VEHICLE POWER SHARING AND GRID CONNECTION SYSTEM FOR ELECTRIC MOTORS AND DRIVES
First Claim
1. Apparatus for sharing electric power between multiple energy sources in a vehicle or machine comprising:
- a power sharing system for electric motors and drives sharing power between multiple power sources;
multiple motor drives sharing power between multiple energy sources to operate without a DC to DC converter;
one or more motor drives adapting DC voltage range of a power source to at least one of AC voltage or a DC voltage range to operate at least one electric motor;
at least one of a capacitor bank or a battery directly connected to the input of each said motor drive;
each input at its own voltage and each motor drive said at least one electric motor, to allow batteries to be operated at one voltage level while capacitors are operated at another voltage level;
a controller containing basic operational parameters and providing an interface to the vehicle or machine, whereby said controller matches varying torque demands of said electric motor with available power from said power sources;
said motor drives causing power to flow between said one or more motor drives and said multiple power sources, regardless of the relative voltages of said power sources, provided that each power source is at a sufficient voltage to power the said at least one electric motor independently.
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Accused Products
Abstract
A power sharing system for electric motors and drives shares power between multiple power sources. Multiple motor drives share power between multiple energy sources, without the need for a DC to DC converter. A motor drive adapts the DC voltage range of the power source to either AC voltage or a different DC voltage range to operate one or more electric motors. Either a capacitor bank or a battery is directly connected to a motor drive'"'"'s DC input. Two separate DC inputs exist, each able to operate at its own voltage and both feeding the same motor through separate motor drives, to allow batteries to be operated at one voltage level while capacitors are operated at another. The motor drives inherently cause power to flow between the motor and either power source, regardless of the relative voltages of the two sources, provided that each source is at a sufficient voltage to power the motor independently.
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Citations
20 Claims
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1. Apparatus for sharing electric power between multiple energy sources in a vehicle or machine comprising:
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a power sharing system for electric motors and drives sharing power between multiple power sources; multiple motor drives sharing power between multiple energy sources to operate without a DC to DC converter; one or more motor drives adapting DC voltage range of a power source to at least one of AC voltage or a DC voltage range to operate at least one electric motor; at least one of a capacitor bank or a battery directly connected to the input of each said motor drive;
each input at its own voltage and each motor drive said at least one electric motor, to allow batteries to be operated at one voltage level while capacitors are operated at another voltage level;a controller containing basic operational parameters and providing an interface to the vehicle or machine, whereby said controller matches varying torque demands of said electric motor with available power from said power sources; said motor drives causing power to flow between said one or more motor drives and said multiple power sources, regardless of the relative voltages of said power sources, provided that each power source is at a sufficient voltage to power the said at least one electric motor independently.
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2. Apparatus for sharing electric power between multiple energy sources in a vehicle or machine comprising:
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an AC electric motor; a first motor drive inverter for delivering a first AC current to AC motor wires of said electric motor; a first source of DC power for delivering a DC voltage to said first motor drive inverter; at least one further bi-directional motor drive inverter for delivering at least one further AC current to said AC motor wires of said electric motor; at least one further source of DC electric power for delivering a DC voltage to at least one further motor drive inverter; and a controller connected to both of said first and bi-directional second motor drive inverters containing basic operational parameters and providing an interface to the vehicle or machine, whereby said controller matches varying torque demands of said electric motor with available AC power from said inverters. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9)
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10. Apparatus in a vehicle or machine for sharing electric power between multiple energy sources comprising:
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a first power system comprising a first AC electric motor, a first motor drive inverter for delivering a first AC voltage to AC motor wires of said first electric motor and a first source of DC power for delivering a first DC voltage to said first motor drive inverter; at least one further power system comprising at least one further AC electric motor, at least one further bi-directional motor drive inverter for delivering at least one further AC voltage to said AC motor wires of said second electric motor and at least one further source of DC electric power for delivering at least one further DC voltage to said second motor drive inverter; said first and second AC electric motors being mechanically coupled together to operate on a common load; said first and second power systems operating at different DC voltage levels; and a controller connected to both of said first and second motor drive inverters to distribute power between said first and second sources of DC electric power by modulating torque demands of the two motor drive inverters. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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19. Apparatus for sharing power from multiple DC electric power sources in a series hybrid vehicle comprising:
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an AC electric propulsion drive motor; a first battery pack connected to said AC motor through an inverter; at least one further battery pack connected to said AC motor through at least one further inverter and an AC line filter; an internal combustion engine powering a DC generator; a third inverter accepting DC power from said DC generator and connected to said AC motor through an AC line filter; an ultra-capacitor bank connected to said AC motor through a bi-directional inverter and an AC line filter; and a controller responsive to vehicle power demands sharing the power load of said AC motor among all four DC input power sources. - View Dependent Claims (20)
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Specification