DE112014003277T5 - Method and apparatus for writing an identifier to a tire pressure monitoring sensor - Google Patents

Abstract

The present invention relates to methods, systems and devices for integrating a tire pressure monitoring sensor into a tire pressure monitoring system of a vehicle. In one aspect, the present invention provides a method of integrating one or more tire pressure monitoring sensors into a tire pressure monitoring system of a vehicle. The method includes transmitting an identifier from a configuration tool to a first tire pressure monitoring sensor, wherein the first tire pressure monitoring sensor records the identifier on a storage device.

Description

Cross-reference to related application

The present application is related to a commonly owned US Provisional Patent Application entitled "Methods, Systems and Apparatus for Recording and Transmitting Vehicle Tire Pressure Monitoring Sensor Identification Information" filed concurrently herewith with the application number 2012P01420US, and to the non-provisional US patent application entitled: "Methods, Systems and Apparatus for Recording and Transmitting Tire Pressure Monitoring Sensor Identification Information to a Vehicle" filed concurrently herewith with the present application Serial No. 2012P01422US, both of which are hereby incorporated by reference are fully incorporated by reference in all respects.

Technical area

The present invention relates to methods, systems and devices for integrating a tire pressure monitoring sensor into a tire pressure monitoring system of a vehicle.

background

Today, commercial and non-commercial vehicles include tire pressure monitoring (TPMS) systems that include a central module that is integrated with or in communication with an electronic control unit of the vehicle and tire pressure monitoring (TPM) sensors for each vehicle wheel unit. Generally, the TPM sensors monitor tire pressure in a corresponding tire and transmit a wireless signal to the central module which includes at least tire pressure data. If the measured pressure is outside an acceptable range or if a significant change in tire pressure occurs, an alarm is generated and transmitted to the user of the vehicle.

Over time, TPM sensors need to be replaced by service technicians due to damage, a dead battery, or otherwise. This requires installation and integration of new TPM sensors into a TPMS of a vehicle. During this process, under one configuration, the technician places the TPMS receiver of the vehicle in a learn mode and triggers or triggers each TPM sensor (or triggers each TPM sensor) for identification purposes. The technician then sequentially starts each TPM sensor using a TPMS configuration tool, which causes each sensor, new or existing, to send a wireless signal including an identifier to a control module of the TPMS. These tools (or "tools") communicate with a sensor via low-frequency signals, which in turn communicate with the TPMS via a higher-frequency radio signal. The control module records the identifier, which may include numbers, letters, a combination of numbers and letters, or any other identifying indicator, from each signal, so as to interpret the location of the TPM sensor data during operation.

In a typical TPMS teach-in operation, a technician places the TPMS receiver of the vehicle in a teach-in mode by performing one or more steps, such as periodically passing an ignition key, depressing remote control buttons, depressing a brake pedal, operating door interlock switches, Driving light switches, combinations thereof or by other. As is known, this can be a complicated procedure. Once the learning process is initiated, the TPMS tool will indicate which tire pressure monitoring sensor installed on the vehicle should be triggered. The service technician moves the appropriate wheel unit and uses the TPMS configuration tool to make a corresponding TPM sensor transmit a signal including an identifier. Once the signal has been received from the control module, the control module acknowledges the TPM sensor learning either by an audible signal or by a visual signal. The TPMS tool also receives the sensor data and indicates which TPM sensor to trigger next. This procedure continues until all TPM sensors have been triggered in sequence, requiring the technician to go to each wheel unit and place the tool near a corresponding TPM sensor to trigger the sensor ,

Summary

The present approaches provide methods, systems and devices for integrating a tire pressure monitoring sensor into a tire pressure monitoring system of a vehicle. The features of the present invention are based in part on the use of a configuration tool adapted to communicate an existing tire pressure monitoring sensor identifier to a new tire pressure monitoring sensor, the new tire pressure monitoring sensor for receiving, storing and returning the existing tire pressure monitoring sensor Tire pressure monitor sensor identifier is formed.

Using the present approaches, it is no longer necessary to perform time-consuming, and sometimes complicated, learning processes for newly-installed tire pressure monitoring sensors because the newly installed sensor has the identifier of the previously installed tire pressure monitoring sensor for a particular wheel unit of a vehicle, and will transmit.

In view of the foregoing, in a first aspect, a method of integrating one or more tire pressure monitoring sensors into a tire pressure monitoring system of a vehicle is provided. The method includes transmitting an identifier from a configuration tool to a first tire pressure monitoring sensor, wherein the first tire pressure monitoring sensor records the identifier on a storage device.

In another aspect, a configuration tool for communication with a tire pressure monitoring system is provided. The configuration tool includes a transmitter and a receiver for communicating with tire pressure monitoring sensors. The configuration tool also comprises a memory device for storing an identifier for a tire pressure monitoring sensor. The configuration tool further comprises software instructions that are configured to transmit an identifier stored on the storage device to a tire pressure monitoring sensor with the aid of the transmitter.

In another aspect, a computer readable storage device is provided that stores computer program instructions. When executed by a computer comprising at least one processor, this results in: i) the transmission of a signal suitable for bringing a first tire pressure monitoring sensor to transmit a response signal; ii) storing an identifier contained in the response signal in a memory device; and iii) transmitting the stored identifier to a second tire pressure monitoring sensor.

In another aspect, a tire pressure monitoring sensor is provided. The tire pressure monitoring sensor includes a pressure sensor configured to monitor air pressure and to generate signals indicative of air pressure. The tire pressure monitoring sensor further comprises a receiver, which is designed to receive wireless signals from a configuration tool. The tire pressure monitoring sensor further comprises a processing unit and storage means including appropriate software for: i) evaluating a signal received by the receiver to determine if an identifier is included in the signal, and ii) storing an identifier communicated with the signal in FIG a storage device of the tire pressure monitoring sensor. The tire pressure monitoring sensor further comprises a wireless transmitter, which is designed to transmit the stored identifier to a tire pressure monitoring system of a vehicle.

In another aspect, there is provided a method of monitoring and recording air pressure in a tire and communicating the recorded air pressure and an identifier to a tire pressure monitoring system of a vehicle. The method includes providing a tire pressure monitoring sensor including a pressure sensor, a processor, a memory device, a wireless receiver, and a transmitter. The method further comprises recording on the storage means of an identifier received by the wireless receiver. The method further comprises transmitting a wireless signal, including the recorded identifier, and pressure data from the pressure sensor, via the wireless transmitter.

These and other features may best be understood from the following description and drawings, of which the following is a brief description.

Brief description of the drawings

1 FIG. 12 is a schematic view of an exemplary TPM sensor integration system for integrating a tire pressure monitoring sensor into a tire pressure monitoring system in accordance with various embodiments of the present invention. FIG.

2 FIG. 12 is a top view of an exemplary tire pressure monitoring sensor configuration tool in accordance with various embodiments of the present invention. FIG.

3 FIG. 12 is a schematic view of an exemplary tire pressure monitoring sensor configuration tool in accordance with various embodiments of the present invention. FIG.

4A to 4C 12 show several screenshots of a configuration tool during a recording operation of a plurality of tire pressure monitoring sensors in accordance with various embodiments of the present invention.

5 FIG. 10 is a flowchart illustrating an exemplary method of integrating a tire pressure monitoring sensor into a tire pressure monitoring system in accordance with various embodiments of the present invention.

6 FIG. 12 is a top view of a tire pressure monitoring sensor including an integrated circuit in accordance with various embodiments of the present invention. FIG.

Detailed description

Regarding 1 to 3 are exemplary integration systems 10 for integration of a tire pressure monitoring (TPM) sensor 12 into a tire pressure monitoring system (TPMS) 14 of a vehicle 16 shown. The integration systems 10 include a configuration tool for communication with a TPM sensor 12 , The configuration tool 18 includes a transmitter 20 and a receiver 21 for communication with the TPM sensor 12 , The configuration tool 18 is with a user interface 22 and with suitable software for generating and transmitting a signal to a TPM sensor and for receiving and recording an identifier included with a response signal from the TPM sensor. It is preferred that an identifier may include one or more numbers, letters, combinations of numbers and letters, or otherwise. The appropriate software and the recorded identifier are on one or more computer-readable storage devices 24 stored. The configuration tool 18 is further adapted to transmit the recorded identifier to another TPM sensor where it is stored and accessible for retransmission.

In an exemplary mode of operation, a user uses the user interface 22 of the configuration tool 18 , so that a trigger or trigger signal via a transmitter 20 to a first TPM sensor 12 ' can be transmitted. In response, the first TPM sensor generates 12 ' a response signal, including an identifier of the first TPM sensor, generated by the configuration tool 18 is received, via the receiver 21 , The one through the configuration tool 18 Received identifier is displayed on a display screen 26 the user interface 22 displayed on a computer readable storage device 24 of the configuration tool. The user then uses the user interface 22 of the configuration tool 18 to the stored identifier via the transmitter 20 to a second TPM sensor 12 '' to convey. The identifier is placed on the second TPM sensor 12 '' stored and transmitted with each subsequent transmission.

Preferably, by copying and transmitting an existing TPM sensor identifier, the training process using the TPMS to teach identifiers of TPM sensors can be avoided. The elimination of this step allows a user to perform a learn operation that involves placing a vehicle in a learn mode that includes one or more steps, such as periodically passing an ignition key, depressing remote control buttons, depressing a brake pedal , Operating door interlock switches, operating light switches, combinations thereof, or otherwise. In addition, steps that are necessary during a teach-in mode are eliminated. For example, the TPMS 14 in a learn mode adapted to receive and interpret wireless data in a particular data format, such as frequency, data transfer rate, order of data transmission, or otherwise, such as by original part manufacturers (OEMs) of the TPMS or the vehicle 16 is prescribed. The TPMS 14 is designed to receive a certain number of responses based on the vehicle's response 16 used to receive TPM sensors, for example four. The TPMS is further adapted to receive the answers in a particular order. As soon as the TPMS 14 For example, in the learn mode, it awaits receipt of a first wireless signal from a front passenger-side wheel unit, a second wireless signal from a rear passenger-side wheel unit, a third wireless signal from a rear driver-side wheel unit, and the fourth wireless signal from a front-driver-side wheel unit. Once the signals have been received, the TPMS assigns a wheel position to an identifier communicated with each wireless signal so as to identify the origin of each wireless signal received thereafter.

Upon closer inspection, with reference to 2 and 3 Examples of the configuration tool 18 shown. The configuration tool 18 includes a transmitter 20 and a receiver 21 for establishing a first communication link 28 with the TPM sensor 12 , In several examples, the first communication link comprises 28 and the second communication link 29 between the configuration tool 18 and the TMP sensor 12 established wireless communication links. In these embodiments, the transmitter comprises 20 a wireless transmitter and the receiver 21 includes a wireless receiver. The transmitter 20 and the receiver 21 are for sending and receiving for communication with a TPM sensor 12 formed suitable signals. Accordingly, the transmitter 20 configured in one example to transmit low frequency signals, and the receiver 21 is designed to receive radio frequency signals. Preferably, low frequency signals are generally in the range of about 30 to 300 kHz, wherein the high frequency signals are greater than about 300 MHz or in the range of about 300 MHz to 3 GHz.

Regarding 3 includes the configuration tool 18 furthermore a suitable central processing unit 30 and a computer readable storage device 24 for controlling various components of the configuration tool. The central processing unit 30 is for generating signals by the transmitter 20 and editing and / or storing by the receiver 21 received signals formed in the memory device, such as the computer-readable storage device 24 or otherwise. The central processing unit 30 continues to run operating instructions for the configuration tool 18 for communication with the various devices for generation and / or interaction with a user interface 22 the configuration tool or other.

In one example is the configuration tool 18 in communication with a database of the vehicle and includes TPM sensor program software 32 for configuring and / or programming a TPM sensor 12 , In this embodiment, the central processing unit 30 set up to be a TPM sensor 12 to be configured or programmed with appropriate program software for interaction with a particular TPMS of a particular vehicle. Such programming may include communication protocols, operating instructions, or otherwise for the TPM sensor.

Regarding 2 includes the configuration tool 18 a user interface 22 for enabling operation of the configuration tool, including initiation instructions, of the computer-readable storage device 24 stored configuration tool operating software. In one example, the user interface includes 22 a display screen 26 and buttons 34 . 36 . 38 and 40 to start operating instructions or commands. For example, the display screen shows 26 one from the TPM sensor 12 received information. In another example, the display screen shows 26 information regarding programming or configuration of a TPM sensor for integration into a TPMS 14 of a vehicle 16 at. For example, the display screen shows 26 in one configuration, an identifier of the TPM sensor, the vehicle manufacturer, the model, and / or year of manufacture for which the TPM sensor was or is mounted, a wheel unit position for which the TPM sensor was or is mounted TPM sensor recorded tire data, a TPM sensor configuration information, a TPM sensor programming information, the TPM sensor manufacturer, model and / or year of manufacture or other.

In one example, the user interface includes 22 an input field for manually entering an identifier of the previously installed TPM sensor 12 , This is particularly advantageous when the TPM sensor 12 is inoperative or has a dead battery. The input field 42 is in communication with the processing unit 30 of the programming tool 18 , In this particular configuration is the input field 42 into the programming tool 18 integrated. In an alternative configuration, the input field includes 42 however, a separate component that communicates with the programming tool 18 via a wired or wireless link.

In another example, as in 1 is shown includes the configuration tool 18 an onboard diagnostic connector 82 to download the identifiers of one or more TPM sensors 12 , As the identifier (s) are downloaded, they are assigned to a wheel unit position. The identifier (s) are then transmitted to a memory device of a new TPM sensor and installed based on the wheel unit they replace.

In an example, with reference to 4A to 4C , the display screen shows 26 different information for a view or selection during a configuration or programming of a TPM sensor 12 at. The configuration tool 18 includes a touch screen and / or scroll buttons for selection and manipulation across the various screen views. For example, the display screen lists 26 in a first screenshot 44 the vehicle manufacturer, for which a TPM sensor 12 programmed or configured. In a second screenshot 46 lists the display screen 26 the models of the selected vehicle manufacturer. In a third screenshot 48 lists the display screen 26 Years of construction of the selected vehicle manufacturer and model. In a fourth screenshot 50 represents the display screen 26 ready to write an identifier to a TPM sensor or to use a TPM Sensor for the selected vehicle manufacturer to trigger model and year. In a fifth screenshot 52 represents the display screen 26 ready to copy an identifier from a TPM sensor or manually enter the identifier of the TPM sensor into the configuration tool 18 enter.

screenshots 54 to 62 show screen contents during copying of an identifier from a TPM sensor, and screenshot 64 to 74 show screen contents during a manual input operation for an identifier.

With reference to a copying process of an identifier from a TPM sensor, the user is presented in a sixth screenshot 54 instructed to use a TPM sensor near the configuration tool 18 to place and press a corresponding button to trigger / start the TPM sensor to generate a signal. In a seventh screenshot 56 The configuration tool generates the identifier received from the TPM sensor and requires confirmation of the identifier. In an eighth screenshot 58 The configuration tool instructs the user to place a replacement TPM sensor near the configuration tool and press a key when in standby. In a ninth screenshot 60 the display screen shows 26 whether the identifier should be written to the replacement TPM sensor and requests a confirmation. In a tenth screenshot 62 the display screen confirms that the identifier has been written to the TPM sensor and offers the ability to start the replacement TPM sensor.

With reference to the manual input operation of an identifier for a TPM sensor, the display screen is shown in an eleventh screenshot 64 the ability to select different strings for a selection and to enter a first character of an identifier. In a twelfth screenshot 66 represents the display screen 26 the ability to select a particular character from a particular string for input as a first character of the identifier. In a thirteenth screenshot 68 represents the display screen 26 the opportunity to repeat the process for a second character of the identifier. In a fourteenth screenshot 70 The configuration tool instructs the user to place a replacement TPM sensor near the configuration tool and press a key when in standby. In a fifteenth screenshot 72 the display screen shows 26 whether the identifier is to be written to the replacement TPM sensor and asks for confirmation. In a sixteenth screenshot 74 the display screen confirms that the identifier has been written to the TPM sensor and offers the ability to trigger the replacement TPM sensor.

Again with respect to 2 includes the user interface 22 alternatively or together with the screenshots buttons 34 to 40 to perform similar and / or additional functions to those of the screenshots. For example, the configuration tool includes 18 in one example, a trigger TPM sensor button 34 indicating the transmission of a trigger signal by the transmitter 20 initiated. As mentioned previously, the display screen shows 26 the response transmission from the TPM sensor including the TPM sensor identifier. The user interface 22 further includes a draw TPM sensor ID on key 36 for recording a received or manually entered identifier, such as on the display screen 26 displayed. The user interface 22 further comprises a programming TPM sensor ID key 38 which initiates the transmission of the recorded identifier to a replacement TPM sensor, which in another example further comprises transmitting programming software for the TPM sensor. The user interface 22 further includes an on / off button 40 , Preferably, in the light of the teachings disclosed herein, several or fewer keys may be used, and may be configured to coexist with those described in U.S. Patent Nos. 4,149,466, 4,329,788, and 5,434,634 4A to 4C described screenshots to work.

Regarding 6 becomes an exemplary TPM sensor 12 shown. The TPM sensor 12 includes an integrated circuit board 88 including a processing unit 90 , one or more computer-readable storage devices 92 , a pressure sensor 94 , a receiver 96 and a wireless transmitter 98 , The TPM sensor 12 further includes a suitable power supply, such as a battery 99 to different components of the integrated circuit board 88 including processing unit 90 , Wireless transmitter 98 or to provide energy to others. The pressure sensor 94 of the TPM sensor 12 generates raw data indicating the air pressure within the associated tire. The raw data is sent to the processing unit 90 transmitted and on the computer-readable storage device 92 of the TPM sensor 12 stored. In one example, the storage device stores 92 the unique identifier for the TPM sensor 12 from.

The wireless transmitter 98 transmits low frequency signals, such as low frequency signals in the range of about 30 to 300 kHz. In one example, the transmitter transmits 98 High frequency signals, such as typically from the TPM sensors 12 transmitted signals, such as signals greater than about 300 MHz or in the range of about 300 MHz to 3 GHz, such as between about 315 to 433 MHz, and in certain configurations by about 315 MHz, about 433 MHz or higher.

The receiver 96 is for receiving wireless signals from the configuration tool 18 including an identifier formed. The from the receiver 96 received signals are sent to the processing unit 90 where appropriate, where appropriate by the computer-readable storage device 92 stored software can be evaluated. If the signal is interpreted to include an identifier, then the processing unit stores 90 the identifier on the computer readable storage device 92 or other memory device of the TPM sensor 12 from. Evaluation and selection of an identifier can be done in different ways. In one example, the processing unit monitors 90 and one on the computer readable storage device 92 stored software has a particular code or other indicator indicating that some or all of the information within the signal is from the TPM sensor 12 to be used. For example, if a portion of the signal includes a particular code, such as binary or otherwise representative of an identifier, then the TPM sensor "knows" by appropriate on the computer-readable storage device 92 stored software that the identifier contained in the signal is to be stored. The signal may be on the computer readable storage device 92 or other storage means, and thereafter transmitted with signals intended for reception by a TPMS of a vehicle. Such signals would also include tire pressure data and / or other data commonly transmitted by a TPM sensor. In one example, this includes the TPM sensor 12 received signal the identifier together with configuration instructions for a configuration operation of the TPM sensor 12 including transmission and data configuration protocols, programming software including TPM sensor operating instructions, or both configuration instructions and programming software.

In one example, the configuration tool includes or is in communication with a database of programming software and / or configuration data for programming and / or configuring a TPM sensor 12 , This example is a central processing unit of the configuration tool 18 adapted to program and / or configure a TPM sensor with appropriate programming software for interaction with a particular TPMS of a particular vehicle. The programming software may comprise a single piece of code or multiple pieces of code. Such software or portions of a code may include communication protocols, such as transmission frequency, data format, or otherwise. Such software or portions of code may alternatively include operating instructions for a function of the TPM sensor. Still further, the software or parts of a code may comprise a combination of communication protocols and operating instructions or otherwise.

In one example, the operating instructions include a single software program (or routine) or software programs (or routines or subroutines) to put the sensor into operation, as per a specification from original part manufacturers for a TPM sensor or for a tire pressure monitoring system can. For example, it is contemplated that the one or more software programs will: i) measure tire pressure, ii) measure air temperature within a tire, iii) calibrate tire pressure data based on temperature, iv) signal according to an original part manufacturer specification v) analyze signals received from a receiver of the TPM sensor, vi) generate a response signal to a signal received from a receiver of the TPM sensor, vii) establish communication protocols (such as data structure, Computer instructions or otherwise), viii) combinations thereof, or ix) other. In one example, as the TPM sensor is programmed with the program software, the program software is permanently or semi-permanently embedded in a memory device of the TPM sensor to prevent modification or substantial modification of the program software.

In one example, the protocol includes a data structure of signals generated and analyzed by the TPM sensor. The protocol may be implemented by program software received from or located within a memory device of the TPM sensor. The protocol may be implemented automatically when received by the TPM sensor, which protocol may include an implementation instruction or otherwise. For example, the protocol may include one or more features: i) data structure, ii) computer instructions, iii) transmission frequency, iv) data frames per transmission, v) time periods between transmissions, or vi) other. In one particular example, the transmission received by the TPM sensor includes an indication that the signal comprises a protocol signal and includes a communication protocol for operation of the TPM sensor, including the data structure of signals to be generated, including placement of wakeup signals, print data , Temperature data and / or other. The signal also indicates a transmission frequency and number of frames to be transmitted per transmission, each frame including a wake-up signal, print data, temperature data and / or otherwise. The protocol signal also indicates time periods between transmissions. Preferably, further communication protocols and configurations may be included.

The program software may vary based on the vehicle manufacturer, model, and / or year of manufacture. Alternatively, the program software may be configured for multiple applications, for example multiple vehicle manufacturers, models and / or years of construction. In this case, programming the TPM sensor may include transmission of a plurality of communication protocols and / or operating instructions for a plurality of tire pressure monitoring systems. Further, programming or configuration of the TPM sensor may include a selection of communication protocols and / or operating instructions from a database located within the TPM sensor.

Regarding 5 the present invention further contemplates methods 100 for integrating TPM sensors 12 in a TPMS 14 of a vehicle. The method comprises a step 102 using the configuration tool 18 to a communication link with a first TPM sensor 12 ' to create. In one example, this is done by pressing the trigger TPM sensor button 34 achieved with the central processing unit 30 interacts to trigger a trigger through the transmitter 20 to transfer to an existing TPM sensor. As previously mentioned, in an alternative configuration, the identifier is manually entered into the configuration tool 18 entered using the user interface, in particular using the display screen 26 and / or the input field 42 ,

The method further includes the step 104 recording an identifier transmitted by the existing TPM sensor in response to the trigger signal. In one example, the response signal is from the receiver 21 received and in the computer readable storage device 24 through the central processing unit 30 stored.

The method further includes the step 106 using the configuration tool 18 to a communication link with a second TPM sensor 12 '' to create. In one example, this is done by pressing the Program TPM Sensor ID button 38 achieved with the central processing unit 30 interacts with the recorded identifier to the new TPM sensor using the transmitter 20 transferred to. In one example, the identifier is transmitted with programming software for the TPM sensor. As the identifiers are transmitted to the replacement TPM sensor, the sensor is triggered, causing the sensor to transmit a signal from a control module 78 of the TPMS 14 and an electronic control unit 80 of the vehicle 16 Will be received. This process becomes for each wheel unit 76 of the vehicle 16 with the replaced TPM sensor 12 repeated. Preferably, one or more steps may be included in the methods of the present invention as illustrated and described herein.

While the invention has been described with reference to a preferred embodiment, it is believed that one skilled in the art can make various changes, with equivalents rather than elements thereof, without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, the invention should not be limited to the specific embodiment disclosed as the best mode contemplated for carrying out this invention, but the invention is intended to embrace all embodiments falling within the scope of the appended claims.

Claims (33)

A method of integrating one or more tire pressure monitoring sensors into a tire pressure monitoring system of a vehicle, the method comprising: Transmitting an identifier from a configuration tool to a first tire pressure monitoring sensor, wherein the first tire pressure monitoring sensor records the identifier on a storage device. The method of claim 1, wherein a wireless communication link is established between the first tire pressure monitoring sensor and the configuration tool. The method of claim 2, wherein the communication link established between the first tire pressure monitoring sensor and the configuration tool comprises a low frequency communication link in the range between about 30 to 300 kHz. The method of claim 1, further comprising the step of manually entering the identifier into a user interface of the configuration tool prior to transmitting the identifier to the first tire pressure monitoring sensor. The method of claim 1, further comprising: Generating a communication link between a second tire pressure monitoring sensor and the tire pressure monitoring sensor configuration tool; Using the configuration tool to cause the second tire pressure monitoring sensor to generate a signal including an identifier; and Recording the identifier of the second tire pressure monitoring sensor on a storage device of the configuration tool. The method of claim 5, wherein the identifier communicated to the first tire pressure monitoring sensor is the same as the identifier of the second tire pressure monitoring sensor. The method of claim 5, wherein the communication link established between the second tire pressure monitoring sensor and the configuration tool comprises a wireless communication link. The method of claim 7, wherein the communication link established between the second tire pressure monitoring sensor and the configuration tool comprises a low frequency communication link in the range between about 30 to 300 kHz. The method of claim 1, further comprising the step of programming the first tire pressure monitoring sensor with suitable program software. The method of claim 9, wherein the identifier is communicated to the first tire pressure monitoring sensor during programming of the first tire pressure monitoring sensor. The method of claim 10, wherein the first sensor is configured for flash programming. A configuration tool for communication with a tire pressure monitoring system, comprising: a transmitter for communicating with tire pressure monitoring sensors; a memory device for storing an identifier for a tire pressure monitoring sensor; and Software instructions adapted to transmit the identifier stored on the storage device via the transmitter to a tire pressure monitoring sensor. The tool of claim 12, further comprising a receiver for receiving signals transmitted by the tire pressure monitoring sensors. The tool of claim 13, wherein the software instructions are further adapted to transmit a signal adapted to cause a tire pressure monitoring sensor to transmit a response signal including the tire pressure monitoring sensor identifier. The tool of claim 14, wherein the software instructions are further configured to store an identifier of the response signal on the storage device. The tool of claim 12, wherein the transmitter comprises a low frequency wireless transmitter configured to transmit wireless signals in the range between about 30 to 300 kHz. The tool of claim 12, wherein the receiver comprises a radio frequency wireless receiver configured to receive wireless signals greater than about 300 MHz. The tool of claim 12, further comprising a user interface for entering the identifier of a tire pressure monitoring sensor. The tool of claim 12, further comprising a database of program software for tire pressure monitoring sensors. Computer readable storage means for storing computer program instructions which, when executed by a computer comprising at least one processor, result in: a transmission of a signal which is suitable to bring a first tire pressure monitoring sensor for the transmission of a response signal; storing an identifier contained in the response signal in a memory device; and transmitting the stored identifier to a second tire pressure monitoring sensor. The computer readable storage device of claim 20, wherein the signal communicated to the first and second tire pressure monitoring sensors comprises low frequency wireless signals in the range between about 30 to 300 kHz. A tire pressure monitoring sensor, comprising: a pressure sensor configured to monitor air pressure and to generate signals indicative of air pressure; a receiver configured to receive wireless signals from a configuration tool; a processing unit and memory means including appropriate software for: evaluating a signal received by the receiver to determine whether an identifier is included in the signal and storing an identifier communicated with the signal in a memory device of the tire pressure monitoring sensor; and a wireless transmitter adapted to communicate the stored identifier to a tire pressure monitoring system of a vehicle for storage on a storage unit of the vehicle. The tire pressure monitoring sensor of claim 22, wherein the identifier represents numbers, letters or a combination thereof. The tire pressure monitoring sensor of claim 22, wherein the identifier is stored on the storage device with the appropriate software. The tire pressure monitoring sensor of claim 22, wherein the processing unit and the memory unit, including the appropriate software, evaluate the signal for a display such that a portion of the signal includes the identifier. The tire pressure monitoring sensor of claim 22, wherein the processing unit and the memory device, including the appropriate software, evaluate the signal for display such that the entire signal includes the identifier. The tire pressure monitoring sensor of claim 22, wherein the processor unit and the memory device, including the appropriate software, differentiate between the identifier and tire pressure monitoring sensor configuration instructions. The tire pressure monitoring sensor of claim 22, wherein the processing unit and the storage device including the appropriate software differentiate between the identifier and a program software for the tire pressure monitoring sensor. A method of monitoring and recording air pressure within a tire and communicating the recorded air pressure and an identifier to a tire pressure monitoring system of a vehicle, comprising: Providing a tire pressure monitoring sensor including a pressure sensor, a processor, a memory device, a wireless receiver, and a transmitter; Recording on the storage means of an identifier received by the wireless receiver; and Transmitting a wireless signal including the recorded identifier and pressure data from the pressure sensor via the wireless transmitter. The method of claim 28, wherein the wireless receiver receives low frequency signals in the range between about 30 to 300 kHz. The method of claim 28, wherein the transmitter transmits RF signals of greater than about 300 MHz. The method of claim 28, wherein the processing unit and the memory device including appropriate software instructions evaluate signals received by the wireless receiver to determine if an identifier is included in the signal. The method of claim 28, wherein the identifier is representative of numbers, letters or a combination thereof.

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