WO2011148757A1 - Communication device - Google Patents

Abstract

Provided is a communication device capable of achieving a sufficient reduction in power consumption in a communication system for performing communication using the surface electric field of a transmission medium such as a human body. A communication device (1) is provided with an electric field communication modulation/demodulation unit (6) for performing electric field communication with a communication device on the transmission medium side via an electric field communication electrode (2), a control unit (13) for controlling the operation of the electric field communication modulation/demodulation unit (6), a power supply unit (4) for supplying power to the control unit (13), a switch (5) for turning on or off the power from the power supply unit (4) to the control unit (13), and a detection unit (3) for, when the switch (5) is in a turn-off state, switching the switch to a turn-on state by the displacement of the electric field of a transmission medium received by the electric field communication electrode (2) when part of the transmission medium is brought into contact with or into proximity at a predetermined distance or less to the electric field communication electrode (2).

Description

Communication device

The present invention relates to a communication apparatus that performs communication (hereinafter referred to as “electric field communication”) using a surface electric field of a transmission medium such as a human body.

2. Description of the Related Art Conventionally, an electronic key system that performs communication between an electronic key attached to a human body and an electronic lock device via the human body is known (see Patent Document 1). The electronic key of this electronic key system is provided with a normal mode in which the entire electronic key is normally operated and a standby mode in which only a part of the functions of the electronic key are operated. When the human body does not touch, it is configured to switch to the standby mode and suppress power consumption. In the standby mode, the functions of the units other than the start signal detection unit that detects the start signal from the electronic lock device and the electronic key control unit that activates the electronic key units when the contact electrode is touched are stopped. When the human body comes into contact with the contact electrode in the standby mode, the start signal is received by the start signal detector, and the electronic key controller is activated to switch to the normal mode. When the mode is switched to the normal mode, the timer in the electronic key control unit is started, and the mode is switched again to the standby mode after a fixed time after the timer is stopped.

Japanese Patent No. 4103589

However, in the conventional electronic key system (communication system), it is necessary to always start the start signal detection unit and the electronic key control unit in order to detect contact with the electronic lock device even in the standby mode. Even in a non-communication state, it is necessary to always supply power, and there is a problem that the power consumption of the electronic key (communication device) cannot be sufficiently reduced.

The present invention has been made in view of such problems, and provides a communication apparatus capable of sufficiently reducing power consumption in a communication system that performs communication using a surface electric field of a transmission medium such as a human body. Objective.

The communication device of the present invention includes an electric field communication electrode, an electric field communication unit that performs electric field communication between the communication device on the transmission medium side via the electric field communication electrode, and a control unit that controls the operation of the electric field communication unit. A power supply for supplying power to the control unit, a switch for turning on or off power from the power supply unit to the control unit, and a part of the transmission medium when the switch is in a cut-off state And a detection unit that switches the switch to a turned-on state by displacement of an electric field of the transmission medium received by the electric field communication electrode when contacting or approaching the communication electrode at a predetermined distance or less.

According to this configuration, when the switch is in a state of cutting off the power supply and the transmission medium is in contact with or close to the electric field communication electrode at a predetermined distance or less, the displacement of the electric field of the transmission medium received by the electric field communication electrode is detected, The switch is switched to the on state, and power is supplied to the control unit. Therefore, in a state where the power supply is cut off, power consumption is suppressed until the transmission medium is in contact with or close to the electric field communication electrode at a predetermined distance or less, and the power consumption can be sufficiently reduced. Here, the displacement of the electric field is the displacement of the electric field received by the transmission medium as an antenna, and includes not only a predetermined signal but also ambient noise.

In the communication apparatus, the detection unit may be configured to receive the transmission medium received by the electric field communication electrode when impedance decreases when a part of the transmission medium contacts or approaches the electric field communication electrode. The displacement of the electric field is detected.

In the communication device, the communication device has a short-range wireless communication unit for performing short-range wireless communication, the control unit when the electric field strength of a predetermined signal received from the electric field communication electrode is below a predetermined level, The communication is switched from the communication by the electric field communication unit to the communication by the short-range wireless communication unit.

According to this configuration, when the electric field strength of the signal received by the electrode for electric field communication falls below a predetermined level, the communication from the electric field communication unit is switched to the communication by the short-range wireless communication unit. Accordingly, electric field communication and near field communication can be used properly.

In the communication device, the predetermined level is a level at which the electric field communication unit can communicate, and the control unit is configured so that the electric field intensity of the predetermined signal received from the electric field communication electrode becomes the predetermined level. It is preferable to start the operation of the short-range wireless communication unit.

According to this configuration, the operation of the short-range wireless communication unit is started before the electric field communication unit becomes below a predetermined level at which communication is impossible. The communication can be switched from the electric field communication to the short-range wireless communication without generating a non-communication period in which no communication is performed.

According to the present invention, it is possible to provide a communication device capable of sufficiently reducing power consumption in a communication system that performs communication using a surface electric field of a transmission medium such as a human body.

It is a functional block diagram which shows the structure of the communication apparatus which concerns on embodiment of this invention. It is a figure for demonstrating the impedance change of the detection part which concerns on this Embodiment. It is a figure which shows the input signal level in the detection part which concerns on this Embodiment. It is a circuit block diagram which shows an example of the detection part of the communication apparatus which concerns on this Embodiment. It is a figure for demonstrating the communication switching from the electric field communication of the communication apparatus which concerns on this Embodiment to near field communication.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. A communication apparatus according to an embodiment of the present invention is a communication apparatus used in a communication system that performs so-called electric field communication using an electrostatic field around a transmission medium such as a human body. For example, the communication apparatus on the transmission medium side It can be applied as a host-side device that performs electric field communication. Here, the electrostatic field includes a quasi-electrostatic field. Hereinafter, a case where the communication apparatus according to the present embodiment is used as a host-side communication apparatus will be described as an example. However, the present invention is not limited to this configuration, and a transmission medium such as a human body is used depending on the application. It can also be used as a communication device on the side.

FIG. 1 is a functional block diagram showing a configuration of a communication apparatus according to the present embodiment. A communication apparatus 1 shown in FIG. 1 includes an electric field communication electrode 2, a detection unit 3 that detects a contact / proximity state of a human body, a power supply unit 4, a switch 5, an electric field communication modulation / demodulation unit 6, and a received electric field strength. A holding unit 7, a short-range wireless communication antenna 8, a wireless communication modulation / demodulation unit 9, a received electric field strength holding unit 10, a data memory 11, a ground (GND) electrode 12, and a control unit 13 are provided. In addition, the electric field communication function and the short-range wireless communication function are realized. The data memory 11 stores data acquired by electric field communication and near field communication. In this communication apparatus 1, when the power supply from the power supply unit 4 to the control unit 13 is cut off, when the transmission medium contacts or approaches the electric field communication electrode 2 (the distance close to the electric field communication possible), the switch 5 The power supply unit 4 is switched from OFF to ON and power supply is started from the power supply unit 4 to the control unit 13, and electric field communication and short-distance / non-distance wireless communication are performed based on the received electric field strength of the received signal input from the electric field communication electrode 2 And can be switched.

When the switch 5 is off (cut-off state), the detection unit 3 receives at the electric field communication electrode 2 when a part of the transmission medium comes into contact with the electric field communication electrode 2 or approaches the electric field communication electrode 2 at a predetermined distance or less to reduce the impedance. The displacement of the electric field of the transmission medium is detected, and the switch 5 is switched from OFF to ON. Here, the proximity within a predetermined distance may be referred to as a distance at which the transmission medium and the electric field communication electrode 2 can be capacitively coupled. The displacement of the electric field is a displacement of the electric field received by the transmission medium as an antenna, and includes not only a predetermined signal but also ambient noise.

FIG. 2 is a diagram for explaining an impedance change in the detection unit 3, and FIG. 3 is a diagram showing an input signal level in the detection unit 3. As shown in FIG. 2A, in a non-contact state in which the transmission medium is separated from the electric field communication electrode 2 by a predetermined distance or more, the impedance R0 at the electrode end of the detection unit 3 is high. In this case, the termination load RL of the module is the sum of the loads of the electric field communication modulation / demodulation unit 6 and the detection unit 3, and is set to high impedance. At this time, the input signal level at the detection unit 3 is much smaller than that in FIG. 3B (FIG. 3A), so the switch 5 is not turned on (power-on state).

On the other hand, when the transmission medium contacts or approaches the electric field communication electrode 2 from the state shown in FIG. 2A at a predetermined distance or less, the impedance R0 at the electrode end of the detection unit 3 decreases as shown in FIG. The displacement of the electric field of the transmission medium received by the communication electrode 2 is detected. At this time, the input signal level at the detection unit 3 is very high compared to FIG. 3A (FIG. 3B). As described above, the detection unit 3 detects the displacement of the electric field of the transmission medium received by the electric field communication electrode 2 by reducing the impedance when the transmission medium is in contact with or close to the electric field communication electrode 2 at a predetermined distance or less. The switch 5 is switched from off (power-off state) to on (power-on state).

FIG. 4 is a circuit diagram illustrating an example of a circuit configuration of the detection unit 3.
In the detection unit (detection circuit) 3, the base of the first transistor TR1 is connected to the electric field communication electrode 2 via the resistor R1. The first transistor TR1 has a collector connected to the power supply Vcc and an emitter connected to the base of the second transistor TR2. The second transistor TR2 has a collector connected to the power supply Vcc and an emitter connected to the base of the third transistor TR3. The third transistor TR3 has a collector connected to the power supply Vcc via the resistor R2, and an emitter grounded via the resistor R3. The emitter of the third transistor TR3 is connected to the base of the fourth transistor TR4 via the resistor R4. A capacitor C1 is connected between an intermediate connection point between the emitter of the third transistor TR3 and the resistor R4 and the power supply Vcc. The fourth transistor TR4 has an emitter connected to the power supply Vcc and a collector grounded via the load RL. In the present embodiment, the load RL is the control unit 13.

In the detection unit 3 configured as described above, when a signal of a predetermined level or higher is applied to the base of the first transistor TR1, the first transistor TR1 is turned on. When the first transistor TR1 is turned on, a bias voltage is applied from the power source Vcc to the base of the second transistor TR2, and the second transistor TR2 is turned on. When the second transistor TR2 is turned on, a bias voltage is applied from the power source Vcc to the base of the third transistor TR3, and the third transistor TR3 is turned on. When the third transistor TR3 is turned on, the power supply Vcc is grounded via the resistor R2, the collector-emitter of the third transistor TR3, and the resistor R3. The voltage applied to the base of the fourth transistor TR4 is smoothed to some extent by the capacitor C1. When the fourth transistor TR4 is turned on, the power source Vcc is supplied to the control unit 13 serving as the load RL via the emitter-collector of the fourth transistor TR4. As a result, power is supplied to the control unit 13.

The power supply unit 4 supplies power to the control unit 13 via the switch 5. The switch 5 is for turning on or off the power supply from the power supply unit 4 to the control unit 13. When the switch 5 is off, the switch 5 is turned on with the detection of a voltage of a predetermined level or higher in the detection unit 3 as a trigger, the control unit 13 is powered on, and power is supplied to each unit. Note that after the switch 5 is turned on and the control unit 13 is powered on, the control unit 13 controls the on / off of the switch 5. When the electric field communication and the short-range wireless communication are finished, the switch 5 is turned off.

As shown in FIG. 1, the electric field communication modulation / demodulation unit 6 performs electric field communication with a communication device on the transmission medium side via the electric field communication electrode 2, and performs predetermined modulation / demodulation processing on the transmission / reception signal. Do. The reception electric field strength holding unit 7 has a function of processing electric field strength information generated by a reception signal by electric field communication, and is connected to the electric field communication modulation / demodulation unit 6. When receiving the reception signal from the electric field communication electrode 2, the electric field communication modulation / demodulation unit 6 performs a predetermined demodulation process and sends the demodulated reception signal to the control unit 13. At this time, received field strength information indicating the received field strength of the received signal is held in the received field strength holding unit 7. Based on the level of the received electric field strength, it is determined whether or not communication switching from electric field communication to short-range wireless communication is necessary.

The wireless communication modulation / demodulation unit 9 performs short-range wireless communication via a short-range wireless communication antenna 8 such as Bluetooth (registered trademark), and performs predetermined modulation / demodulation processing on transmission / reception signals. The reception electric field strength holding unit 10 has a function of processing electric field strength information generated by a reception signal by short-range wireless communication, and is connected to the wireless modulation / demodulation unit 9. When receiving the reception signal from the short-range wireless communication antenna 8, the wireless communication modulation / demodulation unit 9 performs predetermined demodulation processing and sends the demodulated reception signal to the control unit 13. At this time, the received electric field strength information indicating the received electric field strength of the received signal is held in the received electric field strength holding unit 10.

The control unit 13 controls each unit of the communication device 1, and the electric field communication modulation / demodulation unit 6 performs electric field communication when the received electric field strength of the reception signal input from the electric field communication electrode 2 becomes a predetermined level or less. Switching to short-range wireless communication by the wireless modem unit 9 is performed.

FIG. 5 is a diagram for explaining switching of the communication method from electric field communication to short-range wireless communication of the control unit 13. As shown in FIG. 5, the control unit 13 is set with a minimum reception level L1 corresponding to a reception electric field strength at which the electric field communication modulation / demodulation unit 6 can perform electric field communication, and the reception electric field strength by a predetermined level from the minimum reception level L1. A high reception level L2 is set. The control unit 13 is set with a minimum reception level L3 corresponding to the received electric field strength with which the wireless communication modulation / demodulation unit 9 can perform short-range wireless communication. At timing t1 when the received electric field strength of the predetermined signal received by the electric field communication modulation / demodulation unit 6 reaches the reception level L2, the control unit 13 activates the wireless communication modulation / demodulation unit 9, and the received electric field strength of the received signal is the lowest reception level L3. At the timing t <b> 2, the communication method is switched from the electric field communication by the electric field communication modulation / demodulation unit 6 to the short-range wireless communication by the wireless communication modulation / demodulation unit 9. That is, when the received electric field strength is equal to or lower than the reception level L2, the wireless communication modulation / demodulation unit 9 is activated to switch the communication method from the electric field communication to the near field wireless communication in order to switch the communication method from the electric field communication to the short distance wireless communication at the timing of the lowest reception level L1. The control unit 13 is set so as to start a change operation to communication. In FIG. 5, the lowest reception level L1 capable of electric field communication and the lowest reception level L3 capable of short-range wireless communication are set to the same level. However, the reception levels L1 to L3 are arbitrary values depending on the use environment, application, and the like. Can be set.

Thereby, when the received electric field strength of the received signal in the electric field communication becomes a predetermined level or less, the electric field communication by the electric field communication modulation / demodulation unit 6 is switched to the short-range wireless communication by the radio communication modulation / demodulation unit 9, so Accordingly, electric field communication and short-range wireless communication can be used properly. In particular, since the activation of the wireless communication modulation / demodulation unit 9 is started before reaching the minimum reception level L1 at which the electric field communication modulation / demodulation unit 6 can communicate, both communications are performed when switching from electric field communication to short-range wireless communication. It is possible to efficiently switch communication from electric field communication to short-range wireless communication without generating a non-communication period during which no communication is performed.

Next, the operation of the communication device 1 when the transmission medium contacts the electric field communication electrode 2 from a non-contact state will be described. First, when the transmission medium is in contact with or close to the electric field communication electrode 2 at a predetermined distance or less, the input impedance at the electrode end of the detection unit 3 is lowered, and the displacement of the electric field of the transmission medium received by the electric field communication electrode 2 is detected. It is transmitted as an electrical signal to part 3. The detection unit 3 detects this electrical signal, determines that there is a contact or proximity of the transmission medium to the electric field communication electrode 2, and switches the switch 5 from OFF to ON. When the switch 5 is turned on, power from the power supply unit 4 is supplied to the control unit 13, and power is supplied to each unit of the communication device 1 via the control unit 13.

Thus, according to the present embodiment, when the switch 5 is in the cut-off state, the transmission medium received by the electric field communication electrode 2 when the transmission medium is in contact with or close to the electric field communication electrode 2 at a predetermined distance or less. Since the switch 5 can be switched to the on state by the displacement of the electric field, in the state where the power supply is cut off, the power consumption can be suppressed until the transmission medium comes into contact with the electric field communication electrode 2 or is close to a predetermined distance or less. Electric power can be sufficiently reduced.

In addition, the embodiment disclosed this time is an example in all respects and is not limited to this embodiment. The scope of the present invention is shown not by the above description of the embodiments but by the scope of the claims, and is intended to include all modifications within the meaning and scope equivalent to the scope of the claims.

The present invention is useful as a communication device of a communication system that performs communication using a surface electric field of a transmission medium such as a human body.

This application is based on Japanese Patent Application No. 2010-120504 filed on May 26, 2010. All this content is included here.

Claims (4)

1. An electrode for electric field communication;
   An electric field communication unit that performs electric field communication with a communication device on a transmission medium side via the electric field communication electrode;
   A control unit for controlling the operation of the electric field communication unit;
   A power supply unit for supplying power to the control unit;
   A switch for turning on or off power from the power supply unit to the control unit;
   When the switch is in a cut-off state, the switch is caused by the displacement of the electric field of the transmission medium received by the electric field communication electrode when a part of the transmission medium is in contact with or close to the electric field communication electrode at a predetermined distance or less. And a detection unit that switches to the input state.
2. The detection unit detects a displacement of the electric field of the transmission medium received by the electric field communication electrode when impedance decreases when a part of the transmission medium contacts or approaches the electric field communication electrode at a predetermined distance or less. The communication device according to claim 1, wherein the communication device is detected.
3. It has a short-range wireless communication unit that performs short-range wireless communication,
   The control unit switches from communication by the electric field communication unit to communication by the short-range wireless communication unit when the electric field strength of a predetermined signal received from the electric field communication electrode becomes a predetermined level or less. The communication device according to claim 1 or 2.
4. The predetermined level is a level at which the electric field communication unit can communicate,
   The said control part starts operation | movement of the said short-distance radio | wireless communication part, before the electric field strength of the predetermined signal received from the said electrode for electric field communication becomes the said predetermined level. Communication device.

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