Apparatus and method for diagnosing failure of ultrasonic sensor
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01S-015/93
B60R-025/10
G01S-013/56
G01S-007/52
출원번호
US-0801230
(2017-11-01)
등록번호
US-10252698
(2019-04-09)
우선권정보
KR-10-2017-0058784 (2017-05-11)
발명자
/ 주소
Hwang, Soon Cheol
Jung, Jee Hyun
Hwang, In Chul
출원인 / 주소
Hyundai Motor Company
대리인 / 주소
Morgan, Lewis & Bockius LLP
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
An apparatus and a method for diagnosing a failure of an ultrasonic detector in a manner that diagnoses whether a failure has occurred in the ultrasonic detector by determining whether a surge voltage is generated based on a waveform received by a receiver of the ultrasonic detector after activation
An apparatus and a method for diagnosing a failure of an ultrasonic detector in a manner that diagnoses whether a failure has occurred in the ultrasonic detector by determining whether a surge voltage is generated based on a waveform received by a receiver of the ultrasonic detector after activation of a transmitter of the ultrasonic sensor, may include an ultrasonic detector transmitting and receiving an ultrasonic wave; a voltage detector measuring a voltage of the received ultrasonic wave; and a controller determining whether a surge voltage is generated based on the measured voltage, and diagnosing whether a failure has occurred in the ultrasonic detector according to whether the surge voltage is generated.
대표청구항▼
1. An apparatus for diagnosing a failure of an ultrasonic detector, the apparatus comprising: the ultrasonic detector transmitting and receiving an ultrasonic wave;a voltage detector measuring a voltage of the received ultrasonic wave; anda controller configured for determining whether a surge volta
1. An apparatus for diagnosing a failure of an ultrasonic detector, the apparatus comprising: the ultrasonic detector transmitting and receiving an ultrasonic wave;a voltage detector measuring a voltage of the received ultrasonic wave; anda controller configured for determining whether a surge voltage is generated based on the measured voltage, and diagnosing whether the failure has occurred in the ultrasonic detector according to whether the surge voltage is generated,wherein the controller is configured to extract voltage values from the measured voltage at predetermined time intervals, determine an average value of the extracted voltage values after a predetermined time period has elapsed, add a tuning value to the determined average value to determine a threshold value, diagnose the ultrasonic detector as normal when at least one of the extracted voltage values exceeds the threshold value, and diagnose that the failure has occurred in the ultrasonic detector when none of the extracted voltage values exceed the threshold value. 2. The apparatus according to claim 1, wherein the controller is configured to diagnose the ultrasonic detector as normal when the surge voltage is generated, and diagnose that the failure has occurred in the ultrasonic detector when no surge voltage is generated. 3. The apparatus according to claim 1, wherein the controller is configured to control a storage to store the extracted voltage values. 4. The apparatus according to claim 1, wherein the controller is configured to determine whether the surge voltage is generated when a lock signal of a vehicle door is input. 5. The apparatus according to claim 1, wherein the controller is configured to control an output device to output a diagnosis result. 6. A method for diagnosing a failure of an ultrasonic detector, the method comprising steps of: transmitting and receiving, by an ultrasonic detector, an ultrasonic wave;measuring, by a voltage detector, a voltage of the received ultrasonic wave; anddetermining, by a controller, whether a surge voltage is generated based on the measured voltage, and diagnosing whether the failure has occurred in the ultrasonic detector according to whether the surge voltage is generated,wherein the diagnosing step includes:extracting voltage values from the measured voltage at predetermined time intervals;determining an average value of the extracted voltage values after a predetermined time period has elapsed;determining a threshold value by adding a tuning value to the determined average value;diagnosing the ultrasonic detector as normal when at least one of the extracted voltage values exceeds the threshold value; anddiagnosing that the failure has occurred in the ultrasonic detector when none of the extracted voltage values exceed the threshold value. 7. The method according to claim 6, wherein the diagnosing step includes diagnosing the ultrasonic detector as normal when the surge voltage is generated, and diagnosing that the failure has occurred in the ultrasonic detector when no surge voltage is generated. 8. The method according to claim 6, wherein the diagnosing step further includes storing the extracted voltage values. 9. The method according to claim 6, wherein the diagnosing step includes determining whether the surge voltage is generated when a lock signal of a vehicle door is input. 10. The method according to claim 6, further including outputting a diagnosis result. 11. An apparatus for diagnosing a failure of an ultrasonic detector, the apparatus comprising: an ultrasonic detector including a receiver, a first transmitter, and a second transmitter;a voltage detector measuring a voltage of an ultrasonic wave received by the receiver; anda controller configured for activating the first transmitter in a first section and activating the first transmitter and the second transmitter in a second section, determining whether a surge voltage is generated based on a voltage measured in each section, and diagnosing whether a failure has occurred in the first transmitter or the second transmitter according to whether the surge voltage is generated,wherein the controller is configured to extract voltage values from the voltage measured in the first section at predetermined time intervals, determine a first average value of the extracted voltage values after a predetermined time period has elapsed in the first section, determine a first threshold value by adding a tuning value to the first average value, diagnose the first transmitter as normal when at least one of the extracted voltage values in the first section exceeds the first threshold value, and diagnose that the failure has occurred in the first transmitter when none of the extracted voltage values in the first section exceed the first threshold value. 12. The apparatus according to claim 11, wherein the controller is configured to extract voltage values from the voltage measured in the second section at predetermined time intervals when the first transmitter is considered normal, determine a second average value of the extracted voltage values after a predetermined time period has elapsed in the second section, determine a second threshold value by adding a tuning value to the second average value, diagnose the second transmitter as normal when at least one of the extracted voltage values in the second section exceeds the second threshold value, and diagnose that a failure has occurred in the second transmitter when none of the extracted voltage values in the second section exceed the second threshold value. 13. The apparatus according to claim 12, wherein the controller is configured to diagnose the ultrasonic detector as normal when a result of dividing the second average value by the first average value is disposed in a threshold range, and diagnoses that the failure has occurred in the ultrasonic detector when the result is not included in the threshold range. 14. A method for diagnosing a failure of an ultrasonic detector including a receiver, a first transmitter, and a second transmitter, the method comprising steps of: activating, by a controller, the first transmitter in a first section;measuring, by a voltage detector, a first voltage of an ultrasonic wave received by the receiver in the first section;determining, by the controller, whether a surge voltage is generated based on the first voltage, and diagnosing whether a failure has occurred in the first transmitter according to whether the surge voltage is generated;activating, by the controller, the second transmitter in a second section while maintaining the activated state of the first transmitter when the first transmitter is considered normal;measuring, by the voltage detector, a second voltage of an ultrasonic wave received by the receiver in the second section; anddetermining, by the controller, whether a surge voltage is generated based on the second voltage, and diagnosing whether a failure has occurred in the second transmitter according to whether the surge voltage is generated,wherein the step of diagnosing whether the failure has occurred in the first transmitter includes:extracting voltage values from the first voltage measured in the first section at predetermined time intervals;determining a first average value of the extracted voltage values after a predetermined time period has elapsed in the first section;determining a first threshold value by adding a tuning value to the first average value:diagnosing the first transmitter as normal when at least one of the extracted voltage values in the first section exceeds the first threshold value; and diagnosing that the failure has occurred in the first transmitter when none of the extracted voltage values in the first section exceed the first threshold. 15. The method according to claim 14, wherein the step of diagnosing whether the failure has occurred in the second transmitter includes: extracting voltage values from the second voltage measured in the second section at predetermined time intervals;determining a second average value of the extracted voltage values after a predetermined time period has elapsed in the second section;determining a second threshold value by adding a tuning value to the second average value;diagnosing the second transmitter as normal when at least one of the extracted voltage values in the second section exceeds the second threshold value; anddiagnosing that the failure has occurred in the second transmitter when none of the extracted voltage values in the second section exceed the second threshold value. 16. The method according to claim 15, further including diagnosing the ultrasonic detector as normal when a result of dividing the second average value by the first average value is disposed in a threshold range, and diagnosing that a failure has occurred in the ultrasonic detector when the result is not included in the threshold range.
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이 특허에 인용된 특허 (5)
Nonaka Takanori (Kyoto JPX), Drive limiter in ultrasound probe-driving transmitter.
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