High-voltage energy regulated conversion circuit
First Claim
1. A high-voltage energy regulated conversion circuit for coupling to a vehicle bus comprising:
- a battery bus;
a heater bus;
a high-voltage battery pack electrically coupled to said battery bus;
a resistive load element electrically coupled to said heater bus; and
a high-voltage energy converter (HVEC) module electrically coupled to the vehicle bus, said high-voltage battery pack, and said resistive load element, said HVEC module regulating power on the vehicle bus, said battery bus, and said heater bus and operating in multiple functional modes comprising a constant voltage mode, a constant current mode, and a constant battery current mode.
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Accused Products
Abstract
A high-voltage energy regulated conversion circuit (HVERCC) (12) for coupling to a vehicle bus (24) includes a battery bus (28) and a heater bus (29). A high-voltage battery pack (30) is electrically coupled to the battery bus and a resistive load element (42) is electrically coupled to the heater bus (29). A high-voltage energy converter (HVEC) module (22) is electrically coupled to the vehicle bus (24), the high-voltage battery pack (30), and the resistive load element (42). The HVEC module regulates power on the vehicle bus (24), the battery bus (28), and the heater bus (29) and operates in multiple functional modes including a constant voltage mode, a constant current mode, and a constant battery current mode.
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Citations
19 Claims
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1. A high-voltage energy regulated conversion circuit for coupling to a vehicle bus comprising:
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a battery bus; a heater bus; a high-voltage battery pack electrically coupled to said battery bus; a resistive load element electrically coupled to said heater bus; and a high-voltage energy converter (HVEC) module electrically coupled to the vehicle bus, said high-voltage battery pack, and said resistive load element, said HVEC module regulating power on the vehicle bus, said battery bus, and said heater bus and operating in multiple functional modes comprising a constant voltage mode, a constant current mode, and a constant battery current mode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. An operational method for a high-voltage energy converter (HVEC) module comprising:
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receiving an operational command signal; operating in a determined functional mode; and voltage guarding a vehicle bus, a battery bus, and a heater bus; sourcing a predetermined upper level of voltage from said battery bus to the vehicle bus; and reducing the voltage on said vehicle bus to a predetermined lower level voltage immediately after a fuel cell has started.
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15. An operational method for a high-voltage energy converter (HVEC) module comprising:
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receiving an operational command signal; operating in a determined functional mode; and voltage guarding a vehicle bus, a battery bus, and a heater bus; monitoring voltages on said vehicle bus, said battery bus, and said heater bus; comparing voltage levels on said vehicle bus, said battery bus, and said heater bus; determining whether voltage transfer between said vehicle bus, said battery bus, and said heater bus is feasible; and transferring power between said vehicle bus, said battery bus, and said heater bus.
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16. An operational method for a high-voltage energy converter (HVEC) module comprising:
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receiving an operational command signal; operating in a determined functional mode; and voltage guarding a vehicle bus, a battery bus, and a heater bus comprising; monitoring voltages on said vehicle bus, said battery bus, and said heater bus comprising; comparing voltage on said vehicle bus, said battery bus, and said heater bus with voltage guard limits; signaling a logic controller that voltage guard limits are reached; comparing voltage levels on said vehicle bus, said battery bus, and said heater bus; determining whether voltage transfer between said vehicle bus, said battery bus, and said heater bus is feasible; and transferring power between said vehicle bus, said battery bus, and said heater bus.
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17. An operational method for a high-voltage energy converter (HVEC) module comprising:
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receiving an operational command signal; operating in a determined functional mode; and voltage guarding a vehicle bus, a battery bus, and a heater bus comprising; monitoring voltages on said vehicle bus, said battery bus, and said heater bus comprising; comparing voltage on said vehicle bus, said battery bus, and said heater bus with voltage guard limits; determining whether voltage transfer between said vehicle bus, said battery bus, and said heater bus is feasible; and transferring power between said vehicle bus, said battery bus, and said heater bus comprising; adjusting voltage on said vehicle bus, said battery bus, and said heater bus to be within said voltage guard limits.
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18. An operational method for a high-voltage energy converter (HVEC) module comprising:
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receiving an operational command signal; operating in a determined functional mode; and voltage guarding a vehicle bus, a battery bus, and a heater bus comprising; monitoring voltages on said vehicle bus, said battery bus, and said heater bus comprising; comparing voltage on said vehicle bus, said battery bus, and said heater bus; determining whether voltage transfer between said vehicle bus, said battery bus, and said heater bus is feasible; and transferring power between said vehicle bus, said battery bus, and said heater bus while said HVEC module is in a constant voltage mode, a constant current mode, and a constant battery current mode.
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19. A fuel cell energy system having a vehicle high-voltage bus (vehicle bus) comprising:
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a fuel cell electrically coupled to the vehicle high-voltage bus; a high-voltage energy converter (HVEC) module electrically coupled to the vehicle high-voltage bus; a battery-pack high-voltage bus electrically coupled to said HVEC module; a heater high-voltage bus electrically coupled to said HVEC module; a high-voltage battery pack electrically coupled to said battery high-voltage bus; a heater electrically coupled to said heater high-voltage bus; and a logic controller electrically coupled to said HVEC module, said high-voltage battery pack, and said heater circuit via a network, wherein said logic controller regulates the power on the vehicle high-voltage bus, the battery high-voltage bus, and the heater high-voltage bus.
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Specification