Methods of preventing freezing of relays in electrical components
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01N-025/00
G01R-031/00
H01H-047/00
G01R-031/327
출원번호
US-0350009
(2012-01-13)
등록번호
US-9039275
(2015-05-26)
발명자
/ 주소
Szleszynski, Greg
Dobre, Adrian
Barjuca, Teofil
Mine, Ryutaro
Beach, Jim
Wehner, Adam
Balogh, Tim
출원인 / 주소
Nissan North America, Inc.
대리인 / 주소
Young, Basile, Hanlon & MacFarlane, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
Disclosed herein are methods of preventing freezing of relays in electrical components operated in specific atmospheric conditions. One such method described herein comprises monitoring a temperature of a relay with a thermocouple located on a contact of the relay while monitoring ambient temperatur
Disclosed herein are methods of preventing freezing of relays in electrical components operated in specific atmospheric conditions. One such method described herein comprises monitoring a temperature of a relay with a thermocouple located on a contact of the relay while monitoring ambient temperature within the relay. Operation of the electrical component is simulated in a sub-zero temperature and high humidity condition. A freeze potential of the relay is determined by plotting a temperature cross-over curve, wherein both the ambient temperature and the contact temperature are plotted during the operation and cool down period. If the high freeze potential is determined, one or both of the relay and the electrical component are modified with a modification configured to decrease the high freeze potential.
대표청구항▼
1. A method of preventing freezing of relays in an electrical component comprising: operating the electrical component in a sub-zero temperature and high humidity condition;cooling down of the electrical component un-powered in the sub-zero temperature and high humidity condition; anddetermining a f
1. A method of preventing freezing of relays in an electrical component comprising: operating the electrical component in a sub-zero temperature and high humidity condition;cooling down of the electrical component un-powered in the sub-zero temperature and high humidity condition; anddetermining a freeze potential of the relay from a temperature cross-over curve. 2. The method of claim 1, wherein determining the freeze potential of the relay comprises: monitoring a temperature of a contact within the relay with a first thermocouple located on the contact;concurrently monitoring ambient temperature within the relay with a second thermocouple during the operating and the cooling down; andplotting the temperature cross-over curve, wherein both the ambient temperature and the temperature of the contact are plotted during the operating and the cooling down, wherein if the temperature of the contact and the ambient temperature cross on the temperature cross-over curve, a high freeze potential of the relay is determined and if the temperature of the contact and the ambient temperature do not cross on the temperature cross-over curve, a low freeze potential of the relay is determined. 3. The method of claim 2, wherein the electrical component is a power distribution module of a vehicle and the simulating operation of the relay comprises idling the vehicle for a first period of time, leaving the vehicle un-powered for a second period of time, and restarting the vehicle. 4. The method of claim 3, wherein the second period of time is greater than the first period of time. 5. The method of claim 3, wherein if the high freeze potential is determined, the method further comprises: modifying one or both of the relay and the electrical component with a modification configured to decrease the high freeze potential. 6. The method of claim 5, wherein the modification is selected from the group consisting of: removing existing heat dissipaters from the power distribution module, adding ventilation to the power distribution module, moving the relay to a different location within the power distribution module, moving the power distribution module to a different location within an engine compartment of the vehicle and combinations thereof. 7. The method of claim 1, wherein the low temperature and high humidity condition is at or below −20° C. and at or above 90% relative humidity. 8. The method of claim 1 further comprising pre-conditioning the relay prior to the operating. 9. The method of claim 8, wherein pre-conditioning comprises: drying the relay for a third period of time;soaking the relay in a high temperature and high humidity condition for a fourth period of time;cooling the relay to a sub-zero temperature; andholding the relay at the sub-zero temperature for a fifth period of time. 10. The method of claim 9, wherein drying comprises: operating the electrical component in a high heat and low humidity condition; andholding the electrical component in the high heat and low humidity condition in a power-off state. 11. The method of claim 9, wherein the high temperature and high humidity condition comprises a temperature of about 80° C. or higher and a humidity of about 90% relative humidity or higher. 12. The method of claim 9, wherein the fourth period of time is about 90 hours or greater. 13. The method of claim 9, wherein the sub-zero temperature is about −20° C. or below. 14. The method of claim 9, wherein the fifth period of time is about 20 hours or greater. 15. The method of claim 1, wherein the operating of the electrical component comprises: placing the electrical component in a chamber with temperature control configured to control a temperature of an internal atmosphere of the chamber;reducing the temperature of the internal atmosphere of the chamber to a sub-zero temperature;humidifying the internal atmosphere of the chamber with saturated air supplied from a humidifier in fluid communication with the internal atmosphere; andproviding power to the electrical component for a first period of time. 16. The method of claim 1 further comprising: placing the electrical component in a chamber with temperature control configured to control a temperature of an internal atmosphere of the chamber;reducing the temperature of the internal atmosphere of the chamber to a sub-zero temperature; andhumidifying the internal atmosphere of the chamber with saturated air supplied from a humidifier in fluid communication with the internal atmosphere. 17. The method of claim 16, wherein the operating comprises providing power to the electrical component for a first period of time while the electrical component is sealed in the chamber and the cooling down comprises leaving the electrical component un-powered for a second period of time. 18. The method of claim 17, wherein determining the freeze potential of the relay comprises: providing power to the electrical component for a second time, wherein a low freeze potential is determined if contacts of the relay close when power is provided for the second period of time and a high freeze potential is determined if the contacts of the relay do not close when power is provided for the second period of time. 19. The method of claim 18, wherein the electrical component is a power distribution module of a vehicle and the contacts of the relay closing is indicated by the vehicle starting, and failure of the contacts to close is indicated by the vehicle failing to start. 20. A method of preventing freezing of relays in an electrical component comprising: monitoring a temperature of a contact within a relay with a first thermocouple located on the contact;concurrently monitoring ambient temperature within the relay with a second thermocouple;operating the electrical component in a sub-zero temperature and high humidity condition during temperature monitoring;cooling down of the electrical component un-powered in the sub-zero temperature and high humidity condition during temperature monitoring; anddetermining a freeze potential of the relay by plotting a temperature cross-over curve, wherein both the ambient temperature and the temperature of the contact are plotted during the operating and the cooling down, wherein if the temperature of the contact and the ambient temperature cross on the temperature cross-over curve, a high freeze potential of the relay is determined and if the temperature of the contact and the ambient temperature do not cross on the temperature cross-over curve, a low freeze potential of the relay is determined.
Janke Donald E. (Benton Township ; Berrien County MI) Szynal Joseph M. (Laporte IN) Guess Ronald W. (Scott Township ; Vanderburgh County IN) Bradley Greg A. (Evansville IN), Refrigerator control circuit with relay operation checking.
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