DE102007059168A1 - Communication module for radio frequency communication, has antenna comprising highest magnetic field strength in area in such manner that data and/or energy are transferred under coupling between antenna and magnetic coupling antenna - Google Patents

Abstract

A communication module for radio frequency communication comprising a radio module having a chip and an antenna, the antenna being provided with an opening, the radio module having a magnetic coupling antenna electrically connected to the chip, and the radio module being positioned in such a region of the antenna in that the antenna has the highest magnetic field strength such that the data and / or the energy are transmitted by coupling between the antenna and the magnetic coupling antenna.

Description

The The invention relates to a communication module for radio frequency communication comprising a radio module having a chip and an antenna, wherein the antenna is provided with an opening.

wireless Communication modules in miniaturized design and in particular without finding their own energy supply in logistics with radio frequency identification (RFID) a proliferating spread, which is a very cheap Realization under the most different application situations allowed. Particularly aggravating conditions arise during use the communication modules on large, electrically conductive Surfaces. That can be metal surfaces, but also containers with z. As aqueous solutions.

From the DE 20 2007 006 597 U1 a patch antenna with a capacitive coupling of a transponder chip is known. The patch antenna is basically suitable for use on larger, electrically conductive surfaces. However, a disadvantage is the relatively complicated construction of the patch antenna from a sequence of dielectric and electrically conductive layers. The application of the transponder chip is also required individually. Antenna structure and contacting lead to a technological effort that may cause inadequate economic efficiency.

From the DE 10 2006 029 248 A1 a communication module for radio frequency communication is known, which consists of a slot antenna on the one hand and on the other hand of a transponder module, which can be manufactured separately. The transponder module essentially has a chip. Furthermore, the transponder module has two contact surfaces which are arranged on surfaces of the transponder module facing away from one another and ensure contact between the transponder module and the slot antenna. Since the slot antenna has a very high connection impedance at the contact point described, suitable designs are proposed which also allow impedance matching. A disadvantage of this known solution is that the surfaces of the antenna facing away from one another are to be contacted with contact surfaces of the transponder module. In addition, such internals at the point of contact of the antenna because of the highest impedance existing there disturbing effect on the radio technical properties.

It is therefore an object of the invention, a communication module such to develop that the supply of a high frequency signal in a wireless module with a low production cost improved becomes.

to Solution to this problem is the invention in connection with the preamble of claim 1, characterized in that the radio module has a magnetic chip electrically connected to the chip Coupling antenna has and that the radio module in such an area the antenna is positioned where the antenna is the highest magnetic field strength, such that the data and / or the energy under coupling between the antenna and the magnetic Coupling antenna are transmitted.

Of the particular advantage of the invention is that the antenna effect a metallic component with an opening for feeding or transmission of a high-frequency signal can be used can, without a module having the chip with the antenna must be galvanically coupled. The basic idea of the invention is a radio module containing a chip and a magnetic coupling antenna to position or mount in one area of the antenna, in which the highest magnetic field strength forms at the antenna. The high frequency signal is thus under Coupling of the antenna with the magnetic coupling antenna of the radio module imprinted in the radio module. The transfer of the High-frequency signal thus takes place by means of a relatively large Antenna bounded by a metallic surface, and a relatively small magnetic coupling antenna (conductor loop), which is arranged integrated in the radio module.

A The basic idea of the invention is therefore an antenna and a Radio module on the magnetic field, for example one To couple slot antenna by the radio module only from a very short magnetic coupling loop with the connected radio chip is and this radio module in the place of highest magnetic Field strength of the slot antenna is placed.

The Slot antenna has in the open aperture in the middle area of the two opposing surfaces the highest electric field strength. on the other hand then it has the highest magnetic at the slot ends Field strength. Through this property she transforms the received radio wave with the free space impedance in the middle of the antenna in a strong electric field and on the narrower antenna sides in a magnetic field. This can with the short magnetic frame of the radio module are coupled and the radio electronics respectively be supplied to the radio chip.

In one embodiment of the invention, the small magnetic frame may be used as a chip carrier (chip Carrier), so that the production can be done with standard technologies of mounting and encapsulating the semiconductor technology.

In In another embodiment, the radio chip in a Covering part or functional part to be embedded in plastic. The slot antenna is then passed through a label from a label carrier with a metallization or otherwise formed electrically conductive layer in which the slot antenna is worked out. This makes it possible for the communication module by simply changing the label to different frequencies vote.

In In another embodiment, the antenna arc as Circular arc running so that the wireless module simultaneously can be placed on both slot ends, which improves the sensitivity becomes. At the same time, this reduces the influence of the situation achieved by communication module and reader.

embodiments The invention will be described in more detail below with reference to the drawings explained.

It demonstrate:

1 a perspective view of a slot antenna with marked magnetic field lines at the slot ends,

2 a top view of a radio module,

3 a top view of a with a slot antenna and arranged at a slot end radio module communication module according to a first embodiment,

4 a perspective view of a communication module according to another embodiment,

5 a perspective view of a communication module with an annular slot antenna,

6 a top view of a carrier tape for receiving a chip and a magnetic coupling antenna (conductor loop),

7 a plan view of a communication module with an antenna having an oval-shaped opening,

8th a plan view of a communication module according to 7 wherein the antenna has projecting metal rods in a central region, and

9 a plan view of a communication module according to another embodiment with two each arranged at the ends of the opening radio modules.

A communication module 1 consists on the one hand of an antenna 2 made of a sheet metal body 3 and an opening 4 is formed. How out 1 can be seen, the antenna can 2 For example, be designed as a slot antenna, wherein the opening 4 is formed by a slot of predetermined length L. The antenna 2 consists of a temperature-stable metal material, which may for example be mounted on a component of a motor vehicle or injected, for example, in a plastic lid of a garbage can.

The opening 4 the slot antenna 2 is formed as a recess formed by the electrically conductive metal body (sheet metal) 3 is surrounded. The length L of the slot 4 is tuned to the wavelength of the high-frequency signal to be transmitted. The length L of the opening 4 the slot antenna 2 corresponds to half the wavelength or a multiple of half the wavelength of the feeding high-frequency alternating current (high-frequency signal). The high-frequency signal is preferably operated in the vicinity of the UHF range (868 MHz, 2.45 GHz).

Out 1 is by specifying magnetic field lines 5 It can be seen that the maximum magnetic field strength at slot ends 6 of the slot 4 established.

The communication module 1 also has a in 2 illustrated radio module 7 on, essentially from a chip 8th and a conductor loop 10 is formed. The chip 8th is about contact surfaces 9 with the conductor loop having an antenna function (loop antenna) 10 electrically conductive contacted. The chip 8th and the conductor loop 10 are on an electrically non-conductive support 11 arranged.

According to a first embodiment of the invention according to 3 has the communication module 1 the slot antenna 2 on, at the front end portion 12 the radio module 7 is attached non-positively and / or positively and / or cohesively. For example, the wireless module 7 by bonding to the front end region 12 the slot antenna 2 be attached. The radio module 7 is thus located in an area of the slot antenna 2 in which the slot antenna 2 having the highest magnetic field strength. The high frequency signal - and thus the data and / or energy - thus becomes subject to electromagnetic coupling between the slot antenna 2 and the conductor loop 10 into the radio module 7 coupled. Preferably is the length L of the antenna 2 on the length of the ladder loop 10 Voted. The length of the conductor loop 10 can be from the attenuation of the antenna 2 and / or be dependent on the impedance of the on-chip circuit. The radio module 7 can be directly at the end of the slot 6 the opening 4 or near the slot end 6 be attached.

An embodiment of the invention according to 4 differs from the communication module 1 according to 3 in that a metal body 13 with opposite mounting flanges 14 is provided so that the communication module 15 In a simple way to functional components can be fastened. The design of the slot antenna 2 and the radio module 7 agree with the previous embodiment.

Same Components or component functions of the different embodiments are provided with the same reference numerals.

According to a further embodiment of a communication module 16 according to 5 is a square metal body 17 with end opposite mounting flanges 18 provided, which has an annular slot 19 as an antenna. The radio module 7 is in the range of an end 20 of the ring slot 19 arranged. The annular slot 19 is formed as a circular ring cutout, which extends along an obtuse angle, for example 300 °. The length of the annular slot 19 is approximated to half the wavelength of the high frequency signal (operating frequency) or to a multiple of half the wavelength of the high frequency signal.

In 6 is a carrier 21 (Chip Carrier) for the assembly of a multiplicity of radio modules 7 and the subsequent enclosure with known per se methods of semiconductor technology. In an electrically conductive carrier tape 22 the antenna rings become conductor loops 23 elaborated. So that they are not lost, they stay with bars 24 stand on the edge strip. At the open ends of the conductor loops 23 becomes the chip 8th placed and contacted. After casting of the thus formed component containing the chip 8th and the conductor loop 23 be the edge strips along the line 25 separated.

According to a further embodiment of a communication module 26 according to 7 is a plate-shaped metallic antenna 27 with an oval or ellipsoidal opening 28 intended. The radio module 7 is at a front edge 29 the oval opening 28 fastened, wherein the attachment preferably in a region of a contour of the oval opening 28 takes place, which has the strongest curvature. The length of the oval opening 28 is - as described above - adapted to the wavelength of the high frequency signal.

According to a further embodiment of a communication module 30 according to 8th is - as according to the embodiment according to 7 - An oval-shaped opening 32 each with projecting in a central region webs 33 provided, which is symmetrical to a longitudinal axis of the oval-shaped opening 32 abut each other. As a result, the formation of the electric and magnetic field can be improved.

According to a further embodiment of a communication module 34 according to 9 is a slot antenna 2 - As according to the embodiment according to 3 - intended. In contrast to the previous embodiments are at the antenna 2 two radio modules 7 . 7 ' placed. The one radio module 7 is at a first slot end 6 , the other radio module 7 ' at the opposite end of the slot 6 ' the slot-shaped opening 4 attached. Advantageously, thereby the use of different radio services, modulations or codes are made possible.

How out 4 can be seen, the chip can 8th of the radio module 7 also on a slit end 6 remote side of the radio module 7 be arranged. In the embodiment according to 3 is the chip 8th on one end of the slit 6 . 12 facing side of the radio module 7 arranged.

According to an embodiment of the invention, not shown, the antenna 2 also be formed open at a slot end. One end of the antenna 2 thus has an opening from which the slot 4 corresponding to the predetermined length in the longitudinal direction of the antenna 2 extends. The radio module 7 is on a side facing away from the open end side in the end region 12 of the slot 4 arranged. This embodiment essentially corresponds to the embodiment according to FIG 4 in which the metal body 13 at the end of the slot 6 , no radio module 7 is assigned, is cut off.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 202007006597 U1 [0003]
• - DE 102006029248 A1 [0004]

Claims (12)

Communication module for a radio frequency communication comprising a radio module having a chip and an antenna, wherein the antenna is provided with an opening, characterized in that the radio module ( 7 . 7 ' ) one electrically with the chip ( 8th ) connected magnetic coupling antenna ( 10 ) and that the radio module ( 7 . 7 ' ) in such an area ( 6 . 6 ' ) of the antenna ( 2 ) is positioned in which the antenna ( 2 ) has the highest magnetic field strength, such that the data and / or the energy coupled between the antenna ( 2 ) and the magnetic coupling antenna ( 10 ) be transmitted. Communication module according to claim 1, characterized in that the opening ( 4 ) of the antenna ( 2 ) one on the length of the magnetic coupling antenna ( 10 ) of the radio module ( 7 . 7 ' ) has tuned length (L). Communication module according to claim 1 or 2, characterized in that the length (L) of the opening ( 4 ) of the antenna ( 2 ) is tuned to the wavelength of the high-frequency signal to be transmitted. Communication module according to one of claims 1 to 3, characterized in that length (L) of the opening ( 4 ) of the antenna ( 2 ) corresponds to half the wavelength or a multiple of half the wavelength of the high-frequency signal to be transmitted. Communication module according to one of claims 1 to 4, characterized in that the magnetic coupling antenna ( 10 ) together with the chip ( 8th ) is arranged in an electrically non-conductive potting and that the potting body non-positively and / or positively and / or cohesively with the antenna ( 2 ) connected is. Communication module according to one of claims 1 to 5, characterized in that the radio module ( 7 . 7 ' ) in an end region ( 12 ) of the opening ( 4 ) of the antenna ( 2 ) is arranged. Communication module according to one of claims 1 to 6, characterized in that the radio module ( 7 . 7 ' ) on one edge ( 29 ) of the opening ( 28 ) of the antenna ( 27 ) is arranged, on which the opening ( 28 ) has the largest curvature. Communication module according to one of claims 1 to 7, characterized in that the antenna ( 2 ) is formed as a slot antenna, wherein at least one radio module ( 7 . 7 ' ) at a slot end ( 6 . 6 ' ) of the slot ( 4 ) is arranged. Communication module according to one of claims 1 to 8, characterized in that the opening ( 4 ) runs straight or looped. Communication module according to one of claims 1 to 9, characterized in that at opposite end regions ( 12 ) of the opening ( 4 ) several radio modules ( 7 . 7 ' ) are positioned to enable the same or different radio services. Communication module according to one of claims 1 to 10, characterized in that the electrically conductive surface in which the antenna opening ( 4 ) is introduced from a non-conductive carrier, for. B. a paper or plastic film, which is provided with an electrically conductive layer in which the antenna opening ( 4 ) and the radio module ( 7 . 7 ' ) is embedded in a separate, electrically non-conductive component and that the antenna ( 2 ) is glued to the non-conductive component. Communication module according to one of claims 1 to 11, characterized in that the antenna opening ( 4 ) is made in the non-conductive or electrically conductive layer by punching.