JP5320694B2 - Unlocking control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a locking/unlocking control system wherein an increase of a circuit scale is suppressed while a sensor, a button, or the like is not required. <P>SOLUTION: An RF controller 83 of a main device 80 transmits a request signal to a portable device 70 via an RF transmitter/receiver 82 and an antenna 81. On receiving the request signal, a wake-up circuit 74 of the portable device 70 shifts a power-saving mode of the portable device 70 to a running mode. An RF controller 71 communicates with the main device 80 via an RF transceiver 72 and the antenna 73 for authentication and executes authentication processing. The RF controller 83 of the main device 80 performs unlocking/locking operation if the authentication proves successful. <P>COPYRIGHT: (C)2009,JPO&amp;INPIT

Description

  The present invention relates to an unlocking system such as a keyless entry system, which includes a main body device on the lock side and a portable device on the key side.

  A configuration of a conventional so-called keyless entry system is shown in FIG. This keyless entry system includes a portable device 10 and a main device 20, and the portable device 10 receives a trigger signal from a switch or the like, and instructs an unlocking / locking from an RF controller 11 and an antenna 13 that control the RF transmitter 12. An RF transmitter 12 that wirelessly transmits a signal to be transmitted, and an antenna 13 thereof. The 300 MHz band is normally used for radio waves for instructing the unlocking / locking.

  The main body device 20 includes an RF receiver 22 that receives radio waves from the portable device 10, an antenna 21 thereof, and an RF controller 23 that performs an unlocking / locking operation according to an output signal of the RF receiver 22.

  On the other hand, Patent Document 1 discloses a so-called smart remote keyless entry system (hereinafter referred to as SRKE system). The SRKE system disclosed in Patent Document 1 uses two types of signals: a 125 kHz LF band signal and a 315 MHz RF band signal. In the conventional remote keyless entry that requires the button operation of the portable device, the one-way communication from the portable device to the in-vehicle device is performed. In the SRKE system, bidirectional communication is performed between the in-vehicle device and the portable device. That is, the LF band signal is transmitted from the in-vehicle device to the portable device and used to activate the portable device. The RF band signal is used for two-way authentication communication between the in-vehicle device and the portable device after the portable device is activated. When the vehicle door lock is unlocked, a person with a portable device touches a door sensor (touch sensor) installed on the outer door handle of the vehicle, and the activation and authentication operations described above are performed as a trigger. Unlocked / locked.

  Here, a configuration example of the SRKE system of Patent Document 1 is shown in FIG. The SRKE system includes a mobile device 30 and a main device 40. The mobile device 30 includes an LF receiver 35, an antenna 34, an LF controller 36, an RF controller 31, an RF transmitter 32, and an antenna 33. Yes. The main unit 40 includes an LF controller 44, an LF transmitter 45, an antenna 46, an RF receiver 42, an antenna 41, and an RF controller 43.

  The LF receiver 35 of the portable device 30 receives the radio wave for authentication transmitted from the main device 40, the LF controller 36 performs authentication based on the received signal of the LF receiver 35, and the RF controller 31 has succeeded in authentication. At this time, an unlock / lock instruction signal is output to the RF transmitter 32. The RF transmitter 32 transmits an unlocking / locking instruction radio wave to the main body device 40 via the antenna 33.

The LF controller 44 of the main device 40 receives a trigger signal from a switch or the like and outputs a signal for authentication to the LF transmitter 45. The LF transmitter 45 transmits an authentication signal to the mobile device 30. The RF receiver 42 receives the unlocking / locking signal transmitted from the portable device 30, and the RF controller 43 performs the unlocking / locking operation according to the signal.
JP 2004-132027 A

  However, in the SRKE system of Patent Document 1, since signals having different frequencies are used for transmission / reception for unlocking / locking instruction and communication for authentication, a necessary circuit must be prepared for each frequency. The overall circuit scale increases. In addition, since a sensor and a button are required for the outer door handle, there is a problem that the SRKE system is complicated and the aesthetic appearance of the vehicle is impaired.

  SUMMARY OF THE INVENTION An object of the present invention is to provide an unlocking control system that suppresses an increase in circuit scale and eliminates the need for sensors and buttons.

In order to solve the above problems, the unlocking control system of the present invention is configured as follows.
(1) In an unlocking system comprising a main body device that is a lock side and a portable device that is a key side,
The main body device includes authentication processing means for performing communication and authentication for authentication with the portable device, unlocking means for generating an unlocking signal or a locking signal when authentication is successful, a main body device side antenna, A request means for transmitting a request signal in a frequency band that is the same as the frequency band used in the communication for authentication and propagating on the surface of the human body as an electromagnetic wave via the antenna on the main device side , and
The portable device has an authentication processing means for performing communication and authentication for authentication with the main device, a portable device-side antenna, and a contact or proximity of the user who owns the portable device to the main device-side antenna. Request signal receiving means for receiving the request signal propagating on the surface of the user's human body via the portable device side antenna, and authentication processing start control means for starting the authentication processing means of the portable device when receiving the request signal It is characterized by having.

(2) the request means of said main device is to send intermittently the request signal,
The portable device includes a standby mode and an active mode, and the authentication process start control means switches from the standby mode to the active mode when receiving the request signal.

According to the present invention, the following effects can be obtained.
(1) Since the communication for authentication and the transmission / reception of the request signal are performed in the same frequency band, the high-frequency circuit on the main device side may be a circuit in the RF band, for example, and the circuit scale can be reduced.

(2) Since the request signal receiving means of the portable device detects electromagnetic waves propagating from the antenna of the main device to the surface of an object around the portable device (usually the body of the user carrying the portable device), the user Request signals are sent and received by touching the antenna of the main unit or an object acting as the antenna (for example, metal such as an outer door handle or a vehicle body), eliminating the conventionally required sensor and activation button. Can do.

(3) Since the request unit of the main unit intermittently wirelessly transmits the request signal and the portable device is in the standby mode until the request signal is received, useless power consumption can be suppressed. Moreover, since the main body apparatus also transmits the request signal intermittently, overall power consumption can be suppressed.

<< First Embodiment >>
The unlocking control system which concerns on 1st Embodiment is demonstrated based on FIGS.
FIG. 3 is a diagram showing a state of a user's unlocking operation when the unlocking control system is applied to a system for unlocking and locking a door lock of a vehicle. When the user unlocks and locks the door lock of the vehicle, the user touches the outer door handle H of the vehicle while holding the portable device 50 (in a breast pocket or the like). Unlike the LF band (long wave: 30 to 300 kHz band), the RF band (ultra-short wave: 300 to 400 MHz band) has the property of propagating on the surface of the human body, so that transmission / reception and communication are performed using radio waves propagating on the human body surface. .

  That is, by the operation of touching the outer door handle H of the vehicle, the locked lock is released, and conversely, the unlocked lock is locked.

  FIG. 4 is a block diagram of the unlocking control system according to the first embodiment. This unlocking control system includes a portable device 50 and a main body device 60. The portable device 50 includes an RF transceiver 52 that transmits and receives in the 300 MHz band, an antenna 53 thereof, and an RF controller 51. The RF controller 51 reads the received signal from the RF transceiver 52 and starts the authentication process when receiving the request signal.

  The main body device 60 includes an RF transceiver 62, its antenna 61, and an RF controller 63. The antenna 61 is provided in the vicinity of the outer door handle of the vehicle, and is configured such that communication is possible when a user carrying the portable device touches the outer door handle. The RF controller 63 transmits a request signal to the portable device 50 and performs communication for authentication, and further performs an unlocking / locking operation when the authentication is successful.

  FIG. 5 is a diagram showing an overall operation flow of the unlocking control system. First, the main device transmits a request signal at a predetermined timing (S11). For example, a request signal is transmitted at a cycle of 0.2 seconds. When the user holding the portable device touches the outer handle of the vehicle, a request signal from the main device is received (S21 → S22). That is, the mobile device is always in a standby state for receiving a request signal.

  When the portable device receives the request signal, authentication processing is started with the main device (S23). The main body device performs authentication communication with the portable device and performs authentication processing (S12). For example, authentication is performed by the following procedure.

(1) An acknowledge signal is transmitted from the portable device 50 to the main device 60.
(2) As a result, the main body device 60 transmits an identification code request signal to the portable device 50.
(3) The portable device 50 encrypts and transmits a unique identification code (a code written in advance in the RF controller 51) for each portable device.
(4) The main device 60 decodes the identification code received from the portable device 50, compares the identification code with an identification code unique to each main device (a code written in advance in the RF controller 63), and the correspondence relationship If it is, the authentication is considered successful.

  Note that after the portable device receives the request signal, an identification code reception request may be transmitted to the main device, and the identification code may be transmitted when an acknowledge is returned from the main device.

  If the authentication is successful, the unlocked state and the locked state are reversed (S13 → S14). That is, if it is already unlocked, it is locked, and if it is locked, it is unlocked.

  If the authentication fails in step S14, that is, if the communication is not between the main device and the portable device that has a corresponding relationship in advance, the unlocked / locked state returns to the standby state without being reversed (S13 → S11). ).

According to the first embodiment, the following effects can be obtained.
(1) Transmission and reception of request signals and communication for authentication can be performed using a single frequency band (300 MHz band), and sensors and buttons are not required in the outer door handle portion.

  (2) Further, since communication between the main unit and the portable device is premised on communication in a close state close to 0, that is, it is not particularly necessary for radio waves to propagate through space, so that power consumption can be reduced.

  (3) Since the RF band has the property of propagating on the surface of the human body, the operation can be started without requiring a special sensor or button.

  (4) Since the communication itself functions as a switch in this way, a mechanical switch is not necessary, and the aesthetic appearance is not impaired particularly when considering mounting on a vehicle.

  (5) Since no mechanical switch is required, high reliability can be secured.

<< Second Embodiment >>
FIG. 6 is a block diagram showing the overall configuration of the unlocking control system according to the second embodiment. The first embodiment differs from the configuration shown in FIG. 4 in that the portable device 70 includes a wake-up circuit 74 and that the portable device 70 has two modes: a “power saving mode” and an “active mode”. It is the point comprised so that it may operate | move.

  Even when the portable device 70 is in the power saving mode, the wake-up circuit 74 is in a state where it can receive a request signal from the main device 80. When the wake-up circuit 74 receives the request signal, the wake-up circuit 74 activates the RF controller 71 and the RF transceiver 72 so as to be operable. That is, it is set to the active mode. The RF transceiver 72 performs communication for authentication with the main device 80. Other configurations are the same as those in FIG.

  FIG. 7 is a diagram showing an overall operation flow of the unlocking control system according to the second embodiment. First, the main device transmits a request signal at a predetermined timing (S31 → S32). For example, a request signal is transmitted at a cycle of 0.2 seconds. When the user holding the portable device touches the outer handle, the wake-up circuit 74 of the portable device receives the request signal, wakes up, and enters the active mode (S41 → S42 → S43).

  If the portable device is in the active mode, authentication communication is performed with the main device (S44). The main body device performs authentication communication with the portable device and performs authentication processing (S33). If the authentication is successful, the unlocked state and the locked state are reversed (S34 → S35). That is, if it is already unlocked, it is locked, and if it is locked, it is unlocked.

  If the authentication fails in step S34, that is, unless communication is performed between the main body device and the portable device that has a corresponding relationship in advance, the unlocked / locked state returns to the standby state without being reversed (S34 → S31).

According to the second embodiment, in addition to the effects of the first embodiment, the following effects are further achieved.
(1) Since the main device side transmits request signals intermittently, power consumption during standby can be suppressed.
(2) Normally, the portable device side is also set in the power saving mode, so that power consumption can be suppressed and the life of the battery can be greatly prolonged.

  In the example described above, communication between the main body device and the portable device is started when the user holding the portable device touches the vicinity of the antenna of the main body device. If the request signal and the authentication communication are made possible in a close state, substantially the same operation and effect can be obtained.

  Moreover, you may comprise the antenna of a main body apparatus so that it can communicate not only with an outer door handle but in the state which touched the vehicle body of the vehicle.

  In the embodiment described above, an example of unlocking and unlocking the door of the vehicle has been shown, but in addition to this, a lock of a motorcycle / bicycle, a key of a general door / window / showcase, a safe / refrigerator / locker -It can be similarly applied to a lock of a single unit such as a key of a drawer of a desk, a key of a bag / suitcase, a key of an important document, a key of a notebook PC / mobile phone terminal, and a padlock.

It is a block diagram which shows the structural example of the conventional keyless entry system. It is a block diagram which shows the structural example of the conventional smart remote keyless entry system. It is a figure which shows the operation state of the user of the unlocking | locking control system which concerns on 1st Embodiment. It is a block diagram showing the whole composition of the unlocking control system concerning a 1st embodiment. It is a flowchart which shows the process sequence of the same system. It is a block diagram which shows the whole structure of the unlocking | locking control system which concerns on 2nd Embodiment. It is a flowchart which shows the process sequence of the same system.

Explanation of symbols

50,70-portable device 51,71-RF controller 52,72-RF transceiver 53,73-antenna 60,80-main unit 61,81-antenna 62,82-RF receiver 63,83-RF controller H- Outer door handle

Claims (2)

In an unlocking system comprising a main body device on the lock side and a portable device on the key side,
The main body device includes authentication processing means for performing communication and authentication for authentication with the portable device, unlocking means for generating an unlocking signal or a locking signal when authentication is successful, a main body device side antenna, A request means for transmitting a request signal in a frequency band that is the same as the frequency band used in the communication for authentication and propagating on the surface of the human body as an electromagnetic wave via the antenna on the main device side , and
The portable device has an authentication processing means for performing communication and authentication for authentication with the main device, a portable device-side antenna, and a contact or proximity of the user who owns the portable device to the main device-side antenna. Request signal receiving means for receiving the request signal propagating on the surface of the user's human body via the portable device side antenna, and authentication processing start control means for starting the authentication processing means of the portable device when receiving the request signal And an unlocking control system. It said request unit of the main device is to send intermittently the request signal,
The unlocking control according to claim 1, wherein the portable device includes a standby mode and an active mode, and the authentication process start control means switches from the standby mode to the active mode when the request signal is received. system.

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