the charging source and battery, said relay having a relay coil normally energized when the battery is being discharged, said switch connected across said normally open contacts to allow current to flow through said load impedance causing said relay to be energized and open said normally closed contacts while maintaining closed said normally open contacts until said battery is substantially fully discharged to de-energize said relay coil and close said normally closed contacts and open said normally open contacts to immediately begin recharging said battery.
Specification