JP2003271913A - Data carrier, and method for adjusting tuning frequency of data carrier - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a data carrier capable of easily performing fine adjustment of the tuning frequency of a coil according to the nature of a work to which the data carrier is affixed. <P>SOLUTION: A metal seal 15b of the predetermined size is affixed to the predetermined position on the data carrier 10 having the coil 12 which is tuning- operated with the predetermined frequency. The inductance of the coil 12 is reduced according to the size and the position of the metal foil seal 15b to increase the tuning frequency of the data carrier. The tuning frequency can be finely adjusted to the work with the data carrier affixed thereto for use, saving a trouble that a plurality of kinds of data carriers adjusted to the operating frequency to the work are prepared in advance. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data carrier and a method of adjusting the tuning frequency of the data carrier, and more particularly, it is suitable for use as a data carrier which is attached to both a metal work and a non-metal work. It is a thing.

[0002]

2. Description of the Related Art Conventionally, an RFID tag, a card (hereinafter collectively referred to as a data carrier) has a reader / reader.
An antenna coil is provided for receiving the information data transmitted from the writer device and transmitting the information data to the reader / writer device.

There are various types of data carriers, but in the case of inexpensive data carriers used in large quantities,
It is often used by being attached to various works.
As described above, there is a strong demand for cost reduction of data carriers that are mounted on various works and used in large quantities. Therefore, it is necessary to make the manufacturing cost as low as possible.

By the way, an air core coil may be used as an antenna coil arranged on the data carrier. The antenna coil provided on the data carrier is usually designed as a single unit and tuned to the operating frequency.
Therefore, if the work to which the data carrier is attached is a work made of an insulating material such as plastic, wood, paper, etc., no major problem occurs.

However, if the work to which the data carrier is attached is made of metal or contains metal, the work and the coil of the data carrier are electrically coupled. As a result, the L value of the coil is lowered, and the tuning of the operating frequency is deviated.

In order to solve such a problem, the tuning frequency of the data carrier alone is set to be low, and the inductance value of the coil is adjusted in the state where the data carrier is attached to the work made of metal or the like. It was done by lowering it to tune to the operating frequency.

[0007]

However, since there are various kinds of works to which the data carrier is attached and used, there are several kinds of data carriers in which the tuning deviation amount of the operating frequency is appropriately set according to each work. It was not realistic to have it ready. In addition, increasing the types of data carrier according to the type of work to be attached is
Since the manufacturing and management of the data carrier becomes complicated, it is also disadvantageous in achieving cost reduction and easy management of the data carrier.

In view of the above problems, it is an object of the present invention to provide a data carrier capable of easily fine-tuning the tuning frequency of the coil according to the property of the work to be attached.

[0009]

A data carrier of the present invention is a data carrier having a coil which operates in synchronization with a predetermined operating frequency, and has a predetermined size for adjusting the inductance value of the coil. It is characterized in that the formed metal seal is attached at a predetermined position. Another feature of the present invention is that the size and the attachment position of the metal seal are determined by the degree to which the inductance value of the coil is lowered and the tuning frequency is adjusted high. There is.

A tuning frequency adjusting method for a data carrier according to the present invention is a tuning frequency adjusting method for a data carrier having a coil which operates in synchronization with a predetermined operating frequency, wherein a metal seal having a predetermined size is predetermined. It is characterized in that the inductance value of the coil is lowered by a predetermined value and the tuning frequency is increased by a predetermined frequency by sticking it at the position.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION Next, an embodiment of a data carrier and a tuning frequency adjusting method of the data carrier of the present invention will be described with reference to the accompanying drawings.

In FIG. 1, reference numeral 10 indicates a data carrier of this embodiment. This data carrier 10
An integrated circuit 11, a coil 12 and a capacitor 13 are arranged on the surface of a chip substrate 14.

The integrated circuit 11 includes a CPU, a RAM,
Various electric circuit components constituting the data carrier of the present embodiment are provided, including a computer system including a ROM. However, since their configurations and operations are not directly related to the description of the present invention, detailed description thereof will be omitted.

A seal 15 is attached to the surface of the data carrier 10 of this embodiment. The seal 15
Is attached to adjust the tuning frequency of the data carrier 10. In the present embodiment, as shown in FIG. 2, the substrate seal 15a made of an insulating material and the tuning frequency adjustment are used. In this example, the seal 15b is made of a metal foil for use with, for example, an aluminum foil.

The seal 15 shown in FIG. 2 is a substrate seal 1.
An example is shown in which a metal foil seal 15b that is approximately half the size of 5a is attached to the data carrier 10. However, since the size of the metal foil seal 15b is determined in order to adjust the tuning frequency, it may not always be half the size.

For example, as shown in FIG. 3 (a), one metal foil seal 15b may be attached as it is, or as shown in FIG. 3 (b), it may be attached to a size of about one third. It may be attached. In general, the inductance value of the coil 12 is determined so that the tuning frequency can be adjusted by sticking the metal foil seal 15b within the size of one sheet.

As described above, in the present embodiment, the seal 15b made of metal foil is attached to the front surface (back surface) of the data carrier 10 to increase the tuning frequency of the data carrier. The degree to which the tuning frequency is increased is adjusted depending on the size of the metal foil seal 15b and the position where the metal foil seal 15b is attached.

With this, it is possible to omit the trouble of preparing a plurality of types of data carriers having different tuning frequencies in advance, and it is possible to easily manufacture and manage the data carriers.

In the above embodiment, the metal foil seal 15b is attached on the substrate seal 15a to form the seal 15, and the seal 15 is used as the data carrier 1.
I showed an example that it was attached at a predetermined position of 0,
The metal foil seal 15b may be directly attached to a predetermined position of the data carrier 10.

[0020]

As described above, according to the present invention,
A sticker made of metal foil is attached to the data carrier to increase the tuning frequency of the data carrier, and the tuning frequency is increased depending on the size of the metal foil seal and the position where the metal foil sticker is attached. Since the degree is adjusted, it is possible to omit the trouble of preparing a plurality of types of data carriers whose operating frequencies are adjusted according to the work in which the data carriers are used. As a result, the trouble of manufacturing and managing a plurality of types of data carriers can be eliminated, and the manufacturing and inventory management of data carriers that are used by being attached to a work can be facilitated.

[Brief description of drawings]

FIG. 1 is a diagram showing an embodiment of the present invention, showing an example in which a seal is attached to the surface of a data carrier.

FIG. 2 is a diagram showing an example in which a metal foil seal for adjusting a tuning frequency is attached to a data carrier by a half size.

FIG. 3A is a diagram showing an example in which a metal foil seal for adjusting the tuning frequency is attached to one data carrier, and FIG. 3B shows a metal foil seal for adjusting the tuning frequency for 3 minutes. It is a figure which shows the example which pastes on the data carrier only 1 size.

[Explanation of symbols]

10 data carriers 11 integrated circuits 12 coils 13 capacitors 14 chip substrate 15 seals 15a Substrate seal 15b Metal foil seal

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) H01Q 7/00 G06K 19/00 K (72) Inventor Kikuzo Sawada 1-16 Kotohashi, Sumida-ku, Tokyo 2 Jacqueline 47 Building 5F Yoshikawa Rf System Co., Ltd. Tokyo Head Office (72) Inventor Eiichi Ishii 1-16-2 Kotobashi, Sumida-ku, Tokyo Jacqueline 47 Building 5F Yoshikawa Rf System Co., Ltd. Tokyo Main Office F-term (Reference) 2C005 MA27 MB06 TA40 5B035 AA11 BA03 BB09 CA01 CA22 CA23 5J046 AA01 AA02 AA09 AA10 AB11 PA07 5J047 AA02 AA09 AA10 AB11 EF04 EF05

Claims (3)

[Claims] 1. A data carrier having a coil that operates in synchronization with a predetermined operating frequency, wherein a metal seal formed in a predetermined size for adjusting an inductance value of the coil is provided at a predetermined position. A data carrier characterized by being pasted. 2. The data according to claim 1, wherein the size and the attachment position of the metal seal are determined by the degree to which the inductance value of the coil is lowered and the tuning frequency is adjusted to be high. Career. 3. A method of adjusting a tuning frequency in a data carrier having a coil which operates in synchronization with a predetermined operating frequency, wherein a coil made of metal having a predetermined size is attached at a predetermined position. A method for adjusting a tuning frequency of a data carrier, characterized in that the inductance value is reduced by a predetermined value to increase the tuning frequency by a predetermined frequency.