DIRECT TIRE PRESSURE MONITORING
First Claim
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1. A direct Tire Pressure Monitoring System, TPMS, for providing a non-continuous tire pressure monitoring of a tire of a vehicle, such as an automobile vehicle, the TPMS comprising:
- a processing unit having at least a first operating mode and a second operating mode;
a timing unit operably coupled to the processing unit;
an acceleration measuring unit operably coupled to the timing unit;
a comparing unit operably coupled to the processing unit and the acceleration measuring unit;
a pressure measuring unit operably coupled to the processing unit;
a transmitting unit operably coupled to the processing unit; and
,a power supplying unit for supplying power to at least the processing unit in the first operating mode and in the second operating mode wherein the second operating mode is less power consuming than the first operating mode, wherein;
when operating in the first operating mode, the processing unit is adapted to set;
an operating clock frequency of the timing unit; and
,an acceleration threshold of the comparing unit;
the timing unit is adapted to activate the acceleration measuring unit at the rate of the operating clock frequency;
the acceleration measuring unit is adapted to measure an acceleration value associated with the tire in at least one direction;
the comparing unit is adapted to compare the acceleration value and the acceleration threshold and to generate a first trigger signal when the absolute acceleration value is greater than the acceleration threshold, and to direct the first trigger signal to the processing unit;
when operating in the first operating mode, the processing unit is further adapted to activate the pressure measuring unit responsive to the first trigger signal;
the pressure measuring unit is adapted to measure a pressure value associated with the tire;
when operating in the first operating mode, the processing unit is further configured to generate a transmitting signal based on the pressure value;
the transmitting unit is adapted to transmit the transmitting signal;
and, wherein;
the processing unit is adapted to;
enter the second operating mode, once, after the acceleration threshold and the operating clock frequency have been set; and
,enter the first operating mode, once, responsive to the first trigger signal.
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Abstract
A power efficient direct Tire Pressure Monitoring System, TPMS, for providing a non-continuous tire pressure monitoring of a tire of a vehicle, such as a automobile vehicle, the TPMS comprising:
- a processing unit having at least a first operating mode and a second operating mode;
- a timing unit;
- an acceleration measuring unit;
- a comparing unit;
- a pressure measuring unit;
- a transmitting unit; and,
- a power supplying unit for supplying power to the processing unit in the first and second operating modes wherein the latter mode is less power consuming than the former mode, wherein the processing unit is adapted to:
- enter the second operating mode after an acceleration threshold and an operating clock frequency have been set; and,
- enter the first operating mode responsive to a first trigger signal.
A tire, a vehicle and a method are also claimed.
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Citations
12 Claims
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1. A direct Tire Pressure Monitoring System, TPMS, for providing a non-continuous tire pressure monitoring of a tire of a vehicle, such as an automobile vehicle, the TPMS comprising:
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a processing unit having at least a first operating mode and a second operating mode; a timing unit operably coupled to the processing unit; an acceleration measuring unit operably coupled to the timing unit; a comparing unit operably coupled to the processing unit and the acceleration measuring unit; a pressure measuring unit operably coupled to the processing unit; a transmitting unit operably coupled to the processing unit; and
,a power supplying unit for supplying power to at least the processing unit in the first operating mode and in the second operating mode wherein the second operating mode is less power consuming than the first operating mode, wherein; when operating in the first operating mode, the processing unit is adapted to set; an operating clock frequency of the timing unit; and
,an acceleration threshold of the comparing unit; the timing unit is adapted to activate the acceleration measuring unit at the rate of the operating clock frequency; the acceleration measuring unit is adapted to measure an acceleration value associated with the tire in at least one direction; the comparing unit is adapted to compare the acceleration value and the acceleration threshold and to generate a first trigger signal when the absolute acceleration value is greater than the acceleration threshold, and to direct the first trigger signal to the processing unit; when operating in the first operating mode, the processing unit is further adapted to activate the pressure measuring unit responsive to the first trigger signal; the pressure measuring unit is adapted to measure a pressure value associated with the tire; when operating in the first operating mode, the processing unit is further configured to generate a transmitting signal based on the pressure value; the transmitting unit is adapted to transmit the transmitting signal; and, wherein; the processing unit is adapted to; enter the second operating mode, once, after the acceleration threshold and the operating clock frequency have been set; and
,enter the first operating mode, once, responsive to the first trigger signal. - View Dependent Claims (2, 3, 4, 5, 6, 7)
wherein; the comparing unit is further adapted to generate a second trigger signal when the absolute acceleration value is greater than the acceleration threshold and to direct the second trigger signal to the pressure measuring unit; the pressure measuring unit is further adapted to; be activated responsive to the second trigger signal; and
,generate a third trigger signal when the pressure measurement has been completed and to direct the third trigger signal to the processing unit; and, wherein; the comparing unit is not operably coupled to the processing unit and no longer transmits the first trigger signal; and
,the processing unit is further adapted enter the first mode responsive to the third trigger signal.
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5. The TPMS of claim 1, wherein the processing unit is further adapted to set a wake-up frequency of the timing unit, the timing unit being further adapted to send a fourth trigger signal to the processing unit at the rate of the wake-up frequency, and wherein:
the processing unit is adapted to; enter the second operating mode when the wake-up frequency has been set; and
,enter the first operating mode responsive to the fourth trigger signal.
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6. A tire for a vehicle comprising a rim having valve stem and the TPMS of claim 1 wherein the TPMS is mounted on top of the valve stem.
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7. A vehicle comprising at least one tire of claim 6.
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8. A method for providing a power efficient non-continuous tire pressure monitoring of a tire of a vehicle, such as an automobile vehicle, the method comprising:
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providing a processing unit having at least a first operating mode and a second operating mode; providing a timing unit operably coupled to the processing unit; providing an acceleration measuring unit operably coupled to the timing unit; providing a comparing unit operably coupled to the processing unit and the acceleration measuring unit; providing a pressure measuring unit operably coupled to the processing unit; providing a transmitting unit operably coupled to the processing unit; and
;providing a power supplying unit for supplying power to at least the processing unit in the first operating mode and in the second operating mode wherein the second operating mode is less power consuming than the first operating mode, wherein; when the processing unit is operating in the first operating mode, causing the processing unit to set; an operating clock frequency of the timing unit; an acceleration threshold of the comparing unit; causing the timing unit to activate the acceleration measuring unit at the rate of the operating clock frequency; causing the acceleration measuring unit to measure an acceleration value associated with the tire in at least one direction; causing the comparing unit to compare the acceleration value and the acceleration threshold and to further generate a first trigger signal when the absolute acceleration value is greater than the acceleration threshold, and to direct the first trigger signal to the processing unit; when the processing unit is operating in the first operating mode, causing the processing unit to activate the pressure measuring unit responsive to the first trigger signal; causing the pressure measuring unit to measure a pressure value associated with the tire; when the processing unit is operating in the first operating mode, causing the processing unit to generate a transmitting signal based on the pressure value; causing the transmitting unit to transmit the transmitting signal; and, wherein; the processing unit is caused to; enter the second operating mode, once, after the acceleration threshold and the operating clock frequency have been set; and
,enter the first operating mode, once, responsive to the first trigger signal. - View Dependent Claims (9, 10, 11, 12)
and, wherein; the comparing unit is not operably coupled to the processing unit and is caused to no longer transmit the first trigger signal; the processing unit is further caused to enter the first mode responsive to the third trigger signal.
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12. The method of claim 8, further comprising:
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causing the processing unit to set a wake-up frequency of the timing unit, causing the timing unit to wake up the processing unit at the rate of the wake-up frequency, and; causing the processing unit to further; enter the second operating mode when the wake-up frequency has been set; and
,enter the first operating mode while being woken-up by the timing unit.
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Specification