DE10353613A1 - Adjusting/controlling device for a radio frequency identification antenna has an antenna loop and an antenna adapter unit - Google Patents

Abstract

Designed to carry out adjustment in antenna characteristics, an adapter unit (1) has a device for measuring an antenna's characteristic curve, which is carried out during operation of each operational output for a radio frequency identification system. An integrated control unit adjusts the antenna's characteristic curve. An independent claim is also included for a method for adjusting a radio frequency identification antenna.

Description

The The invention relates to a device for setting and control an RFID antenna and a method for setting an RFID antenna. By adjusting an RFID antenna is in particular a match or Reconciliations of the RFID antenna understood.

According to the state The technology consists RFID systems (Radio Frequency Identification) from a read / write station (RFID reader) and at least one RFID antenna, which is deposited on some RFID systems by the RFID reader is. The connection of the two components takes place by means of a Cable, which is usually designed as a coaxial cable. To one as possible good data transmission to achieve between RFID reader and RFID antenna, both must have the same internal resistance. Likewise, the characteristic impedance must of the cable to be equal to that of the components.

The Setting the impedance of a remote RFID antenna is generally done via a Matching circuit, usually is arranged directly on the antenna loop, and over the an adjustment of the RFID antenna manually or via an external control he follows. In addition to the adjustment of the impedance, the resonance frequency of the RFID antenna set with such a matching circuit. According to the state The technique is to set with an external control the SWR (Standing Wave Ratio) on the RFID reader measured or the matching circuit of the RFID antenna is connected to a measuring bridge, wherein the adjustment of the RFID antenna then does not match the operating performance takes place at the antenna resonant circuit. In both cases is an additional Interface between external control and RFID antenna necessary.

The Hitherto known matching circuits or balancing method however, show some weaknesses.

One the one to be solved Problems arise because of environmental influences, such as for example ambient temperature or surrounding material the impedance and / or the resonant frequency of the RFID antenna can be detuned, which can lead to a reduction of the range. In this case, must the RFID antenna be re-balanced.

One further to be solved Problem arises when several RFID antennas, for example via a so-called power splitter connected to an output of an RFID reader become. In this case, by measuring the SWR on the RFID reader it can not be determined which of the RFID antennas is detuned.

Special Problems also arise with complex antenna configurations several RFID antennas because they can detune each other. When An example is an antenna configuration with a multiplexer called, in which antenna loops overlap. In this case is a correct alignment of the active antenna with the currently known Matching circuits are very difficult, even if no RF (Radio Frequency) is applied to the respective inactive RFID antennas.

One Another problem area arises when aligning RFID antennas in so-called gate antennas, where at least two RFID antennas be arranged to each other so that between the RFID antennas a defined reading area for Transponder is created. Depending on the arrangement of the RFID antennas to each other the electromagnetic field between the antennas may vary depending on the current direction in the respective antenna loop differently align. In a field line alignment in which the antenna currents of both Antenna loops are the same, transponders in one orientation recognized. In a field line alignment in which the antenna currents of both Antenna loops different, that is shifted by 180 °, are transponders detected in a different orientation.

Around To be able to take advantage of both orientations, the antenna currents of both antenna loops must shifted by 90 ° be. This can be done by using a special antenna configuration be reached, in which an RFID antenna (B antenna) not from RFID reader, but from the other RFID antenna (A-antenna) over the electromagnetic field according to a Transformers is powered. This is a special one Matching circuit and a special adjustment method for setting the B antenna required.

The The technical problem underlying the invention is that a device for setting and controlling an RFID antenna indicate that does not have the disadvantages mentioned. Furthermore the device should be able to communicate with the connected RFID reader via the existing line connection between RFID antenna and RFID reader to be able to communicate. About that In addition, a method for setting an RFID antenna is specified become.

This technical problem is caused by a device with the features according to claim 1 and by a method with the features of claim 14 or 15 solved.

The inventive device for setting and controlling an RFID antenna consists of at least one antenna loop and a matching unit, wherein the matching unit of the final stage of the RFID reader with an AC voltage is supplied and together with the connected antenna loop for energy and data transmission with one or more transponders, where the parameters Operating frequency and impedance determine the antenna characteristic. According to the invention the setting of the antenna characteristic with the adjustment unit. The adapter unit has a device for measuring the antenna characteristic on, wherein the measurement of the antenna characteristic in the operation with the respective operating performance of the RFID system are made can. About that In addition, a control unit for adjusting the antenna characteristic integrated.

Advantageous has the device according to the invention a measuring device for measuring the antenna characteristic, the herez the current (I) and the voltage (U), the phase shift (φ) between the current (I) and the voltage (U), the absorbed power (P) and / or the VSWR (SWR) measures.

A sees further advantageous embodiment to integrate a switch in the antenna loop to this to be able to split. Such a separate antenna loop may be another one nearby RFID antenna does not detune.

Advantageous can the adjustment unit according to the invention be constructed so that the power supply of all its components over the anyway existing cable connection between RFID reader and RFID antenna done and no additional Connection is necessary.

Farther can be an embodiment be designed that over Switch at the antenna connections the current direction in the antenna loop can be switched. This makes it possible For example, in an antenna configuration with two RFID antennas by switching the current direction in the one antenna loop to vary the orientation of the field lines. This is according to the invention no special fitting unit and no special fitting procedure necessary. In addition to the easier handling costs are also saved. The switches are advantageously designed so that a separation the antenna circuit possible and therefor no additional Switch is required.

Furthermore sees another embodiment before that the fitting unit with an RFID reader on the already existing line connection can communicate. Thereby the adaptation unit can be controlled by the RFID reader. It is it for the control of the fitting unit is not mandatory that This in turn can send logs to the RFID reader.

Advantageous the control of the adjustment unit according to the invention is carried out by the RFID reader because it allows communication between RFID readers and transponder not disturbed or is interrupted because the RFID reader is the time to activate the fitting unit determines.

In A further advantageous embodiment has the matching circuit a device with which disconnects the connected antenna loop can be and substitute on an adapter with a fixed Impedance can be switched. This may be necessary, for example be if the antenna is so badly balanced that communication between inventive fitting unit and RFID reader impossible and thus no control signals are received by the RFID reader can. In this case, this switchable impedance advantageously corresponds the characteristic impedance of the RFID system.

In According to a further advantageous embodiment, the matching unit Send measured values and / or antenna parameters to the RFID reader so that For example, the RFID reader can decide if and when a Adjustment of the antenna performed shall be.

According to one further advantageous embodiment of the device according to the invention is a voltage supply of the adapter unit via the between the RFID reader and the adjusting unit arranged line connection feasible, whereby no additional Connection to the device according to the invention necessary is.

According to one another embodiment the device is considered to be the one supplying power from over the Line connection supplied AC voltage obtained device formed, which is the connection of the device according to the invention to existing RFID readers.

The use of the various embodiments makes possible various methods for controlling the adaptation unit or setting the RFID antenna:
In a first method, the control of the adaptation unit can be carried out independently of the RFID reader. In this method, the control is carried out directly by the control unit, which is located on the adjustment unit.

In In a second method, the control of the adaptation unit can only be performed by the RFID reader carried out become. The RFID reader receives from the adjustment unit, measured values that provide information about the matching state of the RFID antenna. The RFID reader can then be used to set, split, Switching or other possible Send functions of the RFID antenna to the adapter unit.

One Another method provides that the RFID reader the time to perform of the functions. The RFID reader, for example, sends a Command to set the RFID antenna to the fitting unit. The Adaptation unit measures the relevant antenna parameters and performs the necessary settings on the RFID antenna.

Further Features and advantages of the invention will become apparent from the accompanying drawings, in those embodiments the adaptation unit according to the invention for matching, adjusting and controlling an RFID antenna are shown by way of example. The drawings show:

1 a block diagram of the components of an RFID system;

2 a block diagram of an embodiment of an RFID antenna from the adjustment unit and antenna loop;

3 a block diagram of an embodiment of the measuring unit;

4 a block diagram of an embodiment of an RFID antenna adapter unit and off and switchable antenna loop;

5 a block diagram of an embodiment of an RFID antenna with switchable adapter.

1 shows a block diagram of an RFID system consisting of an RFID reader ( 3 ), an antenna loop ( 2 ) with matching unit ( 1 ) and a line connection ( 4 ), the line connection ( 4 ) may be formed, for example, as a cable connection with coaxial cable.

2 shows a block diagram of an embodiment of the adjustment unit ( 1 ) with connected antenna loop ( 2 ). With the measuring device ( 5 ) measured values for determining the matching state of the RFID antenna are recorded and sent to the control unit for processing ( 8th ). The measuring device ( 5 ) is designed so that the sent by the RFID reader electrical signals are not or only slightly changed and / or influenced by the measuring device.

The signals for adjusting the impedance and the resonance frequency of the RFID antenna are transmitted by a control unit ( 8th ) to a matching circuit ( 9 ). The matching circuit ( 9 ) is connected to the antenna loop ( 2 ) via contacts ( 10 . 11 ) connected.

Via a receiving device ( 6 ), the control signals from the RFID reader ( 3 ) and to the control unit ( 8th ) guided.

In the embodiment of the adaptation unit according to the invention, which also enables data transmission to the RFID reader, the data which are transmitted by the control unit ( 8th ) via the transmitting device ( 7 ), via the line connection ( 4 ) to the RFID reader. In this embodiment with receiving device ( 6 ) and transmitting device ( 7 ) therefore no additional connection between the RFID reader and adapter unit is necessary.

In 3 is an example of a block diagram of an embodiment of the measuring device ( 5 ). It is directly connected to the line connection and measures via the current measuring circuit ( 14 ) the current (I) and via the voltage measuring circuit ( 15 ) the voltage (U). The phase shift angle (φ) between the voltage (U) and the current (I) is determined by the phase measuring circuit ( 16 ). The measured values of current (I), voltage (U) and phase shift angle (φ) are evaluated according to 2 to the control unit ( 8th ) guided.

The measuring device ( 5 ) can also be designed so that only the measured values voltage (U) and current (I) are sent to the control unit ( 8th ) and the determination of the values phase shift angle (φ) or the power (P) or the standing wave ratio (SWR) in the control unit ( 8th ) he follows.

4 shows a block diagram of another embodiment of the adjustment unit according to the invention ( 1 ), in which the antenna loop ( 2 ) via the contacts ( 10 . 11 ) each with a switch ( 12 . 13 ) connected is. With the switches ( 12 . 13 ) with the matching circuit ( 9 ), both the antenna loop ( 2 ) from the matching circuit ( 9 ), as well as the current direction in the antenna loop ( 2 ) to be turned around.

The remaining structure of the embodiment corresponds to that 2 ,

5 shows a block diagram of an embodiment of the adjustment unit according to the invention ( 1 ), in addition to the matching circuit ( 9 ) with the antenna loop ( 2 ) an adjusting element ( 18 ) via the switch ( 17 ) can be switched on. The fitting member ( 18 ) has a fixed impedance, which corresponds to the characteristic impedance of the system.

The remaining structure of the embodiment corresponds to that 2 ,

1

matching unit

2

antenna loop

3

RFID Reader

4

line connection

5

measuring device

6

receiver

7

transmitting device

8th

control unit

9

matching

10

Contact between adapter unit and antenna

11

Contact between adapter unit and antenna

12

switch

13

switch

14

Current measurement circuit

15

Voltage measuring circuit

16

Phase measurement circuit

17

switch adapter unit

18

adapter unit

I

electricity

U

tension

φ

Phase shift

P

power

Claims (16)

Device for setting and controlling an RFID antenna, comprising at least one antenna loop and a matching unit, wherein the matching unit is supplied by the output stage of the RFID reader with an AC voltage and together with the connected antenna loop for energy and data transmission with one or more Transponder is used, the parameters operating frequency and impedance determine the antenna characteristic, characterized in that - the adjustment unit ( 1 ) as an adjustment unit performing adjustment of the antenna characteristic ( 1 ), - the adaptation unit ( 1 ) a device ( 5 ) for measuring the antenna characteristic, - the measurement of the antenna characteristic in operation with the respective operating performance of the RFID system is feasible, and - a control unit ( 8th ) is integrated to adjust the antenna characteristic. Device according to claim 1, characterized in that a measuring device measuring the current (I) and the voltage (U) ( 5 ) is provided for measuring the antenna characteristic. Device according to Claim 2, characterized in that a measuring device measuring the phase shift (φ) between the current (I) and the voltage (u) ( 5 ) is provided for measuring the antenna characteristic. Device according to one of Claims 2 or 3, characterized in that a measuring device measuring the absorbed power ( 5 ) is provided for measuring the antenna characteristic. Device according to Claim 2, characterized in that a measuring device (SAW) measuring the standing wave ratio (SWR) is 5 ) is provided for measuring the antenna characteristic. Device according to claim 2, characterized in that the control unit ( 8th ) as a phase shift (φ) or the absorbed power (P) or the standing wave ratio (SWR) determining control unit ( 8th ) is trained. Device according to one of the preceding claims, characterized in that the antenna loop ( 2 ) is separable. Device according to one of the preceding claims, characterized in that a connection between the antenna loop ( 2 ) and the matching circuit ( 8th ) is switchable such that the current direction in the antenna loop is variable. Device according to one of the preceding claims, characterized in that a modulated signal on a between RFID reader ( 3 ) and customization unit ( 1 ) arranged line connection ( 4 ) demodulating receiving device ( 6 ) is provided. Device according to one of the preceding claims, characterized in that a signal to the AC voltage of the line connection ( 4 ) modulating transmitting device ( 7 ) is provided. Device according to one of the preceding claims, characterized in that by a switch ( 17 ) an adjusting element ( 18 ) is switchable instead of the connected antenna loop. Device according to one of the preceding claims, characterized in that a voltage supply of the adjustment unit ( 1 ) via the between RFID reader ( 3 ) and customization unit ( 1 ) arranged line connection ( 4 ) is feasible. Device according to one of claims 1 to 11, characterized in that the device as the power supply from the via the line connection ( 4 ) supplied AC voltage receiving device is formed. Method for setting an RFID antenna with a device according to one of the preceding claims, characterized in that the control of the adaptation unit ( 1 ) completely from the control unit ( 8th ) is carried out. Method for setting an RFID antenna with a device according to one of Claims 1 to 13, characterized in that the control of the adaptation unit ( 1 ) completely from the RFID reader ( 3 ) and / or at least one other external control device is performed. Method according to claim 15, characterized in that the RFID reader ( 3 ) and / or the at least one other external control device commands to the adjustment unit ( 1 ), causing adjustment procedures to be initiated by the control unit ( 8th ) of the adjustment unit ( 1 ) be performed.