TWI492864B - Can be equipped with a variety of different communication protocols to receive the device - Google Patents

Description

Fetal condition receiving device capable of receiving a plurality of different communication protocols

The invention relates to a fetal condition receiving device, in particular to a fetal condition receiving device which can cooperate with receiving and decoding tire pressure signals of a plurality of different communication protocols.

The existing Tire Pressure Monitoring System is provided with tire pressure sensors on each tire of the vehicle. After each tire pressure sensor detects the tire pressure of the tire, the wireless signal will be detected. The result is transmitted to the fetal condition receiving device in the vehicle, and the fetal condition receiving device receives the wireless signal transmitted by each tire pressure sensor to identify whether the tire pressure of each tire is normal, if any tire pressure sensor senses When the result is abnormal, the fetal condition receiving device generates an audible or visual alarm to notify the vehicle that a situation in which the abnormal tire pressure is generated occurs.

Since the tire pressure sensor and the tire condition receiving device in the wireless tire pressure detecting system must use the same communication protocol, the signal encoding, transmission and decoding can be performed, and if the tire pressure sensor or the tire condition receiving device is faulty In order to continue to use the same type of tire pressure sensor or tire condition receiver that uses the same communication protocol, manufacturers and vendors need to have various types and communication protocols for tire pressure sensors or tire condition reception. Device, causing production and The inventory cost is too high. If one of the tire pressure sensor or the fetal condition receiving device is out of stock or discontinued, it will be forced to replace the entire wireless tire pressure detection system at the same time.

Therefore, the "Universal tire pressure monitor" of the U.S. Patent No. 7,518,495 is mainly provided with a tire pressure monitor on a tire of a vehicle, which includes a sensor and a sensor. a storage device and a transmitter, the transmitter is electrically connected to the sensor and the storage device respectively, the sensor detects the tire pressure of the tire, and the storage device stores the code, and the code is encoded. The at least one data format is included, and the transmitter in the tire pressure monitor is converted into a wireless signal and transmitted to an external device according to the tire pressure data of the sensor and the code in the storage device.

The above known technology is a tire pressure sensor that is expected to be newly installed. After the old tire pressure sensor is analyzed and the communication protocol used by the tire pressure sensor is obtained, the communication protocol is written through a specific professional appliance or computer equipment. In the new tire pressure sensor, the communication protocol is the same as the original tire pressure sensor. The above technology is the communication protocol of the variable tire pressure sensor, which is used to receive the tire pressure data, such as driving computer. External device.

Since writing a communication protocol to a new tire pressure sensor, a relatively new number of new tire pressure sensor write settings are required depending on the number of tires owned by each vehicle. In the case of a general four-wheeled vehicle, four must be performed. The write-to-pass protocol action results in a time consuming process for installing a new tire pressure sensor.

When writing a communication protocol to a new tire pressure sensor, the identification and storage of each tire pressure sensor identification code (ID) is often carried out, and different identification codes must be given according to each new tire pressure sensor. If the communication protocol and the identification code are written before the new tire pressure sensor is installed on the wheel, the wheel must be installed at a specific position according to its specific identification code. Otherwise, it will not be possible to correctly determine which tire pressure data belongs to. One tire, but if the new tire pressure sensor is installed on the wheel and then the communication protocol and the identification code are written, the operator must set up around the body to each tire, which is complicated and time-consuming. In the workflow, the communication protocol and the identification code writing operation are more difficult to operate due to the interference and shielding of the metal wheel frame to the signal transmission, resulting in difficulty in writing or writing failure.

It can be seen from the above that the existing communication method for replacing the tire pressure sensor with the tire pressure sensor has a time-consuming, complicated workflow and difficult operation such as difficulty in writing or writing failure; The invention can cooperate with a fetal condition receiving device that receives and decodes tire pressure signals of a plurality of different communication protocols, that is, can overcome various inconveniences derived from the communication protocol of the replacement tire pressure sensor when replacing the tire pressure sensor.

As described above, the existing method of replacing the tire pressure sensor with the update of the tire pressure sensor has a time-consuming, complicated workflow and difficulty in operation such as difficulty in writing or writing. Therefore the main body of the invention The purpose is to provide a fetal condition receiving device that can cooperate with receiving a plurality of different communication protocols, the fetal condition receiving device stores a communication protocol, and selects a communication protocol corresponding to the tire pressure sensor in the fetal condition receiving device to receive the fetal condition. The device can cooperate with receiving and decoding tire pressure signals of various communication protocols, and solves the problem that the existing tire pressure sensor needs to be updated with the communication protocol of the tire pressure sensor, thereby reducing the time-consuming and complicated workflow and the difficulty. Problems such as writing or writing failures are difficult.

The main technical means for achieving the foregoing objectives is to enable the aforementioned fetal condition receiving device capable of receiving a plurality of different communication protocols, comprising: a memory module for storing a plurality of different communication protocols; and a receiving module; The device is configured to receive a tire pressure signal of more than one external tire pressure detector; a control module is respectively connected to the memory module and the receiving module by a signal; the fetal condition receiving device is externally indicated or internally determined The method selects a communication protocol, and the external indication mode is that the control module selects a group of communication protocols from the memory module according to the external selection signal, and compares the communication protocol between the group of communication protocols and the tire pressure signal received by the receiving module. The comparison is performed to decode the tire pressure signal. The internal discrimination method is that the control module compares the communication protocols of different groups in the memory module, and if the comparison is matched, the tire pressure signal is decoded.

By using the foregoing components, the fetal condition receiving device capable of receiving a plurality of different communication protocols, the control module compares and selects the communication protocol corresponding to the tire pressure signal according to the internal discrimination mode according to the tire pressure signal received by the receiving module, or It is a communication protocol that is switched by external external indication mode, and the communication protocol for the tire pressure signal enables the fetal condition receiving device to receive various corresponding communication protocols and decode them, without complicated equipment and replacement procedures, and solves the existing When replacing a new tire pressure sensor, it is necessary to update the communication protocol of the tire pressure sensor to reduce the time-consuming and complicated workflow and the difficulty in operation such as difficulty in writing or writing.

"this invention"

10‧‧‧Fetal condition receiving device

11‧‧‧Memory Module

12‧‧‧ receiving module

13‧‧‧Control Module

14‧‧‧ Received Module

20‧‧‧ tire pressure detector

30‧‧‧Operating device

40‧‧‧Display module

50‧‧‧Transfer module

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a block diagram of a circuit in accordance with a first preferred embodiment of the present invention.

Figure 2 is a block diagram of a circuit in accordance with a second preferred embodiment of the present invention.

Figure 3 is a block diagram of a circuit in accordance with a third preferred embodiment of the present invention.

Referring to the first preferred embodiment of the present invention, as shown in FIG. 1, the tire pressure signal of at least one tire pressure detector 20 is received by a fetal condition receiving device 10, and each tire pressure detector 20 is detected. The tire pressure value of the tire is measured and obtained, and the tire pressure signal is encoded according to a set of communication protocol built in the tire pressure detector 20, and the tire pressure detector 20 presses the tire pressure again. The number is transmitted externally, and the fetal condition receiving device 10 receives the tire pressure signal and decodes the tire pressure signal in accordance with an applicable communication protocol.

The fetal condition receiving device 10 includes a memory module 11 , a receiving module 12 , a control module 13 and a receiving module 14 . The control module 13 is respectively associated with the memory module 11 and the receiving module 12 . The memory module 11 is used to store the communication protocol. The memory module 11 is used to store the communication protocol. The memory module 11 can be built in the control module 13 or externally connected to the control module 13.

The receiving module 12 is configured to receive the tire pressure signal of the at least one external tire pressure detector 20.

The fetal condition receiving device 10 can communicate with the communication protocol in the memory module 11 by using an external indication mode or an internal determination mode to achieve the communication protocol of the tire pressure signal of the tire pressure detector 20, and perform the tire pressure signal on the tire pressure signal. decoding.

The internal discriminating method is that the control module 13 determines the tire pressure signal received by the receiving module 12 from the tire pressure detector 20, and the control module 13 stores the complex array communication protocol from the memory module 11. In the selection of the appropriate communication protocol for decoding, the steps of an implementation are as follows:

1. The fetal condition receiving device 10 prestores a first set of communication protocols and a second set of communication protocols.

2. The fetal condition receiving device 10 receives the tire pressure signal from the tire pressure detector 20.

3. The fetal condition receiving device 10 compares the tire pressure signal with a first set of communication protocols or a second set of communication protocols.

4. If the tire pressure signal is applied to the first group of communication protocols or the second group of communication protocols, the fetal condition receiving device 10 decodes the tire pressure signal by the first group of communication protocols or the second group of communication protocols.

The external indication mode is that the control module 13 follows an external indication signal, and the receiving module 12 receives the tire pressure signal from the tire pressure detector 20, and the control module 13 follows the external indication signal and selects the self. The memory module 11 stores the communication protocol indicated by the external indication signal for decoding. The steps of the two implementation manners are as follows:

Aspect (1)

1. The fetal condition receiving device 10 prestores a first set of communication protocols and a second set of communication protocols.

2. An external indication signal is provided, and the fetal condition receiving device 10 receives the external indication signal, the external indication signal includes an indication command indicating that the fetal condition receiving device 10 selects to use the first group of communication protocols or the second group of communication protocols. The receiving device 10 selects to use the first group of communication protocols or the second group of communication protocols according to the external indication signal.

3. The fetal condition receiving device 10 receives the tire pressure signal from the tire pressure detector 20.

4. The fetal condition receiving device 10 compares the fetal pressure signal with a first set of communication protocols or a second set of communication protocols selected for use by the fetal condition receiving device 10.

5. If the tire pressure signal is applied to the first group of communication protocols or the second group of communication protocols selected by the fetal condition receiving device 10, the fetal condition receiving device 10 selects the first group of communication protocols or the second group of communication protocols to be used. The tire pressure signal is decoded.

Aspect (2)

1. An external indication signal is provided, and the fetal condition receiving device 10 receives the external indication signal, and the external indication signal includes a first group of communication protocols or a second group of communication protocols and a corresponding deposit command.

2. The Jiuyi module of the fetal condition receiving device 10 stores the first set of communication protocols or the second set of communication protocols according to the external indication signal.

3. The fetal condition receiving device 10 receives the tire pressure signal from the tire pressure detector 20.

4. The fetal condition receiving device 10 compares the fetal pressure signal with a first set of communication protocols or a second set of communication protocols stored by the fetal condition receiving device 10.

5. If the tire pressure signal is applied to the first set of communication protocols or the second set of communication protocols stored by the fetal condition receiving device 10, the fetal condition receiving device 10 applies the tire pressure to the first set of communication protocols or the second set of communication protocols. The signal is decoded.

The implementation method of the practice of the present invention is illustrated as follows:

The format of the first set of protocols is:

The format of the second set of communication protocols is:

If the fetal condition receiving device 10 receives the tire pressure signal, the format of the communication protocol is:

1. The fetal condition receiving device 10 prestores the first group of communication protocols and the second group of communication protocols. After receiving the tire pressure signal, the fetal condition receiving device 10 compares the fetal condition receiving device 10 with the first The group communication protocol decodes the tire pressure signal. Or 2. The fetal condition receiving device 10 prestores the first group of communication protocols and the second group of communication protocols, and provides an external indication signal, the external indication signal includes an indication that the fetal condition receiving device 10 selects to use the first group of communication protocols. In response, the fetal condition receiving device 10 decodes the tire pressure signal by the first group of communication protocols according to the external indication signal. Or 3. providing an external indication signal, the external indication signal includes a first group of communication protocols and a corresponding deposit command, and the fetal condition receiving device 10 follows the external indication signal to the tire pressure signal by the first group of communication protocols. Decode.

The external indication mode is to receive an external indication signal connection from an external operating device 30 through the signal module 14 connected to the control module 13, and the operation device 30 transmits the external indication through a wired or wireless manner. Signaling to the receiving module 14; wherein the wired mode is through a connection such as a line connection or a USB port, and the wireless mode is such as over RF, WiFi or Bluetooth; and the operating device 30 can be a remote specific The operating tool may also be an integrated device with the fetal condition receiving device 10 or implemented as an electronic product disposed on the vehicle, such as a touch screen or a traveling computer.

In summary, the manner in which the fetal condition receiving device 10 changes its selection protocol includes:

1. The control module 13 automatically selects a communication protocol corresponding to the tire pressure signal of the tire pressure detector 20 from the stored complex array communication protocol based on the signal of the tire pressure detector 20.

2. The external operating device 30 inputs an external indication signal to the control module 13 according to the model of the vehicle or the model of the tire pressure detector 20 to use the communication protocol corresponding to the model of the tire pressure detector 20.

The second preferred embodiment of the present invention is substantially the same as the first preferred embodiment. The difference is that the control module 13 is connected to a display module 40. The display module 40 can be implemented to display the decoded The tire pressure value detected by the tire pressure detector 20 can also be implemented as a warning signal such as a sound or a picture if the tire pressure value detected by each tire pressure detector 20 after decoding is not in accordance with an expected value. .

The third preferred embodiment of the present invention is substantially the same as the first preferred embodiment. The difference is that the control module 13 is connected to a transfer module 50, and the transfer module 50 can be implemented to be decoded. After the tire pressure signal is re-encoded, and then transferred to other external devices, such as a car computer, a tire pressure display, a mobile phone and the like, the transfer module 50 can be as needed. Seek signal conversion, such as RF transmission, Bluetooth transmission, WiFi transmission, and set the corresponding actuation components.

It can be seen from the above that the present invention can be combined with a fetal condition receiving device for receiving and decoding a plurality of different communication protocol tire pressure signals, which can overcome the communication protocol of the updated tire pressure sensor when replacing the replacement tire pressure sensor. All kinds of inconvenience.

10‧‧‧Fetal condition receiving device

11‧‧‧Memory Module

12‧‧‧ receiving module

13‧‧‧Control Module

14‧‧‧ Received Module

20‧‧‧ tire pressure detector

30‧‧‧Operating device

Claims (10)

A fetal condition receiving device capable of receiving a plurality of different communication protocols, comprising: a memory module for storing a communication protocol; and a receiving module for receiving a tire pressure signal of the tire pressure detector; The control module is configured to receive an external indication signal from an external operating device; a control module is respectively connected to the memory module, the receiving module and the received module signal, and the control module follows The external indication signal is selected from a communication protocol stored by the memory module and indicated by the external indication signal, and the receiving module receives the tire pressure signal from the tire pressure detector. The method of claim 1, wherein the memory module is configured to receive a plurality of different communication protocols, the memory module stores a complex array communication protocol, and the external indication signal includes one of the communication protocols indicating that the control module selects to use the complex array. Instructed command. The fetal condition receiving device as claimed in claim 1 can be configured to receive a plurality of different communication protocols, wherein the external indication signal includes a specific communication protocol and a corresponding deposit command, and the memory module stores the communication protocol according to the external indication signal. . The device of claim 1 is configured to receive a plurality of different communication protocols, and the control module is coupled to a display module, wherein the display module displays the detected tires detected by the tire pressure detectors. The pressure value, or the detected tire pressure value of each tire pressure detector after the decoding does not meet the expected value, generates a warning signal. The device of claim 1 is configured to receive a plurality of different communication protocols, and the control module is coupled to a transfer module, wherein the transfer module re-encodes or signals the decoded tire pressure signal. Convert, and then transfer to other external devices as needed. A fetal condition receiving device capable of receiving a plurality of different communication protocols includes: a memory module for storing a plurality of different communication protocols; and a receiving module for receiving a tire pressure of the tire pressure detector a control module, which is respectively connected to the memory module and the receiving module signal, wherein the control module determines the tire pressure signal received by the receiving module from the tire pressure detector, and stores the data from the memory module. In the complex array communication protocol, the applicable communication protocol is selected for decoding. The receiver module is configured to receive a plurality of different communication protocols, and the control module is coupled to a receiving module for receiving an external indication signal from an external operating device. The external indication signal includes an indication command indicating that the control module selects to use one of the complex array communication protocols. The receiver module is configured to receive a plurality of different communication protocols, and the control module is coupled to a receiving module for receiving an external indication signal from an external operating device. The external indication signal includes a specific communication protocol and a corresponding deposit command, and the memory module stores the communication protocol according to the external indication signal. The device of claim 6 is configured to receive a plurality of different communication protocols, and the control module is coupled to a display module, wherein the display module displays the detected tires detected by the tire pressure detectors. Pressure value, or If the tire pressure value detected by each tire pressure detector after decoding is not in accordance with the expected value, a warning signal is generated. The method of claim 6, wherein the control module is coupled to a relay module, wherein the relay module re-encodes or signals the decoded tire pressure signal. Convert and transfer to other external devices.