Dual electrode occupant detection system and method
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01R-027/26
B60N-002/00
B60R-021/015
출원번호
US-0585200
(2012-08-14)
등록번호
US-9126502
(2015-09-08)
발명자
/ 주소
Kincaid, Kevin D.
Fortune, Duane D.
Murphy, Morgan D.
Constable, Robert K.
출원인 / 주소
Delphi Technologies, Inc.
대리인 / 주소
Hazelton, Lawrence D.
인용정보
피인용 횟수 :
0인용 특허 :
25
초록▼
A dual-electrode occupant detection system configured to determine an occupant presence on a seat assembly. The system includes two electrodes that each generates an electric field in response to an applied excitation signal. The two electrode signals arising therefrom can be measured individually a
A dual-electrode occupant detection system configured to determine an occupant presence on a seat assembly. The system includes two electrodes that each generates an electric field in response to an applied excitation signal. The two electrode signals arising therefrom can be measured individually and/or combined to detect more reliably an occupant. Such a configuration advantageously avoids the added expense and complication of an electrode arrangement that relies on an underlying shield layer to reduce electrode signal degradation caused by a seat heater element.
대표청구항▼
1. A dual electrode occupant detection system configured to determine an occupant presence on a seat assembly, said system comprising: a first electrode configured to be installed into a seat assembly proximate to a seating surface of the seat assembly, said first electrode configured to generate an
1. A dual electrode occupant detection system configured to determine an occupant presence on a seat assembly, said system comprising: a first electrode configured to be installed into a seat assembly proximate to a seating surface of the seat assembly, said first electrode configured to generate an electrode signal having a signal value dependent on an excitation signal applied to the first electrode and a proximity of the occupant;a second electrode distinct from the first electrode, said second electrode configured to be installed into the seat assembly and configured to generate an electrode signal having a signal value dependent on an excitation signal applied to the second electrode and the proximity of the occupant; anda controller configured to determine an occupant presence based on signal values arising from a high frequency excitation signal and a low frequency excitation signal being applied to two or more of a) only the first electrode, b) only the second electrode, and c) simultaneously both the first electrode and the second electrode, wherein the controller is configured to determine occupant presence based ona first signal value arising from a high frequency excitation signal being applied to only the first electrode,a second signal value arising from a low frequency excitation signal being applied to only the first electrode,a third signal value arising from the high frequency excitation signal being applied to one of only the second electrode, and simultaneously to both the first electrode and the second electrode,a fourth signal value arising from the low frequency excitation signal being applied to one of only the second electrode, and simultaneously to both the first electrode and the second electrode. 2. The system in accordance with claim 1, wherein the second electrode is coplanar with the first electrode. 3. The system in accordance with claim 1, wherein the controller is configured to selectively apply the high frequency excitation signal and the low frequency excitation signal to a) only the first electrode, b) only the second electrode, and c) simultaneously both the first electrode and the second electrode. 4. The system in accordance with claim 1, wherein the third signal value arises from the high frequency excitation signal being applied to only the second electrode,the fourth signal value arises from the low frequency excitation signal being applied to only the second electrode,wherein the controller is further configured to determine occupant presence based ona fifth signal value arising from the high frequency excitation signal being applied simultaneously to both the first electrode and the second electrode, anda sixth value arising from the low frequency excitation signal being applied simultaneously to both the first electrode and the second electrode. 5. The system in accordance with claim 1, wherein the first electrode is configured to be installed proximate to a central portion of the seating surface, and the second electrode is configured to be installed proximate to at least part of a perimeter portion of the seating surface. 6. The system in accordance with claim 1, wherein the low frequency excitation signal has a frequency of two thousand Hertz (2 kHz), and the high frequency excitation signal has a frequency of fifty thousand Hertz (50 kHz). 7. The system in accordance with claim 1, wherein the system further comprises a switch device configured to selective couple a) only the first electrode to the controller, b) only the second electrode to the controller, or c) simultaneously both the first electrode and the second electrode to the controller. 8. The system in accordance with claim 1, wherein the system further comprises a thermistor configured to detect a temperature proximate to the first electrode and the second electrode. 9. The system in accordance with claim 1, wherein the system further comprises a seat assembly. 10. A method of detecting an occupant presence on a seat assembly, said method comprising: providing a first electrode configured to be installed into a seat assembly proximate to a seating surface of the seat assembly and configured to generate an electrode signal having a signal value dependent on an excitation signal applied to the first electrode and a proximity of the occupant;providing a second electrode distinct from the first electrode, said second electrode configured to be installed into the seat assembly and configured to generate an electrode signal having a signal value dependent on an excitation signal applied to the second electrode and the proximity of the occupant;applying a high frequency excitation signal and a low frequency excitation signal selectively to two or more of a) only the first electrode, b) only the second electrode, and c) simultaneously both the first electrode and the second electrode; anddetermining an occupant presence based on signal values arising from the excitation signals being applied to the electrodes, wherein determining an occupant presence includes the steps ofdetermining a first signal value arising from a high frequency excitation signal being applied to only the first electrode,determining a second signal value arising from a low frequency excitation signal being applied to only the first electrode,determining a third signal value arising from the high frequency excitation signal being applied to one of only the second electrode, and simultaneously to both the first electrode and the second electrode,determining a fourth signal value arising from the low frequency excitation signal being applied to one of only the second electrode, and simultaneously to both the first electrode and the second electrode. 11. The method in accordance with claim 10, wherein the third signal value arises from the high frequency excitation signal being applied to only the second electrode,the fourth signal value arises from the low frequency excitation signal being applied to only the second electrode,wherein determining an occupant presence further includesdetermining a fifth signal value arising from the high frequency excitation signal being applied simultaneously to both the first electrode and the second electrode, anddetermining a sixth value arising from the low frequency excitation signal being applied simultaneously to both the first electrode and the second electrode. 12. The method in accordance with claim 10, wherein the method further comprises determining a temperature value based on a temperature proximate to the first electrode and the second electrode, wherein determining an occupant presence is further based on the temperature. 13. A controller for a dual electrode occupant detection system configured to determine an occupant presence on a seat assembly, said system comprising a first electrode configured to be installed into a seat assembly proximate to a seating surface of the seat assembly and configured to generate an electrode signal having a signal value dependent on an excitation signal applied to the first electrode and a proximity of the occupant, and a second electrode distinct from the first electrode, said second electrode configured to be installed into the seat assembly and configured to generate an electrode signal having a signal value dependent on an excitation signal applied to the second electrode and the proximity of the occupant, said controller configured to determine an occupant presence based on signal values arising from a high frequency excitation signal and a low frequency excitation signal being applied to two or more of a) only the first electrode, b) only the second electrode, and c) simultaneously both the first electrode and the second electrode, wherein the controller is configured to determine occupant presence based on a first signal value arising from a high frequency excitation signal being applied to only the first electrode,a second signal value arising from a low frequency excitation signal being applied to only the first electrode,a third signal value arising from the high frequency excitation signal being applied to one of only the second electrode, and simultaneously to both the first electrode and the second electrode,a fourth signal value arising from the low frequency excitation signal being applied to one of only the second electrode, and simultaneously to both the first electrode and the second electrode. 14. The controller in accordance with claim 13, wherein the controller is configured to selectively apply the high frequency excitation signal and the low frequency excitation signal to a) only the first electrode, b) only the second electrode, and c) simultaneously both the first electrode and the second electrode. 15. The controller in accordance with claim 13, wherein the controller further comprises a switch device configured to selective couple a) only the first electrode to the controller, b) only the second electrode to the controller, or c) simultaneously both the first electrode and the second electrode to the controller. 16. The controller in accordance with claim 13, wherein the controller is further configured to receive a temperature signal and determine an occupant presence further based on the temperature signal.
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