DE102006009802A1 - RFID transponder with at least two antennas - Google Patents

Abstract

An RFID transponder has at least two antennas which are arranged at an angle to one another. This enables the RFID transponder to be easily read when passing a gate, since at least one of the two antennas is always arranged at a suitable angle to the reading device.

Description

The The invention relates to an RFID transponder. It is widely used Goods with encrypted information to be provided by a barcode is applied to the goods. such Barcodes can formed two-dimensionally as a striped pattern or three-dimensional be. They are usually read with a laser device. For this purpose, either the goods is moved relative to the reading device or the laser relative to the product.

such Barcodes are in ever larger areas replaced by RFID transponders. These are small Chips, even without their own power supply in a mostly low-frequency Send an ID field to identify items. RFID stands for Radio Frequency Identification and allows the contactless Data collection. An RFID system consists of a data carrier, the again consists of a chip and an antenna in a carrier, and a reader. Such readers consist of an antenna and a decoder. For data transmission Magnetic or electromagnetic fields are used.

It different systems are distinguished. Active systems serve to bridge large reading distances. Here, the RFID transponders have a Power supply that allows reading distances of several meters. For passive systems, the RFID transponders do not have their own power supply. The energy is from the reader generated and therefore the reading distances are up to about 60 cm. In As a rule, RIFD transponders are affixed to the products as a label. Such labels are in the area of price labeling, especially at perfumeries or other high value goods.

Not unproblematic is the reading of RFID transponders. The RFID transponder have to be as possible be read in the top view of the antennas. Only hereby results in a nearly 100% reading accuracy. When using transponders In the logistical field, it is important to avoid that individual Goods from readers not be recorded. A follow-up of problem cases would one mean extremely high costs in the logistics chain.

RFID transponder are usually read at a gate. A gate is a reading and optionally also a writing device with usually four antennas. At the gate it is ensured that the goods with the transponder so led is that the RFID transponder read exactly in plan view becomes. The length The antenna in the transponder determines the frequency of the transponder and the length and the design of the dipole hangs from the desired Frequency and the background of the transponder to be attached. Depending on whether the transponder on foil, cardboard, plastic or Metal is to be installed, the antenna is calibrated accordingly.

Of the Invention is based on the object to an RFID transponder which is easier to read at gates.

These Task is solved with an RFID transponder, which has at least two antennas has, which are arranged at an angle to each other.

surprisingly Way, it has been found that the mere use of two antennas instead from an antenna it allows to arrange these antennas at an angle to each other and thereby the possibilities to increase, that at least one antenna possible exactly in the top view of a reading device at the gate.

Of course it is it is possible Arrange any number of antennas at an angle to each other. A However, advantageous embodiment provides that at least two the antennas are arranged at an angle of about 90 degrees. For example, at a pallet or a cuboid Thus, a box can be a transponder, for example in a corner of the box Crate be arranged so that in each case an antenna on a box side is applied and the antennas thus arranged at a 90 degree angle to each other are. This allows the crate along or across the gate to run. In both cases one of the antennas will be in optimal alignment with the reader while be arranged the passing of the gate.

It is possible, the antennas of different lengths to learn about the thus achieved different Frequency in connection with the reading device the antennas e.g. to determine the orientation of the box relative to the gate. A simple variant the transponder of the invention provides that the antennas are the same length. The identifier can thus over the same reader easily determined, independently whether the box or a pallet passes longitudinally or transversely through the gate.

A particular embodiment provides that the transponder has a chip which is arranged unequally spaced from the antennas. With the same antenna length and an arrangement of Antennas at an angle of 90 degrees on the surface of a cuboid box, the arranged between the antennas chip would be directly on the edge of the cuboid packaging. To avoid this, a transponder with a chip is proposed in which the chip is arranged unequally spaced from the antennas. The transponder can thereby be attached to the corner of a box so that the chip comes to rest on a side surface of the box.

Around the lengths from the antennas and the leads to the antennas to simple To be able to customize the way it is proposed that the transponder has a chip and between the chip and at least an antenna, a shielded antenna cable is arranged. The Shielding the antenna cable makes it possible different antenna lengths, the arising from the unshielded part of the supply line and the antenna yourself, or even the same antenna lengths at individual intervals to Chip provide.

A simple suitable for shielding embodiment provides that The antenna cable is shielded by a metal band. For this purpose is in particular proposed that the metal strip is self-adhesive. This allows a chip of a transponder in a simple manner to attach to a box and thereby determine the effective antenna lengths.

A sees particularly effective embodiment before that the transponder is designed as a film adhesive strip. The entire transponder according to the invention is thus with its at least two antennas as adhesive strips trained, in a simple manner, for example, on the Corner of a packaging or a pallet can be glued.

A Variant, which relies on the chips known transponder provides that the Transponder has a chip on the two poles for an antenna cable are provided and connected to at least two antennas are. In this embodiment becomes the conventional one Transponder chip used and from each pole, two for the antennas provided poles, go each two lines or a dividing Line to one of the two antennas.

A alternative embodiment provides that the transponder has a chip on which several times two poles for Antenna cables are provided, to each of which an antenna is connected is. The chip has thus for each antenna has two poles and thus differs from conventional ones Chips only for an antenna has two poles.

The Invention is also achieved by a transport unit with an RFID transponder solved, when the transponder on two sides of a corner of the transport unit is arranged. The transponder is thus not - as usual - on one side of the packaging but it extends in the area of a corner of the Transport unit around the corner. This makes it possible on two sides of the Transport unit to arrange antennas of the transponder.

Advantageous Thus, if the transponder has a carrier, it is at the antennas are arranged at an angle to each other. Such a transport unit can thus be longitudinal or pass through a gate without the risk that the antenna can not be read. One of the two angled mutually arranged antennas are each optimal for reading device arranged.

Of the Transponder can be multifaceted Way to be attached to the transport unit. He can for example, also protected be integrated into the transport unit. This can be a transponder with angled antennas arranged, for example be integrated into the corner of a transport unit. The transponder But also on the outer shell of the Transport unit be attached by placing it on the corner of a transport unit is glued on.

One wide application area opens up a transport unit, which is designed as a pallet and with a Transponder according to the invention is provided.

Further Develop application areas if the transport unit has an outer packaging, since in This case in a simple way, the transponder according to the invention can be arranged at one corner of the outer packaging. For example in roll containers, the transponder can be advantageous at the corner be arranged above a wheel such that the two with the Chip associated antennas arranged at right angles to each other are.

A Particularly advantageous embodiment of an RFID transponder according to the invention as well as possible uses of the transponder at different transport units are in the drawing and will be explained in more detail below.

It shows

1 a schematic plan view of egg NEN RFID transponder according to the invention with conventional chip,

2 schematically a top view of an RFID transponder with a chip with two antenna outputs,

3 a perspective view of a pallet with glued RFID transponder and an RFID transponder recording,

4 schematically a view of an insert for in 3 shown RFID transponder holder,

5 schematically a three-dimensional representation of a trolley with transponder,

6 schematically a three-dimensional view of a trolley role with transponder and

7 schematically a three-dimensional view of an outer packaging with transponder.

The in 1 shown RFID transponder 1 consists essentially of a carrier material 2 on which a chip 3 and two antennas 4 and 5 are arranged. The chip 3 is via antenna cable 6 . 7 . 8th and 9 with the antennas 4 and 5 connected. A large proportion of the antenna cables 6 . 7 . 8th and 9 as well as the chip 3 are with a metal band 10 covered. Although the antenna cable 8th and 9 for the antenna 5 shorter than the antenna cables 6 and 7 for the antenna 4 , is the unshielded feed area to the antennas 4 respectively. 5 of equal length.

While in 1 the chip 3 two poles 11 and 12 for connecting the antennas 4 and 5 shows that shows 2 an RFID transponder 13 which is essentially like the one in 1 shown transponder 1 is constructed, in which, however, the chip 14 two poles 15 and 16 for the antenna 19 and two poles 17 . 18 for the antenna 20 having.

Also in this embodiment is the chip 14 offset to the symmetry line 21 arranged and the largest share of the antenna cable 22 and 23 respectively. 24 and 25 is by a shielding metal band 26 covered.

The chip carriers 2 respectively. 27 are self-adhesive films used by the RFID transponder 1 respectively. 13 preferably adhered to the corner of a transport unit. Here, the RFID transponder on the symmetry lines 21 respectively. 28 kinked. The asymmetrical arrangement of the chips 3 and 14 ensures that the chips do not affect the bending of the RFID transponder.

The 3 to 7 show various applications of the RFID transponder, in which the RFID transponder is applied in a bent form on a support or directly on the transport unit.

In 3 Two ways of attaching an RFID transponder are shown on a pallet. In practice, it is sufficient if only one of these options is used per pallet.

At a block 30 the pallet 31 is a transponder 32 like in the 1 and 2 shown so on the corner 33 Glued that one of the antennas on a side surface of the block 30 comes to rest and the other antenna at right angles on another side of the block 30 lies. A fixed connection of the RFID transponder 32 with the pallet thus ensures easy traceability of the pallet, during the passes of the range of readers of Gates.

It is easy to see that the palette 31 can be driven long or across a gate. In both cases, one of the antennas of the RFID transponder moves 32 parallel to the reading device and thereby facilitates the reading of the information of the RFID transponder.

A particularly protected arrangement of an RFID transponder 40 at the block of a pallet 31 is at the further pallet block 41 shown. This block 41 has a blind hole 42 into which a transponder carrier 43 with antennas arranged at right angles to each other 44 and 45 can be inserted. Although the antennas are in this case slightly obscured by a wood portion of the block, but the RFID transponder is protected in the block arranged. The blind hole 42 can be sealed even after inserting the RFID transponder to prevent misappropriation or replacement of transponders.

The 5 shows a trolley 50 At the outside of an outer pole 51 a transponder 52 is arranged such that two antenna-provided surfaces of the transponder extend at right angles to each other.

The 6 shows a role 60 for a trolley, at the wheel mount 61 an RFID transponder 62 so attached, that in turn has two antennas 63 and 64 of the RFID transponder 62 are arranged at a right angle to each other.

Ultimately, the shows 7 a simple outer packaging, such as any box or carton 70 in which an RFID trans ponder 71 is glued on. The 7 shows, moreover, that even further transponders can be glued onto a cuboidal box, which are preferably positioned on the edges of the packaging so that the outer packaging has at least one antenna in optimum alignment with the reading device in any desired positions when passing through a gate. A variant, not shown, provides a transponder having three antennas arranged at right angles to one another. Such a transponder can be applied, for example, on a corner of a box or carton.

The embodiments show that initially two identical antennas can be arranged at a right angle to each other or at any other angle to each other. Since most packaging or outer packaging and transport units have surfaces arranged at right angles to each other, it is usually possible to easily attach such RFID transponders on the packaging or in other ways, such as in the 3 and 4 shown to be mounted in the packaging or in a transport unit or on the packaging or on a transport unit. However, the RFID transponders can also have two antennas with different antenna lengths and thus different frequencies. Such RFID transponders can for example also be applied flat to a surface. Here, for example, an An antenna with a specially tuned frequency for readers in the US be equipped while the other antenna is tuned to readers in Europe. Since the antenna properties depend on the underlying material, such as cardboard or plastic, an antenna of the transponder for the application of the transponder can be adapted to a first material, while the other antenna is tuned to another material. For this purpose, either the antennas themselves can be designed differently. However, a preferred embodiment provides that the antenna cables have a different length, unshielded area. The tuned so that even with the same antennas by the different antenna cable length of the transponder is tuned to different frequencies. Such RFID transponders with at least two different antennas are also the subject of the invention. They can be glued plan on a flat surface or arranged angled so that the antennas are arranged at an angle to each other.

The Transponder according to the invention expand the area-wide Use of RFID transponders and enable the use of RFID transponders in additional Areas, in particular for Logistics companies.

Claims (15)

RFID transponder ( 1 ) with at least two antennas ( 4 . 5 ) which are arranged at an angle to each other. RFID transponder according to claim 1, characterized that the angle is about 90 degrees. RFID transponder according to one of the preceding claims, characterized in that the antennas ( 4 . 5 ) are the same length. RFID transponder according to one of the preceding claims, characterized in that the transponder ( 1 ) a chip ( 3 ) which is unevenly spaced from the antennas ( 4 . 5 ) is arranged. RFID transponder according to one of the preceding claims, characterized in that the transponder ( 1 ) a chip ( 3 ) and between the chip ( 3 ) and at least one antenna ( 4 . 5 ) a shielded antenna cable ( 6 . 7 . 8th . 9 ) is arranged. RFID transponder according to claim 5, characterized in that the antenna cable ( 6 . 7 . 8th . 9 ) through a metal band ( 10 ) is shielded. RFID transponder according to claim 6, characterized in that the metal strip ( 10 ) is self-adhesive. RFID transponder according to one of the preceding claims, characterized in that the transponder ( 1 ) is designed as a film adhesive strip. RFID transponder according to one of the preceding claims, characterized in that the transponder ( 1 ) a chip ( 3 ), on which two poles ( 11 . 12 ) for an antenna cable ( 6 . 7 . 8th . 9 ) and at least two antennas ( 4 . 5 ) are connected. RFID transponder according to one of claims 1 to 8, characterized in that the transponder ( 13 ) a chip ( 14 ), at which several times two poles ( 15 . 16 . 17 . 18 ) for antenna cables ( 19 . 20 ) are provided, each having an antenna ( 19 . 20 ) connected. Transport unit ( 31 ) with an RFID transponder ( 32 ), characterized in that the transponder ( 32 ) on two sides of a corner ( 33 ) of the transport unit ( 31 ) is arranged. Transport unit according to claim 11, characterized in that the transponder ( 40 ) a carrier ( 43 ), to which antennas ( 44 . 45 ) are arranged at an angle to each other. Transport unit according to claim 12, characterized in that the carrier ( 40 ) in or at the transport unit ( 31 ) is arranged. Transport unit according to one of claims 11 to 13, characterized in that the transport unit ( 31 ) is a palette. Transport unit according to one of claims 11 to 14, characterized in that the transport unit is an outer packaging having.