JP2018067790A - Portable device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a portable device allowing for an easy expansion and addition of functions without redesign.SOLUTION: A mobile device 1 roughly includes: a body 10 to which a circuit unit 100 for communicating with a vehicle is attached; a slot 15 provided on the body 10; and a module 2 which is connected with the electronic circuit unit 100 via the slot 15 and allows for an expansion of inherent functions of the electronic circuit unit 100 and an addition of functions different from the inherent functions. Thus, the mobile device 1 allows for an easy expansion and addition of functions without redesign.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a portable device.

  As a conventional technique, a circuit board on which a communication circuit for performing wireless communication with the outside is mounted in a case constituting the outer shape of a portable device body, a protective cover superimposed on one surface side of the circuit board, and a circuit board There is known a portable device of an electronic key system in which a plate-shaped battery holder that holds a battery and is stacked on the other surface side is accommodated (see, for example, Patent Document 1).

JP 2008-196194 A

  However, the conventional portable device cannot add a function, and when adding a function, there is a problem that it must be redesigned from a substrate pattern.

  Accordingly, an object of the present invention is to provide a portable device whose functions can be easily expanded and added without redesigning.

  According to one embodiment of the present invention, a main body to which an electronic circuit unit that communicates with a vehicle is attached, a slot provided in the main body, and the electronic circuit unit that is connected to the electronic circuit unit through the slot have functions provided in advance. Provided is a portable device including an extension and a module capable of adding a function different from a function provided in advance.

  According to the present invention, functions can be easily expanded and added without redesigning.

FIG. 1A is a perspective view illustrating an example of a portable device according to the embodiment, and FIG. 1B is a side view illustrating an example of the portable device. FIG. 2A is a schematic diagram illustrating an example of connection between the module of the portable device and the portable device substrate according to the embodiment, and FIG. 2B is an example of a block diagram of the portable device. FIG. 3 is a block diagram relating to an example of the common access area of the portable device according to the embodiment. FIG. 4 is a timing chart illustrating an example of the operation of the portable device according to the embodiment.

(Summary of embodiment)
The portable device according to the embodiment is connected to the electronic circuit unit through the main body to which the electronic circuit unit for communicating with the vehicle is attached, the slot provided in the main body, and the electronic circuit unit is provided in advance. It is schematically configured to include a module that enables expansion of functions and addition of functions different from the functions provided in advance.

  In this portable device, by connecting a module to a slot, it is possible to expand a function provided in advance in the electronic circuit unit and add a function different from the function provided in advance without redesigning.

[Embodiment]
(Outline of portable device 1)
FIG. 1A is a perspective view illustrating an example of a portable device according to the embodiment, and FIG. 1B is a side view illustrating an example of the portable device. FIG. 2A is a schematic diagram illustrating an example of connection between the module of the portable device and the portable device substrate according to the embodiment, and FIG. 2B is an example of a block diagram of the portable device. Note that, in each drawing according to the embodiment described below, the ratio between figures may be different from the actual ratio.

  For example, the portable device 1 is an electronic device that can wirelessly instruct locking and unlocking of a door of a vehicle. The portable device 1 according to the present embodiment has an authentication number, collates the authentication number with the vehicle authentication number through two-way communication with the vehicle, and a person who carries the portable device 1 when the verification is established. The door can be locked and unlocked, the engine can be started, and the like. The portable device 1 is not limited to a vehicle, and may be used, for example, for locking a front door of a house, an unlocking operation, a remote operation of an electronic device, and the like. The portable device 1 may be configured to accommodate a physical key formed of a plate-like metal.

  As shown in FIG. 1A, FIG. 1B, FIG. 2A, and FIG. 2B, the portable device 1 includes a main body 10 to which an electronic circuit unit 100 that communicates with a vehicle is attached. A slot 15 provided in the main body 10 and a module that is connected to the electronic circuit unit 100 via the slot 15 and that allows expansion of functions provided in the electronic circuit unit 100 and addition of functions different from the functions provided in advance. 2 and is schematically configured.

  The functions provided in advance in the electronic circuit unit 100 include, for example, verification of the above-described authentication number, door locking and unlocking, trunk unlocking, and the like.

(Configuration of the main body 10)
For example, the main body 10 includes a lower case 11 and an upper case 12 as shown in FIGS. 1 (a) and 1 (b). The lower case 11 and the upper case 12 are formed using, for example, a synthetic resin such as ABS (acrylonitrile butadiene styrene copolymer) resin or PC (polycarbonate) resin.

  A slot 15 is provided on one side surface 13 of the lower case 11. The slot 15 is schematically configured by, for example, a recess 16a and an insertion hole 16b formed in the recess 16a.

  The recess 16 a has a shape that is recessed inward from the side surface 13 of the lower case 11. When the module 2 is inserted into the slot 15, the lid 21 of the module 2 is fitted into the recess 16a, and the side surface 13 and the surface of the lid 21 of the module 2 become flat.

  The connector 18 to which the module 2 is connected is exposed in the insertion hole 16b. The module 2 is coupled to the connector 18 by being inserted into the insertion hole 16b.

  In the lower case 11, a portable device substrate 17 that is a substrate of the portable device 1 is disposed. The lower case 11 is provided with a battery 108 that serves as a power source for the portable device 1. The battery 108 is accommodated in the battery accommodating portion from the back surface 110 side of the lower case 11, for example, and supplies the power supply voltage V to the electronic circuit portion 100. The power supply voltage V is 5v as an example.

  The upper case 12 has a button group 121 disposed on the surface 120 thereof. The button group 121 is schematically configured from a plurality of push buttons. As an example, the button group 121 of this embodiment includes three push buttons. This push button is configured to be able to instruct, for example, door locking, unlocking, and trunk unlocking.

  A signal output when the push button of the button group 121 is pressed is processed by the electronic circuit unit 100 and transmitted to the vehicle.

(Configuration of electronic circuit unit 100)
FIG. 3 is a block diagram relating to an example of the common access area of the portable device according to the embodiment. The dotted line on the left side of FIG. 3 shows the memory 104 of the portable device 1, and the dotted line on the right side shows the module 2.

  As shown in FIGS. 2A and 2B, the electronic circuit unit 100 is schematically configured to include a connector 18, a receiving unit 101, a transmitting unit 102, and a first control unit 103. ing. The electronic circuit unit 100 is formed on the surface 170 of the portable device substrate 17.

  The portable device board 17 is, for example, a printed wiring board disposed in the lower case 11. As an example, the connector 18 includes a power supply terminal, an EN terminal, a CLK terminal, a DIN terminal, a DOUT terminal, and a GND terminal from the paper surface of FIG.

  The power supply terminal on the portable device 1 side is electrically connected to the power supply terminal on the module 2 side, and supplies the power supply voltage V to the module 2. The GND terminal on the portable device 1 side is electrically connected to the GND terminal on the module 2 side.

The EN terminal on the portable device 1 side is electrically connected to the EN terminal on the module 2 side, and an EN signal S ₁ is input from the module 2. The EN signal S ₁ is a signal related to information of the module 2, for example.

The CLK terminal on the portable device 1 side is electrically connected to the CLK terminal on the module 2 side, and outputs a CLK signal S ₂ to the module 2. The CLK signal _{S 2} is a click signal the first control unit 103 has generated.

The DIN terminal on the portable device 1 side is electrically connected to the DIN terminal on the module 2 side, and outputs a DIN signal S ₃ to the module 2. The DIN signal S ₃ is, for example, a control signal for controlling the module 2 the first control unit 103 has generated.

The DOUT terminal on the portable device 1 side is electrically connected to the DOUT terminal on the module 2 side, and the DOUT signal S ₄ is input from the module 2. The DOUT signal _{S 4} is, for example, which is the output signal of the digitized sensor 24.

  The receiving unit 101 receives a wireless signal output from the vehicle. The transmitting unit 102 transmits a wireless signal to the vehicle when the verification of the authentication number or the button group 121 is operated.

  The first control unit 103 includes, for example, a CPU (Central Processing Unit) that executes the control program 106 and performs operations and processing on the acquired data, a memory 104 that is a semiconductor memory, a ROM (Read Only Memory), and the like. Microcomputer. The first control unit 103 has means for generating a clock signal therein.

  The first control unit 103 includes a memory 104 as shown in FIGS. 2B and 3, for example. The area of the memory 104 is divided into a RAM (Random Access Memory) 105 area which is a storage area for temporarily storing calculation results, an area for reading the control program 106, and a common access area 107.

  For example, as shown in FIG. 3, the common access area 107 includes a portable device instruction set 107a, a data processing function 107b, and a data communication processing 107c. When the control program 106 is executed, the common access area 107 confirms its own data / internal state at a constant cycle (main cycle, etc.), and executes a process according to the contents of the data processing function 107b. Have Specifically, the common access area 107 is (1) a role of acquiring information of the module 2 in response to an inquiry from the control program 106 by serial communication via the EN terminal, and (2) data processing unique to the module 2 It has a role that operates based on a function and executes an instruction set as an output. In other words, it has a role similar to a function in the sense that it is executed in the control program 106.

  In the role (1) described above, the data communication processing 107c in the common access area 107 communicates with the module 2 based on the inquiry about the information of the module 2 of the control program 106, and acquires the information of the module 2.

  In the role (2) described above, the processing contents of the data processing function 107b in the common access area 107 are rewritten by the inserted module 2, and operate according to the data processing function unique to the module 2. Then, the data processing function 107b controls the portable device instruction set 107a having the instruction set of the portable device 1 and outputs an appropriate instruction set.

  This instruction set is a generic name for a list that instructs a specific operation of the control program 106 and its list. The instruction set includes, for example, sleep of the second control unit 25, switch functions (lock, unlock, trunk unlock, etc.), and RF transmission settings such as output strength and transmission channel.

  Since the portable device 1 can execute processing specific to the module 2 by using the common access area 107, it is possible to easily expand functions and the like corresponding to various modules 2 without rewriting the control program 106 of the portable device 1. Can be done.

(Configuration of module 2)
As illustrated in FIG. 1A, the module 2 is schematically configured to include an extension board 20 and a lid 21. The expansion board 20 is a printed wiring board, for example. The lid 21 is formed using, for example, the same synthetic resin as that of the main body 10. As shown in FIG. 1B, the lid 21 has a plate shape that is attached to the expansion board 20 so as to intersect the insertion direction.

  The module 2 includes, for example, a sensor 24 that measures a physical quantity, and allows the electronic circuit unit 100 to expand a function provided in advance using the sensor 24 and to add a different function. The module 2 is schematically configured to include a terminal group 23 connected to the connector 18 of the electronic circuit unit 100, a second control unit 25, and a communication unit 26. The terminal group 23, the sensor 24, the second control unit 25, and the communication unit 26 are disposed on the surface 200 of the expansion board 20.

  The terminal group 23 is disposed so as to be exposed on the surface 200 of the extension board 20 as shown in FIG. The terminal group 23 is attached to the expansion board 20 by processing a conductive metal material into a plate shape, for example. Further, as an example, the terminal group 23 includes a power supply terminal, an EN terminal, a CLK terminal, a DIN terminal, a DOUT terminal, and a GND terminal on the paper surface of FIG.

  As an example, the sensor 24 is an acceleration sensor, a vibration sensor, a GPS (Global Positioning System) sensor, a motion sensor, or the like.

If the sensor 24 is an acceleration sensor or a vibration sensor, the portable device together with the first control unit 103, for example, based on the DOUT signal S ₄ obtained from the module 2, vibration or acceleration is determined that it has not been detected Since it can be determined that 1 is placed on a desk or the like, the mode shifts to an energy saving mode in which communication with the vehicle is stopped. In this case, the function of the electronic circuit unit 100 is added by the module 2.

  When the sensor 24 is a GPS sensor, the first control unit 103 can transmit the position of the portable device 1 to a registered multifunction mobile phone, for example. In this case, the function of the electronic circuit unit 100 is added by the module 2.

  Further, when the sensor 24 is a motion sensor, the first control unit 103 can determine, for example, a gesture performed by the operator shaking the portable device 1, and based on a function corresponding to the determined gesture. Signal can be transmitted to the vehicle. When the function corresponding to the gesture can be instructed even by operating the push button, the function of the electronic circuit unit 100 is expanded by the module 2.

  As a modification, the module 2 is not limited to the sensor 24. For example, the module 2 may add a voice recognition function using a microphone. Further, there may be a plurality of modules 2 each having a user profile for each user, and the module 2 may be replaced to realize the portable device 1 customized for each user. For example, the vehicle changes the position of the seat, the position of the mirror, and the like based on the user profile. Further, the module 2 has a function related to non-standard radio waves, and may be a module to which a function for improving crime prevention is added.

  The second control unit 25 is, for example, a microcomputer including a CPU 250, a RAM 251 and a ROM as shown in FIGS. For example, the second control unit 25 converts an analog signal output from the sensor 24 into a digital signal, and outputs the digital signal to the common access area 107 via the DOUT terminal of the terminal group 23 and the connector 18. Note that the dotted arrow shown in FIG. 3 indicates the release from sleep (wake-up interrupt) from the CPU 250.

  The RAM 251 stores, for example, a communication format and a data processing function. The CPU 250 writes the status of the module 2 in the common access area 107 based on the communication format of the RAM 251 and the data processing function.

  The communication unit 26 is configured to perform SPI (Serial Peripheral Interface) communication with the electronic circuit unit 100. That is, the electronic circuit unit 100 and the module 2 are configured to be communicable with a common communication protocol.

  As shown in FIG. 2A, the module 2 has an O-ring 22 that suppresses the intrusion of impurities into the main body 10. The O-ring 22 is formed in a ring shape with a synthetic resin, is attached to the expansion board 20, and when the module 2 is inserted into the slot 15, the O-ring 22 is interposed between the main bodies 10 to prevent impurities from entering the main body 10. . Further, the module 2 suppresses adhesion of impurities to the sensor 24 and the second control unit 25 by the O-ring 22. Examples of the impurities include liquids such as water, dust, and dust.

  Hereinafter, an example of the operation of the portable device 1 will be described with reference to the timing chart of FIG. This operation is, for example, an operation related to automatic vehicle locking using an acceleration sensor. Specifically, the portable device 1 is an operation of transmitting a lock signal for locking the vehicle when a person carrying the portable device 1 leaves the vehicle after the engine of the vehicle is turned off.

(Operation)
When the first control unit 103 of the portable device 1 receives an LF wave indicating engine OFF from the vehicle according to the control program 106 (Step 1), it makes an inquiry to the common access area 107 (Step 2).

  Further, according to the data communication processing 107c in the common access area 107, the first control unit 103 inquires of the module 2 about the status of the module 2 in response to this inquiry, and transmits a serial communication request (Step 3).

  The CPU 250 of the module 2 confirms the internal state (sensing information) with the sensor 24 in response to this request (Step 4).

  The sensor 24, which is a triaxial acceleration sensor, returns the sensing result to the CPU 250 (Step 5).

  CPU250 will perform an internal process, if the sensing result is received from the sensor 24 (Step6). And CPU250 will return the module state which shows walk detection to the portable device 1, if a walk is detected based on the internal process of a sensing result (Step7).

  When the walking state is confirmed for a certain time from the state of module 2 in accordance with the data processing function 107b of the common access area 107 (Step 8), the first control unit 103 transmits a LOCK signal based on the portable device instruction set 107a. Select (Step 9).

  In accordance with the control program 106, the first control unit 103 transmits a LOCK signal for locking the vehicle door or the like via the transmission unit 102 in response to the transmission command of the LOCK signal received from the portable device command set 107a (Step 10). . The vehicle locks a door or the like based on the LOCK signal.

(Effect of embodiment)
The portable device 1 according to the present embodiment can easily expand and add functions without redesigning. Specifically, the portable device 1 has a common communication protocol with the module 2 and can communicate with each other. An electronic device having a slot-in into which a module can be inserted mainly uses, for example, identification of a user ID or the module as an external storage device depending on the inserted module, and extends this pre-installed function. Is difficult. On the other hand, since the portable device 1 can expand the functions provided in advance and add functions different from the functions provided in advance, it is not necessary to redesign the hardware and software in order to incorporate these functions. Therefore, the portable device 1 can easily expand and add functions without redesigning.

  Since the function of the portable device 1 can be easily expanded and added by the module 2, the function of the portable device 1 can be updated more easily than the function that cannot be expanded or added. The portable device 1 has high expandability because functions can be easily expanded and added. Furthermore, since the expansion and addition of functions are easy, the portable device 1 has a high degree of freedom in customization and a high product power.

  As mentioned above, although some embodiment and modification of this invention were demonstrated, these embodiment and modification are only examples, and do not limit the invention based on a claim. These novel embodiments and modifications can be implemented in various other forms, and various omissions, replacements, changes, and the like can be made without departing from the scope of the present invention. In addition, not all combinations of features described in these embodiments and modifications are necessarily essential to the means for solving the problems of the invention. Further, these embodiments and modifications are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 1 ... Portable machine, 2 ... Module, 10 ... Main body, 11 ... Lower case, 12 ... Upper case, 13 ... Side surface, 15 ... Slot, 16a ... Recessed part, 16b ... Insertion hole, 17 ... Portable machine board | substrate, 18 ... Connector, 20 DESCRIPTION OF SYMBOLS ... Expansion board, 21 ... Lid, 22 ... O-ring, 23 ... Terminal group, 24 ... Sensor, 25 ... 2nd control part, 26 ... Communication part, 100 ... Electronic circuit part, 101 ... Reception part, 102 ... Transmission part DESCRIPTION OF SYMBOLS 103 ... 1st control part 104 ... Memory, 105 ... RAM, 106 ... Control program, 107 ... Common access area, 107a ... Portable device command set, 107b ... Data processing function, 107c ... Data communication processing, 108 ... Battery , 110 ... back surface, 120 ... front surface, 121 ... button group, 170 ... front surface, 200 ... front surface, 250 ... CPU, 251 ... RAM

Claims (4)

A main body to which an electronic circuit unit for communicating with the vehicle is attached;
A slot provided in the body;
A module that is connected to the electronic circuit unit via the slot and allows expansion of functions provided in advance in the electronic circuit unit and addition of functions different from the functions provided in advance;
A portable machine equipped with. The electronic circuit unit includes a first control unit,
The module has a second control unit,
The first control unit has a storage area accessible by the second control unit,
The portable device according to claim 1. The module includes a sensor for measuring a physical quantity, and enables the extension of the function provided in advance using the sensor in the electronic circuit unit and the addition of the different function.
The portable device according to claim 1 or 2. The module has an O-ring that suppresses entry of impurities into the body.
The portable device according to any one of claims 1 to 3.

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