MULTIPLE CHEMISTRY BATTERY SYSTEMS FOR ELECTRIC VEHICLES
First Claim
1. An electric drive system comprising:
- a first drive motor configured to impart motion to one or more wheels of the electric drive system;
a plurality of batteries configured to power the first drive motor, the plurality of batteries comprising;
a first battery comprising a first cell having a first chemistry; and
a second battery comprising a second cell having a second chemistry different from the first chemistry;
one or more DC-DC converters electrically coupled to the first battery and the second battery; and
one or more controllers configured to;
cause the first battery and the second battery to power the first drive motor;
cause the first drive motor to charge or discharge the first battery and the second battery;
determine a first state of charge of the first battery;
determine a second state of charge of the second battery; and
cause, based at least in part on the first state of charge and the second state of charge, the one or more DC-DC converters to transfer energy between the first battery and the second battery.
1 Assignment
0 Petitions
Accused Products
Abstract
Multiple chemistry battery systems and methods for using such systems in electric vehicles are disclosed. In one embodiment, an example electric vehicle may include a drive motor configured to impart motion to one or more wheels of the electric vehicle, a plurality of batteries configured to power the drive motor, and one or more controllers. The plurality of batteries may include a first battery including a first cell having a first chemistry, and a second battery including a second cell having a second chemistry different from the first chemistry. The one or more controllers may be configured to cause the first battery and the second battery to power the drive motor, and to cause the drive motor to charge the first battery and the second battery.
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Citations
37 Claims
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1. An electric drive system comprising:
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a first drive motor configured to impart motion to one or more wheels of the electric drive system; a plurality of batteries configured to power the first drive motor, the plurality of batteries comprising; a first battery comprising a first cell having a first chemistry; and a second battery comprising a second cell having a second chemistry different from the first chemistry; one or more DC-DC converters electrically coupled to the first battery and the second battery; and one or more controllers configured to; cause the first battery and the second battery to power the first drive motor; cause the first drive motor to charge or discharge the first battery and the second battery; determine a first state of charge of the first battery; determine a second state of charge of the second battery; and cause, based at least in part on the first state of charge and the second state of charge, the one or more DC-DC converters to transfer energy between the first battery and the second battery. - View Dependent Claims (2, 3, 4, 5, 6, 8, 9, 10)
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7. (canceled)
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11. An electric drive system comprising:
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a first drive motor; a second drive motor; a plurality of batteries configured to power the first drive motor, the plurality of batteries comprising; a first battery comprising a first cell having a first chemistry; and a second battery comprising a second cell having a second chemistry different from the first chemistry; one or more switches or transistors electrically coupled to the first battery and the second battery, the one or more switches or transistors configured to transition between a first state in which the one or more switches or transistors form a series connection between the first battery and the second battery, a second state in which the one or more switches or transistors form a parallel connection between the first battery and the second battery, and a third state in which the first battery and the second battery are disconnected from one another; and one or more controllers configured to; cause the one or more switches or transistors to form the series connection between the first battery and the second battery; cause the first battery and the second battery to power the first drive motor and the second drive motor while the first battery and the second battery are connected in series; cause the one or more switches or transistors to form the parallel connection between the first battery and the second battery; cause the first battery and the second battery to power the first drive motor and the second drive motor while the first battery and the second battery are connected in parallel; cause the one or more switches or transistors to disconnect the first battery and the second battery from one another; cause the first battery to power the first drive motor while the first battery and the second battery are disconnected from one another; and cause the second battery to power the second drive motor while the first battery and the second battery are disconnected from one another. - View Dependent Claims (12, 13, 15, 16, 17, 18, 20, 21, 22)
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14. (canceled)
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19. (canceled)
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23. A method comprising:
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determining, by one or more computer processors coupled to at least one memory, an electric load on a plurality of batteries of an electric drive system, the plurality of batteries comprising; a first battery comprising a first cell having a first chemistry; and a second battery comprising a second cell having a second chemistry different from the first chemistry; causing, based at least in part on the electric load, one or more switches or transistors to form a series connection or a parallel connection between the first battery and the second battery; causing one or more switches or transistors to form a series connection between the first battery and the second battery; causing the first battery and the second battery to power the first drive motor and a second drive motor of the electric drive system while the first battery and the second battery are connected in series; causing the one or more switches or transistors to form a parallel connection between the first battery and the second battery; and causing the first drive motor and the second drive motor to charge the first battery and the second battery while the first battery and the second battery are connected in parallel. - View Dependent Claims (24, 25, 26, 27, 29, 30)
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28. (canceled)
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31. An electric drive system comprising:
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a first drive motor configured to impart motion to one or more wheels of the electric drive system; a second drive motor; a plurality of batteries configured to power the first drive motor, the plurality of batteries comprising (i) a first battery comprising a first cell having a first chemistry, and (ii) a second battery comprising a second cell having a second chemistry different from the first chemistry; one or more switches or transistors electrically coupled to the first battery and the second battery, the one or more switches or transistors configured to transition between a first state in which the one or more switches or transistors form a series connection between the first battery and the second battery, a second state in which the one or more switches or transistors form a parallel connection between the first battery and the second battery, and a third state in which the first battery and the second battery are disconnected from one another one or more controllers configured to; cause the second drive motor to charge the first battery and the second battery; cause the one or more switches or transistors to form the series connection between the first battery and the second battery; cause the first battery and the second battery to power the first drive motor and the second drive motor while the first battery and the second battery are connected in series; cause the one or more switches or transistors to form the parallel connection between the first battery and the second battery; cause the first battery and the second battery to power the first drive motor and the second drive motor while the first battery and the second battery are connected in parallel; cause the one or more switches or transistors to disconnect the first battery and the second battery from one another; cause the first battery to power the first drive motor while the first battery and the second battery are disconnected from one another; and cause the second battery to power the second drive motor while the first battery and the second battery are disconnected from one another.
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32. An electric drive system comprising:
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a first drive motor configured to impart motion to one or more wheels of the electric drive system; a second drive motor, wherein the first motor and the second motor are mechanically coupled to one another; a plurality of batteries configured to power the first drive motor, the plurality of batteries comprising (i) a first battery comprising a first cell having a first chemistry, and (ii) a second battery comprising a second cell having a second chemistry different from the first chemistry; one or more switches or transistors electrically coupled to the first battery and the second battery; and one or more controllers configured to; cause the first battery and the second battery to power the first drive motor; cause the first drive motor to charge or discharge the first battery and the second battery; cause the one or more switches or transistors to disconnect the first battery and the second battery from one another; cause the first battery to power the first drive motor while the first battery and the second battery are disconnected from one another; and cause the second drive motor to charge the second battery while the first battery and the second battery are disconnected from one another and the first battery powers the first drive motor.
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33. An electric drive system comprising:
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a first drive motor; a second drive motor, wherein the first motor and the second motor are mechanically coupled to one another; a plurality of batteries configured to power the first drive motor, the plurality of batteries comprising (i) a first battery comprising a first cell having a first chemistry, and (ii) a second battery comprising a second cell having a second chemistry different from the first chemistry; one or more switches or transistors electrically coupled to the first battery and the second battery; and one or more controllers configured to; cause the first battery and the second battery to power the first drive motor; cause the first drive motor to charge the first battery and the second battery cause the one or more switches or transistors to disconnect the first battery and the second battery from one another; cause the first battery to power the first drive motor while the first battery and the second battery are disconnected from one another; and cause the second drive motor to charge the second battery while the first battery and the second battery are disconnected from one another and the first battery powers the first drive motor.
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34. An electric drive system comprising:
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a first drive motor; a second drive motor, wherein the first motor and the second motor are electrically independent and mechanically coupled to one another; a plurality of batteries configured to power the first drive motor, the plurality of batteries comprising (i) a first battery comprising a first cell having a first chemistry, and (ii) a second battery comprising a second cell having a second chemistry different from the first chemistry; one or more switches or transistors electrically coupled to the first battery and the second battery; and one or more controllers configured to; cause the first drive motor to charge the first battery and the second battery; cause the first battery to power the first drive motor while the first battery and the second battery are disconnected from one another; and cause the second drive motor to charge the second battery while the first battery and the second battery are disconnected from one another and the first battery powers the first drive motor.
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35. An electric drive system comprising:
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a first drive motor; a second drive motor, wherein the first motor and the second motor are electrically independent and mechanically coupled to one another; a plurality of batteries configured to power the first drive motor, the plurality of batteries comprising (i) a first battery comprising a first cell having a first chemistry, and (ii) a second battery comprising a second cell having a second chemistry different from the first chemistry; one or more switches or transistors electrically coupled to the first battery and the second battery; and one or more controllers configured to; cause the first battery and the second battery to power the first drive motor; cause the first drive motor to charge the first battery and the second battery; and cause the first battery to reconfigure internal cells between a series and parallel arrangement via one or more switches to optimally match voltage between a first battery pack and a second battery pack when the first battery pack and the second battery pack are in a parallel arrangement, and to optimally match current when the first battery pack and the second battery pack are in a series arrangement.
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36. A method comprising:
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determining, by one or more computer processors coupled to at least one memory, an electric load on a plurality of batteries of an electric drive system, the plurality of batteries comprising (i) a first battery comprising a first cell having a first chemistry, and (ii) a second battery comprising a second cell having a second chemistry different from the first chemistry; causing the first battery and the second battery to power a first drive motor of the electric drive system; causing the first drive motor to charge the first battery and the second battery; causing, based at least in part on the electric load, one or more switches or transistors to form a series connection or a parallel connection between the first battery and the second battery; causing one or more switches or transistors to form a parallel connection between the first battery and a second battery of the electric drive system; causing the first battery and the second battery to power the first drive motor and the second drive motor while the first battery and the second battery are connected in parallel; and causing the first drive motor and the second drive motor to charge the first battery and the second battery while the first battery and the second battery are connected in parallel.
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37. A method comprising:
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determining, by one or more computer processors coupled to at least one memory, an electric load on a plurality of batteries of an electric drive system, the plurality of batteries comprising (i) a first battery comprising a first cell having a first chemistry, and (ii) a second battery comprising a second cell having a second chemistry different from the first chemistry; causing the first battery and the second battery to power a first drive motor of the electric drive system; causing the first drive motor to charge the first battery and the second battery; causing, based at least in part on the electric load, one or more switches or transistors to form a series connection or a parallel connection between the first battery and the second battery; causing one or more switches or transistors to disconnect the first battery and a second battery of the electric drive system from one another; causing the first battery to power the first drive motor while the first battery and the second battery are disconnected from one another; and causing the second battery to power a second drive motor of the electric drive system while the first battery and the second battery are disconnected from one another, wherein causing the second battery to power the second drive motor while the first battery and the second battery are disconnected from one another comprises causing the second battery to power the second drive motor while the first battery and the second battery are disconnected from one another and the first battery powers the first drive motor.
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Specification