System and method for providing ASIL D fail operational power systems in automated vehicle applications
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60L-003/00
H02J-009/06
B60L-003/12
G05D-001/00
출원번호
15705555
(2017-09-15)
등록번호
10800264
(2020-10-13)
발명자
/ 주소
Liu, Xiaodong
Guo, Bo
출원인 / 주소
NIO USA, Inc.
대리인 / 주소
Sheridan Ross P.C.
인용정보
피인용 횟수 :
0인용 특허 :
0
초록▼
A vehicle control unit (e.g., a control unit for an automobile) receives feedback from an intelligent voltage/current sensor and a DC/DC controller. The DC/DC controller comprises a first switch for controlling power from a primary power source (e.g., low voltage power supplied from a high voltage b
A vehicle control unit (e.g., a control unit for an automobile) receives feedback from an intelligent voltage/current sensor and a DC/DC controller. The DC/DC controller comprises a first switch for controlling power from a primary power source (e.g., low voltage power supplied from a high voltage battery). The intelligent voltage/current sensor senses power output from the primary power source. The vehicle control unit processes feedback from the intelligent voltage/current sensor and/or the DC/DC controller to determine if a failure has occurred in the primary power source. In response to determining the failure in the primary power source, the vehicle control unit disables the power from the primary power source using a second switch (e.g., a switch in a relay).
대표청구항▼
1. A system for providing fail operational power comprising: a DC/DC controller, wherein the DC/DC controller comprises a DC/DC converter and a first switch for controlling power from a high voltage vehicle battery pack to a low voltage power network, wherein the high voltage vehicle battery pack an
1. A system for providing fail operational power comprising: a DC/DC controller, wherein the DC/DC controller comprises a DC/DC converter and a first switch for controlling power from a high voltage vehicle battery pack to a low voltage power network, wherein the high voltage vehicle battery pack and the DC/DC controller comprise a primary power source;an intelligent voltage/current sensor with a first feedback path to the DC/DC controller for controlling the first switch and a second feedback path to a vehicle control unit connected to a driver that controls a relay switch for controlling the power from the primary power source to the low voltage power network; andthe vehicle control unit processes the feedback from the intelligent voltage/current sensor to determine a failure in the primary power source, and, in response to determining the failure in the primary power source, provides a signal for switching the relay switch that disables the power from the primary power source. 2. The system of claim 1, wherein the intelligent voltage/current sensor monitors the power from the high voltage vehicle battery pack and from the DC/DC controller. 3. The system of claim 2, wherein the feedback from the intelligent voltage/current sensor is based on at least one of an identified voltage, an identified amperage, and an identified temperature. 4. The system of claim 1, wherein determining the failure in the primary power source is further based on additional feedback from the DC/DC controller. 5. The system of claim 4, wherein the additional feedback from the DC/DC controller comprises determining the DC/DC controller has failed and the first switch is locked to provide the power from the high voltage vehicle battery pack. 6. The system of claim 1, wherein the DC/DC converter converts a high voltage from the high voltage vehicle battery pack to a low voltage used in the low voltage power network. 7. The system of claim 6, wherein the driver comprises an electronic device. 8. The system of claim 1, wherein the vehicle control unit receives power from a first low voltage power supply and wherein the DC/DC controller receives power from a second low voltage power supply. 9. The system of claim 1, wherein the first switch and the relay switch are back-to-back switches. 10. The system of claim 1, wherein the signal for switching the relay switch that disables the power from the primary power source switches the relay switch off. 11. A method for providing fail operational power comprising: receiving, by an electronic circuit, feedback from an intelligent voltage/current sensor, wherein the intelligent voltage/current sensor provides the feedback to a DC/DC controller via a first feedback path to control a first switch, wherein the intelligent voltage/current sensor provides the feedback to a vehicle control unit via a second feedback path to control a relay switch, and wherein the DC/DC controller comprises a DC/DC converter and the first switch for controlling power from a high voltage vehicle battery pack to a low voltage power network, wherein the high voltage vehicle battery pack and the DC/DC converter comprise a primary power source;processing, by the electronic circuit, the feedback from the intelligent voltage/current sensor to determine a failure in the primary power source; andin response to determining the failure in the primary power source, providing, by the electronic circuit, a signal for switching a relay switch that disables the power from the primary power source, wherein the first switch and the relay switch comprise a redundant switch-off path between the primary power source and the low voltage power network. 12. The method of claim 11, wherein the intelligent voltage/current sensor monitors the power from the high voltage vehicle battery pack and from the DC/DC controller. 13. The method of claim 12, wherein the feedback from the intelligent voltage/current sensor is based on at least one of an identified voltage, an identified amperage, and an identified temperature. 14. The method of claim 11, wherein determining the failure in the primary power source is further based on additional feedback from the DC/DC controller. 15. The method of claim 14, wherein the additional feedback from the DC/DC controller comprises determining the DC/DC controller has failed and the first switch is locked to provide the power from the primary power source. 16. The method of claim 11, wherein the first switch and the relay switch are back-to-back switches. 17. The method of claim 11, wherein switching the relay switch that disables the power from the primary power source comprises switching the relay switch off. 18. A system for providing failover comprising: a DC/DC controller that receives feedback from an intelligent voltage/current sensor via a first feedback path, wherein the DC/DC controller controls a first switch for controlling power from a high voltage vehicle battery pack, wherein the high voltage vehicle battery pack and the DC/DC controller comprise a primary power source; andwherein the intelligent voltage/current sensor determines a failure in the primary power source, and in response sends the feedback via a second feedback path to a vehicle control unit, wherein the vehicle control unit provides a signal for switching a second switch that disables the power from the primary power source. 19. The system of claim 18, wherein the feedback from the intelligent voltage/current sensor is based on at least one of an identified voltage, an identified amperage, and an identified temperature. 20. The system of claim 18, wherein the first switch and the second switch are back-to-back switches. 21. A system for providing fail operational power comprising: a DC/DC controller that controls power from a high voltage vehicle battery pack, wherein the DC/DC controller comprises a DC/DC converter and a first switch for controlling the power from the high voltage vehicle battery pack, and wherein the high voltage vehicle battery pack and the DC/DC controller comprise a primary power source;an intelligent voltage/current sensor that determines that the primary power source has failed via a first feedback path, and in response to determining that the primary power source has failed, provides feedback via a second feedback path to a vehicle control unit;the vehicle control unit provides a signal for switching a second switch that disables the power from the primary power source. 22. The system of claim 21, wherein the failure of the primary power source is based on at least one of n identified voltage, an identified amperage, and an identified temperature. 23. The system of claim 21, wherein the first switch and the second switch are back-to-back switches.
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