CN102285306A - Method for preventing data collision of tire pressure monitor system (TPMS) transmitters - Google Patents

Abstract

The invention relates to a method for preventing data collision of tire pressure monitor system (TPMS) transmitters. The method comprises the following step that: for any TPMS transmitter, the transmission time Ti of the TPMS transmitter in the ith transmission period=TFIX+Bandwidth*pseudorandom natural number N, wherein I is a natural number, TFIX is fixed time, and Bandwidth is band width and the Bandwidth=the maximum of (transmission period-TFIX)/N. By the method for preventing the data collision of the tire pressure monitor system (TPMS) transmitters, the collision probability of a plurality of transmitters can be effectively prevented and controlled, and the requirement on data transmission reliability of a TPMS is met.

Description

The TPMS projector prevents the data collision method

Technical field

The present invention relates to the vehicle-mounted product technical field of vehicle electronics, relate in particular to a kind of TPMS projector and prevent the data collision method.

Background technology

TPMS (Tire Pressure Monitoring System) is the automotive tire pressure supervisory system, be mainly used in motor tire pressure inside and temperature are monitored in real time, and when the inside tires situation is unusual, report to the police, remind chaufeur, avoid accident to take place.Existing TPMS system is divided into indirect type and two kinds of direct-type, the present invention relates to utilize the directly direct-type TPMS of measurement of pressure sensor.

As shown in Figure 1, it is a direct-type TPMS system chart.Projector #1, projector #2, projector #3, projector #4 and projector #5 are installed in different kinds of tyre (comprising spare tyre) inside respectively, are used to measure data such as tire internal pressure, temperature.The observed reading of data is launched by RF-link (Radio Link), after the receiver module of central controller (ECU) receives wireless signal, and the demodulation and the data such as pressure, temperature of reducing, and do processing such as demonstration and abnormal alarm.

TPMS system shown in Figure 1 comprises a plurality of projectors such as projector #1, projector #2, projector #3, projector #4 and projector #5, the receiver module of publicly-owned ECU, use unified wireless channel, cause data to transmit the hidden danger of collision thereupon bringing because a plurality of projectors launch simultaneously.As shown in Figure 3, it launches the scheme drawing that data cause data transmission collision simultaneously for a plurality of projectors.Among Fig. 3, projector #1, projector #2 shown in the time period launch data simultaneously, collision causes data to transmit failure, need resend data.

The prior art that prevents TPMS emitter data conflict/collision can be divided into simplex system and intercommunication system.As shown in Figure 2, it is for preventing the TPMS projector intercommunication system of data collision in the prior art.The emission of projector #1, projector #2, projector #3, projector #4 and projector #5 is by central controller (ECU) unified management, and central controller is provided with a plurality of LF projectors, and each projector is provided with corresponding LF receptor, and managing signaling is passed on by reverse LF channel.Though system shown in Figure 2 has solved the problem of data collision, bring inconveniences such as cost rises, vehicle installation difficulty.

For unidirectional TPMS communication system shown in Figure 1, main in the prior art by reaching the purpose of avoiding a conflict the launch time of adjusting projector, though this technology does not increase hardware and cost of installation, flexible, this technology is perfect inadequately, can not avoid conflict fully/collision problem.

Summary of the invention

Therefore, the present invention is conceived to prevent that a plurality of TPMS projectors from launching the incident that leads to a conflict/collide simultaneously, improves the reliability of TPMS system wireless link data transmission.

For achieving the above object, the invention provides a kind of TPMS projector and prevent the data collision method, comprising:

For arbitrary TPMS projector, it is at the T launch time in i emission cycle _i=T _FIX+ Bandwidth * pseudorandom natural number N, wherein i is a natural number, T _FIXBe the set time, Bandwidth is a gap width, Bandwidth=(emission cycle-T _FIXThe maxim of)/N.

Wherein, described T _FIXBe 1/2 of the emission cycle.

Wherein, described pseudorandom natural number N is generated by the 8bit pseudorandom number generator.

Wherein, utilize ID that the TPMS projector carries seed as described 8bit pseudo random number.

Wherein, described TPMS projector adopts the Manchester coding to send data.

Wherein, described TPMS projector transmission data rate is 9.6kbps.

Wherein, the data that described TPMS projector is launched are divided into long frame and short frame,

Wherein, growing frame format is:

Preamble code

ID

Data bit

Check bit

Finish (EOM)

Wherein, lacking frame format is:

Preamble code

ID

Check bit

Finish

。

Emission maximum holding time when wherein, described TPMS projector is launched data is corresponding to the time of its emission long frame data.

Minimum emission holding time when wherein, described TPMS projector is launched data is corresponding to the time of its emission short frame data.

Wherein, described gap width Bandwidth should be far longer than the emission maximum holding time.

TPMS projector of the present invention prevents that the data collision method from can effectively prevent and control a plurality of projector collision probabilities, satisfies the reliability requirement of TPMS system data transmission.

Description of drawings

Below in conjunction with accompanying drawing,, will make technical scheme of the present invention and other beneficial effects apparent by the specific embodiment of the present invention is described in detail.

In the accompanying drawing,

Fig. 1 is a direct-type TPMS system chart;

Fig. 2 is for preventing the TPMS projector intercommunication system of data collision in the prior art;

Fig. 3 launches data simultaneously for a plurality of projectors and causes data to transmit the scheme drawing of collision;

Fig. 4 prevents the principle schematic of data collision method for TPMS projector of the present invention;

Fig. 5 is the scheme drawing of the applied 8bit pseudorandom number generator of a preferred embodiment of the present invention;

Fig. 6 prevents the data collision safe spacing scheme drawing of data collision method for TPMS projector of the present invention.

The specific embodiment

Referring to Fig. 4, it prevents the principle schematic of data collision method for TPMS projector of the present invention.For reaching the final Transmission Time Interval T that dynamically adjusts _iPurpose, need reduce to launch holding time T _TX, reasonable distribution emission duration T _i(T _i=T _FIX+ T _RAN), adjust random time T dynamically at random _RAN, and think over emission holding time T _TXThe front and back safe spacing.Continuous ruling is partly represented Bandwidth among Fig. 4, according to the random value of pseudorandom natural number N, T _RANObtain corresponding value.

T _RAN=Bandwidth * pseudorandom natural number N, for arbitrary TPMS projector, it is at the T launch time in i emission cycle _i=T _FIX+ Bandwidth * pseudorandom natural number N, wherein i is a natural number, T _FIXBe the set time, Bandwidth is a gap width, Bandwidth=(emission cycle-T _FIXThe maxim of)/N.

For shortening the Frame sent, and then reduce to launch holding time T _TX, the present invention adopts the data mode of length frame combination.The sorting out value that data resource has, the cell pressure of the ID of tire, force value, temperature value, inner acceleration/accel and internal emission module.The foundation of ordering is: the ID of tire is the part that must comprise in each Frame, has the highest value; Level that pressure P, temperature T are that All factors being equal, preference will be give to, but must guarantee that data just have meaning under the correct situation of ID; Whether the conduct of (tire) acceleration/accel launches the criterion of data, not necessarily constitutes transmit data frames; Cell pressure V launched once every the set time, and in the total system life cycle, this ratio data is very little, is defined as the minimum magnitude of value.

Long frame format is:

Preamble code

ID

Data bit

Check bit

Finish (EOM)

Preamble code (synchronous code): 1 byte, can be by the 6bit start bit, the data mode position of 2bit.

For example: 00: do not have;

01: pressure;

10: pressure+temperature;

11: pressure+temperature+voltage.

ID：3byte。

Data are: 1～3byte (P/T/V).

Effect position: 1byte.

Stop bit: 2bit or nothing.

Substantially long word joint number is: 1+3+3+1=8byte.

Short frame format is:

Preamble code

ID

Check bit

Finish

The data normal condition, no change.

The shortest frame byte number is: 1+3+1=5byte.

Introduce the length frame, if purpose is to shorten Frame. the variable quantity that parameters such as P, T, V record can not pass concrete numerical value less than preset range.

The TPMS projector sends data rate can adopt 9.6kbps, adopts the Manchester coding.

Each Manchesterbit departure time is 1/9.6K=0.1ms, and every data b it departure time is 0.2ms.

Maximum duration is: 8x8x0.2=12.8ms, promptly launch the holding time maxim.

Shortest time is: 5x8x0.2=8ms, promptly launch the holding time minimum value.

T _i=T _FIX+ T _RAN, T _iIt is the launch time in i emission cycle, because emission cycle and T _FIXImmobilize, therefore need reasonable distribution T _RANWith T _FIXThe TPMS system need take all factors into consideration measures real-time and system's power consumption balance, tire static/low speed/fast state under the TPMS projector the different emission cycles is all arranged.The present invention is that 1 minute (60 seconds) are that example is illustrated with the emission cycle, can select T for use _FIX=30 seconds=1/2 emission cycle, T at this moment _RANMaxim is 30 seconds, and promptly Bandwidth * pseudorandom natural number N maxim is 30 seconds.

Pseudorandom natural number N can adopt by the 8bit pseudorandom number generator and generate.As shown in Figure 5, it is the scheme drawing of the applied 8bit pseudorandom number generator of a preferred embodiment of the present invention, and this 8bit pseudorandom number generator adopts example, in hardware, is the linear feedback shift register form.This part is embedded in the MCU kernel of TPMS projector, can accomplish that an instruction cycle produces a new 8bit pseudo random number.Can utilize the seed of the ID of the unduplicated 4byte length that the TPMS projector carries, make to reduce the degree of association between each projector pseudo random number mutually as above-mentioned pseudo random number.

As shown in Figure 6, it prevents the data collision safe spacing scheme drawing of data collision method for TPMS projector of the present invention.Consider that the emission holding time is approximately about 10ms (emission holding time maxim is 12.8ms), 10mS is a safe spacing before and after each emission. other projectors must not take.Corresponding to T _RANMaxim=30 second, its ratio is RATE=30 * 1000/10=3000.Adopt the 8bit pseudo random number. then each gap width is calculated as follows: Bandwidth=(30S/255) * 1000=117ms, obvious Bandwith＞＞12.8ms (emission holding time maxim).

After using TPMS projector of the present invention and preventing the data collision method, with the practical collision probability computation model of its substitution TPMS projector, be example with 5 tires of manned vehicle TPMS system, collision probability is calculated as follows:

$P=1-(\frac{{\mathrm{<figure-callout\; id="2"\; label="A"\; filenames="HDA0000072337250000011.png,HDA0000072337250000021.png"\; state="\{\{state\}\}">A</figure-callout>}}_{2^8}^N}{{\left(2^8\right)}^N}*T_{\mathrm{TX}}/\mathrm{Bandwidth})(N=5)$

P＝0.00423＝0.423％

TPMS system wireless link BER (bit error ratio) fitness for purpose is about 1～3%, and obviously collision probability 0.4% of the present invention can guarantee system requirements.

Therefore, adopt method as herein described, can effectively prevent and control a plurality of projector collision probabilities, satisfy the reliability requirement of TPMS system data transmission.The invention provides complete mechanism and the algorithm of a cover, the advantage of comprehensive prior art, fully excavate existing software and hardware resources, use the algorithms/mechanisms of a considerable amount of novelties, stagger emission to greatest extent intermittently, thus conflict/collision problem of avoiding data to transmit. guarantee reliability of data transmission.

The above; for the person of ordinary skill of the art; can make other various corresponding changes and distortion according to technical scheme of the present invention and technical conceive, and all these changes and distortion all should belong to the protection domain of accompanying Claim of the present invention.

Claims (10)

1. a TPMS projector prevents the data collision method, it is characterized in that, comprising:

For arbitrary TPMS projector, it is at the T launch time in i emission cycle _i=T _FIX+ Bandwidth * pseudorandom natural number N, wherein i is a natural number, T _FIXBe the set time, Bandwidth is a gap width, Bandwidth=(emission cycle-T _FIXThe maxim of)/N.

2. TPMS projector as claimed in claim 1 prevents the data collision method, it is characterized in that described T _FIXBe 1/2 of the emission cycle.

3. TPMS projector as claimed in claim 1 prevents the data collision method, it is characterized in that, described pseudorandom natural number N is generated by the 8bit pseudorandom number generator.

4. TPMS projector as claimed in claim 3 prevents the data collision method, it is characterized in that, utilizes ID that the TPMS projector the carries seed as described 8bit pseudo random number.

5. TPMS projector as claimed in claim 1 prevents the data collision method, it is characterized in that, described TPMS projector adopts the Manchester coding to send data.

6. TPMS projector as claimed in claim 5 prevents the data collision method, it is characterized in that, it is 9.6kbps that described TPMS projector sends data rate.

7. TPMS projector as claimed in claim 1 prevents the data collision method, it is characterized in that, the data that described TPMS projector is launched are divided into long frame and short frame,

Wherein, growing frame format is:

Preamble code ID Data bit Check bit Finish (EOM)

Wherein, lacking frame format is:

Preamble code ID Check bit Finish

。

8. TPMS projector as claimed in claim 7 prevents the data collision method, it is characterized in that, the emission maximum holding time when described TPMS projector is launched data is corresponding to the time of its emission long frame data.

9. TPMS projector as claimed in claim 7 prevents the data collision method, it is characterized in that, the minimum emission holding time when described TPMS projector is launched data is corresponding to the time of its emission short frame data.

10. TPMS projector as claimed in claim 8 prevents the data collision method, it is characterized in that, described gap width Bandwidth should be far longer than the emission maximum holding time.

Images