KR100636750B1 - A remote keyless entry system and a signal transmission method thereof using diversity antenna structure - Google Patents

Abstract

A remote keyless entry system for a vehicle using a diversity antenna structure and a signal transmission method therefor are provided to make signal reception carried out through one of two antennas, which has a higher reception signal level. A main antenna(ANT1) and a supplementary antenna(ANT2) transceive signals by being mounted on a vehicle. A switching unit(12) decides a switching operation to the main antenna(ANT1) or the supplementary antenna(ANT2). A signal level detector(14) detects the level of a signal received through one of the antennas(ANT1,ANT2) selected by the switching unit(12). An RF(Radio Frequency) module(16) transmits signal data received through either the main antenna(ANT1) or the supplementary antenna(ANT2). A microcomputer(100) compares each signal level received through the antennas(ANT1,ANT2), receives a data signal through the RF module(16) by using one of the antennas(ANT1,ANT2), which has a higher signal level, and outputs a keyless entry operation signal or an error processing signal, depending on whether the received data signal is normal.

Description

A remote keyless entry system and a signal transmission method for a vehicle using a diversity antenna structure

1 is a block diagram of a conventional remote keyless entry system using a single antenna.

2 is a block diagram of a remote keyless entry system using a diversity antenna structure according to the present invention;

3 is a signal format structure diagram received through an antenna according to the present invention;

4 is a flowchart illustrating a signal transmission method through a diversity antenna structure of a remote keyless entry system according to the present invention;

<Description of Drawing>

5,16 RF Module 10,100 Microcomputer

12 Switching section 14 Signal level detection section

20 Signal level input section 22a, 22b First, second buffer

24 Signal level comparator 26 Code receiver

28 Control signal output part 30 Antenna setting part

The present invention relates to a vehicle remote keyless entry system using a diversity antenna structure and a signal transmission method thereof, and more particularly to a vehicle using a diversity antenna structure for improving the reception performance of an antenna in a vehicle remote keyless entry system. A remote keyless entry system and a signal transmission method thereof.

In general, a remote keyless entry system of a vehicle is a vehicle convenience device that automatically opens a door when a driver comes within a certain distance from the vehicle.

A helical antenna is mainly used as an antenna used in a remote keyless entry system of a conventional vehicle. As shown in FIG. 1, data reception is performed by an operation of the RF module 5 according to an enable / disable signal of the microcomputer 10 using one antenna ANT. After decoding the data received by the microcomputer 10 and determining the normal state, the remote keyless entry (RKE) operation signal or an error signal is outputted accordingly.

However, although the helical antenna has an isotropic characteristic, the reception characteristic according to the direction is uniform. However, when the helical antenna is mounted on the vehicle, the reception characteristic may decrease depending on the structure and the mounting position of the vehicle. Therefore, problems (such as shorter working distances) occur in the operation of the remote keyless entry system due to the change in the antenna reception characteristic along the above direction.

The present invention has been made to solve the problems of the prior art, an object of the present invention is to receive the main antenna through a diversity antenna structure using two antennas to improve the reception performance of the antenna in a vehicle remote keyless entry system To provide a remote keyless entry system for a vehicle and a signal transmission method using a diversity antenna structure that can be reinforced by an auxiliary antenna when the performance is degraded.

In order to achieve the above object, the system configuration for improving the reception performance of the antenna in the vehicle remote keyless entry system according to the present invention,

A main antenna and an auxiliary antenna mounted on a vehicle to transmit and receive signals;

A switching unit for switching the operation of the main antenna or the auxiliary antenna;

A signal level detector for detecting a level of a signal received through the antenna selected by the switching unit;

An RF module for transmitting signal data received through the main antenna or the auxiliary antenna; And

After comparing each signal level received through the main antenna and the auxiliary antenna, and receiving a data signal through the RF module using an antenna having a high signal level, the remote keyless entry operation signal or The microcomputer is configured to output an error processing signal.

In addition, the signal transmission method for improving the reception performance of the antenna in a vehicle remote keyless entry system,

Setting a main antenna as a default for signal transmission and reception;

An enable signal applying step from the microcomputer to the RF module and the signal level detector;

Receiving a signal code through the main antenna;

Determining whether the header code received from the microcomputer is normal;

When the received header code is normal, receiving a level of a signal detected by the microcomputer through a signal level detector;

Storing a signal level of the input main antenna on a first buffer of the microcomputer;

Switching to an auxiliary antenna for transmitting and receiving a signal;

Receiving a signal code through the auxiliary antenna;

Determining whether the header code received from the microcomputer is normal;

When the received header code is normal, receiving a level of a signal detected by the microcomputer through a signal level detector;

Storing a signal level of the received auxiliary antenna on a second buffer of the microcomputer;

Comparing signal levels of the main antenna and the auxiliary antenna stored on the first and second buffers, respectively;

After comparing the signal levels of the main antenna and the auxiliary antenna, switching to an antenna having a high signal level;

Receiving data with the selected antenna;

Decoding the received data;

Determining whether the decoded signal is normal; And

As a result of determining whether the data signal is normal, the remote keyless entry operation signal is output when the received data signal is normal, but an error processing signal is output when the received data signal is abnormal.

Hereinafter, with reference to the drawings will be described a preferred embodiment according to the present invention.

The configuration of the remote keyless entry system using the diversity antenna structure according to the present embodiment will be described with reference to FIG.

As shown in Figure 2, the system configuration according to the present embodiment,

A main antenna ANT1 and an auxiliary antenna ANT2 mounted on a vehicle to transmit and receive signals;

Switching unit 12 for switching the operation of the main antenna (ANT1) or the auxiliary antenna (ANT2);

A signal level detector (14) for detecting a level of a signal received through the antenna selected by the switching unit (12);

An RF module 16 for transmitting signal data received through the main antenna ANT1 or the auxiliary antenna ANT2; And

After comparing each signal level received through the main antenna ANT1 and the auxiliary antenna ANT2, the data signal is received through the RF module using an antenna having a high signal level, and the remote is controlled according to the normality of the received data signal. The microcomputer 100 outputs a keyless entry operation signal or an error processing signal.

In the above configuration, the microcomputer 100 according to the present embodiment includes: a signal level input unit 20 for receiving a level of a signal detected through the signal level detector 14; First and second buffers 22a and 22b respectively storing the signal levels of the main antenna ANT1 and the auxiliary antenna ANT2 input through the signal level input unit 20; A signal level comparing unit (24) for comparing the signal levels stored in the first and second buffers (22a, 22b), respectively; An antenna setting unit (30) for outputting an antenna selection signal to the switching unit (12) to achieve data reception with an antenna having a high signal level after comparison of the signal levels through the signal level comparison unit (24); A code receiver 26 for storing a data signal received through the antenna selected by the antenna setting unit 30; And a control signal output unit 28 for outputting a remote keyless entry operation signal or an error processing signal according to whether the data signal stored in the code receiving unit 26 is normal.

In addition, the signal level input unit 20 is characterized in that the A / D port of the microcomputer (100).

In addition, the microcomputer 100 is characterized in that the enable (Enable) or disable (Disable) signal is applied to each of the RF module 16 and the signal level detector (14).

In addition, the signal format (format) received through the main antenna (ANT1) or the auxiliary antenna (ANT2), as shown in Figure 3, characterized in that consisting of a header (Header) code and data (Data) code.

In addition, the determination of whether the data signal received through the main antenna ANT1 or the auxiliary antenna ANT2 is normal is made based on whether the user code is matched, and accordingly, door lock / The unlock or error processing signal is output.

Hereinafter, a signal transmission method through the diversity antenna structure of the remote keyless entry system according to the present embodiment will be described with reference to FIG. 2 with reference to FIG.

In this embodiment, the diversity antenna structure, that is, the main antenna and the auxiliary antenna is used to transmit and receive signals by using an antenna having a higher signal level, thereby improving antenna reception performance of a vehicle remote keyless entry system. .

4, the initial default setting is set to the main antenna ANT1 [S10], and is enabled from the microcomputer 100 to the RF module 16 and the signal level detector 14. ) Code is received through the main antenna after the signal is applied [S20, S30].

After the signal is received in step S30, it is determined whether the header code of the signal received by the microcomputer 100 is normal [S40]. As a result of the determination, when the header code is not normal, the signal is not received by applying a disable signal from the microcomputer 100 to the RF module 16 and the signal level detector 14 [S55], If the header code is normal, the received signal level detected by the signal level detector 14 is received through the signal level input unit 20 of the microcomputer and stored on the first buffer 22a [S50, S60].

On the other hand, after storing the signal level received through the main antenna on the first buffer of the microcomputer, the switching operation of the switching unit 12 in accordance with the control signal of the antenna setting unit 30 through the auxiliary antenna ANT2 Code reception of the signal is made [S70, S75].

After the signal is received through the auxiliary antenna in step S75, as in the signal reception process of the main antenna, after determining whether the header code of the signal received from the microcomputer 100 is normal [S80], the header code is If it is not normal, the signal is not received by applying a disable signal from the microcomputer 100 to the RF module 16 and the signal level detector 14 [S55], but if the header code is normal, the signal The level of the received signal detected by the level detector 14 is input through the signal level input unit 20 of the microcomputer and stored on the second buffer 22b [S90 and S100].

Then, the signal level comparison unit 24 of the microcomputer compares the signal level of the main antenna and the signal level of the auxiliary antenna stored on the first and second buffers 22a and 22b, respectively [S110].

As a result of the comparison, when the signal level of the main antenna ANT1 is equal to or higher than the signal level of the auxiliary antenna ANT2, a control signal for switching from the antenna setting unit 30 to the switching unit 12 to the main antenna is output. On the other hand, when the signal level of the auxiliary antenna ANT2 is higher than the signal level of the main antenna ANT1, a control signal for switching from the antenna setting unit 30 to the switching unit 12 to the auxiliary antenna is output. Output [S130]. That is, the above process is for selecting an antenna having a high signal level among the two antennas.

In the above, after switching to the main antenna or the auxiliary antenna, the data signal is received by the selected antenna and decoding of the received signal is performed [S140, S150].

In addition, after the decoding of the signal received in step S150, and check whether the received data signal is normal, that is, whether the stored code and the received user code match [S160], if the received data signal is normal A remote keyless entry (RKE) operation signal (door open, etc.) is output [S170], but if the received data signal is not normal, an error processing signal is output [S180].

As described above, the present invention is to improve the reception performance of the antenna by allowing the signal reception to be performed through the diversity antenna structure, that is, the higher reception signal level of the two antennas in the vehicle remote keyless entry system.

In interpreting the technical scope of the present invention, it should not be construed as being limited to the embodiments described above, and the technical scope of the present invention should be determined by reasonable interpretation of the matters described in the claims.

According to the vehicle remote keyless entry system and its signal transmission method using the diversity antenna structure of the present invention, there is an effect of improving the reception performance of the antenna in the vehicle remote keyless entry system.

Claims (12)

In the structure for improving the reception performance of the antenna in the vehicle remote keyless entry system, A main antenna and an auxiliary antenna mounted on a vehicle to transmit and receive signals; A switching unit for switching the operation of the main antenna or the auxiliary antenna; A signal level detector for detecting a level of a signal received through the antenna selected by the switching unit; An RF module for transmitting signal data received through the main antenna or the auxiliary antenna; And After comparing each signal level received through the main antenna and the auxiliary antenna, and receiving a data signal through the RF module using an antenna having a high signal level, the remote keyless entry operation signal or A remote keyless entry system for a vehicle using a diversity antenna structure, characterized by comprising a microcomputer for outputting an error processing signal. The method of claim 1, wherein the microcomputer A signal level input unit which receives a level of a signal detected through the signal level detector; First and second buffers for storing respective signal levels of the main antenna and the auxiliary antenna input through the signal level input unit; A signal level comparison unit for comparing the signal levels respectively stored in the first and second buffers; An antenna setting unit for outputting an antenna selection signal to the switching unit to perform data reception with an antenna having a high signal level after comparison of the signal levels through the signal level comparison unit; A code receiving unit which stores a data signal received through the antenna selected by the antenna setting unit; And a control signal output unit for outputting a remote keyless entry operation signal or an error processing signal according to whether the data signal stored in the code receiving unit is normal. The method of claim 2, And the signal level input unit is an A / D port of a microcomputer. The method according to claim 1 or 2, A remote keyless entry system for a vehicle using a diversity antenna structure, wherein an enable or disable signal is applied to each of the RF module and the signal level detector from the microcomputer. The method of claim 1, The signal format received through the main antenna or the auxiliary antenna is a vehicle remote keyless entry system using a diversity antenna structure, characterized in that consisting of a header (Header) code and data (Data) code. The method according to claim 1 or 2, The determination of the normality of the data signal received through the main antenna or the auxiliary antenna is a vehicle remote keyless entry system using a diversity antenna structure, characterized in that the user code is matched. A signal transmission method for improving reception performance of an antenna in a vehicle remote keyless entry system, Setting a main antenna as a default for signal transmission and reception; An enable signal applying step from the microcomputer to the RF module and the signal level detector; Receiving a signal code through the main antenna; Determining whether the header code received from the microcomputer is normal; When the received header code is normal, receiving a level of a signal detected by the microcomputer through a signal level detector; Storing a signal level of the input main antenna on a first buffer of the microcomputer; Switching to an auxiliary antenna for transmitting and receiving a signal; Receiving a signal code through the auxiliary antenna; Determining whether the header code received from the microcomputer is normal; When the received header code is normal, receiving a level of a signal detected by the signal level detector through the microcomputer; Storing a signal level of the received auxiliary antenna on a second buffer of the microcomputer; Comparing signal levels of the main antenna and the auxiliary antenna stored on the first and second buffers, respectively; After comparing the signal levels of the main antenna and the auxiliary antenna, switching to an antenna having a high signal level; Receiving data with the selected antenna; Decoding the received data; Determining whether the decoded signal is normal; And As a result of determining whether the data signal is normal, the remote keyless entry operation signal is output when the received data signal is normal, but an error processing signal is output when the received data signal is abnormal. Signal transmission method of a vehicle remote keyless entry system using a structure. The method of claim 7, wherein The signal level of the main antenna or the auxiliary antenna is input from the signal level detection unit through the A / D port of the microcomputer signal transmission method of a vehicle remote keyless entry system using a diversity antenna structure. The method of claim 7, wherein As a result of determining whether the header code received through the main antenna and the auxiliary antenna is normal, if the header code is not normal, the diversity antenna comprises applying a disable signal from the microcomputer to the RF module and the signal level detector. Signal transmission method of a vehicle remote keyless entry system using a structure. The method of claim 7, wherein When the signal level is the same as a result of the signal level comparison between the main antenna and the auxiliary antenna, the signal transmission method for a remote keyless entry system for a vehicle using a diversity antenna structure, characterized in that the reception via the main antenna. The method of claim 7, wherein The signal format received through the main antenna or the auxiliary antenna is a signal transmission method of a remote keyless entry system for a vehicle using a diversity antenna structure, characterized in that consisting of a header (Header) code and a data (Data) code. The method of claim 7, wherein The signal transmission method of the remote keyless entry system for a vehicle using a diversity antenna structure, characterized in that the determination of whether or not the data signal is normal.

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