JP4743369B2 - Auxiliary antenna member for non-contact type data carrier device and article provided with the auxiliary antenna member - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an auxiliary antenna member for a non-contact type data carrier device for extending a communication distance of a card-type non-contact type data carrier device to be used, and an article provided with the auxiliary antenna member.
[0002]
[Prior art]
In recent years, IC cards are becoming increasingly popular from the viewpoint of confidentiality of information, and in recent years, non-contact type IC cards that exchange information without contacting a read / write device (reader / writer) have been proposed.
In particular, a method of exchanging signals with an external read / write device or performing signal exchange and power supply by electromagnetic waves is generally used.
On the other hand, various non-contact IC tags in the form of sheets or bills, in which ICs with data are connected to antenna coils, have been proposed in recent years and can be attached to products and packaging boxes to prevent shoplifting, logistics systems, etc. It has come to be used.
[0003]
Recently, a test product of a semiconductor chip or a semiconductor chip module in which an antenna is provided on the terminal surface of an IC chip that is a data carrier, that is, a coil-on-chip type, is provided, and a non-contact IC tag or a non-contact IC tag using the same Contact IC cards have been proposed.
In such a non-contact type data carrier device such as a non-contact IC card or a non-contact type IC tag, an external reader / writer and a booster antenna coil for signal exchange are provided, and this is used as a primary coil (also called a booster antenna). A method for realizing a non-contact method by including a coil-on-chip data carrier semiconductor chip or other data carrier module provided with a secondary coil for electromagnetic coupling with the coil is usually used.
The data carrier module provided with the secondary coil is a general term for modules having a fine coil as a secondary coil and directly connecting it to the data carrier section.
[0004]
However, in such a card-type non-contact type data carrier device including a data carrier module provided with a primary coil (also referred to as a booster antenna) and a secondary coil, a distance at which signals can be exchanged with the external reader / writer. Has limitations, which in some cases has been a problem.
For example, as shown in FIG. 5, when a card-type non-contact type data carrier device 550 equipped with an IC module is used as a commuter pass and communicates with a reader / writer unit 510 at a ticket gate for commuting, the commuter pass is used as a reader. It was necessary to bring the writer 510 close to the writer 510 by a predetermined distance, and it was necessary to take it out of the pocket every time a ticket gate was used.
[0005]
[Problems to be solved by the invention]
As mentioned above, recently, the use of a card-type data carrier device equipped with an IC module as a commuter pass has come to be performed, but it is necessary to take it out of the pocket each time a ticket gate is used, which is bothersome. This response has been demanded.
Corresponding to this, the present invention is attached to a bag, clothes, etc., attached to it, or can be communicated with a reader / writer at a long distance while being put in a pocket provided on the bag. An auxiliary antenna member for a contact data carrier device is to be provided.
[0006]
[Means for Solving the Problems]
The auxiliary antenna member for a non-contact type data carrier device of the present invention is an auxiliary antenna member for a non-contact type data carrier device for extending the communication distance of a card-type non-contact type data carrier device to be used, and the card to be used A card to be used at a substantially central position of an antenna circuit having a resonance antenna coil that communicates with a reader / writer along a flat base substrate having a size larger than that of a non-contact type data carrier device. an antenna coil surface for the resonance type non-contact data carrier device, in a state along the substrate, arranged pockets for containing, in the card type to the use to the accompanying or provided pockets A non-contact type data carrier device is inserted to communicate with a reader / writer.
Then, a non-contact auxiliary antenna member data carrier device described above, the card-type non-contact data carrier device to be used, non-contact ISO15693 (proximity) specifications or ISO14443 (proximity type) specifications of the card type It is a formula data carrier module.
And any one of the above-mentioned auxiliary antenna members for a non-contact type data carrier device, wherein the capacitor part is composed of a semiconductor chip and / or the capacitor pattern is composed of a capacitor forming conductor provided on both surfaces of the base substrate. A capacity portion formed by sandwiching a base substrate is provided.
Also, any one of the above-mentioned auxiliary antenna members for a non-contact type data carrier device, wherein the antenna coil or the antenna coil and the capacitance pattern is a laminated sheet in which a conductive thin layer is provided on one or both surfaces of the base material serving as the base From the above, it is characterized by being formed by a photoetching method, and the conductive thin layer is an aluminum thin layer.
In addition, in the above, at least the antenna coil is formed by coating a conductive paste on a base substrate.
[0007]
The article of the present invention is a transporting tool such as clothing or a bag, and is characterized in that the auxiliary antenna member for the non-contact type data carrier device of the present invention is disposed.
[0008]
[Action]
The auxiliary antenna member for a non-contact type data carrier device according to the present invention is attached to a bag, clothes, etc. with the above-described configuration, and is attached to or attached to a pocket provided in the reader. It is possible to provide an auxiliary antenna member for a non-contact type data carrier device capable of communicating with a writer at a long distance.
Examples of the card-type non-contact type data carrier device to be used include a card-type non-contact type data carrier module of ISO 15693 (proximity type) specification or ISO 14443 (proximity type) specification, and more specifically, these specifications. And a booster antenna section, and a coil-on-chip semiconductor chip for data carrier or other data carrier module provided with a secondary coil for electromagnetic coupling with the booster antenna section as a primary coil, etc. Is mentioned.
The auxiliary antenna member for a non-contact type data carrier device according to the present invention includes a capacitor substrate made of a semiconductor chip and / or a capacitor substrate made of a capacitor for forming a capacitor provided on both sides of the base substrate. Resonance of communication with the reader / writer can be obtained by providing the capacitor part formed by sandwiching the capacitor, but in particular, by providing a capacitor pattern that can change the capacitance, it is more resonant. Has a high degree of freedom.
In addition, the antenna coil or the antenna coil and the capacitance pattern are processed with high precision when they are formed by a photo-etching method from a laminated sheet provided with a conductive thin layer on one or both sides of the base material serving as the base. Can be obtained.
In this case, an aluminum thin layer is easily obtained as the conductive thin layer, but is not limited thereto. A thin copper layer may be used.
At least the antenna coil is suitable for mass production when a conductive paste is formed on a base substrate.
The method for forming the antenna portion is not limited to this.
[0009]
The article of the present invention has the above-described configuration, and is attached to or disposed on the auxiliary antenna member for the non-contact type data carrier device arranged on them. It is assumed that communication with the reader / writer can be carried out at a long distance while still in the pocket.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings.
FIG. 1A is a schematic diagram of an example of an embodiment of an auxiliary antenna member for a non-contact data carrier device according to the present invention, and FIG. 1B is a cross-sectional view taken along line A1-A2 of FIG. 2 is a view on the side opposite to the antenna coil 120 of the substrate 110 as seen through from the A1 side of FIG. 1B, and FIG. 3 is a diagram for explaining the connection of the antenna coil and the capacity pattern. FIG. 4 is a diagram for explaining a method of using the auxiliary antenna member for the non-contact type data carrier device according to the embodiment in the bag, and FIG. 5 uses the conventional non-contact type data carrier device. FIG. 6 is a diagram illustrating the relationship between the installation position and the communication distance of the non-contact type data carrier device in the auxiliary antenna member for the non-contact type data carrier device of the embodiment.
1A and 1B, each one-dot chain line is a center line in each direction of the auxiliary antenna member for the non-contact data carrier device of the embodiment, and here, the antenna coil 120 is used. Is substantially symmetrical with respect to the center line.
Here, the X direction and the Y direction are taken along the center line as shown in FIG.
1 to 5, 110 is a base substrate, 111 and 112 are protective films, 120 is an antenna coil, 121, 122, and 125 are connection terminals, 130 is a capacitance pattern, 131 is a connection wiring, and 132 is a connection Part, 135 is a capacitance pattern, 136 is a connection wiring, 137 is a connection part, 140 is a chip capacitor, 150 is a connection wiring, 151 and 152 are connection terminals, 160 is a pocket, 160A is a pocket region, and 170 is non-contact Type data carrier device, 170A is a non-contact type data carrier device region, 181 and 182 are caulking connections, 410 is a reader / writer unit, 411 is an electromagnetic wave, 420 is a hook, 430 is an auxiliary antenna member for a non-contact type data carrier device, 450 is a non-contact type data carrier device.
[0011]
An example of an embodiment of an auxiliary antenna member for a non-contact data carrier device of the present invention will be described with reference to FIG.
The auxiliary antenna member for the non-contact type data carrier device of this example is an auxiliary antenna member for the non-contact type data carrier device for extending the communication distance of the card-type non-contact type data carrier device to be used. An antenna circuit having a resonance antenna coil 120 communicating with a reader / writer (corresponding to 410 in FIG. 4) is formed along a planar base material 110 having a size larger than that of the data carrier device 170. In addition to the antenna coil 120, an adjustment capacitor portion formed by the chip capacitor 140 and the capacitor patterns 130 and 135 is provided.
Then, the pocket 160 provided along the base substrate 110 with the antenna coil surface for resonance of the non-contact data carrier device 170 to be used at the approximate center position along the substrate. In addition, communication with the reader / writer is performed in a state where the whole is placed in the bag 420 as shown in FIG.
An antenna circuit having an antenna coil 120 is formed along the periphery of an A4 size base substrate 110, and a card-type non-contact data carrier module of ISO 15693 (proximity type) or ISO 14443 (proximity type) specification is attached. This is an auxiliary antenna member for a non-contact type data carrier device.
[0012]
The antenna coil 120 forms an antenna circuit together with the chip capacitor 140 and the capacitance patterns 130 and 135 and resonates the electromagnetic wave from the reader / writer, and fine adjustment of the resonance is performed by the capacitance patterns 130 and 135.
The antenna coil 120 is formed larger than the resonance antenna coil (not shown) of the non-contact type data carrier device 170 to be used, so that the resonance peak of the signal from the reader / writer can be increased. As compared with a resonance antenna coil (not shown) of the non-contact type data carrier device 170 to be used, long-distance communication is possible.
As a result, in the state where the reader / writer is placed in the pocket 160 provided along the base substrate 110 and the auxiliary antenna member for the non-contact type data carrier device of this example is still in the bag or the like. You can communicate.
As the non-contact type data carrier device 170,
A card-type non-contact type data carrier module of ISO15693 (proximity type) or ISO14443 (proximity type) specification is applied. For example, a booster antenna part and the booster antenna part are used as a primary coil and electromagnetically coupled thereto. Although a coil-on-chip semiconductor chip for data carrier or other data carrier module provided with a secondary coil is preferable from the viewpoint of communication distance, it is not limited to these.
Using the auxiliary antenna member for the non-contact type data carrier device of this example, a booster antenna part and a coil-on-chip semiconductor chip for data carrier or other data carrier module having the booster antenna part as a primary coil are used. In this case, the antenna coil 120 serves as a primary coil that receives electromagnetic waves from a reader / writer, a booster antenna (not shown) serves as a secondary coil, and a coil that is electromagnetically coupled to the booster antenna (not shown) ( Signals are exchanged via (not shown).
[0013]
The antenna coil 120 and the connection terminal portions 121, 122, and 125 formed integrally therewith, the capacitance pattern 130, the connection wires 131 and 132, and the connection wire 150 formed integrally therewith. The connection terminals 151 and 152, the capacitor pattern 130, and the connection wirings 136 and 137 are each made of a conductive thin layer such as an aluminum thin layer or a copper thin layer, and are made of an insulating base material (corresponding to the base base material). ) Are formed by photoetching the conductive thin layers laminated on both sides, and each part is formed with good accuracy.
As the insulating base material to be the base base material, plastic such as PET (polyethylene terephthalate), polyvinyl chloride (polyethylene), polycarbonate, polyimide, or the like is used, but is not limited thereto.
The antenna coil 120 shown in FIG. 1A is electrically connected to the connection terminal portions 151 and 152 shown in FIG. 2 through connection terminal portions 121 and 122, respectively.
This will be described with reference to FIG.
FIG. 3 is a diagram in the case where the necessary four pairs of capacitance patterns among the capacitance patterns 130 and 135 shown in FIGS. 1A and 2 are used, and the connection terminal portion 151 is connected by the caulking connection portions 181 and 182. , 152 are connected by caulking to form a capacitor portion.
In FIG. 3, the dotted line portion indicates the positions of the connection terminal portions 121 and 122 of the antenna coil 120 shown in FIG.
The capacitance pattern 130 is connected to one end side of the antenna coil 120 via the connection wiring 131 and the connection portion 132, and is not connected to the other end of the antenna coil 120.
The capacitor pattern 135 is connected to one end side of the connection wiring 150 via the connection wirings 136 and 137 and is not connected to the other end of the connection wiring 150.
In each set of capacitance patterns, capacitors are formed by using the base substrate 110 as a dielectric layer therebetween, and the formed capacitors have substantially the same electrode area and are arranged in parallel.
For adjustment of resonance, after caulking connection is performed, a capacity pattern necessary for resonance adjustment is left, and the rest is removed by etching or the like, or the connection portion 132 is cut with a laser.
[0014]
In this example, a pocket 160 is provided on the side opposite to the antenna coil 120 side of the base substrate 110, and a non-contact type data carrier device 170 is used in the pocket 160. An adhesive layer may be provided and attached thereto.
In addition, the antenna coil 120 and the connection terminal portions 121, 122, and 125 formed integrally therewith, the capacitance pattern 130, the connection wires 131 and 132, and the connection wire 150 are formed integrally therewith. At least a part of the connection terminals 151 and 152, the capacitor pattern 130, and the connection wirings 136 and 137 may be formed by a printing method using a conductive paste or the like.
Moreover, in the above, although it was used in the state put in the bag, it is not limited to this.
For example, it may be used in clothing.
[0015]
As another form of the auxiliary antenna member for the non-contact type data carrier device of this example, one having only one of the chip capacitor 140 and the set of capacitance patterns 130 and 135 in this example can be cited.
In particular, it is practical in terms of structure and fabrication that the chip capacitor (corresponding to 140) is not used and only the capacitance of the capacitance pattern (corresponding to 130, 135) is used.
[0016]
【Example】
1 and 2 of A4 size by photoetching method using a base material 110 made of an aluminum thin layer with a film thickness of 30 μm, a base material 110 made of a PET film with a film thickness of 38 μm, and an aluminum thin layer with a film thickness of 20 μm. An auxiliary antenna member for a non-contact data carrier device according to an embodiment was produced.
In FIG. 1 (a), the antenna coil 120 end position is 23 mm from the side end straddling the X direction, and 15 mm from the side end straddling the Y direction, and the antenna coil 120 having a line and space of 5 mm, 1 mm and 3 turns It was produced with a thickness of 30 μm.
Capacitance pattern portions were formed so that one pair of capacitance patterns (one pair of 130 and 135) was 3 pF, 30 were formed by etching, and were 10 (30 pF in total) when adjusting resonance.
The chip capacitor 140 was 25 pF.
As a result of investigating the relationship between the distance from the center position of the non-contact type data carrier device and the communication distance using the produced auxiliary antenna member for the non-contact type data carrier device as shown in FIG. Data was obtained.
Here, as a non-contact type data carrier device, a card type device of ISO15693 (proximity type) specification (a card type data carrier device manufactured by Dai Nippon Printing Co., Ltd., chip is I-code of Philips) is used, and a reader / writer is used. As for, the thing of 13.5MHz and the output of 1W was used.
As a result, the position where the communication distance is maximum is the substantially center position of the auxiliary antenna member for the non-contact type data carrier device, and a communication distance of about 79 cm can be obtained.
Normally, it is said that the communication distance is about 20 cm when the frequency of electromagnetic waves for communication with the reader / writer is 13.56 MHz.
[0017]
【The invention's effect】
The auxiliary antenna member device for a non-contact type data carrier device according to the present invention is attached to a bag, clothes, etc., and is attached to or attached to the pocket or provided in the pocket, and communicates with the reader / writer at a long distance. It is possible to provide an auxiliary antenna member for a non-contact type data carrier device.
[Brief description of the drawings]
FIG. 1 (a) is a schematic diagram of an example of an embodiment of an auxiliary antenna member for a non-contact data carrier device according to the present invention, and FIG. 1 (b) is an A1-A2 diagram in FIG. 1 (a). FIG.
FIG. 2 is a diagram on the side opposite to the antenna coil 120 of the substrate 110 as seen through from the A1 side in FIG. 1B. FIG. 3 is a diagram for explaining the connection of the antenna coil and the capacitance pattern. 4 is a diagram for explaining a method of using the auxiliary antenna member for a non-contact type data carrier device according to an embodiment in a cage. FIG. 5 is a ticket gate using a conventional non-contact type data carrier device. FIG. 6 is a diagram for explaining the method. FIG. 6 is a diagram showing the relationship between the installation position and the communication distance of the non-contact type data carrier device in the auxiliary antenna member for the non-contact type data carrier device according to the embodiment.
110 Base substrate 111, 112 Protective film 120 Antenna coil 121, 122, 125 Connection terminal portion 130 Capacitance pattern 131 Connection wiring 132 Connection portion 135 Capacitance pattern 136 Connection wiring 137 Connection portion 140 Chip capacitor 150 Connection wiring 151, 152 Connection terminal 160 Pocket 160A Pocket region 170 Non-contact type data carrier device 170A Non-contact type data carrier device region 181 and 182 Caulking connection unit 410 Reader / writer unit 411 Electromagnetic wave 420 430 Auxiliary antenna member 450 for non-contact type data carrier device Non-contact type data carrier device 510 Reader / writer unit 511 Electromagnetic wave 550 Non-contact type data carrier device

Claims (7)

An auxiliary antenna member for a non-contact type data carrier device for extending the communication distance of the card-type non-contact type data carrier device to be used, and having a larger planar shape than the card-type non-contact type data carrier device to be used An antenna circuit having a resonance antenna coil that communicates with a reader / writer along a base substrate is formed, and a card-type non-contact data carrier device to be used is disposed at a substantially central position of the antenna circuit for resonance. faces, in the state along the substrate, arranged pockets for containing, put a non-contact data carrier device of the card type for the use in the appended or provided with pockets, the communication with the reader-writer An auxiliary antenna member for a non-contact type data carrier device, characterized in that: The auxiliary antenna member for a non-contact type data carrier device according to claim 1 , wherein the card-type non-contact type data carrier device to be used is a card type of ISO 15693 (proximity type) specification or ISO 14443 (proximity type) specification. An auxiliary antenna member for a non-contact type data carrier device, wherein the auxiliary antenna member is a non-contact type data carrier module. 3. The auxiliary antenna member for a non-contact type data carrier device according to claim 1 , wherein the auxiliary antenna member is for forming a capacitor provided on both surfaces of a capacitor part and / or a base material. An auxiliary antenna member for a non-contact type data carrier device, characterized in that a capacitor portion formed by sandwiching a base substrate between a capacitor pattern made of a conductor is provided. The auxiliary antenna member for a non-contact type data carrier device according to any one of claims 1 to 3 , wherein the antenna coil or the antenna coil and the capacitance pattern are electrically conductive on one surface or both surfaces of the base material as a base. An auxiliary antenna member for a non-contact data carrier device, wherein the auxiliary antenna member is formed by a photoetching method from a laminated sheet provided with a thin layer. The auxiliary antenna member for a non-contact type data carrier device according to claim 4 , wherein the conductive thin layer is an aluminum thin layer. The auxiliary antenna member for a non-contact type data carrier device according to any one of claims 1 to 3 , wherein at least the antenna coil is obtained by forming a conductive paste on a base substrate. An auxiliary antenna member for a non-contact type data carrier device. An article for transportation such as clothing or a bag, wherein the auxiliary antenna member for a non-contact type data carrier device according to any one of claims 1 to 6 is disposed.

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