JP6425083B2 - Communication system and reader / writer side information communication apparatus - Google Patents

Description

The present invention is close between an information communication apparatus having a function as a tag (hereinafter referred to as a tag side information communication apparatus) and an information communication apparatus having a function as a reader / writer (hereinafter referred to as a reader / writer side information communication apparatus). distance radio communication by the communication system for transmitting and receiving data, and by the tag information communicating apparatus and the short-range wireless communication directed to the reader writer side information communication equipment capable of transmitting and receiving data.

  Conventionally, in a communication system in which data is transmitted and received by near field communication such as NFC (Near Field Communication) between a tag side information communication device and a reader / writer side information communication device, the reader / writer side information communication device is In order to detect the proximity of the tag side information communication device, it is necessary to perform polling processing. In this polling process, a process of supplying (generating) a magnetic field for causing the tag-side information communication apparatus to be capable of near-field wireless communication by generating an induced current in the antenna of the tag-side information communication apparatus, and the tag side The transmission process of the polling signal which is a control signal for making an information communication apparatus transmit a response is included.

  Among communication systems that transmit and receive data by the above-mentioned short distance wireless communication, there is known one that uses a body composition meter as a reader / writer side information communication device and an activity meter as a tag side information communication device (for example, patent documents See paragraph 1 (0041), etc.).

JP 2013-244357 A

  In a communication system that transmits and receives data by near field communication between the conventional tag side information communication device and the reader / writer side information communication device as described above, the reader / writer side information communication device is in the off standby (reader / writer In the standby mode of the microcomputer of the side information communication device, if it is possible to perform polling processing including the generation process of the magnetic field in order to detect the approach of the tag side information communication device, consumption in the off standby state Power gets too big. The problem is that, as in the communication system shown in Patent Document 1, a device (body composition meter) in which the time during off standby is longer than the time during normal use is the reader / writer side information communication apparatus. In the case, it gets bigger. Therefore, in the conventional communication system of this type, when the reader / writer side information communication device is in the standby state, the reader / writer side information communication device detects the approach of the tag side information communication device and approaches the tag side information communication device. It was not possible to start distance wireless communication. Therefore, the user can use the reader / writer side information communication device to start the short distance wireless communication between the tag side information communication device and the reader / writer side information communication device when the reader / writer side information communication device is on standby. After turning on the key operation, it is necessary to make the reader / writer side information communication device detect the approach of the tag side information communication device, and the short distance wireless communication between the tag side information communication device and the reader / writer side information communication device The user operations required to get started were bothersome.

The present invention solves the above-mentioned problems, and reduces the power consumption when the reader / writer side information communication apparatus is in the off standby state, while performing near field communication between the tag side information communication apparatus and the reader / writer side information communication apparatus. communication system capable of simplifying a user operation required to initiate, and an object of the invention to provide a reader writer side information communication equipment.

In order to solve the above problems, a communication system according to an aspect of the present invention includes a tag side information communication device and a reader / writer side information communication device, and the tag side information communication device and the reader / writer side information communication device A communication system for transmitting and receiving data by near-field wireless communication, the tag-side information communication apparatus including the tag-side antenna for near-field wireless communication and the reader / writer via the tag-side antenna And a tag side communication unit for performing near field communication with the side information communication apparatus, wherein the reader / writer side information communication apparatus includes a reader / writer side antenna for near field communication and the reader / writer side antenna. A reader / writer side communication unit for performing near field wireless communication with the tag side communication unit, and the tag side information communication device having a predetermined distance when the reader / writer side information communication device is on standby The reader / writer communication unit detects the proximity to the inside when the proximity sensor detects that the tag-side information communication device has approached within a predetermined distance by the proximity sensor. The reader / writer side control unit controls to start processing to shift to a state capable of short distance wireless communication , and the reader / writer side information communication device is a biological information measuring device, and the reader / writer side control The reader / writer communication unit controls the reader / writer communication unit to repeatedly transmit a polling signal to the tag communication unit after the start of the process for causing the tag communication unit to transition to the near-field wireless communication enabled state. And the reader / writer communication unit turns on the biological information measurement apparatus when the reader / writer communication unit receives a response to the polling signal from the tag communication unit. To control such.

In this communication system, the tag-side information communication apparatus includes a conductor, and the proximity sensor has an electrode, and a constant voltage is applied to the electrode based on a change in capacitance of the electrode. And detecting that the tag-side information communication device has come within a predetermined distance, and arranging the conductor at a position separated from the electrode by a predetermined distance, a capacitor comprising the conductor and the electrode The capacitance of the tag antenna is greater than the capacitance of the capacitor formed by the tag antenna and the electrode when the tag antenna is disposed at the predetermined distance from the electrode The area and the dielectric constant of the conductor and the tag side antenna are set, and the on threshold of the proximity sensor is smaller than the capacitance of the capacitor formed of the conductor and the electrode, , It is desirable adjustment range larger than the capacitance of the capacitor constituted by the said electrode and the tag antenna.

A reader / writer side information communication apparatus according to another aspect of the present invention is a reader / writer side information communication apparatus capable of transmitting / receiving data to / from the tag side information communication apparatus by near field communication, and for near field communication A reader / writer side communication unit for performing short distance wireless communication with the tag side information communication device via the reader / writer side antenna, and the reader / writer side information communication device in the off standby state, The proximity sensor that detects that the tag side information communication apparatus has approached within a predetermined distance, and the reader / writer communication section when the proximity sensor detects that the tag side information communication apparatus has approached within a predetermined distance but a reader writer side control unit that controls so as to start the processing for shifting the tag-side information communication apparatus in short-range wireless communicable state, The reader / writer side information communication device is a biological information measuring device, and the reader / writer side control unit causes the reader / writer side communication unit to shift the tag side information communication device to a state in which short distance wireless communication is possible. The reader / writer communication unit receives a response to the polling signal from the tag information communication device after controlling to repeatedly transmit the polling signal to the tag information communication device after the start of the processing of At the same time, the biological information measuring apparatus is controlled to be turned on .

In the reader / writer side information communication apparatus, the proximity sensor has an electrode, and in a state where a constant voltage is applied to the electrode, the tag side information communication apparatus based on a change in capacitance of the electrode. Detects that it has come within a predetermined distance, and the on threshold of the proximity sensor is smaller than the capacitance of the capacitor formed of the conductor of the tag side information communication device and the electrode, and the tag side It is desirable that the capacitance be adjusted to a range larger than the capacitance of a capacitor formed by the antenna of the information communication device and the electrode .

According to the present invention, when the user brings the tag side information communication apparatus close to the biological information measuring apparatus while the biological information measuring apparatus as the reader / writer side information communication apparatus is in the standby mode, the biological information measuring apparatus uses the proximity sensor. It detects that the tag side information communication device has approached within the predetermined distance of the own machine, and shifts the tag side information communication device (tag side communication unit) to the state where short distance wireless communication is possible by the reader / writer side communication unit. Start processing automatically (for example, generation of a magnetic field). Thus, unlike the conventional user, during off waiting for the biological information measuring device, in order to initiate short-range wireless communication between the tag-side information communication apparatus and a biological information measurement device, the key operation of the biological information measuring device There is no need to cause the biological information measuring device to detect the approach of the tag side information communication device after turning it on. Therefore, it is possible to simplify the user operation required to start the short distance wireless communication between the tag side information communication device and the biological information measuring device . Moreover, the biological information measuring apparatus, when the off-standby, in order to detect the approach of the tag information communication apparatus, the processing for shifting the tag information communicating apparatus (tag-side communication unit) to the short-range wireless communication capable state Since it is not necessary to perform (for example, generation of a magnetic field requiring a large amount of power), it is possible to suppress power consumption when the biological information measuring device is on standby.
In addition, the reader / writer side control unit repeatedly transmits a polling signal to the tag side communication unit after the reader / writer side communication unit starts processing for causing the tag side communication unit to shift to a near-field wireless communication enabled state. The reader / writer communication unit controls to turn on the biological information measurement apparatus when the reader / writer communication unit receives a response to the polling signal from the tag communication unit. As a result, the reader / writer communication unit receives the response to the polling signal from the tag communication unit, and then the biological information measuring apparatus transitions to the on state, so the power consumption of the biological information measuring apparatus can be efficiently suppressed. be able to. In addition, when the user brings the tag-side information communication device close to the biological information measuring device while the biological information measuring device is on standby, the biological information measuring device can be automatically activated.

(A) is a cross-sectional view of an activity meter (tag side information communication device) and a body composition meter (reader / writer side information communication device) constituting a communication system according to an embodiment of the present invention; (b) is the above activity The top view of the board | substrate of a meter. The schematic electrical block block diagram of the said body composition meter. The schematic electrical block block diagram of the said active mass meter. The flowchart of the communication control processing performed by a body composition meter side, when a user brings the said active mass meter close to a body composition meter. The flowchart of the communication control processing performed by an active mass meter side, when a user brings the said active mass meter close to a body composition meter. FIG. 7 is a sequence diagram showing interactions between the user, the body composition meter, and the activity meter when the user brings the activity meter close to the body composition meter. Explanatory drawing of adjustment process of the on threshold value of the proximity sensor in the said body composition meter. Sectional drawing of the active mass meter in modification 2 of the present invention.

  A communication system, a reader / writer side information communication apparatus, and a tag side information communication apparatus according to an embodiment of the present invention will be described below with reference to the drawings. In the present embodiment, an example in which the reader / writer side information communication device and the tag side information communication device in claims are a body composition meter and an activity meter will be described. That is, in the present embodiment, the body composition meter is an information communication device having a function as a reader / writer in NFC (Near Field Communication) communication, and the activity meter has a function as a tag in NFC communication. It is. Fig.1 (a) shows the cross section of the active mass meter and body composition meter which comprise the communication system by this embodiment, FIG.1 (b) is arrangement | positioning of the member (circuit) on the board | substrate of said active mass meter. Indicates More specifically, FIG. 1A shows the activity in a state where the NFC antenna 22 on the activity meter 2 side and the NFC antenna 32 on the body composition meter 3 side are vertically overlapped at a predetermined distance. It is sectional drawing at the time of cut | disconnecting the quantity meter 2 and the body composition meter 3 by the AA in FIG.1 (b). The above activity meter 2 is a device for measuring the amount of activity of a subject (user), and the body composition meter 3 is a device for measuring the body composition of the subject. The communication system 1 includes the above-described activity meter 2 and body composition meter 3, and NFC communication (ISO / IEC 14443, ISO / IEC 18092, ISO / IEC 15963, etc.) between the activity meter 2 and the body composition meter 3 Data is transmitted / received by communication according to the defined short distance wireless communication standard.

  As shown in FIGS. 1 (a) and 1 (b), in addition to the above-mentioned NFC antenna 22 ("tag side antenna" in the claims), the entire activity meter 2 is provided on the substrate 20 of the activity meter 2. A microcomputer 21 for control, an NFC communication control IC 23 having a function of an IC tag ("tag side communication unit" in claims), and a conductor 24 are mounted. The NFC antenna 22 is an antenna for NFC communication. The NFC communication control IC 23 is a communication control IC for performing NFC communication (as a tag side information communication device) with the body composition meter 3 via the NFC antenna 22. Moreover, the conductor 24 is a member provided in order to make the proximity sensor of the body composition meter 3 side mentioned later detect approach of the active mass meter 2. As shown in FIG.

  Further, as shown in FIG. 1A, on the substrate 30 of the body composition meter 3, in addition to the above-mentioned NFC antenna 32 ("reader / writer side antenna" in the claims), the entire body composition meter 3 is provided. The microcomputer 31 for control of, the NFC communication control IC 33 ("reader / writer side communication unit" in claims), the electrode 34 of the proximity sensor, and the proximity sensor IC 35 are mounted. The NFC antenna 32 is an antenna for NFC communication on the body composition meter 3 side. The NFC communication control IC 33 is a communication control IC for performing NFC communication (as a reader / writer side information communication device) with the activity meter 2 via the NFC antenna 32.

  Further, the electrode 34 and the proximity sensor IC 35 constitute a capacitive proximity sensor. The proximity sensor detects that (the conductor 24 of) the activity meter 2 approaches within a predetermined distance (of the electrode 34 of the proximity sensor) when the body composition meter 3 is in the off standby state. Specifically, in the proximity sensor, (the conductor 24 of) the activity meter 2 approaches within a predetermined distance based on a change in capacitance of the electrode 34 in a state where a constant voltage is applied to the electrode 34 Detect that.

  Here, when the body composition meter 3 is in the off standby state, the microcomputer 31 of the body composition meter 3 is in the standby mode, and power is supplied only to the microcomputer 31 and the proximity sensor 36.

  FIG. 2 shows the electrical block configuration of the body composition meter 3 described above. As shown in the figure, the body composition meter 3 includes a display unit 37 and an operation unit 38 in addition to the microcomputer 31, NFC antenna 32, NFC communication control IC 33, and proximity sensor 36 (electrode 34 and proximity sensor IC 35). , A battery 39, a bioelectrical impedance measurement unit 41, and a weight measurement unit 44. The display unit 37 is a display device such as an LCD (Liquid Crystal Display) for displaying an operation guide to a subject and a measurement result. The operation unit 38 has various keys for the subject (user) to input various instructions and information. The battery 39 supplies power to each circuit in the body composition meter 3.

  The above-described operation unit 38 is also used for the switching operation of the body composition meter 3 to the power-on state. Here, the above-mentioned ON state means that the microcomputer 31 of the body composition meter 3 is in the normal use mode (not in the standby mode), and not only the microcomputer 31 and the proximity sensor 36 but also other circuits (NFC communication control IC 33, Also in the display unit 37, the bioelectrical impedance measurement unit 41, the weight measurement unit 44, etc., power is supplied from the battery 39. The bioelectrical impedance measurement unit 41 and the weight measurement unit 44 will be described in detail later.

  The microcomputer 31 has a CPU 45, a flash ROM (Read Only Memory) 46, a RAM (Random Access Memory) 47, and a timer 48 for clocking.

  The CPU 45 described above performs various arithmetic processing such as calculation processing of an index related to the body composition of the subject described later based on the program stored in the flash ROM 46, various types (in the body composition meter 3) such as the NFC communication control IC 33 Perform control processing of the circuit. The CPU 45 corresponds to a reader / writer control unit in the claims.

  The above-mentioned flash ROM 46 is a rewritable non-volatile memory, and includes various programs and setting data, personal data such as height, age and sex of the subject, history data of measured value (of body composition) of the subject, etc. Remember. Further, the RAM 47 is used as a work area of the CPU 45 when executing various programs.

  The bioelectrical impedance measurement unit 41 described above has a current supply unit 42 and a voltage detection unit 43, and is used to measure the bioelectrical impedance of the subject. When the subject gets on the upper surface of the housing 3a (see FIG. 1A), the current supply unit 42 applies high frequency waves to the soles of both feet of the subject via the current supply electrodes (not shown) on the left and right. Apply a weak constant current. Further, the voltage detection unit 43 detects (measures) a voltage corresponding to the potential difference generated on the soles of the subject's feet by application of the current by the current supply unit 42 via the left and right voltage detection electrodes (not shown). ). The value of the voltage detected (measured) by the voltage detection unit 43 and the value of the current applied by the current supply unit 42 are output to the microcomputer 31 and are digitalized by an A / D converter (not shown) in the microcomputer 31. After being converted into a value, it is sent to the CPU 45. The CPU 45 of the microcomputer 31 follows the program stored in the flash ROM 46, and based on the digital value of the current applied by the current supply unit 42 and the digital value of the voltage detected by the voltage detection unit 43, The obtained bioelectrical impedance is stored in the RAM 47.

  The above-described weight measuring unit 44 measures the weight of the subject on the upper surface of the housing 3a (see FIG. 1A) of the body composition meter 3. The weight measurement unit 44 includes a load cell that converts a load into an electrical signal (outputs an electrical signal of a value corresponding to the load). In this embodiment, as the load cell, a so-called strain gauge type (a strain generating body that deforms according to a load when a load is applied, and a strain gauge attached to the strain generating body), the resistance value of the strain gauge due to the load The method of outputting a voltage value according to the change of. When the subject is on the upper surface of the housing 3a, (the load cell of the weight measuring unit 44) outputs according to the weight of the subject (a voltage value according to a change in resistance of the strain gauge due to the weight of the subject) ) Changes. The output value from the weight measurement unit 44 is output to the microcomputer 31 and converted to a digital value by an A / D converter (not shown) in the microcomputer 31 and then sent to the CPU 45 as weight data. The CPU 45 of the microcomputer 31 obtains the weight of the subject based on the weight data described above according to the program stored in the flash ROM 46, and stores the obtained weight in the RAM 47.

  The CPU 45 of the body composition meter 3 stores the weight and bioelectrical impedance of the subject stored in the RAM 47 and the flash ROM 46 according to the program stored in the flash ROM 46 (input by the subject (user) using the operation unit 38 Based on personal data such as height, age and sex of the subject), the index concerning body composition such as body fat rate, muscle mass, estimated bone mass, visceral fat level, basal metabolic rate, body moisture rate etc. of the subject is calculated Do.

  FIG. 3 shows the electrical block configuration of the activity meter 2 described above. As shown in the figure, the activity meter 2 has a display unit 25, an operation unit 26, a battery 27, and an acceleration sensor 28 in addition to the microcomputer 21, the NFC antenna 22, and the NFC communication control IC 23 described above. . The display unit 25 is a display device such as an LCD (Liquid Crystal Display), and various information output from the CPU 51 of the microcomputer 21 (for example, guidance of operation to the subject, information on activity of the subject, energy consumption of the subject Information etc.). The operation unit 26 has various keys for the subject (user) to input various instructions and information. The battery 27 supplies power to each circuit in the activity meter 2. The acceleration sensor 28 will be described in detail later.

  The microcomputer 21 has a CPU 51, a flash ROM 52, a RAM 53, and a timer 54 for clocking.

  The above-described CPU 51 performs various arithmetic processing such as calculation processing of the amount of activity and number of steps (based on exercise such as walking or running) and calculation processing of consumption energy of the subject based on the program stored in the flash ROM 52 And control processing of each circuit in the activity meter 2 is performed.

  The above-mentioned flash ROM 52 is a rewritable non-volatile memory, and includes various programs and setting data, personal data such as the subject's age and gender, and history data (of the amount of activity, number of steps, and energy consumption) of the subject Remember. In addition, the RAM 53 is used as a work area of the CPU 51 when executing various programs.

  Further, the acceleration sensor 28 in FIG. 3 outputs body movement information indicating body movement of a subject (user) to the CPU 51 in the microcomputer 21. The acceleration sensor 28 may be a one-dimensional acceleration sensor that detects acceleration in one direction, a two-dimensional acceleration sensor that detects acceleration in two directions orthogonal to one another, or three orthogonal ones. It may be a three-dimensional acceleration sensor that detects an acceleration in a direction.

  Next, referring to FIGS. 4 to 6 in addition to FIGS. 1 to 3 above, when the user (subject) brings the activity meter 2 close to the body composition meter 3 in the present communication system 1 (activity amount Communication control processing performed on the activity meter 2 side and the body composition meter 3 side when the total 2 approaches the body composition meter 3 will be described. FIG. 4 shows the communication control process performed by the body composition meter 3 when the user brings the activity meter 2 close to the body composition meter 3, and FIG. 5 shows the user with the body composition meter 3 for the activity meter 2. The communication control process performed on the activity meter 2 side when approaching to Further, FIG. 6 is a sequence diagram showing exchanges performed between the user (subject) 61, the body composition meter 3, and the activity meter 2 when the user brings the activity meter 2 close to the body composition meter 3. is there.

  During off standby, as shown in FIG. 6, the body composition meter 3 outputs the output from the proximity sensor 36 (until the activity meter 2 approaches (when the user 61 brings the activity meter 2 closer to the body composition meter 3) It continues detecting that the signal is turned on (S21). Then, as shown in FIG. 6, when the user 61 brings the activity meter 2 close to the body composition meter 3, the proximity sensor 36 is turned on (outputs an on signal), and the body composition meter 3 The generation is started (S22). More specifically, as shown in FIG. 4, the CPU 45 (of the microcomputer 31) of the body composition meter 3 sets the activity meter 2 to a predetermined value by the proximity sensor 36 when the proximity sensor 36 is turned on (YES in S1). After detecting that it has approached within the distance), it sends an activation signal to its own NFC communication control IC 33, and after activating the NFC communication control IC 33, the NFC communication control IC 33 performs NFC on the activity meter 2 side. Control is performed to start generation of a magnetic field for shifting the communication control IC 23 to a state capable of near field communication (NFC communication) (S2).

  The CPU 51 (of the microcomputer 21) of the activity meter 2 detects the induced current generated in the NFC antenna 22 of its own by the above-mentioned magnetic field supplied from the body composition meter 3 side, thereby the magnetic field from the body composition meter 3 Is detected (S23 in FIG. 6). Then, when the CPU 51 of the activity meter 2 detects the magnetic field from the body composition meter 3 (YES in S11 of FIG. 5), it activates the communication mode (FIG. 5 as shown in FIGS. 5 and 6). S12) The NFC communication control IC 23 of its own device is initialized (S13 in FIG. 5).

  Whether the CPU 45 of the body composition meter 3 shifts the NFC communication control IC 23 on the activity meter 2 side to the communication mode (transition to the state capable of NFC communication) when a predetermined time has elapsed from the start of the generation of the magnetic field in S2. In order to confirm whether or not the NFC communication control IC 33 is used, as shown in FIG. 4 and FIG. 6, transmission of the polling signal is started (S3 in FIG. 4), and the polling signal is performed at predetermined time intervals. Send repeatedly. In FIG. 6, only one polling signal is shown to simplify the drawing.

  As shown in FIGS. 5 and 6, when the CPU 51 of the activity meter 2 detects the reception of the polling signal from the body composition meter 3 using the NFC communication control IC 23 (YES in S14 of FIG. 5), the NFC A polling response is sent to the body composition meter 3 using the communication control IC 23 (S15 in FIG. 5). On the other hand, if the reception of the polling signal from the body composition meter 3 is not detected within a predetermined time from the magnetic field detection in S11 (or the communication mode start in S12) (NO in S14 of FIG. 5) And the CPU 51 of the activity meter 2 ends the communication mode (S16).

  When the CPU 45 of the body composition meter 3 receives the polling response from the activity meter 2 (when the reception of the polling response is detected) (YES in S4 of FIG. 4), as shown in FIGS. (S5 in FIG. 4 and S24 in FIG. 6). That is, the CPU 45 (of the microcomputer 31) of the body composition meter 3 turns on its own (the microcomputer 31 is in the normal use mode, and not only the microcomputer 31 and the proximity sensor 36 but also other circuits (NFC communication control IC 33, display Also, the power is supplied from the battery 39 to the unit 37, the bioelectrical impedance measurement unit 41, the weight measurement unit 44, and the like).

  As described above, according to the communication system 1 of the present embodiment, when the user 61 (subject) brings the activity meter 2 close to the body composition meter 3 while the body composition meter 3 is in the standby state, the body composition meter 3 When the proximity sensor 36 detects that the activity meter 2 has come within a predetermined distance of its own device (body composition meter 3), the NFC communication control IC 33 detects the NFC communication control IC 23 on the activity meter 2 side. Automatically start generating a magnetic field to shift the state to an NFC-enabled state. Thus, unlike in the prior art, in order for the user 61 to start NFC communication between the activity meter 2 and the body composition meter 3 when the body composition meter 3 is in the standby state, the body composition meter 3 (operation unit 38 It is not necessary to make the body composition meter 3 detect the proximity of the activity meter 2 after turning it on by key operation etc.). Therefore, the user operation required to start NFC communication between the activity meter 2 and the body composition meter 3 can be simplified. Moreover, since the body composition meter 3 does not have to perform generation processing of a magnetic field requiring a large amount of power in order to detect the proximity of the activity meter 2 in the off standby state, the body composition meter 3 in the off standby state Power consumption can be reduced.

  Further, the CPU 45 (of the microcomputer 31) of the body composition meter 3 controls the NFC communication control IC 33 to transmit a polling signal to the NFC communication control IC 23 of the activity meter 2 after the start of the generation of the magnetic field. Above, when the NFC communication control IC 33 of its own device receives a response (polling response) to the polling signal from the NFC communication control IC 23 on the active mass meter 2 side, it controls to activate the body composition meter 3. Thus, after the NFC communication control IC 33 on the body composition meter 3 receives a response to the polling signal from the NFC communication control IC 23 on the activity meter 2 side, the body composition meter 3 is activated and shifts to the ON state. Therefore, the power consumption of the body composition meter 3 can be efficiently suppressed. In addition, when the user 61 (subject) brings the activity meter 2 close to the body composition meter 3 at the time of off standby of the body composition meter 3, the body composition meter 3 can be automatically activated.

  Furthermore, according to the communication system 1 of the present embodiment, a capacitive proximity sensor is used as the proximity sensor 36, and the activity meter 2 is provided with the conductor 24 that can be detected by the proximity sensor 36. As a result, when the user 61 (subject) brings the activity meter 2 close to the body composition meter 3 in the off standby state of the body composition meter 3, the CPU 45 of the body composition meter 3 measures the activity meter 2 by the proximity sensor 36. It can be reliably detected that it has approached within the predetermined distance.

  In the communication system 1, when the conductor 24 on the activity meter 2 side is disposed at a predetermined distance from the electrode 34 of the proximity sensor 36 on the body composition meter 3 side, the NFC antenna 22 on the activity meter 2 side The conductor 24 and the NFC antenna are arranged such that the capacitance of the electrode 34 of the proximity sensor 36 is larger than when the sensor 34 is disposed at the predetermined distance (the same distance as the above) from the electrode 34 of the proximity sensor 36. It is preferable to adjust the area and dielectric constant of 22. In other words, when the conductor 24 on the activity meter 2 side is disposed at a predetermined distance from the electrode 34 of the proximity sensor 36 on the body composition meter 3 side, a capacitor composed of the conductor 24 and the electrode 34 When the NFC antenna 22 on the activity meter 2 side is disposed at a position separated from the electrode 34 of the proximity sensor 36 by the predetermined distance (the same distance as that), the NFC antenna 22 and the electrode 34 It is preferable to adjust the area and dielectric constant of the NFC antenna 22 and the electrode 34 so as to be larger than the capacitance of the configured capacitor.

  This is because, as described above, when the capacitance of the capacitor formed by the conductor 24 and the electrode 34 is larger than the capacitance of the capacitor formed by the NFC antenna 22 and the electrode 34. When the user brings the activity meter 2 close to the body composition meter 3 by adjusting the on threshold of the proximity sensor 36, as shown in FIG. This is because the capacitance of the capacitor formed of the electrode 34 can not be turned on, and the capacitance of the capacitor formed of the electrode 34 and the conductor 24 can be turned on.

  As a result, as shown in FIG. 1A, the amount of activity in the state in which the conductor 24 on the activity meter 2 side and the electrode 34 on the body composition meter 3 are vertically superimposed with space therebetween. Since there is a high possibility that NFC communication between the total 2 and the body composition meter 3 can be started, the NFC antenna 22 on the activity meter 2 side and the NFC antenna 32 on the body composition meter 3 side There is a high possibility that the NFC communication between the activity meter 2 and the body composition meter 3 can be performed in a state of being vertically superimposed on each other. Therefore, the possibility that stable NFC communication can be performed between the activity meter 2 and the body composition meter 3 is increased.

Modification:
The present invention is not limited to the configuration of the embodiment described above, and various modifications can be made without departing from the scope of the invention. Next, a modification of the present invention will be described.

Modification 1:
In said embodiment, the example in case the reader-writer side information communication apparatus and tag side information communication apparatus in a claim were a body composition meter and an active mass meter was shown. However, the reader / writer side information communication device and the tag side information communication device in the present invention are not limited to these, and, for example, any biological information measuring device other than a body composition meter and an activity meter (a sphygmomanometer, a sleep meter, It may be a urine glucose meter, a breath measuring device, a scale, etc.). Also, for example, the reader / writer side information communication apparatus may be an electric product such as a television receiver, a printer, a camera or the like, or may be an information terminal such as a personal computer or a tablet terminal. Further, the tag side information communication apparatus may be a contactless IC card such as a card type electronic money, a mobile phone, a smart phone or the like.

Modification 2:
In the above embodiment, as shown in FIG. 1A, the conductor 24 for detection by the proximity sensor 36 is provided on the activity meter 2 side, but as shown in FIG. Alternatively, metal parts such as a coin battery 71 may be used. That is, the proximity sensor 36 may detect that the activity meter 2 has approached within the predetermined distance by detecting the above-mentioned metal parts. This eliminates the need for a dedicated part to be detected by the proximity sensor 36 on the activity meter 2 side.

Modification 3:
In the above embodiment, an example in which the proximity sensor is of the capacitance type is shown, but an inductive sensor, a magnetic sensor, an ultrasonic sensor, a photoelectric sensor or the like may be used as the proximity sensor.

Modification 4:
Although in the above embodiment, NFC communication is used as the short distance wireless communication, the short distance wireless communication used in the communication system of the present invention is not limited to this. For example, the short distance wireless communication using radio waves It may be When near field communication using radio waves is used, “processing for causing the tag side communication unit (or the tag side information communication device) to shift to a state capable of near field radio communication” in the claims is transmission of radio waves. become.

Modification 5:
In the above embodiment, although the CPU 45 of the body composition meter 3 starts transmission of the polling signal when a predetermined time elapses from the start of the generation of the magnetic field, (the CPU 45 of the body composition meter 3) the proximity sensor The transmission of the polling signal may be started when a predetermined time has elapsed since the switch 36 was turned on.

Modification 6:
Although the above-mentioned embodiment described the example in case body composition meter 3 is what is called a two-leg type body composition meter, the body composition meter in the communication system of the present invention is not limited to this, for example, so-called whole body type It may be a composition meter.

Modification 7:
In the above embodiment, an example in which the weight measurement unit 44 of the body composition meter 3 uses a so-called strain gauge type load cell is shown, but for example, a magnetostrictive type, a capacitive type, a gyro type, etc. The load cell of the above may be used.

1 Communication system 2 Activity meter (tag side information communication device)
3 body composition meter (reader / writer side information communication device)
22 NFC antenna (tag side antenna)
23 NFC communication control IC (tag side communication unit)
24 conductor 32 NFC antenna (reader / writer antenna)
33 NFC Communication Control IC (Reader / Writer Communication Unit)
36 proximity sensor 45 CPU (reader / writer side controller)

Claims (4)

A communication system comprising a tag side information communication device and a reader / writer side information communication device, wherein data is transmitted / received between the tag side information communication device and the reader / writer side information communication device by near field communication. ,
The tag side information communication device
Tag side antenna for short distance wireless communication,
And a tag side communication unit for performing near field wireless communication with the reader / writer side information communication device via the tag side antenna.
The reader / writer side information communication apparatus
Reader / writer side antenna for short distance wireless communication,
A reader / writer communication unit that performs near field communication with the tag communication unit via the reader / writer antenna;
A proximity sensor that detects that the tag side information communication apparatus has approached within a predetermined distance when the reader / writer side information communication apparatus is on standby;
The reader / writer communication unit causes the tag communication unit to shift to a near-field wireless communication enabled state when the proximity sensor detects that the tag communication unit has approached within a predetermined distance. And a reader / writer control unit that controls to start processing ;
The reader / writer side information communication apparatus is a biological information measuring apparatus,
The reader / writer control unit repeatedly transmits a polling signal to the tag communication unit after the reader / writer communication unit starts processing for causing the tag communication unit to shift to a near-field wireless communication enabled state Communication system in which the reader / writer communication unit controls the biological information measuring apparatus to be in the on state when the reader / writer communication unit receives a response to the polling signal from the tag communication unit. . The tag side information communication device comprises a conductor,
The proximity sensor has an electrode, and in a state where a constant voltage is applied to the electrode, the fact that the tag-side information communication device has approached within a predetermined distance is determined based on a change in capacitance at the electrode. Detect
When the conductor is disposed at a predetermined distance from the electrode, the capacitance of the capacitor formed by the conductor and the electrode separates the tag antenna from the electrode by the predetermined distance. The area and the dielectric constant of the conductor and the tag antenna are set so as to be larger than the capacitance of the capacitor formed by the tag antenna and the electrode when arranged at the fixed position.
The on threshold value of the proximity sensor is smaller than the capacitance of the capacitor formed of the conductor and the electrode, and in the range larger than the capacitance of the capacitor formed of the tag-side antenna and the electrode The communication system according to claim 1, characterized in that it is coordinated . A reader / writer side information communication device capable of transmitting and receiving data to and from a tag side information communication device by near field communication,
Reader / writer side antenna for short distance wireless communication,
A reader / writer communication unit that performs near field communication with the tag information communication apparatus via the reader / writer antenna;
A proximity sensor that detects that the tag side information communication apparatus has approached within a predetermined distance when the reader / writer side information communication apparatus is on standby;
When the proximity sensor detects that the tag-side information communication device has approached within a predetermined distance, the reader / writer communication unit causes the tag-side information communication device to shift to a state in which near-field wireless communication is possible. and a reader-writer side control unit that controls so as to start the processing,
The reader / writer side information communication apparatus is a biological information measuring apparatus,
The reader / writer side control unit transmits a polling signal to the tag side information communication device after the reader / writer side communication unit starts processing for causing the tag side information communication device to shift to a state capable of short distance wireless communication. The reader / writer communication unit controls to turn on the biological information measuring device when receiving a response to the polling signal from the tag information communication device after controlling to repeat transmission. writer side information communication apparatus. The proximity sensor has an electrode, and in a state where a constant voltage is applied to the electrode, the fact that the tag-side information communication device has approached within a predetermined distance is determined based on a change in capacitance at the electrode. Detect
The on threshold value of the proximity sensor is smaller than the capacitance of the capacitor formed by the conductor of the tag side information communication device and the electrode, and is configured by the antenna of the tag side information communication device and the electrode The reader / writer side information communication apparatus according to claim 3 , wherein the range is adjusted to a range larger than the capacitance of the capacitor .

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