DE202018102940U1 - Device for sending and receiving data of a passive RFID tag - Google Patents

Abstract

Device (1) for wireless transmission and reception of data in an electromagnetically shielded housing (4) introduced RFID tags (8), wherein in the housing wall (40) of the housing (4) a transmission region (3) is provided and further a transceiver (6) connected to the RFID tag (8) is provided, which is designed to transmit and / or receive data from the RFID tag (8) through the transmission area (3), wherein immediately below or above the transmission area (FIG. 3) a double coil (2) of two coil arrangements (2A, 2B) for coupling to an external receiving unit (10) of a reading device and for coupling to the transceiver (6) is provided.

Description

The invention relates to a device for transmitting and receiving data of a particular passive RFID tag or an RFID memory chip, which is housed in a shielded housing.

In particular, the present invention relates to so-called NFC tags in a housing. NFC tags are passive RFID tags that typically operate in the 13.56 MHz RF frequency range. The specifications for the frequency range, modulation and data structure on the microchip are set by a standardization organization called the NFC Forum. NFC tags, for example in the form of stickers, key fobs, cards or wristbands, contain a microchip that can store a certain amount of data. The NFC tag can then be read out with an NFC terminal, for example a mobile phone. However, NFC tags can only store a small amount of data. However, this amount of data is sufficient, for example, to store a unique ID or the like.

In the wireless data transmission of data stored on a arranged in a shielded housing RFID memory chip, it happens in practice again and again that the surrounding housing walls and especially the shielding effect of metallic housing interfere with the data transmission, completely inhibit or anyway let only weak (short-range) signals through. The relevant prior art does not provide a satisfactory solution for transmitting or receiving data through a shielded housing of sufficient signal strength.

Against this background, it is an object of the present invention to overcome the aforementioned disadvantages and to provide an apparatus and a method for transmitting and receiving data of a particular passive RFID tag or an RFID memory chip, which is housed in a shielded housing, wherein the Device cost-effective, safe and can be operated reliably for a long time.

This object is achieved with a device according to the features of claim 1.

A first basic idea of the present invention relates to the aspect of providing at least one area with a low shielding effect (hereinafter: transmission area) on the shielded housing or even providing a transmission opening. Preferably, two or more such (i.e., similar or similar) transmission ports or transmission regions may also be provided in the housing.

Another basic idea of the present invention is to achieve a targeted directional effect of an electromagnetic flux generated by the transmitting and receiving process of a transmitting / receiving unit and to direct this electromagnetic flux in a targeted manner through the transmission region or through the transmission opening provided for this purpose.

According to the invention, it is provided for this purpose that two coil bodies coupled to one another are positioned and / or coupled to one another in the electromagnetically shielded housing such that the transmission area provided in the housing can be penetrated by the electromagnetic fields generated in order to ensure communication between a reading device (eg a smartphone) and the RFID transponder.

In an advantageous embodiment of the invention it is provided that the two bobbins are arranged to each other so that they couple with each other and with the reader and the RFID tag. In this case, provision is made in particular for the two coils to form a type of "magnetic lens" in order to guide the electromagnetic signals in a focused manner through the transmission region.

In a preferred embodiment of the invention, a solution is proposed in which the housing as a shielded housing, preferably as a metallic housing z. B. a motor is formed. It can be provided with preference that the two said bobbins in the terminal box or under the cover of a motor housing arranged on the inverter housing are arranged so that the alignment of the electromagnetic flux in the direction of the provided in the motor terminal box recesses and the recesses serve as transmission openings. Since a motor terminal box usually has such recesses for the passage of electrical leads, can be provided in a particular embodiment of the invention that the orientation of the electromagnetic flux, achieved by the two coil body magnetic flux effect targeted in the direction of at least one of the Terminal box existing recesses takes place.

According to the invention, a device for wireless transmission and reception of data of an RFID tag inserted in an electromagnetically shielded housing is proposed for this purpose, wherein a transmission region is provided in the housing wall of the housing and further wherein a transceiver connected to the RFID tag is provided which forms is data from RFID tag transmitted through the transmission area and / or to receive, immediately below or above the transmission range, a double coil of two coil arrangements for coupling with an external reading device and for coupling to the transceiver is provided. The transceiver can z. B. a choke, a rod core choke, an inductor or the like.

In a particularly preferred embodiment of the invention, the transmission region is a transmission opening in the form of a recess of the housing wall or an area with respect to the surrounding housing significantly lower shielding attenuation, preferably a screen attenuation by a factor of 0.5 or less than the shield attenuation in the region of the Transmissionsbereich immediately surrounding housing wall of the housing or the other housing wall. The transmission opening or the transmission region can be formed, for example, as a housing opening, a lattice-like structure with a multiplicity of openings in the housing wall in this area, or a material selection which does not or only weakly shields the area of the housing wall. For example, it would also be conceivable to introduce an opening in the otherwise closed housing wall into which a plastic cover or a plastic inlay is inserted, which is permeable to electromagnetic radiation. In this way, the housing ensures a complete protection against, for example, environmental influences and at the same time a still functioning EMC shielding.

In a likewise preferred embodiment of the invention, it is provided that the transceiver is formed with a rod core choke or a ferrite core with a coil arrangement surrounding it, and more preferably this is arranged underneath the transmission region in the housing and suitably oriented, wherein the coil arrangement preferably also has a coil arrangement Resonant circuit or an impedance in series or parallel connection for tuning the resonance of the transmitter unit formed in the device is connected to the RFID tag.

It is also advantageous if the coil arrangement is connected to the RFID tag via a resonant circuit or an impedance in series or parallel connection for tuning the resonance to a receiving system. In this way, the resonance frequencies of the resonant circuits of the transmitting antennas or receiving antennas can be suitably coordinated with one another.

In a further advantageous embodiment of the present invention it is provided that the double coil of the two coil assemblies is formed such that the coil assembly is wound as an outer coil assembly in the same winding plane around the second coil assembly around, wherein the second coil assembly is formed as an inner coil assembly , It is advantageously provided that the inner coil assembly and the outer coil assembly are wound or formed from a common coil wire, thus the two coil assemblies are electrically connected in series and spatially arranged in a coaxial arrangement to each other.

In a favorable embodiment, the double coil formed therefrom is arranged on or in a flat coil carrier in a substantially common plane.

It is advantageous if the coil carrier is arranged above the transmission region and, preferably, the transceiver or its coil is also arranged directly below the transmission region. In this way, a good electromagnetic coupling is obtained from the otherwise shielding housing with specifically the same orientation of the magnetic flux in the respective coupled coils.

1. a) elektromagnetische Kopplung zwischen einer Spule des Transceivers und der Doppelspule, insbesondere der inneren Spulenanordnung der Doppelspule und
2. b) elektromagnetische Kopplung zwischen der Doppelspule, insbesondere der äußeren Spulenanordnung und einer externen Empfangseinheit zum Senden von Daten an die Empfangseinheit und/oder zum Empfangen von Daten von der Empfangseinheit.

A further aspect of the present invention relates to the functioning of the device for the wireless transmission and reception of data of an RFID tag incorporated in an electromagnetically shielded housing to an external receiving unit, in particular arranged outside the housing, having the following steps:

1. a) electromagnetic coupling between a coil of the transceiver and the double coil, in particular the inner coil assembly of the double coil and
2. b) electromagnetic coupling between the dual coil, in particular the outer coil assembly and an external receiving unit for transmitting data to the receiving unit and / or for receiving data from the receiving unit.

It is particularly advantageous if the receiving unit (for example a receiving unit integrated in a mobile telephone) is positioned above the transmission area outside the housing for transmitting and / or receiving data, so that a particularly efficient coupling to the receiving coil of the receiving unit takes place.

Other advantageous developments of the invention are characterized in the subclaims or are explained in more detail below together with the description of the preferred embodiments of the invention with reference to FIGS.

• 1 eine perspektivische Ansicht einer erfindungsgemäßen Vorrichtung in einer schematischen Darstellung;
• 2 eine Schnittansicht durch die Ansicht gemäß einer alternativen Ausführungsform, bei der zusätzlich ein Gehäusedeckel vorgesehen ist und
• 3 eine Ansicht ähnlich der 1, mit Darstellung je einer magnetischen Fluss-Schleife zur Kopplung der Spulenanordnungen.

Show it:

• 1 a perspective view of a device according to the invention in a schematic representation;
• 2 a sectional view through the view according to an alternative embodiment, in which a housing cover is additionally provided and
• 3 a view similar to the one 1 , depicting a respective magnetic flux loop for coupling the coil arrangements.

In the following, the invention will be described by way of exemplary embodiments with reference to the figures 1 - 3 explained in greater detail, wherein like reference numerals refer to the same structural and / or functional features.

In the 1 is an example and in a schematic representation of an inventive device 1 shown for wirelessly transmitting and receiving data in the electromagnetically shielded housing 4 introduced RFID tags 8th is trained.

The housing 4 is a closed housing, which on all sides housing walls 40 has. In the housing wall 40 of the housing 4 is a transmission area 3 intended. The transmission range 3 here represents an opening in the housing wall. Furthermore, one with the RFID tag 8th connected transceiver 6 intended.

This is designed to transmit the data stored on the RFID tag through the transmission area 3 , thus from the shielded housing 4 to send out and / or to receive.

This is just above the transmission range 3 a double coil 2 from the illustrated two coil arrangements 2A . 2 B for coupling to an external receiving unit 10 a reading device and for coupling to the transceiver 6 is provided. The shown receiving unit 10 For example, it may be integrated in a smartphone with appropriate software for processing the data.

The in the 1 and 2 illustrated transceiver 6 is formed with a rod core choke 6A. The city core thrush 6A is with a cylindrical coil arrangement 6B wrapped. As in the 1 - 3 to recognize, are the respective coil openings of the coils 2A . 2 B (the double coil 2 ), the coil arrangement 6B and the coil of the receiving unit 10 (For example, a receiver coil) all aligned so that the magnetic flux in each case substantially perpendicular to the coil openings (parallel to the coil axis) passes penetrating. The double coil 2 consists of the two coil arrangements 2A . 2 B which are wound from a common coil wire, wherein the one coil arrangement 2A (schematically from 2 coil windings) as an outer coil arrangement in the same winding plane around the second coil arrangement 2 B (schematically consisting of 3 coil winding) is wound, wherein the second coil arrangement 2 B is formed as an inner coil assembly. The double coil 2 is on a flat coil carrier 11 arranged above the transmission opening 3 located.

The transceiver 6 is just below the transmission range 3 arranged.

Furthermore, in the 1 and 3 recognizable that the coil arrangement 6B the transmitting device via a resonant circuit 7 in series or parallel to tune the resonance to a receiving system with the RFID tag 8th connected is.

The double coil 2 ie the coil arrangements 2A . 2 B are over a resonant circuit 9 in series or parallel connection for tuning the resonance of the transmitting unit formed in the device with the RFID tag 8th connected. In the 2 is above the bobbin 11 a lid 12 mounted, which is formed in an unshielded embodiment, and preferably made of a completely non-conductive material.

In the 3 schematically the electromagnetic coupling K1 is shown, which is the magnetic field for symbolizing the coupling between the RFID reading unit (for example, smartphone) and the double coil 2 shows. Similarly, the coupling K2 is shown symbolized, which generates the generated by the coil assembly bundled magnetic field (field line) of the between the coil assembly and the rod core choke 6 with its coil 6B produced electromagnetic coupling represented.

The invention is not limited in its execution to the above-mentioned preferred embodiments.

Claims (10)

Device (1) for wireless transmission and reception of data in an electromagnetically shielded housing (4) introduced RFID tags (8), wherein in the housing wall (40) of the housing (4) a transmission region (3) is provided and further a transceiver (6) connected to the RFID tag (8) is provided, which is designed to transmit data from the RFID tag (8) through the transmission area (3) and / or to receive, wherein immediately below or above the transmission region (3) a double coil (2) of two coil assemblies (2A, 2B) for coupling to an external receiving unit (10) of a reading device and for coupling to the transceiver (6) is provided. Device (1) according to Claim 1 , characterized in that the transmission region (3) has a transmission opening in the form of a recess in the housing wall (40) or a region with a significantly lower shielding attenuation relative to the surrounding housing, preferably a shielding attenuation with a factor of 0.5 or less of the shielding attenuation in the range of the transmission region (3) surrounding the housing wall (40) of the housing (4). Device (1) according to one of the preceding claims, characterized in that the transceiver (6) is formed with a rod core choke (6A) or a ferrite core with a coil arrangement (6B) surrounding it. Device (1) according to Claim 3 , characterized in that the coil arrangement (6B) is connected via a resonant circuit or an impedance (7) in series or parallel connection for tuning the resonance to a receiving system with the RFID tag (8). Device (1) according to one of the preceding claims, characterized in that the double coil (2) of the two coil arrangements (2A, 2B) is designed such that the one coil arrangement (2A) as an outer coil arrangement in the same winding plane around the second coil arrangement (FIG. 2B), wherein the second coil assembly (2B) is formed as an inner coil assembly. Device (1) according to Claim 5 , characterized in that the inner coil assembly (2B) and the outer coil assembly (2A) are wound or formed from a common coil wire (20). Device (1) according to one of the preceding claims, characterized in that the coil arrangement (2A, 2B) via a resonant circuit or an impedance (9) in series or parallel connection for tuning the resonance of the transmission unit formed in the device (1) with the RFID tag (8) is connected. Device (1) according to one of the preceding claims, characterized in that the double coil (2) is arranged on or in a flat coil carrier (11). Device (1) according to Claim 8 , characterized in that the coil carrier (11) above the transmission region (3) is arranged. Device (1) according to one of the preceding claims, characterized in that the transceiver (6) is arranged directly below the transmission region (3).

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