JP5798894B2 - Magnetic field sensor, recording device and measurement system - Google Patents

Description

  The present invention relates to a magnetic field sensor, a recording apparatus, and a measurement system.

  Conventionally, magnetic field sensors that detect magnetic field strength are known. There are various types of magnetic field sensors, such as coils, Hall elements, magnetoresistive elements, magneto-impedance elements, magneto-optical elements, and superconducting quantum interference elements. Considering the difference between AC and DC, the difference in measurement environment, etc., an appropriate sensor is selected according to the purpose. Among these, a magnetic field sensor using a magneto-optical element is known (see, for example, Patent Document 1).

JP-A-7-209396

  Here, since the magnetic field strength at the time of transmission / reception of the electromagnetic induction tag has a large difference in magnetic field strength between the distance and the vicinity of the receiver, it is difficult to cover the entire range with a general magnetic field sensor. For this reason, a magnetic field sensor and a magnetic field strength measurement system that have a simple configuration and can handle a wide range of magnetic field strengths have been desired.

  An object of the present invention is to provide a magnetic field sensor, a recording apparatus, and a measurement system that can be simplified in configuration and can handle a wide range of magnetic field strengths.

  In order to achieve the above-described object, the magnetic field sensor of the present invention is a magnetic field sensor that detects the magnetic field strength of a transmission / reception device that transmits and receives information to and from an electromagnetic induction tag using electromagnetic waves, and is guided according to the magnetic field strength. An antenna that generates an electric current by electromagnetic induction; and an output unit that outputs an induced current generated by the antenna. The antenna is set to the same reception frequency as a transmission / reception antenna included in the electromagnetic induction tag. The antenna is provided to be replaceable.

  According to the present invention, the antenna generates an induced current according to the magnetic field strength (electromagnetic wave strength) by electromagnetic induction, and the output unit outputs the induced current to, for example, a device to which the magnetic field sensor is connected. According to this, since the voltage value of the induced current changes according to the magnetic field strength, the voltage value is measured by comparing the voltage value with the voltage value of the induced current according to the predetermined magnetic field strength. Sensing the magnetic field strength of the target transceiver. Since such a magnetic field sensor has a simple configuration including an antenna and an output unit, the magnetic field sensor can be configured relatively easily. In addition, since the antenna has the same reception frequency as that of the transmission / reception antenna of the electromagnetic induction tag that transmits / receives information to / from the transmission / reception device, the magnetic field strength of the transmission / reception device can be sensed more accurately. . Further, since the antenna can be exchanged, it can cope with a wide range of magnetic field strengths.

The recording apparatus of the present invention includes the above-described magnetic field sensor and a recording unit that records a voltage value of the induced current output from the magnetic field sensor.
According to the present invention, it is possible to achieve the same effect as the magnetic field sensor described above.
In addition, since the recording unit records the voltage value of the induced current output from the magnetic field sensor, it is not necessary for the device for calculating the magnetic field strength to acquire the voltage value of the induced current in real time. Therefore, the sensing result by the magnetic field sensor can be acquired at a desired timing. Note that a current value may be recorded instead of the voltage value.

The measurement system of the present invention includes the above-described recording device and a processing device that analyzes the recording content of the recording device, and the recording device includes a transmission unit that transmits the voltage value of the induced current, The processing device includes an acquisition unit that acquires a voltage value of the induced current transmitted from the recording device, and a conversion unit that converts the voltage value of the induced current acquired by the acquisition unit into the magnetic field strength. It is characterized by that.
According to the present invention, the same effects as those of the recording apparatus described above can be obtained. In addition, since the conversion unit converts the voltage value of the induced current acquired by the acquisition unit into the magnetic field strength, it is not necessary to include a configuration for converting the voltage value in the recording apparatus. Therefore, the configuration of the recording apparatus can be further simplified, and the recording apparatus can be downsized. When the recording device is configured to record the current value of the induced current, the acquisition unit of the processing device acquires the current value of the induced current from the recording device, and the conversion unit of the processing device is acquired. The current value may be converted into the magnetic field strength.

  According to the present invention, the configuration of a magnetic field sensor that can detect a wide range of magnetic field strengths can be simplified.

The block diagram which shows the structure of the measurement system which concerns on one Embodiment of this invention. The block diagram which shows the structure of the processing apparatus in the said embodiment. The block diagram which shows the structure of the magnetic field sensor in the said embodiment. The block diagram which shows the function of the control part in the said embodiment. 3 is a flowchart showing processing of the processing device and the recording device in the embodiment. The graph which shows an example of the measurement result by the measurement system in the said embodiment.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a measurement system 1 according to the present embodiment.
As shown in FIG. 1, the measurement system 1 according to the present embodiment includes a processing device 2, a transmission / reception device 3, and a recording device 4 having a magnetic field sensor 6. In the measurement system 1, the recording device 4 records the voltage value of the induced current output from the magnetic field sensor 6 as a sensing result by the magnetic field sensor 6 and the voltage value transmitted from the recording device 4. The processing device 2 acquires it via the transmission / reception device 3 and converts it into magnetic field strength.

[Configuration of processing equipment]
FIG. 2 is a block diagram showing a configuration of the processing device 2.
The processing device 2 is configured by a PC (Personal Computer) or the like, and as described above, a sensing result of a predetermined measurement target (for example, a magnetic field generated by a reader / writer described later) from the recording device 4 via the transmission / reception device 3. Acquire and analyze the sensing results. Such a processing apparatus 2 includes an operation unit 21 and a connection unit 22 as illustrated in FIG. The processing device 2 includes a storage unit 23 composed of an HDD (Hard Disc Drive) or the like, a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like. When the CPU processes various programs and data stored in the ROM and the storage unit 23, the CPU has a function shown as the control unit 24.

The operation unit 21 includes a keyboard and a pointing device such as a mouse, and the operation unit 21 outputs an operation signal corresponding to a user's input operation to the control unit 24.
The connection unit 22 has a terminal to which a transmission / reception device 3 described later is connected. Examples of such terminals include USB (Universal Serial Bus) terminals.
The storage unit 23 stores various programs and data necessary for the operation of the processing device 2. For example, the storage unit 23 stores a sensing result acquired from the recording device 4 and stores a program and data for analyzing the sensing result. As such data, the storage unit 23 stores a table in which the voltage value of the induced current is associated with the magnetic field strength (for example, the strength level and the magnetic flux density).

The control unit 24 controls the operation of the entire apparatus based on an operation signal input from the operation unit 21 or autonomously. The control unit 24 includes functional units shown as an operation determination unit 241, a timing unit 242, a condition setting unit 243, a condition information transmission unit 244, a result acquisition unit 245, and a conversion unit 246.
The operation determination unit 241 determines the type of the operation signal input from the operation unit 21. That is, the operation determination unit 241 determines a user's input operation to the operation unit 21.
The time measuring unit 242 measures the current time.

The condition setting unit 243 sets conditions for obtaining the sensing result by the recording device 4 based on the operation signal from the operation unit 21. In the present embodiment, the condition setting unit 243 sets a sampling rate as the acquisition condition.
The condition information transmission unit 244 generates condition information including the acquisition condition set by the condition setting unit 243 and time information indicating the current time measured by the time measuring unit 242. Then, the condition information transmission unit 244 transmits the generated condition information to the recording device 4 via the transmission / reception device 3 connected to the connection unit 22.

The result acquisition unit 245 corresponds to the acquisition unit of the present invention, and acquires the sensing result from the recording device 4. Specifically, the result acquisition unit 245 transmits a command for transmitting the sensing result (voltage value of the induced current) to the recording device 4 via the transmission / reception device 3. Then, the result acquisition unit 245 acquires the sensing result from the recording device 4 and causes the storage unit 23 to store the sensing result.
The converter 246 converts the acquired voltage value of the induced current into the magnetic field strength to be measured. At this time, the conversion unit 246 refers to the above-described table stored in the storage unit 23 and converts the acquired voltage value of the induced current into the magnetic field strength to be measured.

[Configuration of transceiver]
The transmission / reception device 3 is connected to the processing device 2 and transmits / receives information to / from the recording device 4 under the control of the processing device 2. The transmission / reception device 3 transmits various information (for example, command and condition information) input from the processing device 2 to the recording device 4 and processes various information (for example, sensing results) received from the recording device 4. Output to device 2.
In this embodiment, such a transmission / reception device 3 is configured as a reader / writer that can transmit / receive information to / from a recording device 4 having a function of an RFID (Radio Frequency Identification) tag. In the present embodiment, the transmission / reception device 3 and the processing device 2 are connected by a protocol compliant with the USB standard.

[Configuration of recording device]
FIG. 3 is a block diagram showing the configuration of the magnetic field sensor 6.
As shown in FIG. 1, the recording device 4 includes a device main body 5 and a magnetic field sensor 6 connected to the device main body 5.
The magnetic field sensor 6 senses the magnetic field strength of the measurement target and outputs the generated induced current to the apparatus body 5. As shown in FIG. 3, the magnetic field sensor 6 includes an antenna 61 and an output unit 62.

  The antenna 61 receives an electromagnetic wave emitted from the antenna to be measured, generates an induced current by electromagnetic induction, and outputs the induced current to the output unit 62. In the present embodiment, the magnetic field sensor 6 is for detecting the magnetic field strength of a reader / writer (transceiver in the present invention) that communicates with a passive RFID (Radio Frequency Identification) tag that is an electromagnetic induction tag in the present invention. Therefore, the antenna 61 has the same shape (that is, the same reception frequency characteristic) as that of the antenna used for the passive RFID tag. In this embodiment, the antenna 61 receives an electromagnetic wave having a frequency of 13.56 MHz used for communication between the RFID tag and the reader / writer, and generates an induced current by electromagnetic induction. The frequency of the electromagnetic wave received by the antenna 61 is not particularly limited, and when the frequency is changed, the antenna may be replaced with an RFID tag antenna that actually communicates with the reader / writer to be measured. That is, in this embodiment, the antenna 61 can be exchanged for the magnetic field sensor 6.

The output unit 62 outputs the induced current generated in the antenna 61 to the apparatus main body 5 as a voltage value. The output unit 62 includes an antenna connection terminal 63, an AC / DC conversion circuit 64, and a terminal unit 65.
The antenna connection terminal 63 is connected to the antenna 61.
The AC / DC converter circuit 64 converts alternating current induced current input from the antenna 61 through the antenna connection terminal 63 into direct current induced current, rectifies it, and outputs it to the terminal section 65.
The terminal unit 65 is connected to the apparatus main body 5 and outputs an induced current input from the AC / DC converter circuit 64 to the apparatus main body 5.

[Device configuration]
Although not shown in detail, the apparatus main body 5 has dimensions that can be accommodated in the palm, and obtains and records the sensing result (the voltage value of the induced current input from the magnetic field sensor 6) by the magnetic field sensor 6. Then, the sensing result is transmitted to the processing device 2 via the transmission / reception device 3. The transmission of the sensing result can be performed by the recording device 4 both when it is executed after the sensing result is recorded and when it is executed in real time.
As shown in FIG. 1, the apparatus main body 5 includes an operation unit 51, a terminal unit 52, an adjustment unit 53, a clock generation unit 54, a power supply unit 55, a transmission / reception unit 56, and a control unit 57.

  The operation unit 51 includes a push switch, and the operation unit 51 outputs an operation signal to the control unit 57 while the push switch is on. As such a push switch, a position holding type switch is employed in the present embodiment. This position holding type switch is a switch that continues to be turned on when the switch is input once and switches to the off state when the switch is input again. However, the present invention is not limited to this, and an automatic return type switch that is turned on while a switch is being input and turned off while the switch is not being input may be employed.

The magnetic field sensor 6 is inserted into and removed from the terminal portion 52.
The adjustment unit 53 is for calibrating the sensing result input from the terminal unit 52 to the control unit 57. That is, the adjustment unit 53 adjusts the voltage input to the control unit 57 so that the sensing result when sensing a known measurement target is appropriately input from the terminal unit 52 to the control unit 57. belongs to. In the present embodiment, such an adjustment unit 53 is configured by a variable resistor, and calibration is performed by a user adjusting the resistance value of the variable resistor.

The clock generator 54 generates a clock signal having a predetermined frequency. In this embodiment, the clock generation unit 54 generates a clock signal having a frequency of 32.768 kHz. The frequency of this clock signal can be changed as appropriate.
The power supply unit 55 supplies driving power to each unit of the apparatus body 5. Such a power supply unit 55 is constituted by a battery in the present embodiment, but the battery may be a secondary battery. Similarly to the magnetic field sensor 6, the power supply unit 55 may be configured to generate an induced current from an electromagnetic wave received from the outside by an antenna and supply the induced current as drive power.

  The transmission / reception unit 56 includes an antenna that communicates with the transmission / reception device 3, and performs transmission / reception of information using the transmission / reception device 3 and radio waves with a frequency of 13.56 MHz. Here, the protocol when the apparatus main body 5 communicates with the transmission / reception apparatus 3 via the transmission / reception unit 56 is different from the protocol when the apparatus main body 5 senses the magnetic field intensity using the magnetic field sensor 6. For this reason, it can suppress that each communication interferes.

FIG. 4 is a block diagram illustrating functions of the control unit 57.
The control unit 57 is configured by an IC (Integrated Circuit) and controls the operation of the recording device 4. As shown in FIG. 4, the control unit 57 includes a storage unit 571, a command analysis unit 572, a condition acquisition unit 573, a time measurement unit 574, a condition setting unit 575, an operation determination unit 576, a result recording unit 577, and a result transmission unit 578. It has the function shown by.

The storage unit 571 is configured by a flash memory, and stores a program and various data for the control unit 57 to function.
The command analysis unit 572 analyzes the reception information received by the transmission / reception unit 56, and whether or not the condition information is included in the reception information and the command included in the reception information transmits the sensing result. Determine if it is a command.

When it is determined that the condition information is included, the condition acquisition unit 573 acquires the condition information.
The timer unit 574 measures the current time based on the time information included in the condition information.
The condition setting unit 575 sets an acquisition condition for sensing results obtained by the magnetic field sensor 6 based on the acquisition condition included in the condition information. That is, the condition setting unit 575 sets at least the sampling rate of sensing by the magnetic field sensor 6.

Based on the operation signal input from the operation unit 51, the operation determination unit 576 determines whether or not the switch of the operation unit 51 has been turned on.
When the operation determination unit 576 determines that the switch is turned on, the result recording unit 577 performs A / D conversion on the signal (inductive current) input from the magnetic field sensor 6 and converts the voltage of the converted signal. The value (voltage value of the induced current) is stored in the storage unit 571 as a sensing result. At this time, the result recording unit 577 acquires a sensing result based on the set acquisition condition, and stores the sensing result and time information indicating the current time measured by the time measuring unit 574 in the storage unit 571. Let

  The result transmission unit 578 constitutes the transmission unit of the present invention together with the transmission / reception unit 56. When the command analysis unit 572 determines that the command for transmitting the sensing result is received, the result transmission unit 578 causes the transmission / reception unit 56 to transmit the sensing result stored in the storage unit 571. In addition, since the transmission of the sensing result by the result transmission unit 578 is performed when the command is received, as described above, when it is determined that the command is received during the sensing by the magnetic field sensor 6, The result transmission unit 578 causes the transmission / reception unit 56 to transmit the sensing result from the magnetic field sensor 6 in real time.

[Measurement system processing]
FIG. 5 is a flowchart showing processing of the processing device 2 and the recording device 4.
In the measurement system 1, the processing device 2 and the recording device 4 execute the following processing to acquire and analyze the sensing result by the magnetic field sensor 6.
That is, as shown in FIG. 5, first, the processing device 2 transmits condition information including acquisition conditions and time information set by an operation on the operation unit 21 to the recording device 4 via the transmission / reception device 3 ( Step SA1).

On the other hand, in the recording device 4, the condition acquisition unit 573 acquires the condition information included in the reception information (step SB1). And based on the said condition information, while the time measuring part 574 time-measures the present time (step SB2), the condition setting part 575 sets the acquisition result of a sensing result (step SB3).
Thereafter, in the recording device 4, the operation determination unit 576 determines whether or not an operation for starting recording has been performed on the operation unit 51 (whether or not the switch has been turned on) (step SB4). If it is determined in the determination process in step SB4 that the operation is not performed, the control unit 57 repeatedly executes step SB4.

  If it is determined in step SB4 that the operation for starting recording has been performed, the result recording unit 577 stores the sensing result of the magnetic field sensor 6 in the storage unit 571 together with the current time, and the sensing The result is recorded (step SB5). Recording of the sensing result in step SB5 is performed under the set acquisition condition (for example, the sampling rate) while the switch of the operation unit 51 is in the on state. Then, when the switch is turned off, the control unit 57 ends the process. When the switch is turned on again, the result recording unit 577 records the sensing result again until the switch is turned off.

  If the command analysis unit 572 determines that a command for transmitting the sensing result has been received, the result transmission unit 578 transmits the sensing result and time information stored in the storage unit 571 by the transmission / reception unit 56. (Step SB6). As described above, the command may be received even during sensing by the magnetic field sensor 6. In this case, the sensing result and time information are transmitted in real time.

  On the other hand, in the processing device 2, the result acquisition unit 245 transmits a command for transmitting the sensing result to the recording device 4 via the transmission / reception device 3, and whether or not the sensing result is received from the recording device 4 in response thereto. Is determined (step SA2). Here, if it is determined that the sensing result is not received, the result acquisition unit 245 repeatedly executes the determination process of step SA2 until the sensing result is received.

On the other hand, if it is determined in step SA2 that the sensing result has been received, the result acquisition unit 245 acquires the received sensing result (step SA3). This sensing result is stored in the storage unit 23.
Then, the conversion unit 246 converts the voltage value of the induced current, which is the sensing result, into a magnetic field strength (Step SA4). Then, the conversion unit 246 executes processing such as graphing the converted magnetic field strength, for example.
Thus, the processing of the processing device 2 and the recording device 4 is completed.

[Measurement example by measurement system]
FIG. 6 is a graph showing the measurement results obtained by the measurement system 1. Specifically, FIG. 6 is a graph showing the magnetic field strength level generated by three reader / writers arranged at equal intervals. In FIG. 6, the magnetic field strength is indicated by 256 gradation levels.
The measurement system 1 according to the present embodiment can be suitably used, for example, in the following cases.
When a plurality of readers / writers that transmit / receive information to / from the RFID tag are arranged, when a magnetic field generated by each reader / writer receives interference of a magnetic field generated by another reader / writer, the reader / writer There is a possibility that proper communication between the RFID tag and the RFID tag cannot be performed. However, whether or not such magnetic field interference occurs can be determined only by measuring the magnetic field strength generated by each reader / writer.

For this reason, for example, after replacing the antenna 61 of the magnetic field sensor 6 with the same antenna as that of the RFID tag, along the arrangement direction of three readers / writers that are arranged at equal intervals, The magnetic field sensor 6 connected to the recording device 4 is moved, and the result recording unit 577 records the voltage value of the induced current generated in the magnetic field sensor 6 according to the magnetic field intensity generated by each reader / writer. A graph of the result of converting the voltage value into the intensity level of the magnetic field by the processing device 2 is the graph shown in FIG.
In this measurement example, as shown in FIG. 6, the main lobe M of the magnetic field by each reader / writer is independent, and the side lobe S of the magnetic field is also the main lobe M and side lobe S of the other magnetic field. Does not interfere with. Therefore, each of the three readers / writers can communicate with the RFID tag individually, indicating that the distance between each reader / writer is sufficiently large.

[Effect of the embodiment]
The measurement system 1 according to the present embodiment described above has the following effects.
In the magnetic field sensor 6, the antenna 61 generates an induced current according to the magnetic field intensity by electromagnetic induction, and the output unit 62 outputs the induced current to the apparatus body 5 as a voltage value. According to this, since the voltage value of the induced current changes according to the magnetic field strength, the magnetic field strength of the measurement target can be sensed based on the voltage value. Such a magnetic field sensor 6 has an antenna 61 and an output unit 62, and the magnetic field sensor 6 can be configured relatively easily.
The antenna 61 is set to the same reception frequency as the transmission / reception antenna of the RFID tag that transmits / receives information to / from the reader / writer described above by electromagnetic waves. According to this, the magnetic field strength of the reader / writer can be sensed more accurately. Furthermore, since the antenna 61 can be exchanged for the magnetic field sensor 6, it can cope with a wide range of magnetic field strengths.

  In the recording device 4, the result recording unit 577 of the device body 5 records the voltage value of the induced current input from the magnetic field sensor 6, so that the processing device 2 that calculates the magnetic field strength calculates the voltage value of the induced current. There is no need to obtain and process in real time. Therefore, the sensing result by the magnetic field sensor 6 can be acquired at a desired timing, and the convenience of the measurement system 1 can be improved.

  In the processing device 2, the conversion unit 246 converts the voltage value of the induced current acquired by the result acquisition unit 245 into the magnetic field strength. According to this, it is not necessary to include in the recording device 4 a configuration for converting the voltage value. Therefore, the configuration of the recording apparatus 4 can be further simplified, and the recording apparatus 4 can be downsized. Further, when the processing device 2 performs the conversion processing to the magnetic field strength, the processing can be speeded up as compared with the case where the recording device 4 performs the processing.

[Modification of Embodiment]
The present invention is not limited to the above-described embodiment, and modifications, improvements, and the like within the scope that can achieve the object of the present invention are included in the present invention.
In the embodiment, the processing device 2 converts the sensing result (voltage value of the induced current) acquired from the recording device 4 via the transmission / reception device 3 into the magnetic field strength, but the present invention is not limited to this. That is, the apparatus main body 5 of the recording apparatus 4 may perform conversion, or the transmission / reception apparatus 3 may perform conversion, and the processing apparatus 2 may receive a conversion result obtained by the conversion.
Further, the recording device 4 is not limited to the configuration that records the voltage value of the induced current as the sensing result, but may be configured to record the current value of the induced current. In this case, the result acquisition unit 245 (acquisition unit) of the processing device 2 acquires the current value of the induced current from the recording device 4, and the conversion unit of the processing device 2 measures the acquired current value of the induced current. What is necessary is just to convert into the magnetic field intensity of object.

  In the embodiment, the recording device 4 records the sensing result when the switch of the operation unit 51 is in the on state, but the present invention is not limited to this. For example, when the processing device 2 transmits the condition information, the start time and the end time at which sensing by the magnetic field sensor 6 is started are transmitted, and when the time measured by the time measuring unit 574 reaches the start time, the result recording unit 577 May start recording the sensing result and end the recording when the end time is reached. Further, the start time may be set in the apparatus body 5. That is, the recording device 4 may have a timer function.

  In the embodiment, the result recording unit 577 records the sensing result based on the acquisition condition included in the condition information received from the processing device 2, but the present invention is not limited to this. That is, the result recording unit 577 may acquire and record sensing results based on preset acquisition conditions.

  In the said embodiment, although the time measuring part 574 timed the present time based on the present time contained in condition information, this invention is not limited to this. In other words, the timekeeping unit 574 is not necessarily limited to the configuration for keeping the current time. For example, after acquiring the condition information, the time from when the switch of the operation unit 51 is first switched to the ON state may be measured.

  In the said embodiment, although the transmission / reception part 56 of the apparatus main body 5 and the transmission / reception apparatus 3 transmitted / received information using the electromagnetic wave (carrier wave) with a frequency of 13.56 MHz, this invention is not limited to this. That is, as long as information can be transmitted and received between the transmission / reception unit 56 and the transmission / reception device 3, the frequency of the radio wave used can be changed as appropriate. Further, the recording device 4 and the transmission / reception device 3 may be connected by wire, and further, the recording device 4 and the processing device 2 may be directly connected. Further, when the recording device 4 and the processing device 2 are connected by wire, the processing device 2 may supply driving power for the recording device 4.

  The present invention can be used for a magnetic field sensor, and can be suitably used for a recording device that records a sensing result by the magnetic field sensor and a measurement system including the recording device.

  DESCRIPTION OF SYMBOLS 1 ... Measurement system, 2 ... Processing apparatus, 4 ... Recording apparatus, 6 ... Magnetic field sensor, 56 ... Transmission / reception part (transmission part), 61 ... Antenna, 62 ... Output part, 245 ... Result acquisition part (acquisition part), 246 ... Conversion unit, 777 ... result recording unit (recording unit), 578 ... result transmission unit (transmission unit).

Claims (3)

A magnetic field sensor for detecting the magnetic field strength of a transmitting / receiving device that transmits and receives information to and from an electromagnetic induction tag by electromagnetic waves,
An antenna for generating an induced current according to the magnetic field intensity by electromagnetic induction;
An output unit that outputs an induced current generated by the antenna;
The magnetic field sensor, wherein the antenna has the same reception frequency as that of the transmission / reception antenna included in the electromagnetic induction tag, and the antenna is provided in a replaceable manner. A magnetic field sensor according to claim 1;
And a recording unit that records a voltage value of the induced current output from the magnetic field sensor. A recording apparatus according to claim 2;
A processing device for analyzing the content recorded by the recording device,
The recording apparatus includes a transmission unit that transmits a voltage value of the induced current,
The processor is
An acquisition unit for acquiring a voltage value of the induced current transmitted from the recording device;
And a conversion unit that converts the voltage value of the induced current acquired by the acquisition unit into the magnetic field intensity.

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