Tire pressure monitoring using half duplex transponder frequency shift

US 9,000,904 B2
Filed: 03/25/2013
Issued: 04/07/2015
Est. Priority Date: 03/27/2012
Status: Active Grant

First Claim

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1. A tire pressure sensor comprising:

an RFID (radiofrequency identification) device having a parallel resonant circuit comprising an inductor and a first capacitor for generating a first radiofrequency (RF) signal for transmission to a reader circuit, and a second capacitor coupled across the parallel resonant circuit by a first switch in a first position for generating a second RF signal for transmission to the reader circuit;

a capacitive pressure sensor being coupled across the parallel resonant circuit by the first switch in a second position for generating a third frequency RF signal for transmission to the reader, wherein a difference in frequency between the first and third RF signals is indicative of a pressure of a tire.

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Abstract

A tire pressure sensor has an RFID (radio frequency identification) device having a parallel resonant circuit including an inductor and a first capacitor for generating a first radio frequency (RF) signal for transmission to a reader circuit, and a second capacitor coupled across the parallel resonant circuit by a first switch in a first position and generating a second RF signal for transmission to the reader circuit. A capacitive pressure sensor is coupled across the parallel resonant circuit by the first switch in a second position for generating a third frequency RF signal for transmission to the reader, wherein a difference in frequency between the first and third RF signals is indicative of a pressure of a tire.

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15 Claims

1. A tire pressure sensor comprising:
- an RFID (radiofrequency identification) device having a parallel resonant circuit comprising an inductor and a first capacitor for generating a first radiofrequency (RF) signal for transmission to a reader circuit, and a second capacitor coupled across the parallel resonant circuit by a first switch in a first position for generating a second RF signal for transmission to the reader circuit;
  
  a capacitive pressure sensor being coupled across the parallel resonant circuit by the first switch in a second position for generating a third frequency RF signal for transmission to the reader, wherein a difference in frequency between the first and third RF signals is indicative of a pressure of a tire.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The tire pressure sensor of claim 1, further comprising a modulation circuit coupled to the first switch for generating the first RF signal in response to a first state of a digital signal and for generating the second RF signal in response to a second state of the digital signal.
  - 3. The tire pressure sensor of claim 2, wherein the first switch is in the second position and the modulation signal generates a first frequency RF signal in response to the first state of the digital signal and the third frequency RF signal in response to the second state of the digital signal.
  - 4. The tire pressure sensor of claim 3, further comprising a known fixed capacitor coupled across the parallel resonant circuits by the first switch in a second position and a second switch in the second position for generating a predetermined frequency RF signal for transmission to the reader circuit for calibrating the response of the pressure sensor.
  - 5. The tire pressure sensor or of claim 4, wherein the first RF signal frequency is 134 kHz, and the second RF signal frequency is 124.2 kHz.
  - 6. The tire pressure sensor of claim 2, further comprising a known fixed capacitor coupled across the parallel resonant circuits by the first switch in a second position and a second switch in the second position for generating a predetermined frequency RF signal for transmission to the reader circuit for calibrating the response of the pressure sensor.
  - 7. The tire pressure sensor of claim 1, further comprising a known fixed capacitor coupled across the parallel resonant circuit by the first switch in a second position and a second switch in the second position for generating a predetermined frequency RF signal for transmission to the reader circuit for calibrating the response of the pressure sensor.

8. A method of measuring a tire pressure comprising:
- transmitting from a reader circuit a (RF) signal at a first frequency to a radio frequency identification (RFID) device to charge a capacitor therein and command a tire pressure sensor measure pressure in a tire to which the sensor is attached;
  
  transmitting the first RF signal from the RFID device to the reader circuit in response to a first state of a digital modulation signal;
  
  transmitting a second RF signal from the RFID device in response to a second state of the digital signal, and a state of a capacitive pressure sensor coupled to a resonant circuit in response to the second state of the digital signal; and
  
  determining a tire pressure in response to a difference between the first and third RF signal frequencies.
- View Dependent Claims (9, 10, 11)
- - 9. The method of claim 8, further comprising transmitting data from the RFID device to the reader circuit in which the first frequency RF signal corresponds to a first state of the digital signal at a second frequency generated by fixed capacitance being coupled to the resonant circuit in response to the second state of the digital signal.
  - 10. The method of claim 9, further comprising coupling a fixed calibration capacitance across the resonant circuit in response to a second state of the digital signal for calibrating the tire pressure sensor response.
  - 11. The method of claim 8, further comprising coupling a fixed calibration capacitance across the resonant circuit in response to a second state of the digital signal for calibrating the tire pressure sensor response.

12. A tire pressure sensor using half duplex transponder frequency shift comprising:
- a capacitive pressure sensor (Cpres) instead, or in addition to CM, connected to the IC output CM1;
  
  capacitance change caused by pressure change varies the second frequency;
  
  the capacitive pressure sensor being calibrated at certain pressure points, measuring the first and second frequency calibration at the first frequency being substantially the same for all pressure points;
  
  application of the capacitance and High-bit frequency changes and the pressure is calculable out of the calibration values stored in the transponder memory.
- View Dependent Claims (13, 14, 15)
- - 13. The sensor of claim 12, wherein Low-bit frequency changes due to external or IC internal influence, the change can be used to correct the error of High-bit frequency.
  - 14. The sensor of claim 13, comprising a second output (CM2), where a reference capacitor (Cref) can be connected, with a certain downlink command Cref will be used during uplink and resulting frequency can be used for calibration.
  - 15. The sensor of claim 12, comprising a second output (CM2), where a Reference Capacitor (Cref) can be connected, with a certain downlink command Cref will be used during uplink and resulting frequency can be used for calibration.

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Current Assignee
Texas Instruments, Inc.
Original Assignee
Texas Instruments Deutschland Gesellschaft Mit Beschrã¤Nkter Haftung (Texas Instruments, Inc.)
Inventors
Lichtenegger, Alfons
Primary Examiner(s)
Previl, Daniel

Application Number

US13/850,246
Publication Number

US 20140022069A1
Time in Patent Office

743 Days
Field of Search

340/447, 340/442, 340/445, 340/438, 340443-444, 340/870.01, 340/870.3, 340/870.31, 340/531, 340/539.1, 340/501, 340/505, 340/626
US Class Current

340/447
CPC Class Codes

B60C 23/0433   Radio signals

B60C 23/0449   Passive transducers, e.g. u...

B60C 23/0455   Transmission control of wir...

Tire pressure monitoring using half duplex transponder frequency shift

First Claim

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Abstract

10 Citations

15 Claims

Specification

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Tire pressure monitoring using half duplex transponder frequency shift

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

10 Citations

15 Claims

Specification

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Use Cases

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Others