JP2000196510A - Electromagnetic induction type communication circuit to be incorporated into device and information device using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a structure for an electromagnetic induction type communi cation circuit to be incorporated into that is capable of reading information on device side in noncontact using an electromagnetic induction system contactlessly. SOLUTION: The objective information device is provided with a radio wave transmission reception section (a) that sends/receives a radio wave, a power conversion section (b) that converts the signal received by the radio wave transmission reception section (a) into power, a modulation section (d) that receives power from the power conversion section (b), modulates information from an information storage section (c) to provide an output to the radio wave transmission reception section (a), a control section (e) that receives the power from the power conversion section (b) to control the information storage section (c), the modulation section (d) and the radio wave transmission reception section (a), and an interference section (f) that receives power from a mounted device and writes information outputted from the device to the information storage section (c) through a wired line.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication circuit of an electromagnetic induction system incorporated in a device for supplying power and transmitting information by radio waves, and an information device using the same.

[0002]

2. Description of the Related Art Conventionally, an RFID (Radio Frequency) has been used as a device using an electromagnetic induction type communication circuit.
2. Description of the Related Art There is a non-contact type IC card which includes an electromagnetic induction type communication circuit as an integrated circuit (IC), which is called a y identification card. The RFID
When the card is brought close to an RFID card reader provided in a management system or the like, the RFID card receives a radio wave radiated near the RFID card reader, and the operating power of the RFID card is generated by an electromotive force generated by the radio wave. And information such as an ID previously written in the RFID card is transmitted to the RFID card reader. In addition, there has been used a device that can write or change information on an RFID card in a non-contact manner using radio communication by radio waves.

[0003]

However, a circuit used in a conventional non-contact type IC card of the electromagnetic induction type has a non-contact type with respect to a management system or the like when electric power is supplied from an RFID card reader by radio waves. It is configured only to exchange information, for example, when incorporated in a device such as an electronic sphygmomanometer and power is supplied by radio waves from an RFID card reader, the management system or the like is contactlessly contacted. It was not configured to send measurement results.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object of the present invention is to provide a device which can be incorporated in a device and which can read information on the device in a non-contact manner using an electromagnetic induction method. It is an object of the present invention to provide a structure of a communication circuit of an electromagnetic induction type for use in a computer and a structure of an information device using the same.

[0005]

In order to achieve the above object, an electromagnetic induction communication circuit for incorporating a device according to claim 1 is provided in close proximity to an external system provided with electromagnetic induction communication means. A radio transmission / reception unit that transmits and receives radio waves, a power conversion unit that inputs a signal received by the radio transmission / reception unit and converts the signal into power, and power is supplied from the power conversion unit and stored in the information holding unit. A modulation unit that inputs and modulates information and outputs the signal to the radio transmission / reception unit, and a control unit that is supplied with power from the power conversion unit and controls the information holding unit, the modulation unit, and the radio transmission / reception unit, An electromagnetic induction type communication circuit for transmitting information stored in an information holding unit to the external system by radio waves, in which power is supplied from a built-in device side, and information output from the device side is wired. It is characterized in that an interface unit for writing the inputted the information holding unit via.

According to a second aspect of the present invention, there is provided a communication circuit of an electromagnetic induction system for incorporating a device, wherein the power is supplied from the power conversion unit. A demodulation unit for inputting and demodulating a signal transmitted from an external system via the radio transmission / reception unit is provided, and predetermined information output from the demodulation unit is written in the information holding unit.

According to a third aspect of the present invention, there is provided an information device including an electromagnetic induction type communication circuit for incorporating the device according to the first aspect,
It is characterized in that information on a human body is written in the information holding unit.

According to a fourth aspect of the present invention, there is provided an information device including an electromagnetic induction type communication circuit for incorporating the device according to the second aspect,
While writing information about the human body to the information holding unit,
The information written in the information holding unit via the demodulation unit is read out via the interface unit.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [First Embodiment] A first embodiment of the present invention will be described with reference to FIG. FIG. 1 is a configuration diagram showing the configuration of an electromagnetic induction type communication circuit for incorporating a device according to the present invention. The electromagnetic induction communication circuit 1
A radio transmission / reception unit a for transmitting and receiving radio waves to and from an electromagnetic induction type communication means provided in a management system or the like (external system, not shown) which is separate from a device to be incorporated (not shown); A power converter b for inputting a signal received by the radio transmitter / receiver a and converting it to electric power, and inputting and storing information supplied from the power converter b and stored in the information holding unit c to transmit and receive radio waves Modulation unit d to output to unit a
And a control unit e that is supplied with power from the power conversion unit b and controls the information holding unit c, the modulation unit d, and the radio wave transmission / reception unit a, and output from the device side when power is supplied from the incorporated device side. Information is input via a wire and an information holding unit c
And an interface unit f for writing the data to the.
The communication circuit 1 of the electromagnetic induction system described above usually has
The information holding unit c is configured as an integrated circuit,
It is configured using an EPROM. The interface unit f may be configured using, for example, an IIC bus.
Further, the power conversion unit b may have a structure integrated so as to generate the induced electromotive force using two coils,
In particular, the structure is not limited.

FIG. 2 shows a configuration of a portable health measuring device 2 incorporating an electromagnetic induction type communication circuit 1. The health measuring device 2 is an electromagnetic induction type communication circuit 1. And an information source 4 connected to the interface unit f of the wireless LAN via the wired communication path 3. However, here
The illustration and detailed description of other configurations of the health measuring device 2 are omitted. The information source 4 includes, for example, physiological information of the human body output by a thermometer, a sphygmomanometer, a heart rate monitor, an electrocardiograph, a blood glucose meter, etc. May be configured to be stored as long as the information is related to the human body. In addition, not only one type of information but also a plurality of types of information may be stored.

The operation of the health measuring device 2 will be described with reference to FIG. First, information is written from the information source 4 to the information holding unit c. In this case, power is supplied from the internal power supply (not shown) of the health measurement device 2 to the interface unit f and the information holding unit c, and information is written from the information source 4 to the information holding unit c via the interface unit f. As described above, since the power for driving the interface unit f and the information holding unit c is supplied from the health measuring device 2 side,
When the operation of reflecting the information of the information source 4 to the information stored in the information holding unit c is performed, there is no need to supply electric power by irradiating radio waves from outside the health measuring device 2. Further, if the information holding unit c is formed of an EEPROM, power for holding the information stored in the information holding unit c is unnecessary, and therefore, the health measuring device 2 is used only at the time of writing.
It is only necessary to supply power from the side.

Next, a case where information written in the information holding section c is read out in a non-contact manner will be described. in this case,
As shown in FIG. 3, the health measuring device 2 is an electromagnetic induction communication device provided in a health management system 5 (external system) such as a home health management terminal that manages and processes data related to the health of the user. g. The communication means g
It has a function of communicating with the health measuring device 2 and is configured to supply electric power to the electromagnetic induction type communication circuit 1 built in the health measuring device 2 by radio waves. By bringing the health measuring device 2 close to the communication means g, the radio wave transmission / reception unit a receives the radio wave radiated by the communication means g, and the power conversion unit b converts the output of the radio wave transmission / reception unit a power to control. The control unit e reads out the information stored in the information holding unit c, modulates the read out information with the modulation unit d, radiates a radio wave from the radio wave transmitting and receiving unit a, The information is transmitted to the communication means g via the wireless communication path 6 according to. Here, the external system is described as the health management system 5, but is not limited to the embodiment shown in FIG.

By using the health measuring device 2 configured as described above, the user wearing the health measuring device 2 simply approaches the health management system 5 (external system), and 2 can transfer the data on the user's health measured by the user 2 to the health management system 5, thereby preventing data input errors or forgetting to be input. In addition, since the power for communication of the electromagnetic induction type is supplied from the health management system 5, it is not necessary to provide the power for wireless transmission on the health measuring device 2 side, and the device is provided with wireless communication means. Nevertheless, it is possible to promote a reduction in the size, weight, and power consumption of the health measurement device 2.

Further, since the health measuring device 2 does not have a power supply for supplying power for communication of the electromagnetic induction system inside, the health measuring device 2 has a communication unit g of the electromagnetic induction system shown in FIG.
In a place where a reader for wireless communication by the electromagnetic induction method is not installed, the health measurement device 2 does not emit an electromagnetic wave in principle. That is, no matter how the health measuring device 2 fails, the health measuring device 2 cannot emit radio waves. Therefore, even if the health measurement device 2 of the present invention is brought into a critical place such as a hospital where a large number of devices sensitive to electromagnetic waves are installed or communication by electromagnetic waves leads to a fatal error, problems due to electromagnetic waves may occur. You can be assured that nothing will happen. In such a special case, the health measurement device 2 having the built-in communication circuit of the electromagnetic induction system according to the present invention exerts a particularly advantageous effect.

In the case of a method of transmitting data using infrared communication, an input operation such as pressing a transmission button with an emission port for emitting infrared light facing is required. In the method 2, since the measured data on the user's health is transferred only when the user approaches the external system, no input operation is required.

[Second Embodiment] A second embodiment of an electromagnetic induction type communication circuit for incorporating a device according to the present invention will be described with reference to the configuration diagram of FIG. Since the communication circuit 7 shown in FIG. 4 includes the demodulation unit h in the communication circuit 1 shown in FIG. 1, the same components as those shown in FIG. Description is omitted. Here, the demodulation unit h is configured to be supplied with power from the power conversion unit b, input a signal transmitted by an external system via the radio wave transmission / reception unit a, and demodulate the signal.

Next, the operation of the electromagnetic induction type communication circuit shown in FIG. 4 will be described. When the communication means g provided in the external system as shown in FIG. 3 puts information on a radio wave and irradiates the electromagnetic induction type communication circuit, the radio wave transmitting / receiving unit a receives the radio wave and a part of the radio wave. Is power-converted by the power converter b, and power is supplied to the controller e, the modulator d, and the demodulator h, and the information is demodulated by the demodulator h.
Then, the control unit e performs an operation of analyzing the demodulated information and storing the information in at least a part of the information holding unit c.

With this configuration, each of the health measuring devices carried by the user has an I-specific
D or information or the like defining the operation of the health measuring device can be registered or rewritten on the user side. For example, for a plurality of users, in a health management system or a home health management system, etc., it is possible to distinguish which information is transmitted from the health management device to which user and what data is measured, Individual health care can be performed.

Further, as information that defines the operation of the health measuring device, for example, a doctor or a nurse or the like according to the user's health condition or the like can prepare a data measurement schedule (data type, time, Just input the time interval, number of times, etc.) into the health management system, and when the user approaches the leader of the health management system,
Since such information can be transferred collectively, a plurality of types of measuring devices provided in the health measuring device can be easily controlled.

[0020]

As described above, according to the electromagnetic induction type communication circuit for incorporating the device according to the first and second aspects, the information device is mounted on an information device such as a health measuring device and mounted. By simply approaching an external system such as a health management system, the user can transfer the data on the user's health and the like measured by the information device to the external system. Also, since power for electromagnetic induction communication is supplied from an external system, there is no need to provide power for wireless transmission on the information device side, and the device is provided with wireless communication means. In addition, it is possible to promote reduction in size, weight, and power consumption of information devices.

Further, since the information equipment does not have a power supply for supplying power for electromagnetic induction communication, the information equipment cannot operate in a place where a reader for electromagnetic communication wireless communication is not installed. No radio waves are emitted from information devices, no matter how it breaks down, so many devices vulnerable to electromagnetic waves are installed.Communication by electromagnetic waves leads to fatal errors Even if the information device is brought into a critical place such as in a hospital, there is no problem caused by electromagnetic waves.

In the case of a method of transmitting data using infrared communication, an input operation such as pressing a transmission button with a radiation port for emitting infrared light facing is required. In the information equipment using the communication circuit of the electromagnetic induction system, the measured data on the user's health is transferred simply by the user approaching an external system, so that no input operation is required.

Further, according to the communication circuit of the electromagnetic induction system for incorporating a device, an ID unique to the user or an operation of the information device is defined for each of the information devices carried by the user. Information and the like can be registered and rewritten on the user side.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing a configuration of an electromagnetic induction type communication circuit for incorporating a device according to the present invention.

FIG. 2 is a schematic configuration diagram of a device incorporating a communication circuit of an electromagnetic induction system for incorporating the device of the present invention.

FIG. 3 is an explanatory diagram illustrating an operation of a device incorporating an electromagnetic induction type communication circuit for incorporating the device of the present invention.

FIG. 4 is a configuration diagram showing a configuration of an electromagnetic induction type communication circuit for incorporating a device according to the present invention.

[Explanation of symbols]

 1,7 Electromagnetic induction type communication circuit 2 Health measuring device (information device) 3 Wired communication path (wired) 5 Health management system (external system) a Radio wave transmitting / receiving unit b Power conversion unit c Information holding unit d Modulation unit e Control unit f Interface unit g Communication means h Demodulation unit

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Jin Sakakibara 1048 Kadoma Kadoma, Osaka Prefecture Matsushita Electric Works Co., Ltd. (72) Inventor ▲ Satoshi Iki 1048 Kadoma Kadoma Kadoma City, Osaka Pref. In-company (72) Inventor Masaru Hashimoto 1048 Kadoma, Kadoma, Osaka Pref.Matsushita Electric Works Co., Ltd. (72) Inventor Kazuya Kitayama 1048 Kadoma, Kazuma, Kadoma, Osaka Pref. Person Keiichi Yoshida 1048 Kadoma Kadoma, Kadoma City, Osaka Prefecture (72) Inventor Osamu Nishimura 1048 Kadoma Kadoma, Kadoma City, Osaka Prefecture Inside Matsushita Electric Works Co., Ltd. (72) Yoshiko Suzuki Kadoka Kadoma, Osaka Prefecture 1048 Kadoma Matsushita Electric Works Co., Ltd. F-term (reference) 5K012 AA01 AB02 AC08 AC10 AC11 AC13 AE13 BA03

Claims (4)

[Claims] 1. A radio wave transmitting / receiving unit for transmitting and receiving a radio wave in close proximity to an external system provided with an electromagnetic induction type communication means, and a signal received by the radio wave transmitting / receiving unit is inputted and converted into electric power. A power conversion unit, a modulation unit that receives power supplied from the power conversion unit and stores the information stored in the information holding unit, modulates the information, and outputs the modulated information to the radio wave transmission / reception unit; A control unit for controlling the holding unit and the modulation unit and the radio wave transmitting and receiving unit, an electromagnetic induction type communication circuit for transmitting information stored in the information holding unit to the external system by radio waves, Power supplied from the connected device, and an interface unit for inputting information output from the device side via a wire and writing the information into the information holding unit. A magnetic induction type communication circuit. 2. A demodulation unit to which power is supplied from the power conversion unit and which receives and demodulates a signal transmitted by the external system via the radio wave transmission / reception unit, and outputs predetermined information output from the demodulation unit. The communication circuit according to claim 1, wherein the information is written in the information holding unit. 3. An information device, comprising: a communication circuit of an electromagnetic induction system for incorporating a device according to claim 1, wherein information relating to a human body is written in the information holding unit. 4. An information processing apparatus according to claim 2, further comprising an electromagnetic induction communication circuit for incorporation into a device, wherein information on a human body is written to said information holding unit and written to said information holding unit via said demodulation unit. An information device for reading information through the interface unit.