Welded contactor checking systems and methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60L-011/12
G01R-031/327
B60L-003/00
B60L-003/12
B60L-011/18
H01H-047/00
B60L-003/04
출원번호
US-0647890
(2012-10-09)
등록번호
US-9434261
(2016-09-06)
발명자
/ 주소
Bemrich, Jacob R.
Anzicek, Joshua M.
출원인 / 주소
Robert Bosch GmbH
대리인 / 주소
Maginot Moore & Beck LLP
인용정보
피인용 횟수 :
1인용 특허 :
11
초록▼
A system includes a plurality of batteries, first and second relays, a relay control module, and a welding indication module. The batteries are electrically connected and collectively output power for an electric motor via first and second nodes. The first relay is connected between a first output o
A system includes a plurality of batteries, first and second relays, a relay control module, and a welding indication module. The batteries are electrically connected and collectively output power for an electric motor via first and second nodes. The first relay is connected between a first output of the batteries and the first node. The second relay is connected between a second output of the batteries and the second node. The relay control module controls the first and second relays. The welding indication module commands the relay control module to open the first relay during a diagnosis period, commands the relay control module to close the second relay during the diagnosis period, and indicates whether the first relay is welded closed based on a voltage between the first and second nodes during the diagnosis period.
대표청구항▼
1. A system of a vehicle, comprising: a plurality of batteries that are electrically connected and that collectively output power for an electric motor via first and second nodes;a first relay that is connected between a first output of the batteries and the first node;a second relay that is connect
1. A system of a vehicle, comprising: a plurality of batteries that are electrically connected and that collectively output power for an electric motor via first and second nodes;a first relay that is connected between a first output of the batteries and the first node;a second relay that is connected between a second output of the batteries and the second node;a third relay that is connected between the first output of the batteries and the first node; anda battery control module comprising: a relay control module operatively connected to the first and second relays and configured to open and close the first and second relays; anda welding indication module operatively connected to the relay control module and configured to (i) command the relay control module to open the first relay during a first diagnosis period, (ii) command the relay control module to close the second relay during the first diagnosis period, (iii) measure a first voltage difference between a voltage at the first node and a voltage at the second node during the first diagnosis period, the first voltage difference being measured while the first relay is commanded open by the relay control module and the second relay is commanded closed by the relay control module, and (iv) output whether the first relay is welded closed based on the measured first voltage difference during the first diagnosis period,wherein the welding indication module is further configured to (i) command the relay control module to open the first relay during a second diagnosis period, (ii) command the relay control module to close the third relay during the second diagnosis period, (iii) command the relay control module to open the second relay during the second diagnosis period, (iv) measure a second voltage difference between a voltage at the first node and a voltage at the second node during the second diagnosis period, the second voltage difference being measured while the first relay is commanded open by the relay control module, the second relay is commanded open by the relay control module, and the third relay is commanded closed by the relay control module, and (v) output whether the second relay is welded closed in response to the measured second voltage difference during the second diagnosis period. 2. The system of claim 1 wherein the welding indication module is configured to output whether the first relay is welded closed in response to a change in the first voltage difference during the first diagnosis period. 3. The system of claim 1 wherein the welding indication module configured to output whether the first relay is welded closed in response to a comparison of the first voltage difference and a third voltage difference measured between a voltage at the first output of the batteries and a voltage at the second output of the batteries during the first diagnosis period, the third voltage difference being measured while the first relay is commanded open by the relay control module and the second relay is commanded closed by the relay control module. 4. The system of claim 3 wherein the welding indication module is configured to: selectively output that the first relay is welded closed when the first voltage difference remains greater than a predetermined percentage of the third voltage difference; andoutput that the first relay is not welded closed when the first voltage difference is less than the predetermined percentage of the third voltage difference. 5. The system of claim 3 wherein the welding indication module is configured to: output that the first relay is welded closed when the first voltage difference remains greater than first and second predetermined percentages of the third voltage difference during first and second predetermined periods, respectively; andoutput that the first relay is not welded closed when at least one of: the first voltage difference is less than the first predetermined percentage of the third voltage difference during the first predetermined period; andthe first voltage difference is less than the second predetermined percentage of the third voltage difference during the second predetermined period. 6. The system of claim 1 wherein the welding indication module is configured to output whether the second relay is welded closed in response to a comparison of the second voltage difference and a fourth voltage difference measured between a voltage at the first output of the batteries and a voltage at the second output of the batteries during the second diagnosis period, the fourth voltage difference being measured while the first relay is commanded open by the relay control module, the second relay is commanded open by the relay control module, and the third relay is commanded closed by the relay control module. 7. The system of claim 6 wherein the welding indication module is configured to: output that the second relay is welded closed when the second voltage difference is greater than a second predetermined percentage of the fourth voltage difference; andoutput that the second relay is not welded closed when the second voltage difference remains less than the second predetermined percentage of the fourth voltage difference. 8. The system of claim 1 wherein the welding indication module is configured to illuminate a malfunction indicator lamp (MIL) when at least one of the first relay and the second relay is welded closed. 9. A method comprising: providing a plurality of batteries that are electrically connected and that collectively output power for an electric motor via first and second nodes;providing a first relay that is connected between a first output of the batteries and the first node;providing a second relay that is connected between a second output of the batteries and the second node;providing a third relay that is connected between the first output of the batteries and the first node;controlling the first relay and the second relay;commanding opening of the first relay during a first diagnosis period;commanding closing of the second relay during the first diagnosis period;measuring a first voltage difference between a voltage at the first node and a voltage at the second node during the first diagnosis period, the first voltage difference being measured while the first relay is commanded open by the relay control module and the second relay is commanded closed by the relay control module;outputting whether the first relay is welded closed based on the measured first voltage difference during the first diagnosis period;commanding opening of the first relay during a second diagnosis period;commanding closing of the third relay during the second diagnosis period;commanding opening of the second relay during the second diagnosis period;measure a second voltage difference between a voltage at the first node and a voltage at the second node during the second diagnosis period, the second voltage difference being measured while the first relay is commanded open by the relay control module, the second relay is commanded open by the relay control module, and the third relay is commanded closed by the relay control module; andoutputting whether the second relay is welded closed in response to the measured second voltage difference during the second diagnosis period. 10. The method of claim 9 further comprising outputting whether the first relay is welded closed in response to a change in the first voltage difference during the first diagnosis period. 11. The method of claim 9 further comprising outputting whether the first relay is welded closed in response to a comparison of the first voltage difference and a third voltage difference measured between a voltage at the first output of the batteries and a voltage at the second output of the batteries during the first diagnosis period, the third voltage difference being measured while the first relay is commanded open by the relay control module and the second relay is commanded closed by the relay control module. 12. The method of claim 11 further comprising: selectively outputting that the first relay is welded closed when the first voltage difference remains greater than a predetermined percentage of the third voltage difference; andoutputting that the first relay is not welded closed when the first voltage difference is less than the predetermined percentage of the third voltage difference. 13. The method of claim 11 further comprising: outputting that the first relay is welded closed when the first voltage difference remains greater than first and second predetermined percentages of the third voltage difference during first and second predetermined periods, respectively; andoutputting that the first relay is not welded closed when at least one of: the first voltage difference is less than the first predetermined percentage of the third voltage difference during the first predetermined period; andthe first voltage difference is less than the second predetermined percentage of the third voltage difference during the second predetermined period. 14. The method of claim 9 further comprising outputting whether the second relay is welded closed in response to a comparison of the second voltage difference and a fourth voltage difference measured between a voltage at the first output of the batteries and a voltage at the second output of the batteries during the second diagnosis period, the fourth voltage difference being measured while the first relay is commanded open by the relay control module, the second relay is commanded open by the relay control module, and the third relay is commanded closed by the relay control module. 15. The method of claim 14 further comprising: outputting that the second relay is welded closed when the second voltage difference is greater than a second predetermined percentage of the fourth voltage difference; andoutputting that the second relay is not welded closed when the second voltage difference remains less than the second predetermined percentage of the fourth voltage difference. 16. A system comprising: a plurality of batteries that are electrically connected and that collectively output power for a load via first and second nodes;a first relay that is connected between a first output of the batteries and the first node;a second relay that is connected between a second output of the batteries and the second node;a third relay that is connected between the first output of the batteries and the first node; anda battery control module comprising: a relay control module operatively connected to the first and second relays and configured to open and close the first and second relays; anda welding indication module operatively connected to the relay control module and configured to (i) command the relay control module to open the first relay during a diagnosis period, (ii) command the relay control module to close the second relay during the diagnosis period, (iii) measure a first voltage difference between a voltage at the first node and a voltage at the second node during the diagnosis period, the first voltage difference being measured while the first relay is commanded open by the relay control module and the second relay is commanded closed by the relay control module, and (iv) output whether the first relay is welded closed based on the measured first voltage difference during the diagnosis period,wherein the welding indication module is further configured to (i) command the relay control module to open the first relay during a second diagnosis period, (ii) command the relay control module to close the third relay during the second diagnosis period, (iii) command the relay control module to open the second relay during the second diagnosis period, (iv) measure a second voltage difference between a voltage at the first node and a voltage at the second node during the second diagnosis period, the second voltage difference being measured while the first relay is commanded open by the relay control module, the second relay is commanded open by the relay control module, and the third relay is commanded closed by the relay control module, and (v) output whether the second relay is welded closed in response to the measured second voltage difference during the second diagnosis period.
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이 특허에 인용된 특허 (11)
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Zettel, Andrew M.; Miller, Michael J.; Gibbs, James C.; Jeffers, Mary A., System and method for monitoring an electrical power relay in a hybrid electric vehicle.
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