On-board tire pressure indicating system performing temperature-compensated pressure measurement, and pressure measurement circuitry thereof

US 4,966,034 A
Filed: 03/29/1989
Issued: 10/30/1990
Est. Priority Date: 04/28/1988
Status: Expired due to Term

First Claim

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1. In a vehicle comprising at least one wheel and a chassis to which said at least one Wheel is rotatably attached, a system for communicating temperature-compensated tire pressure from said at least one wheel to said chassis, said system comprising:

first energy transmitting means (9), mounted on said chassis, for transmitting first energy of a first predetermined frequency;

first energy receiving means (10), mounted on said at least one wheel, for receiving said first energy;

tire pressure signal generating means (1,2), mounted on said at least one wheel and responsive to pressure of a tire mounted on said at least one wheel, for generating a tire pressure signal;

constant current applying means (Al) for applying a constant current to said tire pressure signal generating means;

voltage polarity reversing means (A2, A3) for reversing polarity of voltage applied to said tire pressure signal generating means;

wherein said tire pressure signal generating means comprises a piezoresistive bridge, said constant current applying means and said voltage polarity reversing means enabling compensation for temperature drift, to produce a temperature-compensated tire pressure signal; and

wherein said temperature-compensated tire pressure signal is transmitted by said first energy receiving means to said first energy transmitting means, and alters operation of said first energy transmitting means, so as to communicate said signal from said at least one wheel to said chassis;

said system further comprising indicating means (5) for processing said temperature-compensated tire pressure signal to provide information indicative of said temperature-compensated tire pressure within said vehicle.

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Abstract

A reliable indication of temperature-compensated pressure is provided from each of the wheels of a vehicle to an operator within the vehicle. A piezoresistive transducer bridge is supplied by a constant current source in one embodiment, and by a voltage of constant amplitude in another embodiment. Voltage to the bridge is reversed on a periodic basis. The use of constant current enables compensation for temperature-induced drift in transducer bridge output. The use of constant voltage enables compensation for ambient temperature, and provides an absolute, rather than a relative indication of pressure or "flatness" within the tire. Voltage polarity reversal permits compensation of amplifier offset voltage. Energy is transmitted to an from the wheel by means of a tuned circuit which is excited by a primary coil when the vehicle'"'"'s engine is running. The secondary coil mounted on the wheel may be either short-circuited or selectively opened and closed to alter the operation of the primary coil, thus providing an indication of tire pressure, that indication being detected and processed by suitable microcomputer circuitry which may exist on board the vehicle. Most of the active circuit elements of the invention may be implemented in a single monolithic integrated circuit, which can be attached to a tire valve.

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25 Claims

1. In a vehicle comprising at least one wheel and a chassis to which said at least one Wheel is rotatably attached, a system for communicating temperature-compensated tire pressure from said at least one wheel to said chassis, said system comprising:
- first energy transmitting means (9), mounted on said chassis, for transmitting first energy of a first predetermined frequency;
  
  first energy receiving means (10), mounted on said at least one wheel, for receiving said first energy;
  
  tire pressure signal generating means (1,2), mounted on said at least one wheel and responsive to pressure of a tire mounted on said at least one wheel, for generating a tire pressure signal;
  
  constant current applying means (Al) for applying a constant current to said tire pressure signal generating means;
  
  voltage polarity reversing means (A2, A3) for reversing polarity of voltage applied to said tire pressure signal generating means;
  
  wherein said tire pressure signal generating means comprises a piezoresistive bridge, said constant current applying means and said voltage polarity reversing means enabling compensation for temperature drift, to produce a temperature-compensated tire pressure signal; and
  
  wherein said temperature-compensated tire pressure signal is transmitted by said first energy receiving means to said first energy transmitting means, and alters operation of said first energy transmitting means, so as to communicate said signal from said at least one wheel to said chassis;
  
  said system further comprising indicating means (5) for processing said temperature-compensated tire pressure signal to provide information indicative of said temperature-compensated tire pressure within said vehicle.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. A system as claimed in claim 1, wherein said vehicle comprises a plurality of wheels including a spare, and said first energy receiving means, said tire pressure signal generating means, said constant current applying means, and said voltage polarity reversing means are mounted on each of said wheels, each of said first energy receiving means transmitting a respective said temperature-compensated tire pressure signal to said chassis for communication to a central location on said chassis for processing by said indicating means.
  - 3. A system as claimed in claim 1, wherein said first energy transmitting means comprises a primary coil, and said first energy receiving means comprises a tuned circuit, including a secondary coil (10b) and a capacitor (10a) connected across said secondary coil, and wherein said primary coil is excited at said predetermined frequency in response to connection of an ignition switch.
  - 4. A system as claimed in claim 3, further comprising switching means (TR2) for alternately opening and closing said secondary coil to alter operation of said primary coil.
  - 5. A system as claimed in claim 3, further comprising secondary coil short circuiting means for short circuiting said secondary coil to alter operation of said primary coil.
  - 6. A system as claimed in claim 3, further comprising secondary coil open circuiting means (TR_S, D_S) for open circuiting said secondary coil to alter operation of said primary coil.
  - 7. A system as claimed in claim 6, wherein said secondary coil open circuiting means comprises a transistor connected to one end of said secondary coil and a diode connected across a collector and an emitter of said transistor, a base of said transistor being connected to an output of said Schmitt trigger means.
  - 8. A system as claimed in claim 1, wherein said voltage polarity reversing means comprises an integrator including a first operational amplifier (A2) and a capacitor (C1) connected in negative feedback manner, and Schmitt trigger means (A3, R2, R3), and wherein said constant current source applying means comprises a second operational amplifier (A1) connected to said Schmitt trigger means, wherein said piezoresistive bridge is connected in a feedback circuit with said voltage polarity reversing means.
  - 9. A system as claimed in claim 8, wherein said voltage polarity reversing means further comprises inverting means (I₅, I₆, I₇) connected between an output of said constant current source applying means and said piezoresistive bridge, for providing a constant voltage to said piezoresistive bridge.
  - 10. A system as claimed in claim 1, wherein said constant current source applying means, comprises a current mirror circuit (TR3, TR4).
  - 11. A system as claimed in claim 1, wherein said voltage polarity reversing means comprises a plurality of N-channel and P-channel enhancement MOSFETs.
  - 12. A system as claimed in claim 1, wherein said constant current source applying means, said voltage polarity reversing means, and said piezoresistive bridge are integrated in a monolithic IC chip.
  - 13. A system as claimed in claim 1, further comprising storage means for storing a plurality of said temperature-compensated tire pressure signal at spaced intervals, to provide a tire pressure history.
  - 14. A system as claimed in claim 1, wherein said voltage polarity reversing means comprises an integrator including a first operational amplifier (A2) and a capacitor (C1) connected in negative feedback manner, Schmitt trigger means (A3, R2, R3), and inverting means (I₅, I₆, I₇) connected between an output of said constant current source applying means and said piezoresistive bridge, for providing a constant voltage to said piezoresistive bridge, and wherein said constant current source applying means comprises a second operational amplifier (A1) connected to said Schmitt trigger means, wherein said piezoresistive bridge is connected in a feedback circuit with said voltage polarity reversing means.

15. In a vehicle comprising at least one Wheel and a chassis to which said at least one wheel is rotatably attached, a tire-pressure sensor for monitoring pressure of a tire mounted on said at least one wheel and for outputting a temperature-compensated tire pressure signal from said at least one wheel to said chassis, said sensor comprising:
- first energy transmitting means (9), mounted on said chassis, for transmitting first energy of a first predetermined frequency;
  
  first energy receiving means (10), mounted on said at least one wheel, for receiving said first energy;
  
  tire pressure signal generating means (1,2);
  
  mounted on said at least one wheel and responsive to pressure of a tire mounted on said at least one wheel, for generating a tire pressure signal;
  
  voltage polarity reversing means (A2, A3) for reversing polarity of voltage applied to said tire pressure signal generating means, wherein said voltage polarity reversing means comprises an integrator including a first operational amplifier (A2) and a capacitor (C1) connected in negative feedback manner, and Schmitt trigger means (A3, R2, R3);
  
  constant current applying means (A1) for applying a constant current to said tire pressure signal generating means, wherein said constant current source applying means comprises a second operational amplifier (A1) connected to said Schmitt trigger means;
  
  wherein said tire pressure signal generating means comprises a piezoresistive bridge, said piezoresistive bridge being connected in a feedback circuit with said voltage polarity reversing means, said constant current applying means and said voltage polarity reversing means enabling compensation for temperature drift, to produce a temperature-compensated tire pressure signal; and
  
  wherein said temperature-compensated tire pressure signal is transmitted by said first energy receiving means to said first energy transmitting means, and alters operation of said first energy transmitting means, so as to communicate said signal from said at least one wheel to said chassis.
- View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24)
- - 16. A sensor as claimed in claim 15, wherein said vehicle comprises a plurality of Wheels including a spare, and said first energy receiving means, said tire pressure signal generating means, said constant current applying means, and said voltage polarity reversing means are mounted on each of said wheels, each of said first energy receiving means transmitting a respective said temperature-compensated tire pressure signal to said chassis for communication to a central location on said chassis.
  - 17. A system as claimed in claim 15, wherein said first energy transmitting means comprises a primary coil, and said first energy receiving means comprises a tuned circuit, including a secondary coil (10b) and a capacitor (10a) connected across said secondary coil, and wherein said primary coil is excited at said predetermined frequency in response to connection of an ignition switch.
  - 18. A system as claimed in claim 17, further comprising switching means (TR2) for alternately opening and closing said secondary coil to alter operation of said primary coil.
  - 19. A system as claimed in claim 17, further comprising secondary coil short circuiting means for short circuiting said secondary coil to alter operation of said primary coil.
  - 20. A system as claimed in claim 17, further comprising secondary coil open circuiting means (TR_S, D_S) for open circuiting said secondary coil to alter operation of said primary coil.
  - 21. A system as claimed in claim 20, wherein said secondary coil open circuiting means comprises a transistor connected to one end of said secondary coil and a diode connected across a collector and an emitter of said transistor, a base of said transistor being connected to an output of said Schmitt trigger means.
  - 22. A system as claimed in claim 15, wherein said constant current source applying means comprises a current mirror circuit (TR3, TR4).
  - 23. A system as claimed in claim 15, wherein said voltage polarity reversing means further comprises inverting means (I₅, I₆, I₇) connected between an output of said constant current source applying means and said piezoresistive bridge, for providing a constant voltage to said piezoresistive bridge.
  - 24. A system as claimed in claim 15, wherein said constant current source applying means, said voltage polarity reversing means, and said piezoresistive bridge are integrated in a monolithic IC chip.

25. In a vehicle comprising at least one wheel and a chassis to which said at least one wheel is rotatably attached, a tire-pressure sensor for monitoring pressure of a tire mounted on said at least one wheel and for outputting a temperature-compensated tire pressure signal from said at least one wheel to said chassis, said sensor comprising:
- first energy transmitting means (9), mounted on said chassis, for transmitting first energy of a first predetermined frequency;
  
  first energy receiving means (10), mounted on said at least one wheel, for receiving said first energy;
  
  tire pressure signal generating means (1,2), mounted on said at least one wheel and responsive to pressure of a tire mounted on said at least one wheel, for generating a tire pressure signal, said tire pressure signal generating means comprising a piezoresistive bridge;
  
  voltage polarity reversing means (A2, A3) for reversing polarity of voltage applied to said tire pressure signal generating means, wherein said voltage polarity reversing means comprises an integrator including a first operational amplifier (A2) and a capacitor (C1) connected in negative feedback manner, and Schmitt trigger means (A3, R2, R3);
  
  constant current applying means (A1) for applying a constant current to said tire pressure signal generating means, wherein said constant current source applying means comprises a second operational amplifier (A1) connected to said Schmitt trigger means, wherein said voltage polarity reversing means further comprises inverting means (I₅, I₆, I₇) connected between an output of said constant current source applying means and said piezoresistive bridge, for providing a constant voltage to said piezoresistive bridge;
  
  wherein said piezoresistive bridge is connected in a feedback circuit with said voltage polarity reversing means, said constant current applying means and said voltage polarity reversing means enabling compensation for temperature drift, to produce a temperature-compensated tire pressure signal; and
  
  wherein said temperature-compensated tire pressure signal is transmitted by said first energy receiving means to said first energy transmitting means, and alters operation of said first energy transmitting means, so as to communicate said signal from said at least one wheel to said chassis.

Specification

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Current Assignee
Schrader-Bridgeport International Incorporated (Pacific Industrial Company Limited)
Original Assignee
Schrader Automotive Incorporated
Inventors
Grace, John M., Bock, Ditmar H.
Primary Examiner(s)
WOODIEL, DONALD

Application Number

US07/330,386
Time in Patent Office

580 Days
Field of Search

73/146.5, 73/146.4, 73/146.8, 73/708, 73/727, 340/448
US Class Current

73/146.5
CPC Class Codes

B60C 23/0408   transmitting the signals by...

B60C 23/041   Means for supplying power t...

B60C 23/0413   Wireless charging of active...

On-board tire pressure indicating system performing temperature-compensated pressure measurement, and pressure measurement circuitry thereof

First Claim

6 Assignments

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Abstract

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25 Claims

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On-board tire pressure indicating system performing temperature-compensated pressure measurement, and pressure measurement circuitry thereof

First Claim

6 Assignments

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Accused Products

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Abstract

Citations

25 Claims

Specification

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Solutions

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