Abstract: A method for controlling the charging of a battery panel of a remote vehicle using regenerative power includes continuously monitoring a state of charge of each of a plurality of smart batteries included in a battery panel and detecting a regenerative current flow from a motor of a vehicle. The method also includes determining if a current charge status of a smart battery in the plurality of smart batteries is at a charge condition which is less than a threshold value associated with the smart battery and determining a plurality of optimal voltage differentials to be applied across each of the plurality of smart batteries. Each of the plurality of optimal voltage differentials is used to control a charging current supplied to a corresponding smart battery. The method further includes applying the determined plurality of optimal voltage differentials across each of the corresponding plurality of smart batteries.

Abstract: A method for controlling the charging of a battery panel of a remote vehicle using regenerative power includes continuously monitoring a state of charge of each of a plurality of smart batteries included in a battery panel and detecting a regenerative current flow from a motor of a vehicle. The method also includes determining if a current charge status of a smart battery in the plurality of smart batteries is at a charge condition which is less than a threshold value associated with the smart battery and determining a plurality of optimal voltage differentials to be applied across each of the plurality of smart batteries. Each of the plurality of optimal voltage differentials is used to control a charging current supplied to a corresponding smart battery. The method further includes applying the determined plurality of optimal voltage differentials across each of the corresponding plurality of smart batteries.