Refuelable battery-powered electric vehicle
First Claim
1. A process for operating an electric vehicle comprising the steps of:
- measuring state of charge of each of a plurality of battery modules, each of said plurality of battery modules includes specified limits for charging and discharging duty cycles, respectively, said specified limits of each of said plurality of battery modules include a predefined low state of charge and a predefined high state of charge, and, said predefined low state of charge and said predefined high state of charge are calculated by a microprocessor based on known battery chemistry, cell size, nominal voltage and a set of measured values including operating voltage of each of said plurality of battery modules, operating current of each of said plurality of battery modules, and operating temperature of each of said plurality of battery modules;
measuring power demand of the electric drive system of said electric vehicle;
selectively coupling, on a battery module by battery module basis, utilizing a battery interface circuit associated with and dedicated to each said battery module and a microprocessor, one or more highly charged battery modules to said electrical drive system more often than lesser charged battery modules when said drive system is under load requiring power from said battery modules, said battery interface circuit includes switches interconnecting said highly charged battery modules to said electrical drive system and said battery interface circuit includes diodes or equivalent current steering circuit components permitting current flow from said battery modules to said electric drive system but not permitting current flow from said electric drive system to said highly charged battery modules, said microprocessor controlling said switches of said battery interface circuit enabling said selective coupling of said highly charged battery modules to said electric drive system;
selectively coupling, on a battery module by battery module basis, utilizing said battery interface circuit associated with and dedicated to each said battery module and a microprocessor, one or more of said lesser charged battery modules to said electric drive system more often than said highly charged battery modules when said drive system is sourcing power under conditions of regenerative braking, said battery interface circuit includes switches interconnecting said lesser charged battery modules to said electric drive system when said drive system is sourcing power under conditions of regenerative braking, said battery interface circuit includes diodes or equivalent current steering circuit components permitting current flow from said electric drive system to said lesser charged battery modules but not permitting current flow from said lesser charged battery modules to said electric drive system, said microprocessor controlling said switches of said battery interface circuit enabling said selective coupling of said lesser charged battery modules to said electric drive system during conditions of regenerative braking;
maintaining said charging and discharging duty-cycles of each of said battery modules within said specified limits of each said battery module; and
,facilitating, by said selective coupling of said battery modules, convergence of said plurality of said battery modules to an equal state of charge.
0 Assignments
0 Petitions
Accused Products
Abstract
The electrical vehicle energy storage system permits the electric refueling of the electric vehicle just like an automobile would be refueled with gasoline at a gas station. Circuitry on board the vehicle accessible by the electric refueling station enables the determination of the energy content of the battery module or modules returned to the electric refueling station and the owner of the vehicle is given credit for the energy remaining in the battery module or modules which have been exchanged. Selective refueling may take place for given battery modules by removing them from the battery system and charging them at home, office or factory. A process for operating an electric vehicle is also disclosed and claimed.
-
Citations
11 Claims
-
1. A process for operating an electric vehicle comprising the steps of:
-
measuring state of charge of each of a plurality of battery modules, each of said plurality of battery modules includes specified limits for charging and discharging duty cycles, respectively, said specified limits of each of said plurality of battery modules include a predefined low state of charge and a predefined high state of charge, and, said predefined low state of charge and said predefined high state of charge are calculated by a microprocessor based on known battery chemistry, cell size, nominal voltage and a set of measured values including operating voltage of each of said plurality of battery modules, operating current of each of said plurality of battery modules, and operating temperature of each of said plurality of battery modules; measuring power demand of the electric drive system of said electric vehicle; selectively coupling, on a battery module by battery module basis, utilizing a battery interface circuit associated with and dedicated to each said battery module and a microprocessor, one or more highly charged battery modules to said electrical drive system more often than lesser charged battery modules when said drive system is under load requiring power from said battery modules, said battery interface circuit includes switches interconnecting said highly charged battery modules to said electrical drive system and said battery interface circuit includes diodes or equivalent current steering circuit components permitting current flow from said battery modules to said electric drive system but not permitting current flow from said electric drive system to said highly charged battery modules, said microprocessor controlling said switches of said battery interface circuit enabling said selective coupling of said highly charged battery modules to said electric drive system; selectively coupling, on a battery module by battery module basis, utilizing said battery interface circuit associated with and dedicated to each said battery module and a microprocessor, one or more of said lesser charged battery modules to said electric drive system more often than said highly charged battery modules when said drive system is sourcing power under conditions of regenerative braking, said battery interface circuit includes switches interconnecting said lesser charged battery modules to said electric drive system when said drive system is sourcing power under conditions of regenerative braking, said battery interface circuit includes diodes or equivalent current steering circuit components permitting current flow from said electric drive system to said lesser charged battery modules but not permitting current flow from said lesser charged battery modules to said electric drive system, said microprocessor controlling said switches of said battery interface circuit enabling said selective coupling of said lesser charged battery modules to said electric drive system during conditions of regenerative braking; maintaining said charging and discharging duty-cycles of each of said battery modules within said specified limits of each said battery module; and
,facilitating, by said selective coupling of said battery modules, convergence of said plurality of said battery modules to an equal state of charge. - View Dependent Claims (2, 3, 4)
-
-
5. A process for operating an electric vehicle comprising the steps of:
-
measuring state of charge of each of a plurality of battery modules, each of said plurality of battery modules includes specified limits for charging and discharging duty cycles, respectively; measuring power demand of the electric drive system of said electric vehicle; selectively coupling, on a battery module by battery module basis, utilizing a battery interface circuit associated with and dedicated to each said battery module and a microprocessor, one or more highly charged battery modules to said electrical drive system more often than lesser charged battery modules when said drive system is under load requiring power from said battery modules, said battery interface circuit includes switches interconnecting said highly charged battery modules to said electrical drive system and said battery interface circuit includes diodes or equivalent current steering circuit components permitting current flow from said battery modules to said electric drive system but not permitting current flow from said electric drive system to said highly charged battery modules, said microprocessor controlling said switches of said battery interface circuit enabling said selective coupling of said highly charged battery modules to said electric drive system; selectively coupling, on a battery module by battery module basis, utilizing said battery interface circuit associated with and dedicated to each said battery module and a microprocessor, one or more of said lesser charged battery modules to said electric drive system more often than said highly charged battery modules when said drive system is sourcing power under conditions of regenerative braking, said battery interface circuit includes switches interconnecting said lesser charged battery modules to said electric drive system when said drive system is sourcing power under conditions of regenerative braking, said battery interface circuit includes diodes or equivalent current steering circuit components permitting current flow from said electric drive system to said lesser charged battery modules but not permitting current flow from said lesser charged battery modules to said electric drive system, said microprocessor controlling said switches of said battery interface circuit enabling said selective coupling of said lesser charged battery modules to said electric drive system during conditions of regenerative braking; measuring voltage, current, and temperature of each of said plurality of battery modules; calculating, with said microprocessor, an absolute charge capacity of each of said plurality of battery modules at any time during a discharge cycle and a charge cycle; maintaining said charging and discharging duty-cycles of each of said battery modules within said specified limits of each said battery module; and
,facilitating, by said selective coupling of said battery modules, convergence of said plurality of said battery modules to an equal state of charge. - View Dependent Claims (6, 7, 8, 9, 10, 11)
-
Specification