Methods, systems, and vehicles with electromechanical variable transmission
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60W-020/00
F16H-001/28
F16H-003/72
B60K-006/34
B60L-011/04
B60W-010/08
B60K-006/26
B60K-006/445
B60W-010/02
B60W-010/06
B60K-006/365
출원번호
US-0852095
(2015-09-11)
등록번호
US-9452750
(2016-09-27)
발명자
/ 주소
Shukla, Deepak
Zhang, Rongjun
Nasr, Nader
출원인 / 주소
Oshkosh Defense, LLC
대리인 / 주소
Foley & Lardner LLP
인용정보
피인용 횟수 :
2인용 특허 :
184
초록▼
A method of operating a first motor/generator and a second motor/generator in a vehicle drive includes operating the vehicle drive in a first operating mode and a second operating mode, the first operating mode including operating the first motor/generator as a generator and operating the second mot
A method of operating a first motor/generator and a second motor/generator in a vehicle drive includes operating the vehicle drive in a first operating mode and a second operating mode, the first operating mode including operating the first motor/generator as a generator and operating the second motor/generator as a motor, the second operating mode including operating both the first motor/generator as a generator and the second motor/generator as a generator when a first power generation capability associated with the first motor/generator is below a first threshold level, the first motor/generator and the second motor/generator providing electrical power to the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device.
대표청구항▼
1. A method of operating a first motor/generator and a second motor/generator in a vehicle drive, the first motor/generator electrically coupled to the second motor/generator by a DC bus and the vehicle drive configured to propel a vehicle, the method comprising: operating the vehicle drive in a fir
1. A method of operating a first motor/generator and a second motor/generator in a vehicle drive, the first motor/generator electrically coupled to the second motor/generator by a DC bus and the vehicle drive configured to propel a vehicle, the method comprising: operating the vehicle drive in a first operating mode by: operating the first motor/generator as a generator, wherein the first motor/generator provides electrical power to the DC bus to maintain a first voltage on the DC bus when operated as a generator, and wherein the first motor/generator provides all of an electrical power required by the second motor/generator and an electrical power required to offset electrical power losses; andoperating the second motor/generator as a motor, wherein the second motor/generator consumes electrical power from the DC bus when operated as a motor, and wherein a sum of the electrical power provided by the first motor/generator, the electrical power losses, and the electrical power consumed by the second motor/generator is zero;wherein the first motor/generator provides electrical power to the DC bus and the second motor/generator consumes electrical power from the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device; andoperating the vehicle drive in a second operating mode by: operating both the first motor/generator as a generator and the second motor/generator as a generator when a first power generation capability associated with the first motor/generator is below a first threshold level, wherein the first motor/generator and the second motor/generator provide electrical power to the DC bus to maintain a second voltage on the DC bus when operated as generators, and wherein the first motor/generator and the second motor/generator provide all of the electrical power required to offset electrical power losses;wherein the first motor/generator and the second motor/generator provide electrical power to the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device. 2. The method of claim 1, further comprising operating the vehicle drive in a third operating mode by: operating the second motor/generator as a generator, wherein the second motor/generator provides electrical power to the DC bus to maintain a third voltage on the DC bus when operated as a generator, and wherein the second motor/generator provides all of an electrical power required by the first motor/generator and an electrical power required to offset electrical power losses; andoperating the first motor/generator as a motor when a second power generation capability associated with the second motor/generator is greater than a second threshold level, wherein the first motor/generator consumes electrical power from the DC bus when operated as a motor, and wherein the sum of the electrical power provided by the second motor/generator, the electrical power losses, and the electrical power consumed by the first motor/generator is zero,wherein the second motor/generator provides electrical power to the DC bus and the first motor/generator consumes electrical power from the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device. 3. The method of claim 2, wherein the second threshold level is equal to the first threshold level. 4. The method of claim 2, wherein at least one of the first threshold level and the second threshold level is equal to the electrical power losses. 5. The method of claim 2, further comprising operating the vehicle drive in a fourth operating mode by: operating at least one of the first motor/generator as a generator and the second motor/generator as a generator, wherein the at least one of the first motor/generator and the second motor/generator provides at least a portion of an electrical power required by the vehicle and at least a portion of the electrical power required to offset electrical power losses;wherein the at least one of the first motor/generator and the second motor/generator provide electrical power to the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device. 6. The method of claim 2, wherein the first motor/generator maintains a voltage on the DC bus when a speed of the first motor/generator is above a threshold speed, and wherein the second motor/generator maintains a voltage on the DC bus when the speed of the first motor/generator is below the threshold speed. 7. The method of claim 6, further comprising transmitting a controller area network message with a controller to the first motor/generator and the second motor/generator, wherein the controller area network message specifies which motor/generator maintains a voltage on the DC bus. 8. A method of operating a first motor/generator and a second motor/generator in a vehicle drive, the first motor/generator electrically coupled to the second motor/generator by a DC bus and the vehicle drive configured to propel a vehicle, the method comprising: operating the vehicle drive in a first operating mode by: operating the first motor/generator as a generator, wherein the first motor/generator provides electrical power to the DC bus to maintain a first voltage on the DC bus when operated as a generator, and wherein the first motor/generator provides all of an electrical power required by the second motor/generator and an electrical power required to offset electrical power losses; andoperating the second motor/generator as a motor, wherein the second motor/generator consumes electrical power from the DC bus when operated as a motor, and wherein a sum of the electrical power provided by the first motor/generator, the electrical power losses, and the electrical power consumed by the second motor/generator is zero;wherein the first motor/generator provides electrical power to the DC bus and the second motor/generator consumes electrical power from the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device; andoperating the vehicle drive in a second operating mode by: operating both the first motor/generator as a generator and the second motor/generator as a generator when the electrical power losses are greater than the electrical power provided by the first motor/generator, wherein the first motor/generator and the second motor/generator provide electrical power to the DC bus to maintain a second voltage on the DC bus when operated as generators, and wherein the first motor/generator and the second motor/generator provide all of the electrical power required to offset electrical power losses;wherein the first motor/generator and the second motor/generator provide electrical power to the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device. 9. The method of claim 8, further comprising operating the vehicle drive in a third operating mode by: operating the second motor/generator as a generator, wherein the second motor/generator provides electrical power to the DC bus to maintain a third voltage on the DC bus when operated as a generator, and wherein the second motor/generator provides all of an electrical power required by the first motor/generator and an electrical power required to offset electrical power losses; andoperating the first motor/generator as a motor when the electrical power provided by the second motor/generator is greater than the electrical power losses, wherein the first motor/generator consumes electrical power from the DC bus when operated as a motor, and wherein the sum of the electrical power provided by the second motor/generator, the electrical power losses, and the electrical power consumed by the first motor/generator is zero,wherein the second motor/generator provides electrical power to the DC bus and the first motor/generator consumes electrical power from the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device. 10. The method of claim 9, further comprising operating the vehicle drive in a fourth operating mode by: operating at least one of the first motor/generator as a generator and the second motor/generator as a generator, wherein the at least one of the first motor/generator and the second motor/generator provides at least a portion of an electrical power required by the vehicle and at least a portion of the electrical power required to offset electrical power losses;wherein the at least one of the first motor/generator and the second motor/generator provide electrical power to the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device. 11. The method of claim 10, wherein the first motor/generator maintains a voltage on the DC bus when a speed of the first motor/generator is above a threshold speed, and wherein the second motor/generator maintains a voltage on the DC bus when the speed of the first motor/generator is below the threshold speed. 12. The method of claim 11, further comprising transmitting a controller area network message with a controller to the first motor/generator and the second motor/generator, wherein the controller area network message specifies which motor/generator maintains a voltage on the DC bus. 13. A system for operating a first motor/generator and a second motor/generator in a vehicle drive, the first motor/generator electrically coupled to the second motor/generator by a DC bus and the vehicle drive configured to propel a vehicle, the system comprising a processing circuit configured to: operate the vehicle drive in a first operating mode by: operating the first motor/generator as a generator, wherein the first motor/generator provides electrical power to the DC bus to maintain a first voltage on the DC bus when operated as a generator, and wherein the first motor/generator provides all of an electrical power required by the second motor/generator and an electrical power required to offset electrical power losses; andoperating the second motor/generator as a motor, wherein the second motor/generator consumes electrical power from the DC bus when operated as a motor, and wherein a sum of the electrical power provided by the first motor/generator, the electrical power losses, and the electrical power consumed by the second motor/generator is zero;wherein the first motor/generator provides electrical power to the DC bus and the second motor/generator consumes electrical power from the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device; andoperate the vehicle drive in a second operating mode by: operating both the first motor/generator as a generator and the second motor/generator as a generator when a first power generation capability associated with the first motor/generator is below a first threshold level, wherein the first motor/generator and the second motor/generator provide electrical power to the DC bus to maintain a second voltage on the DC bus when operated as generators, and wherein the first motor/generator and the second motor/generator provide all of the electrical power required to offset electrical power losses;wherein the first motor/generator and the second motor/generator provide electrical power to the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device. 14. The system of claim 13, wherein the processing circuit is configured to operate the vehicle drive in a third operating mode by: operating the second motor/generator as a generator, wherein the second motor/generator provides electrical power to the DC bus to maintain a third voltage on the DC bus when operated as a generator, and wherein the second motor/generator provides all of an electrical power required by the first motor/generator and an electrical power required to offset electrical power losses; andoperating the first motor/generator as a motor when a second power generation capability associated with the second motor/generator is greater than a second threshold level, wherein the first motor/generator consumes electrical power from the DC bus when operated as a motor, and wherein the sum of the electrical power provided by the second motor/generator, the electrical power losses, and the electrical power consumed by the first motor/generator is zero,wherein the second motor/generator provides electrical power to the DC bus and the first motor/generator consumes electrical power from the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device. 15. The system of claim 14, wherein the second threshold level is equal to the first threshold level. 16. The system of claim 14, wherein at least one of the first threshold level and the second threshold level is equal to the electrical power losses. 17. The system of claim 14, wherein the processing circuit is configured to operate the vehicle drive in a fourth operating mode by: operating at least one of the first motor/generator as a generator and the second motor/generator as a generator, wherein the at least one of the first motor/generator and the second motor/generator provides at least a portion of an electrical power required by the vehicle and at least a portion of the electrical power required to offset electrical power losses;wherein the at least one of the first motor/generator and the second motor/generator provide electrical power to the DC bus without doing either of (a) providing electrical power to an energy storage device or (b) consuming electrical power from an energy storage device. 18. The system of claim 14, wherein the first motor/generator maintains a voltage on the DC bus when a speed of the first motor/generator is above a threshold speed, and wherein the second motor/generator maintains a voltage on the DC bus when the speed of the first motor/generator is below the threshold speed.
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