KR100692105B1 - One type Key system of automatic charge and magnetic communication - Google Patents

Abstract

The present invention enables an IMMOBILIZER function using magnetic field communication, and automatically charges the key to be permanently used by charging a lithium-ion battery inside a key using magnetic field communication. And a magnetic field communication integrated key system, comprising: a charging and magnetic field communication integrated key (10) for performing immobilizer functions and charging operations using magnetic field communication; Receives a key unique number (ID) by performing communication through the charging and magnetic field integrated key 10 and the magnetic field 20, and compares the received key unique number (ID) and a key stored in advance and match the same A base station 30 for generating a start signal and a seat adjustment signal; An engine electronic control unit 40 which starts the engine when the key inserted into the key hole is in the starter position only when the start signal is transmitted from the base station 30; When the seat adjustment signal is applied from the base station 40, the automatic unit of charge and magnetic field communication is integrated into the seat unit 50 which automatically adjusts the seat position corresponding to the seat position of the user set in the key ID number. Implement the system.

Immobilizer system, automatic charging, magnetic field communication, seat automatic regulation

Description

One type key system of automatic charge and magnetic communication

1 is a block diagram showing the overall configuration of the automatic charging and magnetic field communication integrated key system according to the present invention,

2 is a block diagram showing an embodiment configuration of the charging and magnetic field integrated key of FIG.

3 is a block diagram showing an embodiment configuration of the base station of FIG.

4 is a flowchart showing a method for controlling automatic charging and magnetic field communication integrated key system according to the present invention;

5A and 5B are perspective views illustrating an internal configuration of a charging and magnetic field integrated key in the present invention.

Explanation of symbols for the main parts of the drawings

10: charging and magnetic field integrated key 20: magnetic field

30: base station 40: engine electronic control unit (ECU)

50: seat unit

The present invention relates to a key system integrated with automatic charging and magnetic field communication, and more particularly, to implement an immobilizer (IMMOBILIZER) system using magnetic field communication and to implement a charging function and a sheet automatic adjustment function. It is about a key system.

In order to prevent theft of automobiles, many immobilizer systems are used to prevent theft of expensive cars by preventing theft of expensive cars by starting the vehicle only when the key of ID NUMBER is set by using magnetic field communication. Is being developed.

Therefore, the present invention is to implement a new immobilizer system to be developed as described above, and additionally to the charging function and automatic seat adjustment function,

An object of the present invention is to enable an IMMOBILIZER function using magnetic field communication, and to use a key permanently by charging a lithium-ion battery inside a key using magnetic field communication. An automatic charging and magnetic field communication integrated key system is provided.

Another object of the present invention, the automatic charging and magnetic field communication to automatically adjust to the seat position of each key user by transmitting the key unique number data to the seat unit connected by serial communication using the key unique number recognized using magnetic field communication An integrated key system is provided.

Still another object of the present invention is to provide an automatic charging and magnetic field communication integrated key system to provide a user with more convenience by simultaneously performing an immobilizer system for preventing theft, a charging function and an automatic seat adjustment function for convenience. There is.

"Automatic charging and magnetic field integrated key system" according to the present invention for achieving the above objects,

A charging and magnetic field integrated key for performing an immobilizer function and a charging operation using magnetic field communication;

A base for generating a start signal and a seat control signal when the charging and magnetic field communication integrated key and a magnetic field are received to receive a key unique number and compare the received key unique number with a previously stored key unique number. A station;

An engine electronic control unit which starts the engine when the key inserted into the key hole is in the starter position only when a start signal is transmitted from the base station;

When the seat adjustment signal is applied from the base station is characterized in that the seat unit configured to automatically adjust the seat position corresponding to the user's seat position set in the key unique number.

In the above, the charging and magnetic field integrated key,

A charging coil for converting a magnetic field supplied from the base station into an alternating current;

An analog / digital converter for converting an alternating current output from the charging coil into a direct current;

A lithium-ion battery for charging direct current output from the analog / digital converter;

A microcomputer to prevent overcharging by controlling the operation of the analog-to-digital converter according to the charge amount of the lithium-ion battery, and output key identification number data when a signal is input through a switch input unit;

A transceiver for converting the key unique number data output from the microcomputer into an RF signal;

An antenna for transmitting the RF signal converted by the transceiver in space;

And a transponder that converts the key identification number data into a magnetic field and transmits the ID data to the base station.

In the above, the base station,

A tag reader responsible for transmitting and receiving a substantial magnetic field for immobilizer communication and charge mode control;

A microcomputer that analyzes magnetic field data received from the tag reader or controls magnetic field data to be transmitted from the tag reader;

A power supply unit converting vehicle power into necessary power and supplying driving power to each block of the base station;

Characterized in that it comprises a communication interface for transmitting the control data generated in the microcomputer to the engine electronic control unit and the seat unit.

"Automatic charging and magnetic field integrated key system control method" according to the present invention for achieving the above objects,

Checking whether a charging and magnetic field integrated key is detected when the igniter is turned on;

Receiving a key unique number from the charging and magnetic field integrated key through magnetic field communication when the verification result is that the integrated charging and magnetic field integrated key is detected;

Comparing the received key identification number with a pre-stored key identification number and transmitting an engine start command and simultaneously transmitting the key identification number to a seat unit to control the seat automatically;

After the engine start command is transmitted, the engine starting state is checked, and when the engine is normally started, the mode is changed to the charging mode, and the magnetic field for charging is made by the charging and magnetic field communication integrated key.

Hereinafter, described in detail with reference to the accompanying drawings, preferred embodiments of the present invention according to the technical spirit as described above.

1 is a block diagram showing the configuration of the "automatic charging and magnetic field communication integrated key system" according to the present invention.

Here, reference numeral 10 denotes a charging and magnetic field integrated key for performing an immobilizer function and a charging operation using magnetic field communication, and reference numeral 30 denotes the charging and magnetic field communication integrated key 10 and the magnetic field 20. Receives a key identification number (ID) by performing communication and compares the received key identification number (ID) with a pre-stored key identification number and indicates that the base station generates a start signal and a seat adjustment signal. 40 denotes an engine electronic control unit which starts the engine when the key inserted into the keyhole is in the starter position only when a start signal is transmitted from the base station 30. Reference numeral 50 denotes an engine control unit. When the seat adjustment signal is applied, the seat position is automatically adjusted corresponding to the seat position of the user set in the key identification number (ID). It shows a seat unit that section.

As shown in FIG. 2, the charging and magnetic field integrated key 10 includes a charging coil 11 for converting the magnetic field 20 supplied from the base station 30 into an alternating current; An analog / digital converter 12 for converting an alternating current output from the charging coil 11 into direct current; A lithium-ion battery 13 for charging direct current output from the analog-to-digital converter 12; The overcharge is prevented by controlling the operation of the analog / digital converter 12 according to the amount of charge of the lithium-ion battery 13, and when a signal is input through the switch input unit 15, key identification number (ID) data is output. A microcomputer 14 to perform; A transceiver 16 for converting key identification number (ID) data output from the microcomputer 14 into an RF signal; An antenna (17) for transmitting the RF signal converted by the transceiver (16) in space; The transponder 18 converts the key identification number (ID) information into the magnetic field 20 and sends it to the base station 30.

As shown in FIG. 3, the base station 30 includes a tag reader 31 which is responsible for transmitting and receiving a magnetic field for immobilizer communication and charge mode control; A microcomputer (32) for analyzing magnetic field data received by the tag reader (31) or controlling magnetic field data to be transmitted from the tag reader (31); A power supply unit 33 for converting vehicle power into required power and supplying driving power to each block of the base station 30; It is composed of a communication interface 34 for transmitting the control data generated in the microcomputer 32 to the engine electronic control unit 40 and the seat unit 50.

The operation of the "automatic charging and magnetic field communication integrated key system" according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, when the driver opens the door to enter the vehicle, inserts the integrated charging and magnetic field integrated key 10 into the key slot, and then turns the key to the IGN (igniter) ON state, the base station 30 The magnetic field communication to verify the charging and magnetic field integrated key 10 and the key ID (ID).

When the key identification number (ID) of the charging and magnetic field communication integrated key 10 responding according to the procedure command of the base station 30 matches the identification number stored in the base station 30, the base station ( 30 transmits engine start preparation command data through serial communication to the engine electronic control unit (ECU) 40 which controls the start of the engine. The engine electronic control unit 40 having received this starts the engine when the user turns the key completely to the starter position.

In addition, the base station 30 transmits the data for the key identification number (ID) to the seat unit 50 by serial communication, the seat unit 50 receives the user's seat is set to the unique number After searching for a position, the seat position is automatically adjusted according to the position.

After the engine is started, the base station 30 switches to the charging mode and continuously generates and supplies the magnetic field 20.

FIG. 2 is a diagram illustrating an embodiment of a charging and magnetic field integrated key 10 interlocked with the magnetic field 20 of the base station 30.

As shown here, the charging coil 11 of the charging and magnetic field integrated key 10 converts the magnetic field 20 supplied from the base station 30 into an alternating current, and the analog / digital converter 12 Charges the lithium-ion battery 13 by converting the alternating current output from the charging coil 11 into direct current.

When charging starts, the microcomputer 14 detects the charging amount of the lithium-ion battery 13. When the charging result is full, the microcomputer 14 displays the operation of the analog / digital converter 12. Able to prevent overcharge.

In addition, when a signal is input through the switch input unit 15, the microcomputer 14 outputs the key unique number data to the transceiver 16, and the transceiver 16 outputs the RF key data output from the microcomputer 14 to RF. The RF signal converted through the antenna 17 is transmitted in space by converting the signal into the antenna 17.

The transponder 18 converts the key identification number (ID) data into the magnetic field 20 and transmits it to the base station 30.

3 is a block diagram showing an embodiment configuration of the base station.

As shown here, the base station 30 is responsible for transmitting and receiving a substantial magnetic field for the immobilizer communication and the charging mode control in the tag reader 31, and the tag reader 31 in the microcomputer 32. The magnetic field 20 data received from the data is analyzed or the magnetic field 20 data to be transmitted from the tag reader 31 is transmitted.

In addition, the power supply unit 33 converts the vehicle power into necessary power to supply driving power to each block of the base station 30, and the communication interface unit 34 controls the control data generated by the microcomputer 32. It is transmitted to the engine electronic control unit 40 and the seat unit 50.

5A and 5B are perspective views showing the internal configuration of the charging and magnetic field integrated key 10 as described above.

Figure 4 is a flow chart showing a "method for controlling automatic charging and magnetic field communication integrated key system" according to the present invention, S represents a step, which is a process for controlling the entire system in software in the base station 30 It is seen.

As shown here, when the igniter is turned on, the base station 30 checks whether the charging and magnetic field integrated key 10 is detected (S11 and S12); Receiving a key identification number (ID) from the charging and magnetic field communication integrated key 10 through the magnetic field communication when the result of the check of the base station 30 and the integrated magnetic field and the magnetic field communication integrated key 10 (S13) and ; When the received key identification number (ID) is compared with the previously stored key identification number according to the procedure command of the base station 30, the base station 30 transmits an engine start command to the engine electronic control unit 40. And simultaneously transmitting key identification number (ID) data to the sheet unit to control the sheet automatically (S14, S15); When the user completely turns the key to the starter position after the engine start command is transmitted, the engine electronic control unit 40 which checks the engine starting state and sends a signal to the engine electronic control unit 40 when the engine is normally started. Base station 30 is received from the step of switching to the charging mode and transmits the magnetic field 20 for charging to the charging and magnetic field communication integrated key (10) (S16 ~ S18).

The "automatic charging and magnetic field communication integrated key system control method" according to the present invention made as described above will be described in more detail.

First, when the igniter is switched on in step S11, it is checked whether the charging and magnetic field integrated key 10 is detected in step S12. As a result of this check, if the charging and magnetic field communication integrated key 10 is not detected, the process returns to the first step. Otherwise, if the charging and magnetic field communication integrated key 10 is detected, the process moves to step S13 to perform the charging and The key identification number (ID) is received from the magnetic field communication integrated key 10.

Thereafter, in step S14, when the received key identification number (ID) is compared with the previously stored key identification number, and matches, it moves to step S15 to transmit an engine start command to the engine electronic control unit 40 and at the same time the seat unit 50 ) To control the sheet automatically by transmitting the key identification number (ID) data.

Next, after checking the engine start state after transmitting the engine start command in step S16, if the engine is normally started, the process moves to step S17 to switch to the charging mode to charge and magnetic field integrated key 10 for charging the magnetic field 20 In step S18, the charging state is checked, and when the charging is completed, the magnetic field communication is terminated. If the charging is not completed, the magnetic field 20 is continuously charged and the magnetic field communication integrated key 10 is transmitted. The charging will proceed.

According to the present invention as described above, it is possible to perform the immobilizer function using a magnetic field, and also to automatically charge the battery of the car key using the magnetic field, the user can eliminate the cumbersome work for the replacement of the key battery It can be effective.

In addition, by controlling the driver's seat automatically by using the key unique number has the effect of providing security and convenience to the user.

Claims (4)

A charging and magnetic field integrated key for performing an immobilizer function and a charging operation using magnetic field communication; A base for generating a start signal and a seat control signal when the charging and magnetic field communication integrated key and a magnetic field are received to receive a key unique number and compare the received key unique number with a previously stored key unique number. A station; An engine electronic control unit which starts the engine when the key inserted into the key hole is in the starter position only when a start signal is transmitted from the base station; A seat unit which automatically adjusts a seat position according to a user's seat position set in the key identification number when a seat adjustment signal is applied from the base station; In constructing an automatic charging and magnetic field integrated key system, The charging and magnetic field integrated key, A charging coil for converting a magnetic field supplied from the base station into an alternating current; An analog / digital converter for converting an alternating current output from the charging coil into a direct current; A lithium-ion battery for charging direct current output from the analog / digital converter; A microcomputer to prevent overcharging by controlling the operation of the analog-to-digital converter according to the charge amount of the lithium-ion battery, and output key identification number data when a signal is input through a switch input unit; A transceiver for converting the key unique number data output from the microcomputer into an RF signal; An antenna for transmitting the RF signal converted by the transceiver in space; A transponder for converting the key identification number data into a magnetic field and transmitting the same to the base station; The base station, A tag reader responsible for transmitting and receiving a substantial magnetic field for immobilizer communication and charge mode control; A microcomputer that analyzes magnetic field data received from the tag reader or controls magnetic field data to be transmitted from the tag reader; A power supply unit converting vehicle power into necessary power and supplying driving power to each block of the base station; Communication interface unit for transmitting the control data generated in the microcomputer to the engine electronic control unit and the seat unit; Consisting of Automatic charging and magnetic field communication integrated key system, characterized in that. delete delete delete

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