CN201266670Y - Antenna module of wireless radio frequency identification volume label - Google Patents

Abstract

An antenna module of a radio frequency identification (RFID) tag comprises an antenna, a first substrate and a soft line. The antenna has a coil, a plurality of positive electrodes and a plurality of negative electrodes. The positive electrodes and the negative electrodes are positioned on the coil and are correspondingly and electrically connected with a plurality of first electrode contacts and a plurality of electrode contacts positioned on the first substrate. One end of the soft line joins together and is electrically connected with the first substrate, and the other end thereof is used for electrically connecting with a subscriber identification module. At least one of a plurality of positive electrodes is electrically connected with a plurality of first electrode contacts, and at least one of a plurality of negative electrodes is electrically connected with a plurality of second electrode contacts. The design leads the antenna of an RFID tag to be generally applied to various mobile communications devices.

Description

The Anneta module of wireless radio frequency identification label

Technical field

The utility model relates to the Anneta module of a kind of radio frequency identification (RFID) label, particularly a kind of Anneta module that is applied to the wireless radio frequency identification label of subscriber identification module (SIM).

Background technology

Radio frequency identification (Radio Frequency Identification, RFID) be a kind of chip of built-in radiotechnics, also can note down a series of information in the chip, as product not, position, date etc., maximum benefit is to improve Item Management efficient, and Item Information is recorded on the bar code more at present, obtains information and scan bar code with scanner again, and RFID only needs induction within the specific limits, and can once read a large amount of messages.The RFID technology can be applicable to gate inhibition's control, associating ticket, communications and transportation etc.

Rfid system mainly comprises label (Tag), reader (Reader) and main frame in forming.Label is the storage assembly for storing of data, reader then is from the label reading of data or with the instrument of deposit data in the label, reader is sent to data streams read in the computer system, uses different application programs to come unscrambling data, reaches correct decision-making rapidly to assist the user.Label can be divided into active (Active) and arrive two kinds of passive types (Passive), and active tag includes battery, and transmission information is at any time given reader, and long communication distance is arranged, and can store bigger internal memory, but price is higher; The passive label power supply produces the little electric current of induction from electric wave that reader sends to label and supplies its power supply power, utilizes electric wave to pass its information back reader again, so communication distance is shorter.The passive label benefit do not need to be external battery, can reach that volume is little, low price, the life-span is long and advantage such as numerical data portability.The antenna of passive type label is built-in, in order to induction and generation radio wave, with transceive data.

Because mobile phone becomes the indispensable instrument of Mobile Communications, has almost become staff one machine.Therefore having manufacturer to advocate combines radio frequency identification (RFID) with mobile phone, combine the effect of existing radio RF identification label with the middle subscriber identification module (SIM) of mobile phone by the antenna of wireless radio frequency identification label, in order to identification mobile phone holder's personal data.

Radio RF identification label includes two parts, is respectively the antenna and the subscriber identification module of wireless radio frequency identification label.The antenna package of wireless radio frequency identification label contains coil and the electrical contact that is electrically connected at coil.Subscriber identification module is electrically connected at electrical contact, with the antenna and the subscriber identification module electric connection of wireless radio frequency identification label, so that the data communication of subscriber identification module and radio frequency identification reader to be provided.

But it is because the design difference of each tame cell phone manufacturer, so all different in the mobile phone in order to the position of placing subscriber identification module (SIM).Be used on the various mobile phone if only overlap with the antenna of the wireless radio frequency identification label of unimodality, can be because the position difference of subscriber identification module (SIM), and can't make the electrical contact of antenna of wireless radio frequency identification label and subscriber identification module between electrically connect, thereby can't operate.Therefore often manufacturer can only remove to design the antenna of wireless radio frequency identification label at single mobile phone, allows the antenna of radio frequency identification (RFID) do with subscriber identification module (SIM) and combines, and can't be common to various mobile phones.

Summary of the invention

The utility model provides the Anneta module of a kind of radio frequency identification (RFID) label, can't be applicable to various mobile phones in order to the Anneta module that solves existing radio frequency identification (RFID) label.

Anneta module according to the disclosed radio frequency identification of the utility model (RFID) label includes coil, a plurality of positive electrode and a plurality of negative electrode.

Coil is in order to first message of wireless receiving from the radio frequency identification reader, and wireless backhaul is given the radio frequency identification reader by second message that subscriber identification module produces.A plurality of positive electrodes electrically connect coil.A plurality of negative electrodes electrically connect coil.

Wherein, the Anneta module according to the disclosed radio frequency identification of the utility model (RFID) label more comprises base plate.Coil, a plurality of positive electrode and a plurality of negative electrode are arranged on the base plate, and a plurality of positive electrode and a plurality of negative electrode can be arranged at the coil inboard, can certainly be in the coil outside, or part is in the coil outside, part is side in coil, decides according to design.

Anneta module according to the disclosed wireless radio frequency identification label of the utility model includes antenna, first substrate and soft row.

Antenna has coil, a plurality of positive electrode and a plurality of negative electrode.A plurality of positive electrodes and a plurality of negative electrode electrically connect coil.Coil is in order to first message of wireless receiving from the radio frequency identification reader, and wireless backhaul second message is given the radio frequency identification reader.

First substrate has a plurality of first electrode contacts and a plurality of second electrode contact.Wherein at least one of a plurality of first electrode contacts is corresponding and electrically connect a plurality of positive electrodes or wherein at least one of negative electrode, and wherein at least one of a plurality of second electrode contact is corresponding and electrically connect a plurality of negative electrodes or wherein at least one of positive electrode.First substrate is in order to transmit first message and second message.The way of contact makes a plurality of first electrode contacts and a plurality of second electrode contact heteropolarity each other.

Soft row's one end is connected and electrically connects first substrate.Soft row's the other end passes to subscriber identification module with first message that will receive from this first substrate in order to electrically connect subscriber identification module or external module, and subscriber identification module is resolved first message and second message that produces returns to first substrate.

Wherein, a plurality of positive electrodes and a plurality of negative electricity very are interspersed.A plurality of first electrode contacts are provided with the position of the corresponding a plurality of positive electrodes of a plurality of second electrode contacts and a plurality of negative electrodes.A plurality of first electrode contacts and a plurality of second electrode contact can be arranged at first substrate, one side, on also can the two sides of first substrate respectively correspondence a plurality of first electrode contacts and a plurality of second electrode contact are set, and corresponding each first electrode contact that is provided with is electrically connected to each other, and each second electrode contact is electrically connected to each other.

Anneta module according to the disclosed wireless radio frequency identification label of the utility model also includes second substrate.Second substrate is electrically connected at soft row's other end, in order to contact and electric connection subscriber identification module.Wherein, second substrate includes a plurality of holes and at least one first metallic contact.At least one first metallic contact is in order to be electrically connected at subscriber identification module.A plurality of holes are in order to expose a plurality of second metallic contacts on the subscriber identification module.

Wherein, the Anneta module according to the disclosed radio frequency identification of the utility model (RFID) label more comprises base plate.Coil, a plurality of positive electrode and a plurality of negative electrode are arranged on the base plate, and a plurality of positive electrode and a plurality of negative electrode can be arranged at the coil inboard, can certainly be in the coil outside, or part is in the coil outside, part is side in coil, decides according to design.

According to the Anneta module of the disclosed wireless radio frequency identification label of the utility model, because a plurality of positive electrodes and a plurality of negative electrode on the coil, and the design of a plurality of first electrode contacts and a plurality of second electrode contacts on first substrate.Make on the coil a plurality of first electrode contacts wherein at least one corresponding and electrically connect a plurality of positive electrodes wherein at least one, and a plurality of second electrode contacts wherein at least one corresponding and electrically connect a plurality of negative electrodes wherein at least one, electrically connect with Anneta module and subscriber identification module, so that the data communication of subscriber identification module and radio frequency identification reader to be provided wireless radio frequency identification label.Make the antenna of wireless radio frequency identification label can be common to various mobile communication devices.

Below in conjunction with the drawings and specific embodiments the utility model is described in detail, but not as to qualification of the present utility model.

Description of drawings

Fig. 1 is the antenna schematic diagram according to the Anneta module of radio frequency identification of the present utility model (RFID) label;

Fig. 2 A is first partial schematic diagram according to the Anneta module of radio frequency identification of the present utility model (RFID) label;

Fig. 2 B is second partial schematic diagram according to the Anneta module of radio frequency identification of the present utility model (RFID) label;

Fig. 3 is the 3rd partial schematic diagram according to the Anneta module of radio frequency identification of the present utility model (RFID) label;

Fig. 4 A is Anneta module first schematic diagram according to wireless radio frequency identification label of the present utility model;

Fig. 4 B is Anneta module second schematic diagram according to wireless radio frequency identification label of the present utility model;

Fig. 4 C is Anneta module the 3rd schematic diagram according to wireless radio frequency identification label of the present utility model;

Fig. 4 D is Anneta module the 4th schematic diagram according to wireless radio frequency identification label of the present utility model;

Fig. 5 is that the Anneta module according to wireless radio frequency identification label of the present utility model combines first schematic diagram with mobile phone;

Fig. 6 is that the Anneta module according to wireless radio frequency identification label of the present utility model combines second schematic diagram with mobile phone; And

Fig. 7 is the schematic diagram according to the data communication of the Anneta module of wireless radio frequency identification label of the present utility model and radio frequency identification reader.

Wherein, Reference numeral

11 coils

The 12a positive electrode

The 12b negative electrode

13 base plates

14 first substrates

The 14a side

The 14b side

15 soft rows

16 second substrates

The 16a hole

16b first metallic contact

17a first electrode contact

17b second electrode contact

20 mobile phone bodies

21 batteries

22 battery covers

30 separators

100 subscriber identification modules

101 second metallic contacts

200 radio frequency identification readers

Embodiment

Please refer to Fig. 1.Fig. 1 is the antenna schematic diagram according to the Anneta module of radio frequency identification of the present utility model (RFID) label.The Anneta module of radio frequency identification (RFID) label is applied to a subscriber identification module (SIM) 100, so that the data communication of subscriber identification module 100 with the radio frequency identification reader to be provided.The Anneta module of radio frequency identification (RFID) label includes antenna.In Fig. 1, antenna package contains coil 11, two positive electrode 12a, two negative electrode 12b and base plate 13.

Coil 11 can be arranged on the base plate 13.

Two positive electrode 12a and two negative electrode 12b are arranged on the base plate 13.Two positive electrode 12a electrically connect coil 11.Two negative electrode 12b electrically connect coil 11.Wherein.The position of two positive electrode 12a and two negative electrode 12b can be arranged at the inboard of coil 11, that is is positioned at the scope that coil 11 is centered on, and is separately positioned on the both sides up and down or the left and right sides in the coil 11.The position of certain two positive electrode 12a and two negative electrode 12b also can be arranged at the outside of coil 11, or part, is decided according to design partly in coil 11 inboards in coil 11 outsides.

Wherein, two positive electrode 12a and two negative electrode 12b can be and are interspersed, and can be matrix distribution.That is no matter during vertical or horizontal arrangement, positive electrode 12a and negative electrode 12b are staggered.In present embodiment, the number of positive electrode 12a is two, can certainly be for a plurality of.The number of negative electrode 12b is two, can certainly be for a plurality of.

First electric wave signal that coil 11 is sent from radio frequency identification reader (not drawing among the figure) in order to wireless receiving with first message, and convert first electric wave signal to first signal code with first message.And, coil 11 can return the secondary signal electric current with second message that is sent by subscriber identification module 100, and the secondary signal current conversion become second electric wave signal with second message, to be wirelessly sent to radio frequency identification reader (not drawing among the figure).

Two positive electrode 12a and two secondary signal electric currents that negative electrode 12b includes first signal code of first message and includes second message in order to transmission.

Base plate 13 is generally printed circuit board (PCB) or flexible modus ponens soft board.The material of base plate 13 can be other materials such as glass fibre or bakelite, and certainly, base plate 13 can also adopt the material of other kind.

Please refer to Fig. 2 A.Fig. 2 A is first partial schematic diagram according to the Anneta module of radio frequency identification of the present utility model (RFID) label.The Anneta module of radio frequency identification (RFID) label is applied to a subscriber identification module (SIM) 100, so that the data communication of subscriber identification module 100 with the radio frequency identification reader to be provided.In Fig. 2, the Anneta module of radio frequency identification (RFID) label also includes first substrate 14 and soft row 15.

First substrate 14 has two first electrode contact 17a and two second electrode contact 17b.The first electrical contact 17a can be that positive electrode can be a negative electrode also, decides on the electrode that is connected.In like manner, the second electrical contact 17b can be that positive electrode can be a negative electrode also, decides on the electrode that is connected.The way of contact makes a plurality of first electrode contact 17a and a plurality of second electrode contact 17b heteropolarity each other.

At least one in can corresponding a plurality of positive electrode 12a of among two first electrode contact 17a at least one, at least one in can certainly corresponding a plurality of negative electrode 12b.And, during among two the first electrode contact 17a at least one can corresponding two positive electrode 12a at least one, at least one second electrode contact 17b is also arranged corresponding among two negative electrode 12b at least one among two second electrode contact 17b, also can be corresponding among two positive electrode 12a at least one.Therefore, when first substrate 14 is fitted with base plate 13, the corresponding mutually positive electrode 12a and the first electrode contact 17a can fit each other and electrically connect, and the corresponding mutually negative electrode 12b and the second electrode contact 17b also can fit each other and electrically connect, and then the antenna of wireless radio frequency identification label and subscriber identification module 100 are electrically connected, so that the data communication of subscriber identification module 100 with radio frequency identification reader (not drawing among the figure) to be provided.In present embodiment, the number of the first electrode contact 17a and the second electrode contact 17b respectively is four, can certainly be for a plurality of.

Two first electrode contact 17a are electrically connected to each other, and one of them first electrode contact 17a is electrically connected at soft row 15.Two second electrode contact 17b are electrically connected to each other, and one of them second electrode contact 17b is electrically connected at soft row 15.

A plurality of first electrode contact 17a and a plurality of second electrode contact 17b can be positioned on the side 14a of first substrate 14, also can be positioned on the two sides 14a and 14b of first substrate 14.Please refer to Fig. 2 B.Fig. 2 B is second partial schematic diagram according to radio frequency identification of the present utility model (RFID) label.In Fig. 2 B, on the two sides 14a and 14b of first substrate 14, correspondence is provided with four first electrode contact 17a and a plurality of second electrode contact 17b respectively, and corresponding each first electrode contact 17a that is provided with is electrically connected to each other, and each second electrode contact 17b is electrically connected to each other.

Wherein, a plurality of first electrode contact 17a and a plurality of second electrode contact 17b can be and be interspersed, and can be matrix distribution.A plurality of first electrode contact 17a can corresponding a plurality of positive electrode 12a or the position of a plurality of negative electrode 17b be provided with.A plurality of second electrode contact 17b can corresponding a plurality of positive electrode 12a or the position of a plurality of negative electrode 17b be provided with.

Soft row's 15 a end is connected and electrically connects first substrate 14.

Soft row's 15 the other end is in order to electrically connecting subscriber identification module 100, and first electric wave signal that will have first message passes to subscriber identification module 100.First message that subscriber identification module 100 is resolved in first electric wave signal that receives, produce second electric wave signal according to this with second message, and give first substrate 14 via second electric wave signal that soft row's 15 passbacks have second message, give coil 11 by 14 passbacks of first substrate.

Please refer to Fig. 3.Fig. 3 is the 3rd partial schematic diagram according to the Anneta module of radio frequency identification of the present utility model (RFID) label.Wherein, subscriber identify module card also includes second substrate 16.Second substrate 16 is connected and is electrically connected at soft row's 15 the other end, in order to contact and electric connection subscriber identification module 100.。Second substrate 16 has a plurality of hole 16a and at least one first metallic contact 16b.At least one first metallic contact 16b is in order to be electrically connected at this subscriber identification module.A plurality of hole 16a are in order to expose a plurality of second metallic contacts 101 on the subscriber identification module 100.

That is to say that soft row 15 can directly be electrically connected at first substrate 14 and subscriber identification module 100, promptly is connected between first substrate 14 and subscriber identification module 100.Yet soft row 15 is designed to an end to electrically connect first substrate 14, and the other end is electrically connected at second substrate 16, to be electrically connected by second substrate 16 and subscriber identification module 100.In other words, soft row 15 is connected between first substrate 14 and second substrate 16, and electrically connects subscriber identification module 100 by second substrate 16.Therefore, can give subscriber identification module 100 from first electric wave signal that first substrate 14 transmits by soft row 15 with first message, and first message in subscriber identification module 100 parsings first electric wave signal is produced second electric wave signal with second message give first substrate 14 via soft row's 15 passbacks again, give coil 11 by 14 passbacks of first substrate.Wherein, first electric wave signal with first message can be directly passed to subscriber identification module 100 from soft row 15, also can pass to subscriber identification module 100 via second substrate 16 from soft row 15.Similarly, second electric wave signal with second message can directly return from subscriber identification module 100 gives soft row 15, also can return via second substrate 16 from subscriber identification module 100 and give soft row 15.

Please refer to Fig. 4 A, Fig. 4 B, Fig. 4 C and Fig. 4 D.Fig. 4 A, Fig. 4 B, Fig. 4 C and Fig. 4 D are the Anneta module schematic diagram according to wireless radio frequency identification label of the present utility model.Wherein, Fig. 4 A is Anneta module first schematic diagram according to wireless radio frequency identification label of the present utility model.Fig. 4 B is Anneta module second schematic diagram according to wireless radio frequency identification label of the present utility model.Fig. 4 C is Anneta module the 3rd schematic diagram according to wireless radio frequency identification label of the present utility model.Fig. 4 D is Anneta module the 4th schematic diagram (thin parts please refer to Fig. 1 to Fig. 3) according to wireless radio frequency identification label of the present utility model.

In Fig. 4 A, two positive electrode 12a on the coil 11 are corresponding respectively and be electrically connected at two second electrode contact 17b on first substrate 14.Two negative electrode 12b on the coil 11 are corresponding respectively and electrically connect two first electrode contact 17a on first substrate 14, make the Anneta module and subscriber identification module 100 electric connections of wireless radio frequency identification label.Come corresponding respectively with two second electrode contact 17b and be electrically connected at two negative electrode 12b and two positive electrode 12a by two first electrode contact 17a, so that the data communication of subscriber identification module 100 with radio frequency identification reader (not drawing among the figure) to be provided.

In Fig. 4 B, Fig. 4 C, be that one among one and two the first electrode contact 17a among two positive electrode 12a on the coil 11 electrically connects, two kinds of electrically connecting among one and two the second electrode contact 17b among two negative electrode 12b electrically connect and illustrate.

Wherein, one first electrode contact 17a among two the first electrode contact 17a of first substrate 14 is corresponding and be electrically connected at a positive electrode 12a among two positive electrode 12a on the coil 11, and one the second electrode contact 17b of two second electrode contact 17b that is arranged in first substrate 14 is corresponding and be electrically connected at the negative electrode 12b of two negative electrode 12b on the coil 11, makes the Anneta module and subscriber identification module 100 electric connections of wireless radio frequency identification label.

Corresponding and be electrically connected at a positive electrode 12a among two positive electrode 12a by one first electrode contact 17a among two the first electrode contact 17a, corresponding with one second electrode contact 17b among two the second electrode contact 17b and be electrically connected at a negative electrode 12b among two negative electrode 12b, so that the data communication of subscriber identification module 100 with radio frequency identification reader (not drawing among the figure) to be provided.

In Fig. 4 D, be that one among one and two the second electrode contact 17b among two positive electrode 12a on the coil 11 electrically connects, the electric connection that electrically connects among one and two the first electrode contact 17a among two negative electrode 12b illustrates.

Wherein, one first electrode contact 17a among two the first electrode contact 17a of first substrate 14 is corresponding and be electrically connected at a negative electrode 12b among two negative electrode 12b on the coil 11, and one the second electrode contact 17b of two second electrode contact 17b that is arranged in first substrate 14 is corresponding and be electrically connected at the positive electrode 12a of two positive electrode 12a on the coil 11, makes the Anneta module and subscriber identification module 100 electric connections of wireless radio frequency identification label.

Corresponding and be electrically connected at a negative electrode 12b among two negative electrode 12b by one first electrode contact 17a among two the first electrode contact 17a, corresponding with one second electrode contact 17b among two the second electrode contact 17b and be electrically connected at a positive electrode 12a among two positive electrode 12a, so that the data communication of subscriber identification module 100 with radio frequency identification reader (not drawing among the figure) to be provided.

Please refer to Fig. 5 and Fig. 6.Fig. 5 is that the Anneta module according to wireless radio frequency identification label of the present utility model combines first schematic diagram with mobile phone.Fig. 6 combines second schematic diagram (thin parts please refer to Fig. 1 to Fig. 3) for the Anneta module according to wireless radio frequency identification label of the present utility model with mobile phone.

In Fig. 5 and Fig. 6, subscriber identification module 100 can be arranged between mobile phone body 20 and the battery 21, also can be arranged in the mobile phone body 20.Soft row's 15 1 ends are connected in subscriber identification module 100.Soft row 15 is set around a side of battery 21.Soft row's 15 other ends are electrically connected at first substrate 14.First substrate 14 is arranged on the battery 21.Base plate 13 is attached at battery cover 22 inboards with respect to the another side that coil 11 is arranged.

When battery cover 22 combines with mobile phone body 20, one of them is corresponding and be electrically connected among a plurality of positive electrode 12a on the coil 11 one of them among a plurality of first electrode contact 17a on first substrate 14, and one of them is corresponding and be electrically connected among a plurality of negative electrode 12b on the coil 11 that one of them is individual among a plurality of second electrode contact 17b on first substrate 14.Because a plurality of positive electrode 12a and a plurality of negative electrode 12b on the coil 11, and the design of first a plurality of first electrode contact 17a on the substrate 14 and a plurality of second electrode contact 17b, electrically connect with antenna and subscriber identification module 100, so that the data communication of subscriber identification module 100 with radio frequency identification reader 200 to be provided wireless radio frequency identification label.

In embodiment of the present utility model, can have at least two positive electrode 12a and at least two negative electrode 12b on the coil 11.Can have at least two first electrode contact 17a and at least two second electrode contact 17b on first substrate 14.In this, one of them positive electrode 12a is corresponding and be electrically connected at one of them first electrode contact 17a, and one of them negative electrode 12b is corresponding and be electrically connected at one of them individual second electrode contact 17b.By one of them is corresponding and electrically connect among a plurality of first electrode contact 17a one of them among a plurality of positive electrode 12a, and one of them is corresponding and electrically connect among a plurality of second electrode contact 17b one of them among a plurality of negative electrode 12b, electrically connect in order to antenna and subscriber identification module 100, so that the data communication of subscriber identification module 100 with radio frequency identification reader (not drawing among the figure) to be provided wireless radio frequency identification label.

Please refer to Fig. 7.Fig. 7 is according to the schematic diagram of the data communication of the Anneta module of wireless radio frequency identification label of the present utility model and radio frequency identification reader (thin parts please refer to Fig. 1 to Fig. 3).

Subscriber identification module 100 be arranged at mobile phone body 20 and battery 21 between.Soft row's 15 1 ends are connected in subscriber identification module 100.Soft row 15 is set around a side of battery 21.Soft row's 15 other ends are electrically connected at first substrate 14.First substrate 14 is arranged on the battery 21.Base plate 13 is attached at battery cover 22 inboards with respect to the another side that coil 11 is arranged.Wherein, separator 30 is arranged between the base plate 13 and first substrate 14.Wherein, separator 30 can be hugged sky with at least two negative electrode 12b zones at least two positive electrode 12a, and what make contacts with first substrate, 14 electrodes.Separator 30 is in order to shielding battery metal reflection interference partly.

When battery cover 22 combines with mobile phone body 20, one of them is corresponding and be electrically connected among a plurality of positive electrode 12a on the coil 11 or the negative electrode 12b one of them among a plurality of first electrode contact 17a on first substrate 14, and one of them is corresponding and be electrically connected among a plurality of negative electrode 12b on the coil 11 or the positive electrode 12a that one of them is individual among a plurality of second electrode contact 17b on first substrate 14.Because a plurality of positive electrode 12a and a plurality of negative electrode 12b on the coil 11, and the design of first a plurality of first electrode contact 17a on the substrate 14 and a plurality of second electrode contact 17b, electrically connect with antenna and subscriber identification module 100, so that the data communication of subscriber identification module 100 with radio frequency identification reader 200 to be provided wireless radio frequency identification label.

In embodiment of the present utility model, have at least two positive electrode 12a and at least two negative electrode 12b on the coil 11.Have at least two first electrode contact 17a and at least two second electrode contact 17b on first substrate 14.In this, one of them positive electrode 12a is corresponding and be electrically connected at one of them first electrode contact 17a, and one of them negative electrode 12b is corresponding and be electrically connected at one of them individual second electrode contact 17b.By one of them is corresponding and electrically connect among a plurality of first electrode contact 17a one of them among a plurality of positive electrode 12a, and one of them is corresponding and electrically connect among a plurality of second electrode contact 17b one of them among a plurality of negative electrode 12b, electrically connect in order to antenna and subscriber identification module 100, so that the data communication of subscriber identification module 100 with radio frequency identification reader 200 to be provided wireless radio frequency identification label.

Certainly; the utility model also can have other various embodiments; under the situation that does not deviate from the utility model spirit and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the utility model.

Claims (10)

1, a kind of Anneta module of wireless radio frequency identification label is characterized in that, includes:

One coil, in order to one first message of wireless receiving from a radio frequency identification reader, and wireless backhaul is given this radio frequency identification reader by one second message that a subscriber identification module produces;

A plurality of positive electrodes electrically connect this coil; And

A plurality of negative electrodes electrically connect this coil.

2, the Anneta module of wireless radio frequency identification label according to claim 1 is characterized in that, also comprises:

One base plate, this coil, these a plurality of positive electrodes and this a plurality of negative electrodes are arranged on this base plate.

3, the Anneta module of wireless radio frequency identification label according to claim 2 is characterized in that, these a plurality of positive electrodes and these a plurality of negative electrodes are arranged at this coil inboard or outside.

4, a kind of Anneta module of wireless radio frequency identification label is characterized in that, includes:

One antenna has a coil, a plurality of positive electrode and a plurality of negative electrode, and these a plurality of positive electrodes electrically connect this coil with these a plurality of negative electrodes;

One first substrate, have a plurality of first electrode contacts and a plurality of second electrode contact, wherein at least one of these a plurality of first electrode contacts is corresponding and electrically connect these a plurality of positive electrodes or wherein at least one of negative electrode, and this a plurality of second electrode contacts wherein at least one correspondence and electrically connect these a plurality of negative electrodes or wherein at least one of positive electrode; And

One soft row, this soft row's a end is connected and electrically connects this first substrate, and this soft row's the other end is in order to electrically connect an external module.

5, the Anneta module of wireless radio frequency identification label according to claim 4 is characterized in that, these a plurality of positive electrodes very are interspersed with these a plurality of negative electricity.

6, the Anneta module of wireless radio frequency identification label according to claim 4 is characterized in that, these a plurality of first electrode contacts are arranged at this first substrate, one side with these a plurality of second electrode contacts.

7, the Anneta module of wireless radio frequency identification label according to claim 4, it is characterized in that, corresponding respectively these a plurality of first electrode contacts and these a plurality of second electrode contacts of being provided with on the two sides of this first substrate, and corresponding each this first electrode contact that is provided with is electrically connected to each other, and each this second electrode contact is electrically connected to each other.

8, the Anneta module of wireless radio frequency identification label according to claim 4 is characterized in that, comprises:

One second substrate is electrically connected at this soft row's other end, in order to contact and to electrically connect a subscriber identification module.

9, the Anneta module of wireless radio frequency identification label according to claim 4 is characterized in that, also comprises:

One base plate, this coil, these a plurality of positive electrodes and this a plurality of negative electrodes are arranged on this base plate.

10, the Anneta module of wireless radio frequency identification label according to claim 9 is characterized in that, these a plurality of positive electrodes and these a plurality of negative electrodes are arranged at this coil inboard or outside.

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