Systems and methods for controlling battery performance in hybrid marine propulsion systems

What is claimed is: 1. A hybrid marine propulsion system comprising: a marine propulsor that propels a marine vessel; an internal combustion engine that selectively powers the marine propulsor; an electric motor that selectively powers the marine propulsor; a plurality of batteries that discharge current to power the electric motor; a controller that operates the system in a plurality of modes including at least a charge mode in which output of the internal combustion engine is used to generate current to charge the plurality of batteries; and a contactor for each battery in the plurality of batteries, wherein each contactor independently disconnects a respective battery in the plurality of batteries from the electric motor in a manner that discontinues charging of that respective battery by the electric motor when during charge mode more than a limited amount of current is received by that respective battery; wherein the controller calculates a cumulative charge limit for the plurality of batteries equal to an aggregate of said limited amounts of current of the plurality of batteries, and then controls operation of the system in charge mode so as not to exceed the cumulative charge limit, thereby preventing disconnection of any of the batteries in the plurality of batteries. 2. A system according to claim 1 , wherein the controller operates the system in charge mode so that a negative motor torque for recharging the plurality of batteries is equal to or less than a maximum allowed negative motor torque (T) calculated based upon the cumulative charge limit. 3. A system according to claim 2 , wherein the controller calculates the maximum allowed negative motor torque (T) by solving the equation: T=P* 60/(RPM*2*pi* N ) where (P) is a maximum allowable recharge power of the plurality of batteries, (RPM) is the speed of the electric motor, and (N) is the number of internal combustion engines running in the system. 4. A system according to claim 3 , wherein the controller calculates the maximum allowable recharge power (P) by solving the equation: P =( I*V ) where (I) is the cumulative charge limit and (V) is the cumulative voltage of the plurality of batteries. 5. A system according to claim 1 , further comprising a plurality of internal combustion engines, each having an associated generator for charging the plurality of batteries. 6. A system according to claim 1 , wherein the controller comprises a plurality of sections interconnected via a controller area network, each section in the plurality of sections performing different controller functions and communicating with other sections in the plurality of sections via the controller area network. 7. A system according to claim 6 , wherein the plurality of sections comprises a calculation section that calculates the cumulative charge limit by aggregating the limited amounts of current of the plurality of batteries. 8. A method of operating a hybrid propulsion system having an internal combustion engine and an electric motor that each selectively power a marine propulsor to propel a marine vessel, the method comprising: providing a plurality of batteries that discharge current to power the electric motor; generating current from output of the internal combustion engine to charge the plurality of batteries, wherein a contactor is provided for each battery in the plurality of batteries, wherein each contactor independently disconnects a respective battery in the plurality of batteries from the electric motor in a manner that discontinues charging of that respective battery by the electric motor when more than a limited amount of current is received by that respective battery; operating a controller to aggregate said limited amounts of current of the plurality of batteries; and operating the system so as not to exceed the aggregated amount of current of the plurality of batteries, thereby preventing disconnection of any of the batteries in the plurality of batteries. 9. A method according to claim 8 , comprising operating the system so as to limit a negative motor torque request to equal to or less than a maximum allowed negative motor torque (T) calculated based upon the aggregated amount of current of the plurality of batteries. 10. A hybrid marine propulsion system comprising: a marine propulsor that propels a marine vessel; an internal combustion engine that selectively powers the marine propulsor; an electric motor that selectively powers the marine propulsor; a plurality of batteries that discharge current to power the electric motor; a controller that operates the system in a plurality of modes including at least one of an electric mode in which the electric motor powers the marine propulsor and a boost mode in which both the internal combustion engine and the electric motor provide power to the marine propulsor; and a contactor for each battery in the plurality of batteries, wherein each contactor disconnects a respective battery in the plurality of batteries from the electric motor in a manner that discontinues discharging that respective battery to the electric motor when during electric mode more than a limited amount of current is discharged from that respective battery; wherein the controller calculates a cumulative discharge limit for the plurality of batteries equal to an aggregate of said limited amounts of current of the plurality of batteries and then operates the system so as not to exceed the cumulative discharge limit, thereby preventing disconnection of any of the batteries in the plurality of batteries. 11. A system according to claim 10 , wherein the controller operates the system so that a motor torque requiring discharge of current from the plurality of batteries is equal to or less than a maximum allowed motor torque (T) calculated based upon the cumulative discharge limit. 12. A system according to claim 11 , wherein the motor torque requiring discharge of current from the plurality of batteries is a requested motor torque for operating boost mode. 13. A system according to claim 11 , wherein the motor torque requiring discharge of current from the plurality of batteries is an allowed motor torque for operating electric mode. 14. A system according to claim 11 , wherein the controller calculates the maximum allowed motor torque (T) by solving the equation: T=P* 60/(RPM*2*pi* N ) where (P) is a maximum allowable discharge power of the plurality of batteries, (RPM) is the speed of the electric motor, and (N) is the number of internal combustion engines running in the system. 15. A system according to claim 14 , wherein the controller calculates the maximum allowable discharge power (P) by solving the equation: P =( I*V ) where (I) is the cumulative discharge limit and (V) is the cumulative voltage of the plurality of batteries. 16. A system according to claim 10 , further comprising a plurality of internal combustion engines, each being connectable to an associated generator for charging the plurality of batteries. 17. A system according to claim 10 , wherein the controller comprises a plurality of sections interconnected via a controller area network, each section in the plurality of sections performing different controller functions and communicating with other sections in the plurality of sections via the controller area network. 18. A system according to claim 17 , wherein the plurality of sections comprises a calculation section that calculates the cumulative discharge limit by aggregating the limited amounts of cur