IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0966289
(2007-12-28)
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등록번호 |
US-7560882
(2009-07-27)
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발명자
/ 주소 |
- Clark, Warren
- Bell, Oliver A.
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출원인 / 주소 |
|
대리인 / 주소 |
Harness, Dickey & Pierce, P.L.C.
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인용정보 |
피인용 횟수 :
18 인용 특허 :
177 |
초록
▼
A drive system is provided for a utility vehicle and includes an alternating-current (AC) motor for providing a drive torque. An AC motor controller receives a battery voltage signal, throttle pedal position signal, brake pedal position signal, key switch signal, forward/neutral/reverse (FNR) signa
A drive system is provided for a utility vehicle and includes an alternating-current (AC) motor for providing a drive torque. An AC motor controller receives a battery voltage signal, throttle pedal position signal, brake pedal position signal, key switch signal, forward/neutral/reverse (FNR) signal, and run/tow signal indicative of the utility vehicle being configured to be driven and being configured to be towed. The AC motor controller generates an AC drive signal for the AC motor, wherein the AC drive signal is based on the battery voltage signal, throttle pedal position signal, brake pedal position signal, key switch signal, FNR signal, and run/tow signal.
대표청구항
▼
The invention claimed is: 1. A drive system for a vehicle, comprising: a motor for providing a drive torque; an electrically actuated brake mounted to a shaft of the motor for providing a braking torque to the motor shaft; and a controller that receives a battery voltage input, a throttle pedal pos
The invention claimed is: 1. A drive system for a vehicle, comprising: a motor for providing a drive torque; an electrically actuated brake mounted to a shaft of the motor for providing a braking torque to the motor shaft; and a controller that receives a battery voltage input, a throttle pedal position input, a brake pedal position input that indicates a position of a brake pedal, a key switch input, a forward/neutral/reverse (FNR) input, and a brake pedal full-stroke input, that indicates a full-stroke position of the brake pedal, the controller generating a drive signal for the motor based on the inputs; wherein the controller sends a signal to the electrically actuated brake based on at least one of the brake pedal position input and the brake full-stroke input. 2. The drive system of claim 1 wherein the motor includes one of an induction motor and a permanent magnet motor. 3. The drive system of claim 2 wherein the motor is a three-phase, 4-pole, brushless motor. 4. The drive system of claim 2 wherein the motor includes a wound stator and a permanent magnet rotor. 5. The drive system of claim 4 wherein the permanent magnets include rare earth magnets. 6. The drive system of claim 1 wherein the controller further includes a media drive for receiving removable storage media including Compact Discs (CDs), Digital Versatile Discs (DVDs), magnetic media, and memory cards. 7. The drive system of claim 1 wherein the controller further receives a throttle enable input. 8. The drive system of claim 1 wherein the controller further generates a warning signal. 9. The drive system of claim 1 wherein the drive signal includes a 3-phase AC drive signal. 10. The drive system of claim 1 wherein the controller further generates a status signal that is communicated to a display. 11. The drive system of claim 10 wherein the status signal indicates at least one of a battery condition, an amp-hour indication, error codes, and a reverse drive condition. 12. The drive system of claim 10 wherein the display includes at least one of light emitting diodes (LEDs), a numeric display, and an alphanumeric display. 13. The drive system of claim 1 further comprising a rechargeable battery for providing the controller with a source of electrical energy wherein the rechargeable battery type includes one of lithium ion, nickel cadmium, nickel metal hydride, and lead-acid. 14. The drive system of claim 13 wherein the motor controller recharges the rechargeable battery with energy received from the motor. 15. The drive system of claim 14 wherein the motor controller determines a percentage of the energy to provide to the rechargeable battery based on battery pack type, battery pack age, and rate of energy consumption. 16. The drive system of claim 1 wherein the motor controller further includes a communication bus interface for communicating data. 17. The drive system of claim 16 wherein the data includes real-time control data. 18. The drive system of claim 16 wherein the communication bus interface is compatible with one of a Controller Area Network (CAN), RS-232, RS-422, universal serial bus (USB), serial, parallel, wireless, Bluetooth, and optical formats. 19. The drive system of claim 17 wherein the real-time control data includes at least one of the battery voltage input, throttle pedal position input, brake pedal position input, key switch input, and FNR input. 20. The drive system of claim 16 further comprising a battery charger that includes a second communication bus interface for communicating a battery state of charge (SOC) with the communication bus interface of the controller. 21. The drive system of claim 1 further comprising a locking differential that receives and redirects the drive torque to a pair of axles. 22. The drive system of claim 21 wherein the locking differential locks and unlocks in accordance with a differential control signal that is generated by the controller. 23. The drive system of claim 1 further comprising a plurality of wheel speed inputs and wherein the drive signal is further based on the wheel speed inputs. 24. The drive system of claim 23 wherein the controller includes at least one of an antilock braking system and a traction control system that receive the wheel speed inputs and limit acceleration and deceleration of the motor. 25. The drive system of claim 24 wherein the traction control system limits the acceleration and deceleration based on comparing wheel speed inputs associated with a respective driven wheel and a non-driven wheel. 26. The drive system of claim 1 comprising a second motor for providing a second drive torque wherein the motor controller communicates a second drive signal with the second motor and wherein the second drive signal is based on an operating condition of the motor. 27. A drive system for a vehicle, comprising: a motor for providing a drive torque; an electrically actuated brake mounted to a shaft of the motor for providing a braking torque to the motor shaft; and a controller that receives a battery voltage input, a throttle pedal position input that varies in accordance with a position of the throttle pedal, a brake pedal position input that varies in accordance with a position of the brake pedal to indicate a commanded vehicle deceleration rate, a key switch input, a forward/neutral/reverse input, and a brake pedal full stroke input indicative of whether the brake pedal has been depressed to a parking brake position, the controller generating a drive signal for the motor based on the inputs; wherein the electrically actuated brake is operated to effect a parking brake function preventing rotation of the motor shaft when the brake pedal full stroke input indicates that the brake pedal has been depressed to the parking brake position. 28. A drive system for a vehicle, comprising: a motor for providing a drive torque; a motor shaft mounted, spring applied, electrically released brake for providing a braking torque to the motor shaft; a controller that receives a battery voltage input, a throttle pedal position input that varies in accordance with a position of the throttle pedal, a brake pedal position input that varies in accordance with a position of the brake pedal to indicate a commanded vehicle deceleration rate, a key switch input, a forward/neutral/reverse input, and a brake pedal full stroke input indicative of whether the brake pedal has been depressed to a parking brake position, the controller generates a drive signal for the motor based on the inputs, wherein the controller actuates the electrically released brake to effect a parking brake function preventing rotation of the motor shaft when the key switch input indicates an OFF condition. 29. The drive system of claim 28 wherein the controller sends an emergency brake control signal to actuate the electrically released to effect an emergency brake function stopping rotation of the motor shaft brake when the key switch input indicates an OFF condition and the vehicle is moving. 30. The drive system of claim 28 wherein the controller sends a parking brake control signal to actuate the electrically released brake to effect a parking brake function preventing rotation of the motor shaft when the key switch input indicates an OFF condition and the vehicle is stopped. 31. The drive system of claim 28 wherein the controller applies the electrically released brake regardless of any input other than the key switch input. 32. The drive system of claim 27, wherein the parking brake position comprises depression of the brake pedal to within a predetermined range of a maximum brake pedal depression position. 33. The drive system of claim 32, wherein the predetermined range of a maximum brake pedal depression position is approximately 3% to 8%.
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