IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0920658
(1997-08-29)
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우선권정보 |
SG-0010743 (1996-09-27) |
발명자
/ 주소 |
- Jo Sung Jin
- Chua Chee Seong,SGX
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
66 인용 특허 :
1 |
초록
▼
Remote energy transmitting circuits 30, 35, 36, 37 sequentially transmit a first RF signal when activated by the controller 60. A remote unit 14 in the tire receives the first RF signal, and when the pressure in the tire is greater than a predetermined pressure, the remote unit 14 transmits a second
Remote energy transmitting circuits 30, 35, 36, 37 sequentially transmit a first RF signal when activated by the controller 60. A remote unit 14 in the tire receives the first RF signal, and when the pressure in the tire is greater than a predetermined pressure, the remote unit 14 transmits a second RF signal. Via the remote receiver 20, the controller 60 determines whether the second RF signal is received within a predetermined time after transmitting the first RF signal. When the second RF signal is not received within the predetermined time, the controller 60 assumes a pressure detection failure and causes a display to indicate this condition.
대표청구항
▼
[ We claim:] [1.] A tire pressure monitoring system for a vehicle having a plurality of tires, the tire pressure monitoring system comprising:a plurality of remote units each unit being for mounting within each of the plurality of tires for receiving a first radio frequency (RF) signal, for detectin
[ We claim:] [1.] A tire pressure monitoring system for a vehicle having a plurality of tires, the tire pressure monitoring system comprising:a plurality of remote units each unit being for mounting within each of the plurality of tires for receiving a first radio frequency (RF) signal, for detecting the pressure in the tire, and for transmitting a second RF signal, different from the first RF signal, when the detected pressure is greater than a predetermined pressure;a corresponding plurality of remote energy transmitting circuits for mounting on the vehicle, each remote energy transmitting circuit being associated with one of the plurality of remote units and having an input for receiving an activate signal, and an antenna for transmitting the first RF signal in response to the receipt of the activate signal;a corresponding plurality of remote receivers for mounting on the vehicle, each remote receiver being associated with one of plurality of remote energy transmitting units having an antenna for receiving the second RF signal, and an output for providing an output signal when the second RF signal is received; anda controller for mounting on the vehicle, for coupling to the input of each of the remote energy transmitting circuits and for coupling to the output of each of the remote receivers, the controller being arranged for sequentially transmitting the activate signal to each of the remote energy transmitting circuits, and determining whether the output signal is received from each of the remote receivers before a predetermined time expires, whereinwhen the output signal is not received from one of the remote receivers after the predetermined time expires, the controller produces a signal indicating that there is a fault with the pressure detection of at least one of the plurality of tires. A tire monitoring system according to claim 1 wherein each remote unit comprises:a plurality of energy receiving circuits for mounting along an annular path within the tire, each having an antenna for receiving the first RF signal, a converter for converting the first RF signal to a voltage, and an output for providing the voltage;a power regulating means coupled to receive the voltage from the outputs of the plurality of energy receiving circuits, coupled to receive a power enable signal and coupled to provide a regulated voltage when the power enable signal is received;a hysteresis circuit coupled to receive the voltage from the outputs of the plurality of energy receiving circuits, having an output for providing a hysteresis high output signal when the voltage from the outputs of the plurality of energy receiving circuits is greater than a predetermined high voltage, and for providing a hysteresis low output signal when the voltage from the outputs of the plurality of energy receiving circuits is less than a predetermined low voltage;a pressure sensor circuit coupled to receive the regulated voltage from the output of the power regulating means, having a pressure sensor for detecting the pressure and for generating a pressure signal indicative of the detected pressure, and an output for providing the pressure signal;a comparator circuit coupled to receive the regulated voltage and the pressure signal from the pressure sensor circuit, having a comparator for comparing the pressure signal with a predetermined pressure signal, and an output for providing a pressure high output signal when the pressure signal is greater than the predetermined pressure signal, and for providing a pressure low output signal when the pressure signal is less than the predetermined pressure signal;a coupling means having a corresponding plurality of inputs, each input coupled to the output of one of the plurality of energy receiving circuits for receiving the first RF signal from at least one of the plurality of energy receiving circuits, and having an output for providing the received first RF signal;an RF transmission circuit coupled to receive the second RF signal and a transmit enable signal from the logic circuit, and having an antenna for transmitting the second RF signal upon receipt of the transmit enable signal; anda logic circuit coupled to receive the voltage from the outputs of the plurality of energy receiving circuits, coupled to receive the first RF signal from the output of the coupling means, coupled to the outputs of the hysteresis circuit and the comparator circuit, coupled to provide the power enable signal to the power regulating means, coupled to provide the second RF signal and a transmit enable signal,wherein the logic circuit provides the power enable signal in response to receiving the hysteresis high output signal from the hysteresis circuit, andwherein the logic circuit provides the transmit enable signal in response to receiving the pressure high output signal from the comparator circuit.
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