JPH0843527A - Noncontact-type individual discrimination system - Google Patents

Abstract

PURPOSE:To prolong the discriminable distance of an individual discrimination system. CONSTITUTION:A solar cell 10 inside a discrimination tag 1 converts the energy of incident light into electric power. A control part 12 starts an operation when the electric power which can be activated is obtained from the cell 10, and discrimination information is read out form a storage circuit inside. The discrimination information is modulated by a transmission-reception circuit inside so as to be output to an antenna 11. Thereby, the discrimination information is sent out from the discrimination tag 1 as response radio waves R1. A reader 2 receives the response radio waves R1 and demodulated them to obtain the discrimination information. Since the discrimination tag 1 obtains, from the solar cell 10, the electric power required for transmitting the discrimination information in this manner, a discrimination distance can be made long.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a non-contact type individual identification system using a non-contact type identification tag, and more particularly to a system using an identification tag for obtaining energy for returning from light energy.

[0002]

2. Description of the Related Art Conventionally, RFID (Radio Frequency Id
There is a non-contact type individual identification system that uses an entification tag, and the identification information stored in the RFID tag is read by a reading device to perform individual identification. There are two power supply methods for the RFID tag used in this system: an internal power supply method in which a battery is built in the tag and an external power supply method in which power is supplied by radio waves from a reading device.

Since the internal power supply system supplies the power required in the tag from the battery, maintenance such as replacement due to the life of the battery is required, whereas the external power supply system is However, since the received radio waves are converted into electric power to operate, less energy is required for returning the identification information, and the identifiable distance becomes shorter than in the internal power supply method. In any of the methods, the inquiry radio wave transmitted from the reading device is received and the identification information is returned, and a plurality of RFIs are provided in the detection area determined by the reach distance of the inquiry radio wave.
If there are D tags, all the RFID tags return identification information, making it difficult to identify the tags.

[0004]

As described above, in the conventional non-contact type individual identification system using the RFID tag of the internal power supply system, maintenance of the tag is required, and the system using the tag of the external power supply system is used. Then, there was a problem that the identifiable distance was short. Further, in any of the methods, if a plurality of RFID tags are in the detection area, the tags cannot be specified. The present invention has been made to solve the above problems, and a first object of the present invention is to provide a non-contact type individual identification system that does not require tag maintenance and has a long identification distance. In addition, the second object is to provide a non-contact type individual identification system that can identify tags even if there are a plurality of tags.
The purpose of.

[0005]

The non-contact type individual identification system of the present invention comprises an identification tag for storing identification information for individual identification, and a reader for receiving the identification information transmitted from the identification tag. , The identification tag outputs the stored identification information to the antenna, when the solar cell converts incident light energy into electric energy, the antenna for transmitting a signal, and the electric power from the solar cell. And a control unit for transmitting the data. Further, an identification tag that stores identification information for individual identification, a reading device that receives the identification information transmitted from this identification tag, and a light source for irradiating a specific identification tag among a plurality of identification tags with light. The identification tag includes a solar cell that converts incident light energy into electric energy, an antenna for transmitting a signal, and light emitted from a light source to obtain electric power of a predetermined value or more from the solar cell. At this time, the control unit outputs the stored identification information to the antenna for transmission.

[0006]

According to the present invention, when electric power is obtained by the solar cell in the identification tag, the control section outputs the identification information to the antenna for transmission. Then, the reading device receives the identification information. In addition, by irradiating a specific identification tag of the plurality of identification tags with light from the light source, when the solar cell in the identification tag obtains electric power of a predetermined value or more, the control unit transmits the identification information to the antenna. And send it to.

[0007]

FIG. 1 is a block diagram of a non-contact type individual identification system showing an embodiment of the present invention. 1 is an identification tag for storing identification information for individual identification, 2 is a reader for transmitting an inquiry signal and receiving the identification information transmitted from the identification tag 1, and 10 is energy of incident light converted into electric energy. A solar cell, 11 is an antenna for transmitting and receiving a signal, and 12 is when electric power is obtained from the solar cell 10,
It is a control unit that outputs the stored identification information to the antenna 11 for transmission.

The control section 12 includes a power conversion circuit (not shown), a transmission / reception circuit for modulating / demodulating signals, a storage circuit for storing identification information, and the like. When power is obtained from the solar cell 10 or the antenna 11 It is activated when an electromagnetic wave is received and electric power is obtained by an internal power conversion circuit. Next, regarding the operation of such a non-contact type individual identification system, the operation when the solar cell 10 is exposed to light will be described first.

The solar cell 10 in the identification tag 1 converts the energy of incident light into electric power as described above. Control unit 1
2 starts operation when the solar cell 10 obtains startable power and reads the identification information from the internal storage circuit. Then, this identification information is output to the antenna 11 after being modulated by the transmission / reception circuit. In this way, the identification information is sent from the identification tag 1 as the response radio wave R1.

The reading device 2 receives the response radio wave R1 and demodulates it to obtain identification information. Since the identification information is obtained in this manner, if the identification tag 1 is attached to, for example, a product, individual identification of the product can be performed. As described above, since the identification tag 1 obtains the electric power necessary for transmitting the identification information from the solar cell 10, the internal battery is unnecessary,
It is not necessary to transmit the inquiry radio wave from the reading device.

Further, as the illuminance of the light hitting the solar cell 10 increases, the electric power obtained by the solar cell 10 also increases. It is possible to adjust. Therefore, the identification distance can be made longer than that of the conventional RFID tag.

The identification tag 1 cannot use the light energy unless the solar cell 10 is exposed to light. However, if the identification tag 1 can also receive the electromagnetic wave, the received electromagnetic wave can be received like a conventional RFID tag. Can be converted into electric power to operate. That is, the reading device 2 is
An inquiry signal for requesting a response from the identification tag 1 is an inquiry radio wave R.
When the identification tag 1 attached to this article approaches the reading device 2 due to movement of the article or the like, the inquiry radio wave R2 reaches the identification tag 1.

Even when the solar cell 10 cannot obtain the required power, when the antenna 11 receives the inquiry radio wave R2 as described above, the control section 12 converts the inquiry radio wave R2 into electric power by an internal power conversion circuit. This question radio wave R2
When the interrogation signal is demodulated by the transmission / reception circuit and the interrogation signal is detected, the identification information is read from the storage circuit and the response radio wave R1
To send as. In this way, it can also operate as a conventional RFID tag.

FIG. 2 is a block diagram of a non-contact type individual identification system showing another embodiment of the present invention. Reference numerals 1a to 1c are identification tags, and when the built-in solar cells 10a to 10c obtain electric power of a predetermined value or more, the identification information is transmitted similarly to the identification tag 1 in FIG. Reference numeral 3 denotes a light source for irradiating a specific identification tag among the identification tags 1a to 1c with light.

In the example of FIG. 1, the identification distance can be made longer than that of the conventional RFID tag by converting light energy into electric power. However, as in the conventional case, a plurality of identification tags are within the identifiable area. And, the identification tag cannot be specified. That is, for example, when the identification tags 1 are attached to the stocked items stored in the warehouse, the identification information is transmitted from all the identification tags 1 illuminated by the illumination light in the warehouse, and the reading device receives the identification information. , It becomes impossible to specify the identification tag.

Therefore, in the present embodiment, light is emitted from the light source 3 to a specific identification tag, and the identification information is transmitted only from the identification tag which is exposed to the light. That is, the internal configuration of the identification tags 1a to 1c of the present embodiment is the same as that of the example of FIG. 1, but its control unit obtains the power that can be started from the solar cells 10a to 10c by the incidence of illumination light or the like. Even if it is given, the operation of transmitting the identification information is not performed.

On the other hand, when the identification tag 1b is irradiated with light by the light source 3 which emits light having energy higher than that of the illumination light, the solar cell 10b of the identification tag 1b is irradiated with the illumination light more than when it is illuminated. Great power can be obtained. Then, if this power is equal to or higher than a predetermined value set in advance, the control unit reads out the identification information as in the example of FIG. 1, outputs it to the antenna, and causes it to be transmitted as the response radio wave R1.

As described above, since only the identification tag irradiated with light from the light source 3 returns the identification information, the tag can be specified even if there are a plurality of identification tags. As the light source 3 for operating only a specific identification tag, various ones can be used depending on the directivity based on the intervals between the identification tags and the energy based on the illuminance of the light constantly shining on the identification tags, and a laser emitting a laser beam. It may be a device or a lamp such as a flashlight.

[0019]

According to the present invention, the identification tag is a solar cell,
By using an antenna and a control unit, it is possible to realize an identification tag that obtains necessary power from optical energy and transmits identification information, so tag maintenance such as battery replacement becomes unnecessary, and when using a conventional RFID tag The identification distance can be made longer than that. Further, by configuring the identification tag from the solar cell, the antenna, and the control unit, and transmitting the identification information when the solar cell obtains electric power of a predetermined value or more, only the identification tag irradiated with light from the light source Since the identification information is returned, the tag can be specified even if there are a plurality of identification tags.

[Brief description of drawings]

FIG. 1 is a block diagram of a non-contact type individual identification system showing an embodiment of the present invention.

FIG. 2 is a block diagram of a non-contact type individual identification system showing another embodiment of the present invention.

[Explanation of Codes] 1, 1a to 1c ... Identification tag, 2 ... Reader, 3 ... Light source,
10, 10a to 10c ... Solar cell, 11 ... Antenna, 1
2 ... Control unit.

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI technical display H04B 7/00

Claims (2)

[Claims] 1. A contactless individual identification system comprising: an identification tag that stores identification information for individual identification; and a reading device that receives the identification information transmitted from the identification tag. Is a solar cell that converts the energy of incident light into electrical energy, an antenna for transmitting a signal, and outputs the stored identification information to the antenna when power is obtained from the solar cell. A non-contact type individual identification system comprising: a control unit for transmitting. 2. An identification tag for storing identification information for individual identification, a reading device for receiving the identification information transmitted from the identification tag, and a specific identification tag among the plurality of identification tags is irradiated with light. A non-contact type individual identification system including a light source for performing, wherein the identification tag is a solar cell that converts incident light energy into electric energy, an antenna for transmitting a signal, and the light source A non-contact type individual identification system, comprising: a control unit for outputting the stored identification information to an antenna for transmission when light is irradiated and electric power of a predetermined value or more is obtained from the solar cell.