WO2018103301A1

WO2018103301A1 - Tpm sensor setting system and method

Info

Publication number: WO2018103301A1
Application number: PCT/CN2017/089406
Authority: WO
Inventors: 方汉杰
Original assignee: 万通智控科技股份有限公司
Priority date: 2016-12-08
Filing date: 2017-06-21
Publication date: 2018-06-14
Also published as: CN106541792A

Abstract

A TPM sensor setting system and method. The system comprises: a smart mobile processing apparatus (101) in communication with a data converter (102) by means of Bluetooth, and being used for storing a selection enabling signal and an encoding program, and for sending the selection enabling signal and the encoding program to the data converter (102); a data converter (102), used for loading the selection enabling signal and the encoding program to a tyre pressure monitoring apparatus (103); and a tyre pressure monitoring apparatus (103), comprising: a receiver (105), used for receiving the selection enabling signal and the encoding program sent by the data converter (102); a sensor (106), used for collecting tyre state parameters; a storage processing group (107), used for storing the received selection enabling signal and the encoding program, and for implementing encoding processing of the state parameters collected by the sensor (106); and a transmitter (104), used for sending the state parameters having undergone encoding processing. The present system and method improve the flexibility of TPM sensor setting.

Description

TPM sensor setting system and method

cross reference

The present application is hereby incorporated by reference in its entirety in its entirety in its entirety in its entirety in the the the the the the the the the the the

Technical field

Embodiments of the present invention relate to the field of vehicle safety technologies, and in particular, to a TPM sensor setting system and method.

Background technique

With the development of the automotive industry and the gradual maturity of the automotive electronics market, the Tire Pressure Monitoring System (TPMS) has become more and more popular after more than a decade of development since its birth in 2000.

The TPMS measures the air pressure, temperature and rotation state of each tire by a sensor installed in the tire, converts the measured data into a wireless signal of a specific data format through a corresponding data protocol and transmits it to the installation by a wireless transmitting device. The indoor receiver can be displayed on the display in real time. When the pressure of any one of the tires exceeds the set normal area value, the driver can be alerted by sound, light and electricity to ensure the safety of driving. As one of the most important components in the tire pressure monitoring system, TPM sensors are more and more types, but different kinds of sensors can not receive all the wireless signals converted by the measurement due to the corresponding data protocols. And identification, that is to say different types of sensors are mutually incompatible. Under the current technical conditions, a specific data protocol or software is generally transmitted to the sensor through a wireless or wired means to realize the setting of the sensor, and the programming platform can be connected by using a computer, and the programming platform is controlled by the operation interface of the computer. The specific data protocol or software is transmitted to the sensor in a wireless communication manner to implement setting of the sensor. However, programming tools are costly, inconvenient to maintain and upgrade, and complex in hardware and software design; the method of setting sensors through a computer and a programming platform is limited in application environment and inconvenient to carry.

Therefore, how to set the sensor in the TPMS system in a convenient way is At present, the industry needs to solve the problem.

Summary of the invention

In view of the deficiencies in the prior art, embodiments of the present invention provide a TPM sensor setting system and method.

In one aspect, an embodiment of the present invention provides a TPM sensor setting system including an intelligent mobile processing device, a data converter, and a tire pressure monitoring device, wherein:

The intelligent mobile processing device is communicatively coupled to the data converter via Bluetooth for storing a selection enable signal and an encoding program, and transmitting the selection enable signal and encoding program to the data converter;

The data converter is connected to the tire pressure monitoring device by means of a wireless means for loading the selection enable signal and the encoding program sent by the intelligent mobile processing device to the tire pressure monitoring device;

The tire pressure monitoring device includes a transmitter, a receiver, a sensor, and a storage processing group; wherein the receiver is configured to receive a selection enable signal and an encoding program sent by the data converter; the sensor is configured to collect a tire state a parameter; the storage processing group is configured to store the received selection enable signal and an encoding program, and select, according to the selection enable signal, the encoding program to encode a state parameter collected by the sensor; The status parameter of the encoded process is sent to the external monitoring device.

In another aspect, an embodiment of the present invention provides a TPM sensor setting system, including an intelligent mobile processing device, a data converter, and a tire pressure monitoring device, wherein:

The intelligent mobile processing device is communicatively coupled to the data converter via Bluetooth for storing a selection enable signal for enabling a corresponding encoding program, and transmitting the selection enable signal to the data converter;

The data converter is wirelessly coupled to the tire pressure monitoring device for loading the selection enable signal sent by the intelligent mobile processing device to the tire pressure monitoring device;

The tire pressure monitoring device includes a transmitter, a receiver, a sensor, and a storage processing group; wherein the transmitter is configured to send a monitoring data signal to an external monitoring device; the receiver is configured to receive a selection enablement sent by the data converter a signal for collecting a state parameter of the tire; the storage processing group for storing the code corresponding to the selection enable signal a program, and enabling the encoding process to encode a state parameter acquired by the sensor according to the selection enable signal.

In another aspect, an embodiment of the present invention provides a method for setting a TPM sensor, including:

Receiving a selection enable signal and an encoding program sent by the smart mobile processing device through the data converter; wherein the smart mobile processing device is connected to the data converter via Bluetooth;

The received selection enable signal and encoding program are stored, and the encoding program is selected to encode the state parameters collected by the sensor based on the selection enable signal.

In still another aspect, an embodiment of the present invention provides a method for setting a TPM sensor, including:

Receiving a selection enable signal sent by the smart mobile processing device through the data converter; wherein the smart mobile processing device is connected to the data converter via Bluetooth;

And performing, according to the selection enable signal, the encoding program corresponding to the selection enable signal to encode a state parameter collected by the sensor; wherein the encoding program is pre-stored.

A TPM sensor setting system and method provided by an embodiment of the present invention sends a selection enable signal or a selection enable signal and an encoding program to a data converter in a Bluetooth manner by an intelligent mobile processing device, and the data converter transmits the selection enable signal or The enable signal and encoding program are selected to be loaded into the tire pressure monitoring device, and the tire pressure monitoring device encodes the state parameters collected by the sensor according to the selection enable signal and the encoding program, thereby improving the flexibility of the TPM sensor setting.

DRAWINGS

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, a brief description of the drawings used in the embodiments or the prior art description will be briefly described below. Obviously, the drawings in the following description It is a certain embodiment of the present invention, and other drawings can be obtained from those skilled in the art without any creative work.

1 is a schematic structural diagram of a TPM sensor setting system according to an embodiment of the present invention;

2 is a schematic structural diagram of a TPM sensor setting system according to another embodiment of the present invention;

FIG. 3 is a schematic flowchart of a method for setting a TPM sensor according to an embodiment of the present invention; FIG.

FIG. 4 is a schematic flowchart of a method for setting a TPM sensor according to another embodiment of the present invention.

detailed description

The technical solutions in the embodiments of the present invention will be clearly described in conjunction with the drawings in the embodiments of the present invention. Some embodiments, rather than all of the embodiments, are invented. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

FIG. 1 is a schematic structural diagram of a TPM sensor setting system according to an embodiment of the present invention. As shown in FIG. 1 , the embodiment provides a TPM sensor setting system, including an intelligent mobile processing device 101, a data converter 102, and tire pressure. Monitoring device 103, wherein:

The intelligent mobile processing device 101 is communicatively coupled to the data converter 102 via Bluetooth for storing the selection enable signal and the encoding program, and transmits the selection enable signal and encoding program to the data converter 102; the data converter 102 is wirelessly coupled with The tire pressure monitoring device 103 is connected to load the selection enable signal and the encoding program sent from the smart mobile processing device 101 to the tire pressure monitoring device 103; the tire pressure monitoring device 103 includes a transmitter 104, a receiver 105, and a sensor 106. And a storage processing group 107; wherein the receiver 105 is configured to receive the selection enable signal and the encoding program transmitted by the data converter 102; the sensor 106 is configured to collect the state parameter of the tire; and the storage processing group 107 is configured to store the received selection The signal and encoding program is enabled, and based on the selection enable signal, the encoding program is used to encode the state parameters collected by the sensor 106; the transmitter 104 is configured to transmit the encoded processed state parameters to the external monitoring device.

It can be understood that the smart mobile processing device 101 can be a smart phone or a tablet computer, and can also be another intelligent mobile processing device with a Bluetooth communication system and an operating system, which is not specifically limited herein; and the intelligent mobile processing device 101 and the data converter 102 are connected in advance through Bluetooth matching; the smart mobile processing device 101 stores not only the selection enable signal and the encoding program but also the correspondence between the selection enable signal and the encoding program, which can be monitored by the external monitoring. The model of the device and the like determine a corresponding encoding program and a selection enable signal corresponding to the encoding program; the storage processing group 107 includes an underlying general running program for running the encoding program according to the selection enabling signal and the encoding program; The state parameters of the tire may include pressure, temperature, and rotation state, and may also include other state parameters, which are not specifically limited herein.

The technical solution of the embodiment is further described below by using the specific use method of the TPM sensor setting system.

The intelligent mobile processing device 101 selects a corresponding encoding program and a selection enable signal in all stored encoding programs and selection enable signals according to the model of the external monitoring device, and transmits the selected encoding program and the selection enabling signal to the data via Bluetooth. The converter 102, the data converter 102 wirelessly loads the received selection enable signal and encoding program to the tire pressure monitoring device 103, and the receiver 105 in the tire pressure monitoring device 103 receives the selection enable signal and the encoding program The storage processing group 107 stores the received selection enable signal and encoding program, and runs the encoding program by the bottom layer general running program of the storage processing group 107 according to the selection enabling signal, and the state parameters collected by the sensor 106. The encoding process is performed, and the transmitter 104 transmits the encoded state parameter to the external monitoring device, through which the driver can view parameters such as the pressure, temperature, and rotation state of the monitored tire.

The TPM sensor setting system provided by the embodiment of the present invention transmits the selection enable signal and the encoding program to the data converter in a Bluetooth manner through the intelligent mobile processing device, and the data converter loads the selection enable signal and the encoding program to the tire pressure monitoring device. The tire pressure monitoring device encodes the state parameters collected by the sensor according to the selection enable signal and the encoding program, thereby improving the flexibility of the TPM sensor setting.

2 is a schematic structural diagram of a TPM sensor setting system according to another embodiment of the present invention. As shown in FIG. 2, based on the above embodiment, the tire pressure monitoring device 103 further includes a feedback device 108 for The status information of the encoding program is transmitted to the intelligent mobile processing device 101 via the data converter 102.

Specifically, the storage processing group 107 stores the received selection enable signal and the encoding program, and runs the encoding program through the underlying universal running program of the storage processing group 107 according to the selection enabling signal, if the encoding program If the operation is normal, it indicates that the TPM sensor is successfully set, and the feedback device 108 wirelessly transmits a signal for identifying that the TPM sensor is successfully set to the data converter 102, and the data converter 102 passes the signal through the Bluetooth. Sended to the intelligent mobile processing device 101. It can be understood that, if the encoding process fails, the feedback device 108 sends a signal for identifying the TPM sensor setting failure to the smart mobile processing device 101 through the data converter 102, and the specific process is consistent with the foregoing process. I will not repeat them here.

Based on the above embodiment, further, the intelligent mobile processing device includes a display for displaying status information of the running of the encoding program.

Specifically, in the foregoing embodiment, if the encoding program runs normally, the data converter 102 sends a signal for identifying that the TPM sensor setting is successful to the smart mobile processing device 101 via Bluetooth, and the smart mobile processing device 101 passes The display displays the status information of the TPM sensor setting success; if the encoding program fails to run, the data converter 102 sends a signal for identifying the TPM sensor setting failure to be sent to the intelligent mobile processing device 101 via Bluetooth. The smart mobile processing device 101 displays the status information of the TPM sensor setting success through the display.

The TPM sensor setting system provided by the embodiment of the present invention transmits the selection enable signal and the encoding program to the data converter in a Bluetooth manner through the intelligent mobile processing device, and the data converter loads the selection enable signal and the encoding program to the tire pressure monitoring device. The tire pressure monitoring device encodes the state parameters collected by the sensor according to the selection enable signal and the encoding program, and feeds back the TPM sensor setting result to the intelligent mobile processing device for display, thereby improving the flexibility of the TPM sensor setting.

Based on the above embodiment, further, the data converter 102 further includes an indicator light and a buzzer for indicating an operating state of the data converter.

Based on the above embodiment, further, the data converter 102 further includes a general interface for repairing and upgrading the data converter.

Specifically, the feedback device 108 sends the status information of the encoding program to the data converter 102. If the status information is that the encoding program is running normally, and the TPM sensor is successfully set, the indicator light is green. If the status information is abnormal in the operation of the encoding program, the TPM sensor setting fails, the indicator light display is red, and the buzzer sends an alarm, prompting the staff to promptly access the data converter Repair and maintenance are performed; the data converter 102 can connect to an external processing device through a general purpose interface to perform operations such as repair, maintenance, and upgrade of the data converter 102.

The TPM sensor setting system provided by the embodiment of the present invention provides a TPM sensor setting system according to an embodiment of the present invention, and sends a selection enable signal and an encoding program to a data converter in a Bluetooth manner through an intelligent mobile processing device, and the data converter Select enable signal and encoding program Loaded to the tire pressure monitoring device, the tire pressure monitoring device encodes the state parameters collected by the sensor according to the selection enable signal and the encoding program, which improves the flexibility of the TPM sensor setting.

Based on the above embodiment, further, the tire pressure monitoring device 103 further includes a storage device connected to the storage processing group for expanding the storage space of the storage processing group.

Specifically, the storage device is connected to the storage processing group for expanding a storage space of the storage processing group, and the memory of the storage processing group cannot completely store the selection enable signal sent by the data converter. And the encoding process can be stored by the storage device.

With continued reference to FIG. 1, the embodiment further provides a TPM sensor setting system, including an intelligent mobile processing device 101, a data converter 102, and a tire pressure monitoring device 103, wherein:

The intelligent mobile processing device 101 is communicatively coupled to the data converter 102 via Bluetooth for storing a select enable signal for enabling a corresponding encoding program and transmitting the select enable signal to the data converter 102; the data converter 102 is wirelessly coupled The tire pressure monitoring device 103 is connected to load the selection enable signal sent from the smart mobile processing device 101 to the tire pressure monitoring device 103; the tire pressure monitoring device 103 includes a transmitter 104, a receiver 105, a sensor 106, and a storage process. a group 107; wherein the receiver 105 is configured to receive a selection enable signal transmitted by the data converter 102; the sensor 106 is configured to collect a state parameter of the tire; and the storage processing group 107 is configured to store the encoding program corresponding to the selection enable signal And enabling the encoding process to encode the state parameters collected by the sensor 106 according to the selection enable signal; the transmitter 104 is configured to send the encoded state parameter to the external monitoring device.

It can be understood that the smart mobile processing device 101 can be a smart phone or a tablet computer, and can also be another intelligent mobile processing device with a Bluetooth communication system and an operating system, which is not specifically limited herein. And the intelligent mobile processing device 101 and the data converter 102 are connected in advance through Bluetooth matching; the storage processing group 107 stores not only the encoding program but also the correspondence between the selection enabling signal and the encoding program, and can select the enable signal according to the received selection. Determining an encoding program corresponding to the selection enable signal; the storage processing group 107 includes an underlying universal running program for running the encoding program; the state parameter of the tire may include pressure, temperature, rotation state, and may also include other Status parameter, not here Body definition.

The intelligent mobile processing device 101 selects a corresponding selection enable signal among all stored selection enable signals according to the model of the external monitoring device and the like, and sends the selected selection enable signal to the data converter 102 via Bluetooth, and the data converter 102 wirelessly The received selection enable signal is loaded to the tire pressure monitoring device 103, and the receiver 105 in the tire pressure monitoring device 103 receives the selection enable signal; the storage processing group 107 searches for internal storage based on the received selection enable signal. And an encoding program corresponding to the selection enable signal, and running the encoding program through an underlying universal running program, encoding a state parameter collected by the sensor 106, and transmitting, by the transmitter 104, the encoded processing state parameter to the external monitoring device The driver can view parameters such as the pressure, temperature and rotation state of the monitored tire through the external monitoring device.

The TPM sensor setting system provided by the embodiment of the present invention sends a selection enable signal to the data converter in a Bluetooth manner by the intelligent mobile processing device, and the data converter loads the selection enable signal to the tire pressure monitoring device, and the tire pressure monitoring device is Select Enable Signal Find and enable the corresponding encoding program to encode the status parameters collected by the sensor, which improves the flexibility of TPM sensor settings.

FIG. 3 is a schematic flowchart of a method for setting a TPM sensor according to an embodiment of the present invention. As shown in FIG. 3, an embodiment of the present invention provides a method for setting a TPM sensor, including:

S101. Receive a selection enable signal and an encoding program sent by the smart mobile processing device by using a data converter, where the smart mobile processing device is connected to the data converter via Bluetooth;

Specifically, the intelligent mobile processing device selects a corresponding encoding program and a selection enable signal in all stored encoding programs and selection enable signals according to information such as the model of the external monitoring device, and transmits the selected encoding program and the selection enabling signal through Bluetooth. To the data converter, the data converter wirelessly loads the received selection enable signal and encoding program to the tire pressure monitoring device, and the tire pressure monitoring device receives the selection enable signal and the encoding program. It can be understood that the smart mobile processing device can be a smart phone or a tablet computer, and can also be another intelligent mobile processing device with a Bluetooth communication system and an operating system, which is not specifically limited herein; The mobile processing device and the data converter pass the blue in advance a tooth-matching connection; the intelligent mobile processing device not only stores the selection enable signal and the encoding program but also stores the correspondence between the selection enable signal and the encoding program, and the corresponding encoding may be determined by information such as the model of the external monitoring device A program and a selection enable signal corresponding to the encoding program.

S102. Store the received selection enable signal and the encoding program, and select the encoding program to perform encoding processing on the state parameters collected by the sensor based on the selection enabling signal.

Specifically, the tire pressure monitoring device stores the received selection enable signal and the encoding program, and runs the encoding program through the underlying universal running program according to the selection enable signal, and encodes the state parameters collected by the sensor. The status parameters of the encoded data-specific data format can be sent to an external monitoring device for the driver to view parameters such as pressure, temperature and rotational state of the monitored tire through the external monitoring device. It can be understood that the tire pressure monitoring device includes an underlying universal running program for operating the encoding program according to the selection enable signal and the encoding program; the state parameter of the tire may include pressure, temperature, rotation state, and may also include Other status parameters are not specifically limited here.

The TPM sensor setting method provided by the embodiment of the invention transmits the selection enable signal and the encoding program to the data converter in a Bluetooth manner by the intelligent mobile processing device, and the data converter loads the selection enable signal and the encoding program to the tire pressure monitoring device. The tire pressure monitoring device encodes the state parameters collected by the sensor according to the selection enable signal and the encoding program, thereby improving the flexibility of the TPM sensor setting.

Based on the foregoing embodiment, the method further includes:

The operational status information of the encoding program is transmitted to the intelligent mobile processing device via the data converter.

Specifically, the tire pressure monitoring device stores the received selection enable signal and the encoding program, and runs the encoding program through the underlying universal running program according to the selection enable signal. If the encoding program runs normally, it indicates If the TPM sensor is successfully set, a signal for identifying that the TPM sensor is successfully set is sent to the data converter in a tire pressure monitoring device, and the data converter sends the signal through Bluetooth. To intelligent mobile processing devices. It can be understood that, if the encoding program fails to run, the feedback device sends a signal for identifying that the TPM sensor setting fails to be sent to the intelligent mobile processing device through the data converter, and the specific process is consistent with the foregoing process. I will not repeat them here.

The TPM sensor setting method provided by the embodiment of the invention transmits the selection enable signal and the encoding program to the data converter in a Bluetooth manner by the intelligent mobile processing device, and the data converter loads the selection enable signal and the encoding program to the tire pressure monitoring device. The tire pressure monitoring device encodes the state parameters collected by the sensor according to the selection enable signal and the encoding program, and feeds back the TPM sensor setting result to the intelligent mobile processing device, thereby improving the flexibility of the TPM sensor setting.

FIG. 4 is a schematic flowchart of a method for setting a TPM sensor according to another embodiment of the present invention. As shown in FIG. 4, an embodiment of the present invention provides a method for setting a TPM sensor, including:

S201. Receive a selection enable signal sent by the smart mobile processing device by using a data converter, where the smart mobile processing device is connected to the data converter via Bluetooth;

Specifically, the intelligent mobile processing device selects a corresponding selection enable signal from all the selection enable signals stored therein according to information such as the model of the external monitoring device, and sends the selected selection enable signal to the data converter through the Bluetooth, and the data converter passes the wireless The method loads the received selection enable signal to a tire pressure monitoring device, and the tire pressure monitoring device receives the selection enable signal. It is to be understood that the smart mobile processing device may be a smart phone or a tablet computer, or may be another intelligent mobile processing device with a Bluetooth communication system and an operating system, which is not specifically limited herein, and the smart The mobile processing device and the data converter are pre-connected via Bluetooth.

S202. Enable the encoding process corresponding to the selection enable signal to perform encoding processing on the state parameter collected by the sensor according to the selection enable signal; wherein the encoding program is pre-stored.

Specifically, the tire pressure monitoring device searches for the encoding program corresponding to the selection enable signal stored internally according to the received selection enable signal according to the received selection enable signal, and runs through the underlying universal running program. The encoding program encodes the state parameters collected by the sensor, and the state parameters of the specific data format subjected to the encoding process can be sent to an external monitoring device, so that the driver can view the monitored tire pressure through the external monitoring device, Parameters such as temperature and rotation status. It can be understood that the tire pressure monitoring device not only stores the encoding program but also stores the correspondence between the selection enabling signal and the encoding program, and can determine the encoding corresponding to the selection enabling signal according to the received selection enabling signal. a program; the tire pressure monitoring device includes an underlying universal running program for The selection enable signal and the encoding program are used to run the encoding program; the state parameters of the tire may include pressure, temperature, and rotation state, and may also include other state parameters, which are not specifically limited herein.

The TPM sensor setting method provided by the embodiment of the present invention sends a selection enable signal to the data converter in a Bluetooth manner by the intelligent mobile processing device, and the data converter loads the selection enable signal to the tire pressure monitoring device, and the tire pressure monitoring device is Select Enable Signal Find and enable the corresponding encoding program to encode the status parameters collected by the sensor, which improves the flexibility of TPM sensor settings.

The system embodiments described above are merely illustrative, wherein the units described as separate components may or may not be physically separate, and the components displayed as units may or may not be physical units, ie may be located A place, or it can be distributed to multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the embodiment. Those of ordinary skill in the art can understand and implement without deliberate labor.

Through the description of the above embodiments, those skilled in the art can clearly understand that the various embodiments can be implemented by means of software plus a necessary general hardware platform, and of course, by hardware. Based on such understanding, the above-described technical solutions may be embodied in the form of software products in essence or in the form of software products, which may be stored in a computer readable storage medium such as ROM/RAM, magnetic Discs, optical discs, etc., include instructions for causing a computer device (which may be a personal computer, server, or network device, etc.) to perform the methods described in various embodiments or portions of the embodiments.

It should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention, and are not limited thereto; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that The technical solutions described in the foregoing embodiments are modified, or the equivalents of the technical features are replaced. The modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

A TPM sensor setting system is characterized by comprising an intelligent mobile processing device, a data converter and a tire pressure monitoring device, wherein:

The intelligent mobile processing device is communicatively coupled to the data converter via Bluetooth for storing a selection enable signal and an encoding program, and transmitting the selection enable signal and encoding program to the data converter;

The data converter is connected to the tire pressure monitoring device in a wireless manner for loading the selection enable signal and encoding program sent by the intelligent mobile processing device to the tire pressure monitoring device;

The tire pressure monitoring device includes a transmitter, a receiver, a sensor, and a storage processing group; wherein the receiver is configured to receive a selection enable signal and an encoding program sent by the data converter; the sensor is configured to collect a tire state a parameter; the storage processing group is configured to store the received selection enable signal and an encoding program, and select, according to the selection enable signal, the encoding program to encode a state parameter collected by the sensor; The status parameter of the encoded process is sent to the external monitoring device.
The system of claim 1 wherein said tire pressure monitoring device further comprises feedback means for transmitting status information of said encoding program to said intelligent mobile processing device via said data converter.
The system of claim 2 wherein said intelligent mobile processing device includes a display for displaying status information of said encoded program operation.
The system of claim 3 wherein said data converter further comprises an indicator light and a buzzer for indicating an operational status of said data converter.
The system of claim 1 wherein said data converter further comprises a universal interface for repairing and upgrading said data converter.
The system of claim 1 wherein said tire pressure monitoring device further comprises a storage device coupled to said storage processing group for expanding a storage space of said storage processing group.
A TPM sensor setting system is characterized by comprising an intelligent mobile processing device, a data converter and a tire pressure monitoring device, wherein:

The intelligent mobile processing device is communicably connected to the data converter via Bluetooth for storage And storing a selection enable signal for enabling a corresponding encoding program, and transmitting the selection enable signal to the data converter;

The data converter is wirelessly coupled to the tire pressure monitoring device for loading the selection enable signal sent by the intelligent mobile processing device to the tire pressure monitoring device;

The tire pressure monitoring device includes a transmitter, a receiver, a sensor, and a storage processing group; wherein the receiver is configured to receive a selection enable signal sent by the data converter; the sensor is configured to collect a state parameter of the tire; The storage processing group is configured to store the encoding program corresponding to the selection enable signal, and enable the encoding program to encode a state parameter collected by the sensor according to the selection enable signal; the transmitter is configured to The external monitoring device transmits the encoded state parameters.
A TPM sensor setting method, comprising:

Receiving a selection enable signal and an encoding program sent by the smart mobile processing device through the data converter; wherein the smart mobile processing device is connected to the data converter via Bluetooth;

The received selection enable signal and encoding program are stored, and the encoding program is selected to encode the state parameters collected by the sensor based on the selection enable signal.
The method of claim 8 further comprising:

The operational status information of the encoding program is transmitted to the intelligent mobile processing device via the data converter.
A TPM sensor setting method, comprising:

Receiving a selection enable signal sent by the smart mobile processing device through the data converter; wherein the smart mobile processing device is connected to the data converter via Bluetooth;

And performing, according to the selection enable signal, the encoding program corresponding to the selection enable signal to encode a state parameter collected by the sensor; wherein the encoding program is pre-stored.