Abstract: The present invention discloses a battery charger and a method for charging a plurality of batteries. The battery charger includes: a current source for supplying a source current which has a charge current portion and a diverted current portion; bypass sections; voltage clamp sections; sense sections; a feedback section for processing information from the sense sections; and a controller for modifying the source current based on the information from the feedback section. Each bypass section is connected to a battery for diverting the diverted current. Each voltage clamp section is connected to the bypass section for clamping a voltage across the battery when the voltage increases to a predetermined level. Each sense section is connected to the bypass section for determining the diverted current and/or the charge current.

Abstract: The present invention relates to a battery protection circuit for protecting a plurality of batteries connected in series. The battery protection circuit includes: a controller for monitoring the batteries and outputting control signals based on predetermined conditions associated with the batteries; a first N-channel MOSFET and a second N-channel MOSFET coupled in a common-drain configuration in a low-side path, wherein at least one of the first and second N-channel MOSFETs turns off in response to the control signal received from the controller when at least one of the predetermined conditions is detected; and a gate protection circuit for preventing gate-to-source voltages of the first and second N-channel MOSFETs from exceeding a predetermined gate-to-source voltage level.

Abstract: The present invention provides a protection circuit and method for preventing a battery from swelling in one embodiment. The protection circuit includes: a voltage monitoring circuit that monitors a voltage across the battery; a control circuit that receives voltage information from the voltage monitoring circuit; and a discharge circuit that turns on to discharge the battery upon receiving a signal from the control circuit.

Abstract: According to the invention, an apparatus for robust battery discharge which provides uninterrupted power to a discharge circuit used in a discharge cycle is disclosed. The apparatus may have a discharge circuit for discharging a battery. The discharge circuit may be adapted to be coupled with a discharge load and configured to discharge the battery using the discharge load during a discharging cycle. The apparatus may have a first power input and a second power input, which may configured to receive power from a first power source and a second power source, respectively. The power inputs may be further configured to supply power to the discharge circuit. The apparatus may have a power switching circuit for switching power from the first power source to the second power source when the first power source is interrupted. The second power source may be the battery.

Abstract: The present invention provides a protection circuit and method for preventing a battery from swelling in one embodiment. The protection circuit includes: a voltage monitoring circuit that monitors a voltage across the battery; a control circuit that receives voltage information from the voltage monitoring circuit; and a discharge circuit that turns on to discharge the battery upon receiving a signal from the control circuit.

Abstract: The present invention relates to a battery protection circuit for protecting a plurality of batteries connected in series. The battery protection circuit includes: a controller for monitoring the batteries and outputting control signals based on predetermined conditions associated with the batteries; a first N-channel MOSFET and a second N-channel MOSFET coupled in a common-drain configuration in a low-side path, wherein at least one of the first and second N-channel MOSFETs turns off in response to the control signal received from the controller when at least one of the predetermined conditions is detected; and a gate protection circuit for preventing gate-to-source voltages of the first and second N-channel MOSFETs from exceeding a predetermined gate-to-source voltage level.

Abstract: The present invention discloses a battery charger and a method for charging a plurality of batteries. The battery charger includes: a current source for supplying a source current which has a charge current portion and a diverted current portion; bypass sections; voltage clamp sections; sense sections; a feedback section for processing information from the sense sections; and a controller for modifying the source current based on the information from the feedback section. Each bypass section is connected to a battery for diverting the diverted current. Each voltage clamp section is connected to the bypass section for clamping a voltage across the battery when the voltage increases to a predetermined level. Each sense section is connected to the bypass section for determining the diverted current and/or the charge current.

Abstract: According to the invention, a battery charging apparatus with a plurality of modes for charging a battery is disclosed. The apparatus may have a battery receptacle and a command processor. The battery receptacle may be adapted to detachably and mechanically couple with the battery and may be adapted to detachably and electrically couple the battery with a battery charging circuit. The command processor may be configured to: detect a first at least partial mechanical coupling of the battery with the battery receptacle; detect a first at least partial mechanical decoupling of the battery from the battery receptacle; detect a first at least partial mechanical recoupling of the battery with the battery receptacle; and/or to communicate a first instruction to the battery charging circuit based at least in part on detecting the first at least partial mechanical recoupling within a particular time period after the first at least partial mechanical decoupling.

Abstract: According to the invention, an apparatus for robust battery discharge which provides uninterrupted power to a discharge circuit used in a discharge cycle is disclosed. The apparatus may have a discharge circuit for discharging a battery. The discharge circuit may be adapted to be coupled with a discharge load and configured to discharge the battery using the discharge load during a discharging cycle. The apparatus may have a first power input and a second power input, which may configured to receive power from a first power source and a second power source, respectively. The power inputs may be further configured to supply power to the discharge circuit. The apparatus may have a power switching circuit for switching power from the first power source to the second power source when the first power source is interrupted. The second power source may be the battery.