CN108337668B - A bluetooth tag configurator - Google Patents

Abstract

The invention discloses a bluetooth label configuration device, comprising: a wired connection module connected with a bluetooth label through a URAT interface to configure the bluetooth label in a wired manner; Connect the module, output the parameters of the currently configured Bluetooth tags, and display the number of configured Bluetooth tags and the output display module of the configuration results, the electromagnet module that generates electric magnetic field coverage around the Bluetooth tag configurator, and the bluetooth tag A processor for performing wired connection configuration on the Bluetooth tag when the wired connection is made through the wired connection module, or performing wireless connection configuration on the Bluetooth tag when the Bluetooth tag is placed within the range covered by the electric magnetic field generated by the electromagnet module. The invention can quickly and accurately configure the working parameters of the bluetooth tag according to different environments, thereby improving production efficiency and saving labor costs.

Description

A bluetooth tag configurator

technical field

The invention belongs to the communication field, and more specifically relates to a bluetooth label configurator.

Background technique

With the in-depth development of informatization and various intelligent terminal devices, the demand for personnel and asset positioning continues to heat up, and the application demand in the field of location services has also shown exponential growth. Bluetooth tag is a common positioning tag device. Due to its good data stability, long transmission distance and long battery life, it has been widely used in indoor positioning and material positioning in large warehouses. How to quickly and accurately configure the working parameters of Bluetooth tags according to different environments, improve production efficiency, and save labor costs is a technical problem that needs to be solved urgently.

Contents of the invention

In view of the above defects or improvement needs of the prior art, the present invention provides a Bluetooth tag configurator, thereby solving the problem of how to quickly and accurately configure the working parameters of the Bluetooth tag according to different environments, improve production efficiency, and save labor costs. technical problem.

To achieve the above object, the present invention provides a Bluetooth tag configurator, comprising: a wired connection module, a wireless connection module, an output display module, an electromagnet module and a processor;

The wired connection module is used to connect with the bluetooth tag through the URAT interface, so as to configure the bluetooth tag by wire;

The wireless connection module is used to pair with the Bluetooth tag through the Bluetooth protocol, so as to wirelessly configure the Bluetooth tag;

The output display module is used to output the parameters of the currently configured bluetooth tags, and display the number of configured bluetooth tags and configuration results;

The electromagnet module is used to generate an electric magnetic field coverage around the Bluetooth tag configurator;

The processor is configured to perform wired connection configuration on the Bluetooth tag when the wired connection is made with the Bluetooth tag through the wired connection module, or, when the Bluetooth tag is placed in the range covered by the electric magnetic field generated by the electromagnet module When it is inside, the pairing with the Bluetooth tag is realized through the wireless connection module, and the wireless connection configuration is performed on the Bluetooth tag.

Preferably, the process of configuring the wired connection of the Bluetooth tag by the processor is as follows:

The radio frequency module in the wireless connection module sends a device ID configuration command, a device ID parameter and a CRC16 check value to the Bluetooth tag, so that the Bluetooth tag starts the tag configuration function and writes the configuration parameter after receiving the configuration command and the configuration parameter. Enter the device ID parameter address. After the writing is completed, the Bluetooth tag reads the device ID from the device ID parameter address and returns it to the Bluetooth tag configurator. The Bluetooth tag configurator judges whether the configuration of the Bluetooth tag is successful. Next step configuration, if configuration fails, then continue to send device ID configuration instruction and device parameter by described radio frequency module, if exceeding several configurations and fail, then judge that this bluetooth label configuration is wrong, and end configuration;

The radio frequency module sends the identity ID configuration instruction, the identity ID parameter and the CRC16 check value, so that after the Bluetooth tag receives the configuration instruction and the configuration parameter, it starts the tag configuration function and writes the configuration parameter into the identity ID parameter address, and the writing is completed Afterwards, the bluetooth tag reads the identity ID from the identity ID parameter address and returns to the bluetooth tag configurator, and the bluetooth tag configurator judges whether the configuration of the bluetooth tag is successful, if the next step is configured successfully, if the configuration fails, Then continue to send identity ID configuration order and equipment parameter by described radio frequency module, if exceed several times configuration failure, then judge bluetooth tag configuration error, and end configuration;

The radio frequency module sends the broadcast parameter configuration command, the broadcast configuration parameter and the CRC16 check value, so that after the Bluetooth tag receives the configuration command and the configuration parameter, it starts the tag configuration function and writes the configuration parameter into the broadcast parameter address, and the writing is completed Afterwards, the bluetooth tag reads the broadcast parameters from the broadcast parameter address and returns them to the bluetooth tag configurator, and the bluetooth tag configurator judges whether the configuration of the bluetooth tag is successful, if the next step is configured successfully, if the configuration fails, then The radio frequency module continues to send broadcast parameter configuration instructions and broadcast parameters. If the configuration fails for more than a few times, it is determined that the Bluetooth tag configuration is wrong, and the configuration is terminated;

The radio frequency module sends the accelerometer configuration instruction, the accelerometer configuration parameter and the CRC16 check value, so that the bluetooth tag receives the configuration instruction and the configuration parameter, starts the tag configuration function, writes the configuration parameter into the accelerometer parameter address, writes After completion, the accelerometer parameters are read from the accelerometer parameter address by the bluetooth tag and returned to the bluetooth tag configurator, and the bluetooth tag configurator judges whether the configuration is successful, if the next step is configured successfully, if the configuration fails, then The radio frequency module continues to send the accelerometer parameter configuration instruction and the accelerometer parameter, if more than a few configuration failures, it is determined that the label configuration is wrong, and the configuration is terminated;

The radio frequency module sends the key configuration command, the key configuration parameter and the CRC16 check value, so that after the Bluetooth tag receives the configuration command and configuration parameters, it starts the tag configuration function and writes the configuration parameters into the key parameter address , after the writing is completed, the bluetooth tag reads the key parameter from the key parameter address and returns it to the bluetooth tag configurator, and the bluetooth tag configurator judges whether the configuration is successful. If it fails, the radio frequency module will continue to send key parameter configuration instructions and accelerometer parameters. If the configuration fails for more than a few times, it will be determined that the tag configuration is wrong and the configuration will end.

Preferably, the process for the processor to configure the wireless connection to the Bluetooth tag is:

Place the Bluetooth tag within the magnetic field range of the Bluetooth tag configurator to realize the wireless pairing connection between the Bluetooth tag configurator and the Bluetooth tag;

The device ID configuration command, device ID parameter and CRC16 check value are sent by the radio frequency module, so that after the Bluetooth tag receives the configuration command and configuration parameters, it starts the tag configuration function and writes the configuration parameters into the device ID parameter address, writes After completion, the device ID is read from the device ID parameter address by the Bluetooth tag and returned to the Bluetooth tag configurator, and the Bluetooth tag configurator judges whether the configuration is successful. If the next step is configured successfully, if the configuration fails, the The radio frequency module continues to send device ID configuration instructions and device parameters. If the configuration fails for more than a few times, it is determined that the tag configuration is wrong, and the configuration is terminated;

The radio frequency module sends the ID configuration instruction, the ID parameter and the CRC16 check value, so that the Bluetooth tag starts the tag configuration function after receiving the configuration instruction and the configuration parameter, and writes the configuration parameter into the ID parameter address, After the writing is completed, the bluetooth tag reads the identity ID from the identity ID parameter address and returns it to the bluetooth tag configurator, and the bluetooth tag configurator judges whether the configuration is successful, if the next step is configured successfully, if the configuration fails, The radio frequency module continues to send identity ID configuration instructions and device parameters. If the configuration fails for more than a few times, it is determined that the tag configuration is wrong, and the configuration is terminated;

The radio frequency module sends the broadcast parameter configuration command, the broadcast configuration parameter and the CRC16 check value, so that the Bluetooth tag starts the tag configuration function after receiving the configuration command and the configuration parameter, writes the configuration parameter into the broadcast parameter address, writes After the input is completed, the Bluetooth tag reads the broadcast parameters from the broadcast parameter address and returns them to the Bluetooth tag configurator, and the Bluetooth tag configurator judges whether the configuration is successful. If the next step is configured successfully, if the configuration fails, the The radio frequency module continues to send broadcast parameter configuration instructions and broadcast parameters. If the configuration fails for more than a few times, it is determined that the label configuration is wrong, and the configuration is ended;

The radio frequency module sends the accelerometer configuration instruction, the accelerometer configuration parameter and the CRC16 check value, so that the Bluetooth tag starts the tag configuration function after receiving the configuration instruction and the configuration parameter, and writes the configuration parameter into the accelerometer parameter address After the writing is completed, the Bluetooth tag reads the accelerometer parameters from the accelerometer parameter address and returns them to the Bluetooth tag configurator, and the Bluetooth tag configurator judges whether the configuration is successful. If it fails, it will continue to send accelerometer parameter configuration commands and accelerometer parameters. If the configuration fails for more than a few times, it will determine that the tag configuration is wrong and end the configuration;

The radio frequency module sends the key configuration command, the key configuration parameter and the CRC16 check value, so that after the Bluetooth tag receives the configuration command and configuration parameters, it starts the tag configuration function and writes the configuration parameters into the key parameter address , after the writing is completed, the bluetooth tag reads the key parameter from the key parameter address and returns it to the bluetooth tag configurator, and the bluetooth tag configurator judges whether the configuration is successful. If it fails, the radio frequency module will continue to send key parameter configuration instructions and accelerometer parameters. If the configuration fails for more than a few times, it will be determined that the tag configuration is wrong and the configuration will end.

Preferably, the configuration mode of the Bluetooth tag configurator includes automatic configuration and manual configuration. In manual configuration, specific identity ID, device ID, device broadcast parameters, accelerometer configuration parameters and key parameters are manually configured. In automatic configuration , the Bluetooth tag configurator automatically configures the identity ID, device ID, device broadcast parameters, accelerometer configuration parameters and key parameters.

Generally speaking, compared with the prior art, the above technical solutions conceived by the present invention can achieve the following beneficial effects:

(1) During batch production, the configurator of the present invention can be connected with the Bluetooth tag through the UART interface, and the default function parameters can be set, which can be selected automatically or manually, so that each tag can be configured with default parameters and assigned a fixed device ID;

(2) According to the specific parameter requirements of different application scenarios, set corresponding parameters on the configurator of the present invention, start the electromagnet module of the configurator, select the automatic configuration mode, and place the label in the magnetic field of the configurator, and each Each tag is automatically configured to assign a device ID and an identity ID to each tag.

Description of drawings

Fig. 1 is a schematic structural diagram of a bluetooth tag automatic configurator disclosed in an embodiment of the present invention.

Detailed ways

In order to make the object, technical solution and advantages of the present invention more clear, the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present invention, not to limit the present invention. In addition, the technical features involved in the various embodiments of the present invention described below can be combined with each other as long as they do not constitute a conflict with each other.

The invention provides a bluetooth tag automatic configurator, which mainly includes a bluetooth module, a processor, a radio frequency RF module, an electromagnet module, an output display module and other modules, wherein the main chip of the bluetooth module is a DA14583 chip, and the main control of the processor The chip is STM32L051 chip, the processor comes with a UART serial communication unit, the display module uses COG liquid crystal-JM12864C08, and the electromagnet module uses an on-board electromagnet. The present invention is connected with the bluetooth tag through the UART interface connection or wireless pairing mode, and the various functional parameters of the bluetooth tag (equipment ID, identity ID, accelerometer motion threshold parameter, accelerometer static threshold parameter, periodic broadcast frequency and duration, Sports broadcast frequency and duration, static broadcast frequency and duration and other parameters) are configured. Firstly, the present invention can automatically configure the initialization parameters of the labels when the labels are produced in batches. Realize assigning a fixed device ID and identity ID to each tag; secondly, in different application scenarios, according to specific parameter requirements, set corresponding parameters in the present invention. The specific operation is as follows: start the electromagnet module, select the automatic configuration mode, place the tag in the magnetic field of the configurator, and automatically configure each tag to achieve a fixed device ID and identity ID for each tag.

As shown in Figure 1, it is a schematic structural diagram of a Bluetooth tag automatic configurator disclosed in an embodiment of the present invention, including: a wired connection module, a wireless connection module, an output display module, an electromagnet module and a processor;

The wired connection module is used to connect with the bluetooth tag through the URAT interface to configure the bluetooth tag by wire;

The wireless connection module is used to pair with the Bluetooth tag through the Bluetooth protocol, so as to wirelessly configure the Bluetooth tag;

The output display module is used to output the parameters of the currently configured Bluetooth tags, and display the number of configured Bluetooth tags and configuration results;

An electromagnet module for generating an electric magnetic field coverage around the Bluetooth tag configurator;

The processor is used for performing wired connection configuration on the Bluetooth tag when the wired connection is made with the Bluetooth tag through the wired connection module, or, when the Bluetooth tag is placed within the range covered by the electric magnetic field generated by the electromagnet module, through a wireless connection The module realizes the pairing with the Bluetooth tag, and configures the wireless connection of the Bluetooth tag.

Under the wired connection, the Bluetooth tag configurator and the Bluetooth tag are connected through UART, set the initial device ID and identity ID in the Bluetooth tag configurator, select the automatic configuration mode, the Bluetooth tag configurator sends the tag configuration command through UART, and the tag enters the configuration state, when the Bluetooth tag configurator receives the configuration start command returned by the self-test tag, it starts to send configuration commands and parameters.

The Bluetooth tag configurator performs CRC16 check calculation every time it sends configuration instructions and configuration parameters, and writes the calculated value into the configuration parameters to ensure the correctness of the data in the transmission process. After receiving the configuration instructions and configuration parameters, the tag first Parameter CRC16 check calculation, if the check is passed, the tag starts the corresponding configuration program:

Specifically, the process for the processor to configure the wired connection to the Bluetooth tag is:

The radio frequency module in the wireless connection module sends the device ID configuration command, device ID parameters (including broadcast encryption instruction) and CRC16 check value to the Bluetooth tag, so that the Bluetooth tag starts tag configuration after receiving the configuration command and configuration parameters The function writes the configuration parameters into the device ID parameter address. After the writing is completed, the Bluetooth tag reads the device ID from the device ID parameter address and returns it to the Bluetooth tag configurator. The Bluetooth tag configurator judges whether the configuration of the Bluetooth tag is successful. If successful Proceed to the next step of configuration. If the configuration fails, the RF module will continue to send device ID configuration instructions and device parameters. If the configuration fails for more than a few times, it will be determined that the Bluetooth tag configuration is wrong and the configuration will end;

The RF module sends the ID configuration command, the ID parameter and the CRC16 check value, so that after the Bluetooth tag receives the configuration command and configuration parameters, it starts the tag configuration function and writes the configuration parameters into the ID parameter address. After the writing is completed , the bluetooth tag reads the identity ID from the identity ID parameter address and returns it to the bluetooth tag configurator, and the bluetooth tag configurator judges whether the configuration of the bluetooth tag is successful. Send the identity ID configuration command and device parameters. If the configuration fails for more than a few times, it will be determined that the Bluetooth tag configuration is wrong and the configuration will end;

The radio frequency module sends broadcast parameter configuration instructions, broadcast configuration parameters and CRC16 check values, so that after the Bluetooth tag receives the configuration instructions and configuration parameters, it starts the tag configuration function and writes the configuration parameters into the broadcast parameter address. After the writing is completed, The Bluetooth tag reads the broadcast parameters from the broadcast parameter address and returns them to the Bluetooth tag configurator. The Bluetooth tag configurator judges whether the configuration of the Bluetooth tag is successful. If the configuration is successful, the next step is configured. If the configuration fails, the radio frequency module continues to send the broadcast. Parameter configuration instructions and broadcast parameters, if the configuration fails for more than a few times, it will be determined that the configuration of the Bluetooth tag is wrong, and the configuration will end;

The radio frequency module sends the accelerometer configuration command, the accelerometer configuration parameter and the CRC16 check value, so that the Bluetooth tag receives the configuration command and configuration parameters, starts the tag configuration function, and writes the configuration parameters into the accelerometer parameter address. After the writing is completed , the Bluetooth tag reads the accelerometer parameters from the accelerometer parameter address and returns them to the Bluetooth tag configurator. The Bluetooth tag configurator judges whether the configuration is successful. If the configuration is successful, the next step is configured. If the configuration fails, the radio frequency module continues to send the acceleration. If the configuration command of the meter parameter and the accelerometer parameter exceed several times, it will be determined that the label configuration is wrong, and the configuration will end;

The radio frequency module sends the key configuration command, key configuration parameters and CRC16 check value, so that after the Bluetooth tag receives the configuration command and configuration parameters, it starts the tag configuration function and writes the configuration parameters into the key parameter address, and the writing is completed Finally, the Bluetooth tag reads the key parameter from the key parameter address and returns it to the Bluetooth tag configurator. The Bluetooth tag configurator judges whether the configuration is successful. If the key parameter configuration command and the accelerometer parameter fail to be configured more than several times, it will be determined that the tag configuration is wrong, and the configuration will end.

The above configuration steps are all configured successfully, then the detection tag configuration is successful, the tag configurator automatically modifies the identity ID and device ID parameters, and keeps other parameters unchanged, the tag configurator continues to send tag configuration instructions through UART, and waits for the next connected tag Return to the configuration start command and configure automatically (configuration takes 200ms);

If you choose manual configuration, you can manually configure specific IDs, device IDs, device broadcast parameters, accelerometer configuration parameters, and key parameters for some special tags. After setting the parameters, click Configure, and the tag configurator will configure according to the above steps .

Set the initial device ID, identity ID and other configuration parameters on the Bluetooth tag configurator. The Bluetooth tag configurator generates a magnetic field through the power magnetic field module. If the Bluetooth tag is placed within the magnetic field range of the Bluetooth tag configurator, the Bluetooth The tag configurator will connect with the Bluetooth tag through wireless pairing. If the automatic configuration mode is selected, the Bluetooth tag configurator sends the tag configuration command wirelessly, and the tag enters the configuration state. When the Bluetooth tag configurator receives the configuration start command returned by the self-test tag, it starts to send the configuration command and parameters.

The Bluetooth tag configurator performs CRC16 check calculation every time it sends configuration instructions and configuration parameters, and writes the calculated value into the configuration parameters to ensure the correctness of the data in the transmission process. After receiving the configuration instructions and configuration parameters, the tag first The parameter CRC16 is checked and calculated. If the check is passed, the tag starts the corresponding configuration program. Specifically, the process for the processor to configure the wireless connection of the Bluetooth tag is as follows:

Place the Bluetooth tag within the magnetic field range of the Bluetooth tag configurator to realize the wireless pairing connection between the Bluetooth tag configurator and the Bluetooth tag;

The radio frequency module sends the device ID configuration command, the device ID parameter (including whether the broadcast is encrypted or not) and the CRC16 check value, so that after the Bluetooth tag receives the configuration command and configuration parameters, it starts the tag configuration function and writes the configuration parameters Device ID parameter address. After the writing is completed, the Bluetooth tag reads the device ID from the device ID parameter address and returns it to the Bluetooth tag configurator. The Bluetooth tag configurator judges whether the configuration is successful. If it is successful, proceed to the next step of configuration. If the configuration fails , the RF module will continue to send device ID configuration commands and device parameters. If the configuration fails for more than a few times, it will determine that the tag configuration is wrong and end the configuration;

The RF module sends the ID configuration command, the ID parameter and the CRC16 check value, so that after the Bluetooth tag receives the configuration command and configuration parameters, it starts the tag configuration function and writes the configuration parameters into the ID parameter address. After the writing is completed , the bluetooth tag reads the identity ID from the identity ID parameter address and returns it to the bluetooth tag configurator, and the bluetooth tag configurator judges whether the configuration is successful, if it succeeds in the next step of configuration, if the configuration fails, the radio frequency module continues to send the identity ID If configuration instructions and device parameters fail for more than a few times, it will be determined that the label configuration is wrong and the configuration will end;

The radio frequency module sends broadcast parameter configuration instructions, broadcast configuration parameters and CRC16 check values, so that after the Bluetooth tag receives the configuration instructions and configuration parameters, it starts the tag configuration function and writes the configuration parameters into the broadcast parameter address. After the writing is completed, The Bluetooth tag reads the broadcast parameters from the broadcast parameter address and returns them to the Bluetooth tag configurator. The Bluetooth tag configurator judges whether the configuration is successful. If the next step of configuration is successful, if the configuration fails, the radio frequency module continues to send the broadcast parameter configuration command. and broadcast parameters, if the configuration fails for more than a few times, it will be determined that the tag configuration is wrong, and the configuration will end;

The radio frequency module sends the accelerometer configuration command, the accelerometer configuration parameter and the CRC16 check value, so that after the Bluetooth tag receives the configuration command and configuration parameters, it starts the tag configuration function and writes the configuration parameters into the accelerometer parameter address, and the writing is completed Afterwards, the Bluetooth tag reads the accelerometer parameters from the accelerometer parameter address and returns them to the Bluetooth tag configurator. The Bluetooth tag configurator judges whether the configuration is successful. If the configuration succeeds, proceed to the next step. If the configuration fails, continue to send the accelerometer parameters. If configuration instructions and accelerometer parameters fail for more than a few times, it will be determined that the label configuration is wrong and the configuration will end;

The radio frequency module sends the key configuration command, key configuration parameters and CRC16 check value, so that after the Bluetooth tag receives the configuration command and configuration parameters, it starts the tag configuration function and writes the configuration parameters into the key parameter address, and the writing is completed Finally, the Bluetooth tag reads the key parameter from the key parameter address and returns it to the Bluetooth tag configurator. The Bluetooth tag configurator judges whether the configuration is successful. If the key parameter configuration command and the accelerometer parameter fail to be configured more than several times, it will be determined that the tag configuration is wrong, and the configuration will end.

If the configuration steps above are successful, the Bluetooth tag configuration is successful. The tag configurator automatically modifies the identity ID and device ID parameters, and keeps other parameters unchanged. The tag configurator continues to send tag configuration commands through UART, waiting for the next connected tag Return to the configuration start command and configure automatically (configuration takes 200ms);

If you choose manual configuration, you can manually configure specific IDs, device IDs, device broadcast parameters, accelerometer configuration parameters, and key parameters for some special tags. After setting the parameters, click Configure, and the tag configurator will configure according to the above steps .

It is easy for those skilled in the art to understand that the above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. Any modifications, equivalent replacements and improvements made within the spirit and principles of the present invention, All should be included within the protection scope of the present invention.

Claims (3)

1. a kind of Bluetooth label configurator characterized by comprising wired connection module is wirelessly connected module, output display mould Block, electromagnet module and processor；

The wired connection module, for being connect with Bluetooth label by URAT interface, to carry out wired configuration to Bluetooth label；

The wireless connection module, for being matched with Bluetooth label by Bluetooth protocol, to carry out radio configuration to Bluetooth label；

The output display module for exporting the parameters for the Bluetooth label being currently configured, and shows configured bluetooth Number of tags and configuration result；

The electromagnet module, for generating electric power magnetic field coverage area around the Bluetooth label configurator；

The processor is used for when carrying out wired connection by the wired connection module with Bluetooth label, to Bluetooth label Wired connection configuration is carried out, alternatively, being placed in the range of the electric power magnetic field covering generated by the electromagnet module in Bluetooth label When interior, the pairing with Bluetooth label is realized by the wireless connection module, wireless connection configuration is carried out to Bluetooth label；

The processor carries out the process for being wirelessly connected configuration to Bluetooth label are as follows:

Bluetooth label is placed into the Bluetooth label configurator magnetic field range, realizes the Bluetooth label configurator and bluetooth The wireless pairing of label connects；

By it is described wireless connection module in radio-frequency module sending device ID configuration-direct, device id parameter and CRC16 check value, So that Bluetooth label after receiving configuration-direct and configuration parameter, starts label configuration feature for configuration parameter write device ID Argument address after the completion of write-in, reads device id from device id argument address by Bluetooth label and returns to the Bluetooth label Configurator judges whether configuration succeeds by the Bluetooth label configurator, if successfully carrying out next step configuration, if configuration failure, Sending device ID configuration-direct and device parameter are then continued by the radio-frequency module, if determining more than configuration failure several times Label configuration error, and terminate to configure；

Identity ID configuration-direct, identity ID parameter and CRC16 check value are sent by the radio-frequency module, so that the Bluetooth label After receiving configuration-direct and configuration parameter, identity ID argument address is written in configuration parameter by starting label configuration feature, is write After the completion of entering, identity ID is read from identity ID argument address by Bluetooth label and returns to the Bluetooth label configurator, by institute It states Bluetooth label configurator and judges whether configuration succeeds, if next step configuration is successfully carried out, if configuration failure, by the radio frequency Module continues to send identity ID configuration-direct and device parameter, if determining that the label configures more than configuration failure several times Mistake, and terminate to configure；

Broadcast parameter configuration-direct, broadcast configuration parameter and CRC16 check value are sent by the radio-frequency module, so that the bluetooth For label after receiving configuration-direct and configuration parameter, broadcast parameter address is written in configuration parameter by starting label configuration feature, After the completion of write-in, broadcast parameter is read from broadcast parameter address by Bluetooth label and returns to the Bluetooth label configurator, by The Bluetooth label configurator judges whether configuration succeeds, and is penetrated if configuration failure by described if successfully carrying out next step configuration Frequency module continues to send broadcast parameter configuration-direct and broadcast parameter, if determining that the label is matched more than configuration failure several times Error is set, and terminates to configure；

Accelerometer disposition instruction, accelerometer disposition parameter and CRC16 check value are sent by the radio-frequency module, so that described For Bluetooth label after receiving configuration-direct and configuration parameter, starting label configuration feature joins configuration parameter write-in accelerometer Number address after the completion of write-in, reads accelerometer parameter from accelerometer argument address by Bluetooth label and returns to the indigo plant Tooth label configurator judges whether configuration succeeds by the Bluetooth label configurator, if successfully carrying out next step configuration, if configuration Failure then continues to send the instruction of accelerometer parameter configuration and accelerometer parameter, if determining more than configuration failure several times Label configuration error, and terminate to configure；

Cipher key configuration instruction, cipher key configuration parameter and CRC16 check value are sent by the radio-frequency module, so that the Bluetooth label After receiving configuration-direct and configuration parameter, key parameter address, write-in is written in configuration parameter by starting label configuration feature After the completion, key parameter is read from key parameter address by Bluetooth label and return to the Bluetooth label configurator, by described Bluetooth label configurator judges whether configuration succeeds, if next step configuration is successfully carried out, if configuration failure, by the radio frequency mould Block continues to send key parameter configuration-direct and accelerometer parameter, if determining that the label is matched more than configuration failure several times Error is set, and terminates to configure.

2. Bluetooth label configurator according to claim 1, which is characterized in that the processor has Bluetooth label The process of line connection configuration are as follows:

From it is described wireless connection module in radio-frequency module to Bluetooth label sending device ID configuration-direct, device id parameter and CRC16 check value, so that Bluetooth label, after receiving configuration-direct and configuration parameter, starting label configuration feature joins configuration Number write device ID argument address, after the completion of write-in, Bluetooth label reads device id from device id argument address and returns to institute Bluetooth label configurator is stated, judges whether the configuration of Bluetooth label succeeds by the Bluetooth label configurator, if successfully carrying out down The configuration of one step continues sending device ID configuration-direct and device parameter by the radio-frequency module if configuration failure, if if being more than Dry configuration failure then determines Bluetooth label configuration error, and terminates to configure；

Identity ID configuration-direct, identity ID parameter and CRC16 check value are sent by the radio-frequency module, so that Bluetooth label is connecing After receiving configuration-direct and configuration parameter, identity ID argument address is written in configuration parameter by starting label configuration feature, has been written Cheng Hou reads identity ID from identity ID argument address by Bluetooth label and returns to the Bluetooth label configurator, by the indigo plant Tooth label configurator judges whether the configuration of Bluetooth label succeeds, if next step configuration is successfully carried out, if configuration failure, by institute It states radio-frequency module to continue to send identity ID configuration-direct and device parameter, if determining bluetooth mark more than configuration failure several times Label configuration error, and terminate to configure；

Broadcast parameter configuration-direct, broadcast configuration parameter and CRC16 check value are sent by the radio-frequency module, so that Bluetooth label After receiving configuration-direct and configuration parameter, broadcast parameter address, write-in is written in configuration parameter by starting label configuration feature After the completion, broadcast parameter is read from broadcast parameter address by Bluetooth label and return to the Bluetooth label configurator, by described Bluetooth label configurator judges whether the configuration of Bluetooth label succeeds, if successfully carrying out next step configuration, if configuration failure, by The radio-frequency module continues to send broadcast parameter configuration-direct and broadcast parameter, if being more than that configuration failure, judgement should several times Bluetooth label configuration error, and terminate to configure；

Accelerometer disposition instruction, accelerometer disposition parameter and CRC16 check value are sent by the radio-frequency module, so that bluetooth Label is receiving configuration-direct and configuration parameter, and starting label configuration feature is by configuration parameter write-in accelerometer parameter Location after the completion of write-in, reads accelerometer parameter from accelerometer argument address by Bluetooth label and returns to the bluetooth mark Configurator is signed, judges whether configuration succeeds by the Bluetooth label configurator, if successfully carrying out next step configuration, if configuration is lost It loses, is then continued to send the instruction of accelerometer parameter configuration and accelerometer parameter by the radio-frequency module, if being more than to match several times It sets unsuccessfully, then determines label configuration error, and terminate to configure；

Cipher key configuration instruction, cipher key configuration parameter and CRC16 check value are sent by the radio-frequency module, so that the Bluetooth label After receiving configuration-direct and configuration parameter, key parameter address, write-in is written in configuration parameter by starting label configuration feature After the completion, key parameter is read from key parameter address by Bluetooth label and return to the Bluetooth label configurator, by described Bluetooth label configurator judges whether configuration succeeds, if next step configuration is successfully carried out, if configuration failure, by the radio frequency mould Block continues to send key parameter configuration-direct and accelerometer parameter, if determining that the label is matched more than configuration failure several times Error is set, and terminates to configure.

3. Bluetooth label configurator according to claim 1 or 2, which is characterized in that the Bluetooth label configurator is matched Setting mode includes automatically configuring and manual configuration, and in manual configuration, the specific identity ID of manual configuration, device id, equipment are wide Parameter, accelerometer disposition parameter and key parameter are broadcast, when automatically configuring, body is automatically configured by the Bluetooth label configurator Part ID, device id, device broadcasts parameter, accelerometer disposition parameter and key parameter.