CN1841991A - Tyre pressure monitoring system - Google Patents

Tyre pressure monitoring system Download PDF

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Publication number
CN1841991A
CN1841991A CN 200510024703 CN200510024703A CN1841991A CN 1841991 A CN1841991 A CN 1841991A CN 200510024703 CN200510024703 CN 200510024703 CN 200510024703 A CN200510024703 A CN 200510024703A CN 1841991 A CN1841991 A CN 1841991A
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CN
China
Prior art keywords
monitoring system
data
pressure monitoring
signal
tire pressure
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Pending
Application number
CN 200510024703
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Chinese (zh)
Inventor
金晓干
吴银虎
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SHANGHAI TAIHAO ELECTRONIC SCIENCE AND TECHNOLOGY Co Ltd
Original Assignee
SHANGHAI TAIHAO ELECTRONIC SCIENCE AND TECHNOLOGY Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Application filed by SHANGHAI TAIHAO ELECTRONIC SCIENCE AND TECHNOLOGY Co Ltd filed Critical SHANGHAI TAIHAO ELECTRONIC SCIENCE AND TECHNOLOGY Co Ltd
Priority to CN 200510024703 priority Critical patent/CN1841991A/en
Publication of CN1841991A publication Critical patent/CN1841991A/en
Pending legal-status Critical Current

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Abstract

The invention provides a tire pressure monitoring system which comprises a sensor and a receiver, wherein each tire has a sensor; the receiver comprises a high frequency receiving unit with a high frequency data receiving end which receives the tire parameter of the sensor, a low power consumption control signal receiving end and a high frequency signal modulating module used to change the received high frequency data into the data signal and send it; the microprocessor MCU1 comprises a low power consumption control signal sending end which is connected with the low power control signal receiving end; the data signal input end receives the data signal sent high frequency signal modulating; it also comprises a low frequency signal output end and an output module; the microprocessor MCU2 comprises a control signal output end; the input module is connected with the output module; the output end of the low frequency sending unit is connected with the output end of the control signal.

Description

A kind of tire pressure monitoring system
Technical field
The present invention relates to a kind of tire pressure monitoring system, specifically, relate to a kind of tire pressure monitoring system that has the receiver that to launch low frequency signal.
Background technology
At present, tire pressure monitoring system all adopts the one-way communication technology, and just the sensor in the tire is after automobilism, and with the various parameters of high frequency radio signal in receiver sends tire, as pressure, temperature, battery electric quantity etc., its characteristics have:
1) after the automobilism, when requiring the speed of a motor vehicle 〉=20km/ usually, the transducer in the tire is just worked;
2) owing to adopt the one-way communication technology, transducer can only adopt repeatedly repeat its transmission radio signal, receives the various parameters in the tire to guarantee the reception function, increases thus
3) battery power consumption of transducer, thus sensor life-time reduced;
4) can't carry out tire and discern automatically, must encode by artificial input pickup;
5) can't guarantee that receiver very receives the data that transducer sends.
Summary of the invention
The objective of the invention is to, a kind of tire pressure monitoring system is provided, the surveillance sensor battery loss that overcomes existing employing one-way communication is big, and tire can't be discerned automatically, and receiver can't very be received the technical problem of the data that transducer sends.
In order to achieve the above object, technical scheme of the present invention is as follows:
A kind of tire pressure monitoring system comprises transducer and receiver, and a transducer is installed on each wheel; Described receiver comprises: the high frequency receiving element, comprise the high-frequency data receiving terminal, and receive tire parameter from transducer; The low power consumption control signal receiving end; With the high-frequency signal demodulation module, the high-frequency data that is used for receiving converts data-signal to and sends; Microprocessor MCU1 comprises the low power consumption control signal sending end, links to each other with described low power consumption control signal receiving end; The data-signal input receives the data-signal that the high-frequency signal demodulation module sends; The low frequency signal output; And output module; Microprocessor MCU2 comprises control signal output ends; And input module, link to each other with described output module; The low frequencies unit links to each other with the low frequency signal output with described control signal output ends.
Adopt above-mentioned tire pressure monitoring system, after the driver lights a fire (automobile off-duty), receiver passes through the 125KHZ low frequency signal respectively to left front, left back, right front, off hind wheel sends automobile " igniting " order, after each transducer is received the order of receiver, carry out self check, and measurement tyre inner pressure, temperature, behind the battery electric quantity, send data with the high frequency form to receiver, after receiver receives corresponding data, send the order of " having received signal " again to the tire inner sensor by the 125KHZ low frequency signal, after the tire inner sensor receives orders, stop the high-frequency signal emission, thereby save battery power consumption.Tire is not received the order of " having received signal " that receiver sends as within a certain period of time, then repeats to send data, thereby guarantees that receiver very receives signal.Because the effective transmitting range of 125KHZ low frequency signal is controlled at about 1 meter, receiver is ordered by sending to corresponding 125KHZ transmitting coil, thereby finishes the automatic recognition function of tire.Transducer adopts 125KHZ to receive, and following advantage is arranged: 1) reduce battery power consumption: 5.5mA/8uA=687.5 doubly; 2) because 125KHz has only=<1.5 meters left and right sides transmitting ranges and directivity is arranged, discern automatically so can realize tire.Emission current Ipp=560mA when though main frame produces the 125KHz signal, because main frame is from automobile power source+12V power supply, so weakness can be in limit of consideration.
Description of drawings
Fig. 1 is the theory diagram of tire pressure monitoring system of the present invention;
Fig. 2 is the receiver circuit figure of tire pressure monitoring system of the present invention;
Fig. 3 is the circuit diagram of receiver circuit medium and low frequency radiating circuit part of the present invention;
Fig. 4 is the flow chart of pressure monitoring system receiver of the present invention;
Fig. 5 is the flow chart that receiver of the present invention is judged tire parameter.
Embodiment
Consult Fig. 1, tire pressure monitoring system of the present invention comprises transducer and receiver, is separately installed with a transducer on four wheels of car.Receiver comprises microprocessor MCU1, microprocessor MCU2, high frequency receiving element 3 and low frequencies unit 4.
High frequency receiving element 3 comprises high-frequency data receiving terminal 303 and high-frequency signal demodulation module 31.High-frequency data receiving terminal 303 connects antenna 32, to receive the tire parameter from transducer.The high-frequency data that high-frequency signal demodulation module 31 is used for receiving converts data-signal to and sends.Microprocessor MCU1 comprises data-signal input 110, low frequency signal output 11 and output module 12.Data-signal input 110 receives the data-signal that high-frequency signal demodulation module 31 sends.Microprocessor MCU2 comprises control signal output ends 21 and input module 22, and input module 22 links to each other with output module 12.Low frequencies unit 4 links to each other with low frequency signal output 11 with control signal output ends 21.
Fig. 2 has shown the receiver circuit figure of tire pressure monitoring system of the present invention.As shown in the figure, receiver comprises microprocessor MCU1, microprocessor MCU2, high frequency receiving element 3 and low frequencies unit 4.The crystal oscillator input 301 of high frequency receiving element 3 and crystal oscillator input 328 are by capacitor C 1, and crystal oscillator CR1 and capacitor C 2 are linked to be the loop.Power input 302 is through capacitor C 3 ground connection.High-frequency data receiving terminal 303 is connected antenna 32 by the amplifying circuit that is made of capacitor C 4 and inductance L 1.Amplifier source electrode 304 is by inductance L 2 ground connection.Amplifier out 306 links to each other by capacitor C 6 with mixing input 308, and then connects the parallel circuits of capacitor C 7 and inductance L 3.Power end 307 connects power supply, and by capacitor C 5 ground connection.Mixing input 9 links to each other with power supply by capacitor C 9, and C9 links to each other an end by capacitor C 8 ground connection with power supply.Power end 11 connects power supply.Filtering port 312 is connected intermediate-frequency filter SAW one end with 317, intermediate-frequency filter SAW other end ground connection.Port 305,310,313 direct ground connection.Power end 314 connects power supply, and by capacitor C 10 ground connection.Intermediate frequency amplifier input 318 is by capacitor C 11 ground connection.Operational amplifier input 321 is by capacitor C 12 ground connection.Data amplitude limiter input 319 links to each other with data amplitude limiter input 320 by resistance R 1, links to each other with data filter feedback end 322 with capacitor C 14 by resistance R 1 simultaneously.Data amplitude limiter input 320 passes through capacitor C 13 ground connection, and connects data filter feedback ends 322 by capacitor C 14.Data amplitude limiter input 319 links to each other with data amplitude limiter input 323 by resistance R 2, electric capacity 16.Data amplitude limiter input 323 passes through capacitor C 15 ground connection, and links to each other with data output end 325 by electric capacity 16, electric capacity 17.Data output end 325 connects the data input pin 110 of microprocessor MCU1 by resistance R 3.Low power consumption control input 327 connects the low power consumption control output 109 of microprocessor MCU1.It is empty that port 315 ground connection, port 316 ground connection, port 324 connect power supply and 326.
The reset terminal 105 of microprocessor MCU1 connects 3.3V voltage by resistance R 11, simultaneously by capacitor C 34 ground connection.Port one 02 is the low frequency signal output of 125KHz.Port one 20 sends data to microprocessor MCU2.Port one 21 sends power down signal to microprocessor MCU2.Port one 22 transmits control signal to microprocessor MCU2.Port one 23 sends reset signal to microprocessor MCU2.Be parallel with resistance R 10 and crystal oscillator CR3 between the port one 31,132.Port one 31 is connected with capacitor C 31, and port one 32 is connected with electric capacity 30.All the other port ones 01,103,104,106,107,108,111-119,124-130 are empty.
Port 211 connectivity ports 120 of microprocessor MCU2 receive the data-signal that sends from microprocessor MCU1.Port 204 receives the reset signal of sending from microprocessor MCU1 by resistance R 9 connectivity ports 123.Port 209 connectivity ports 122 receive the control signal of sending from microprocessor MCU1.Port 210 connectivity ports 121 receive the power down signal of sending from microprocessor MCU1.Port 205,206,207,208 sends the low frequencies coil transmission of control signals of 125KHz respectively to the near front wheel, off-front wheel, left rear wheel, the off hind wheel of car.All the other ports 201,202,203,212,213,214 are empty.
Low frequencies unit 4 comprises four low frequencies circuit that structure is identical, and the corresponding transducer of each low frequencies circuit sends low frequency signal to transducer.Consult Fig. 3, the low frequencies circuit is made up of also road circuit 41, drive circuit 42 and the radiating circuit 43 of circuit connection successively.And road circuit 41 is selected one and door for use, an one front end 401 connectivity ports 102, reception 125KHz signal; Another front end 401 connectivity ports 208, the low frequencies coil transmission of control signals of reception 125KHz.The NAND gate U1 that is connected drive circuit 42 with the rear end 403 of door.Drive circuit 42 is made up of NAND gate U1 and two MOS transistor Q1, Q2, and wherein MOS transistor Q1 connects power supply, MOS transistor Q2 ground connection.Radiating circuit 43 is by the low frequencies coil L401 that links to each other successively, and capacitor C 401 and resistance R 401 are formed, and wherein low frequencies coil L401 connects the contact between MOS transistor Q1, the Q2, resistance R 401 ground connection.
Similarly, other low frequencies circuit are made up of also road circuit 41, drive circuit 42 and the radiating circuit 43 of circuit connection successively.Difference only is that another front end of also road circuit of other low frequencies circuit is connectivity port 205-207 respectively, also is the low frequencies coil transmission of control signals that receives 125KHz.
Below by Fig. 4, the program of pressure monitoring system receiver of the present invention is elaborated.
Consult Fig. 4, at first, receiver powers on, and reads tire encoded radio and various data from EEPROM, respectively to low frequency signal left front, left back, right front, that off hind wheel sends 125KHz.At this moment, if the input of high frequency wireless data is arranged, then whether the judgment data check and correction is normal; If do not have the input of high frequency wireless data and do not need tire to discern automatically, return and continue to have judged whether the input of high frequency wireless data; If do not have high frequency wireless data input but need tire to discern automatically, then carry out tire and return after the identification automatically and continue to have judged whether the input of high frequency wireless data.If the data check and correction is undesired and do not need tire to discern automatically, returns and continue to have judged whether the input of high frequency wireless data; If data are proofreaded undesired but needed tire to discern automatically, then carry out returning after tire is discerned automatically and continue to have judged whether the input of high frequency wireless data.The data check and correction is normally then compared with the tire encoded radio, if do not belong to this car coding, returns continuation respectively to low frequency signal left front, left back, right front, that off hind wheel sends 125KHz; If belong to this car coding, then send the order of the 125KHz of " being subjected to signal " to corresponding tire sensor, carry out data processing according to different kinds of tyre.Fig. 5 has shown the quick gas leakage situation of receiver to tire, and whether parameters such as tire pressure, tyre temperature, sensor electrical cell voltage, receiver cell voltage are normally judged, if undesired then the warning or the prompting user.If above-mentioned parameter all normally then returns continuation respectively to low frequency signal left front, left back, right front, that off hind wheel sends 125KHz.The tire encoded radio can be imported by user oneself.
Though embodiments of the invention have illustrated and have been shown and describe, should be appreciated that and know the various modifications that those skilled in the art make the present invention or substitute, do not break away from protection scope of the present invention.

Claims (10)

1, a kind of tire pressure monitoring system comprises transducer and receiver, and a transducer is installed on each wheel; Described receiver comprises:
The high frequency receiving element comprises the high-frequency data receiving terminal, receives the tire parameter from transducer; The low power consumption control signal receiving end; With the high-frequency signal demodulation module, the high-frequency data that is used for receiving converts data-signal to and sends;
Microprocessor MCU1 comprises the low power consumption control signal sending end, links to each other with described low power consumption control signal receiving end; The data-signal input receives the data-signal that the high-frequency signal demodulation module sends; The low frequency signal output; And output module;
Microprocessor MCU2 comprises control signal output ends; And input module, link to each other with described output module;
The low frequencies unit links to each other with the low frequency signal output with described control signal output ends.
2, tire pressure monitoring system as claimed in claim 1 is characterized in that, described low frequencies unit comprises the low frequencies circuit with the transducer respective amount, and described low frequencies circuit comprises the also road circuit that links to each other successively, drive circuit and radiating circuit; And the road circuit merges control signal and the low frequency signal that receives.
3, tire pressure monitoring system as claimed in claim 2 is characterized in that, described drive circuit is made of NAND gate and two MOS transistor.
4, tire pressure monitoring system as claimed in claim 3 is characterized in that, described launch point road comprises the low frequencies coil, ground connection behind its connection electric capacity and the resistance.
As the described tire pressure monitoring system of arbitrary claim in the claim 1 to 4, it is characterized in that 5, described microprocessor MCU1 has a reset terminal, it is connected in the middle of resistance and the electric capacity.
6, tire pressure monitoring system as claimed in claim 5 is characterized in that, described output module comprises the reset signal output, and input module comprises the reset signal input.
7, as the described tire pressure monitoring system of arbitrary claim in the claim 1 to 4, it is characterized in that described output module comprises control signal output ends, input module comprises signal input end.
8, as the described tire pressure monitoring system of arbitrary claim in the claim 1 to 4, it is characterized in that described output module comprises the power down signal output, input module comprises the power down signal input.
As the described tire pressure monitoring system of arbitrary claim in the claim 1 to 4, it is characterized in that 9, described high-frequency data receiving terminal is connected with an amplifying circuit.
As the described tire pressure monitoring system of arbitrary claim in the claim 1 to 4, it is characterized in that 10, described high frequency receiving element has data amplitude limiter input and data filter feedback end, link to each other with described high-frequency signal demodulation module.
CN 200510024703 2005-03-29 2005-03-29 Tyre pressure monitoring system Pending CN1841991A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 200510024703 CN1841991A (en) 2005-03-29 2005-03-29 Tyre pressure monitoring system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 200510024703 CN1841991A (en) 2005-03-29 2005-03-29 Tyre pressure monitoring system

Publications (1)

Publication Number Publication Date
CN1841991A true CN1841991A (en) 2006-10-04

Family

ID=37030849

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 200510024703 Pending CN1841991A (en) 2005-03-29 2005-03-29 Tyre pressure monitoring system

Country Status (1)

Country Link
CN (1) CN1841991A (en)

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Open date: 20061004