DE102006026175B4 - RFID tag Tester - Google Patents

Abstract

RFID tag Tester to check on a carrier sheet (126) mounted RFID tags (127), wherein the device is a disk (117) for positioning the carrier sheet (126) to be tested RFID tags (127), a plurality of tag test units, each of which provided with an antenna (106) for coupling to an RFID tag (127) and a base frame (101) for flexibly mounting the tag inspection units, around each of the tag check units align with one of the RFID tags (127) on the carrier sheet (126), characterized in that the plate (117) is a transparent one Slice is and every day testing unit an optical signaling element (107) for optical signaling a test result through the transparent disc (117) and through one on the test unit contains aligned RFID tag (127).

Description

tags, comprising a chip (integrated circuit) and a planar antenna, are used in many applications, bank cards being the most common ones represent. Given the importance of the data in the tags must be checked every day after production, to check if it is within specifications and includes valid data.

Currently can Tags to be individually reviewed by operators. Every day becomes more electromagnetic Exposed to radiation in the RF frequency range, and a day that does not comply with specifications is marked accordingly.

US 2005/0168235 A1 discloses a method for testing the electrical operation of an RFID chip whose antenna and integrated circuit are fully and electrically connected during the manufacturing process. The test method can be performed before or after the isolation of the RFID chips and while the RFID chips are still on the wafer or after breaking into individual ICs.

One The problem with the current method is that checking for Is time consuming and handling errors occur as the tags move within the tester can. Furthermore, the probability of being invalid or deficient Tags are not marked high. Tags with different sizes and magnetic properties must different in the tester to be placed. This requires a manual setting of the tags relative to the tester, the inaccurate can be.

It The object of the present invention, taking into account the above, is an improved one RFID tag tester provide with the particular the reliable marking invalid or poor tags is secured.

Therefore The present invention provides an RFID tag inspection device for testing from on a carrier sheet attached RFID tags according to claim 1 ready. The device comprises a transparent pane for Positioning the carrier sheet with to be tested RFID tags, a plurality of tag test units, each of which is provided with an antenna for coupling to an RFID tag, and a basic frame for flexible attachment of the tag test units, around each of the tag check units to align with one of the RFID tags on the carrier sheet. Consequently can checked many tags at once become.

each Day Tester contains an optical signaling element for optical signaling a test result through the disk and through an aligned RFID tag. This can An operator of the device can quickly and easily determine whether one day valid is or not. Invalid Tags can then be marked.

Of Further can the tag checkers easily be set to optimal positioning different Sheet arrangements and tag sizes related on the tester provide. The base frame advantageously contains a Row of parallel support rails, so that each carrier rail a plurality of inspection unit jigs can carry, and the carrier rails are adjustably mounted on the base frame. Each day testing unit can also be rotated.

One Tag reader can talk about an RF multiplexer coupled to each test unit, so that the test units switched separately and the tags are checked sequentially can. It can also be provided by a plurality of tag readers, from each with a different part of the tag check units is connected in the array, so that each test unit via a multiplexer with a Tag reader is paired. By multiplexing the tag reader to the antenna each test unit everyone can be tested Tag on demand individually or if more than one reader is used also be checked in parallel with other tags.

Preferably The testing device includes a Personal computer. Then you can a test program Run on the computer that can control the tag readers. The computer The multiplexers can also use a separate input / output interface such as a digital map, in an electronics drawer within the PC can be plugged. The tester can also have a terminal block for that selective switching of each test unit containing associated optical signaling elements, and the Connection block can also be through the computer, and in particular controlled by the multiplexer controlling input / output interface.

The present invention also provides a method of inspecting RFID tags mounted on a carrier sheet using the tester of claim 6. The method involves executing scripts on a computer that are read by testing software. The scripts define test parameters for the operation of the tag test units to perform a predetermined test sequence. The scripts can be text files that contain data that defines a particular test sequence. In this way, the software can Control the device so that it guides the device according to different parameters for each test sequence, and the test conditions can be easily tailored to a particular day batch. The computer can be connected to a database via a network. In the database, data about test results can then be stored for later documentation.

Further Advantages and characteristics of the invention will become apparent from the below Description of a preferred embodiment and from the accompanying drawings. Show it:

1 a schematic representation of a frame and tag test units for use in a tag tester according to the invention;

2 a schematic representation of a tag test unit for use in the tag tester according to the invention; and

3 a schematic representation of the tag tester according to the invention.

An embodiment of the invention will now be described with reference to FIGS 1 to 3 described.

An RFID tag tester includes one on carriers 128 attached base frame 101 , A regular arrangement of elongated parallel bars 102 is on the base frame 101 between two opposite sides of the frame 101 mounted so that these strips are longitudinal between the two opposite sides of the frame 101 extend. The strips 102 are on the frame 101 mounted so that they are in both directions along the sides of the frame orthogonal to the longitudinal direction of the extension of the strips 102 can be moved. There are locking screws 103 at both ends of the strips 102 provided. When the locking screws 103 be tightened, these serve, the strips 102 on the frame 101 to lock in a required position.

The blocks 104 are each with a groove 125 provided in their socket. The groove 125 defines an opening that is designed to receive a ledge so that the blocks 104 slidable on the last 102 can be attached. There can be several blocks 104 on a bar 102 be provided, and the blocks 104 can along the length of the bar 102 be moved in both directions. Every block 104 acts as a holder for a tag verification unit. In the middle of the upper surface of each block 104 becomes an opening 109 provided. Every opening 109 has a thread that is designed to be that on the side of a mast 105 provided groove 111 can accommodate, so the mast 105 safe in the block 109 can be held. The mast 105 should be made of plastic or other insulating materials.

A flat rectangular antenna 106 is near the top of the mast 105 with its upper surface lying in a plane parallel to the direction of movement of the block 104 is, and she is from a plastic antenna holding device 113 taken on the mast 105 below the antenna 106 is arranged. The dimensions of the antenna should be smaller than those of a typical credit card, ie about 60-85 mm by about 40-55 mm. The antenna 106 can send and receive RF signals. Both the antenna 106 as well as the antenna holding device 113 are with a central opening 115 for receiving the mast 105 Mistake. The antenna 106 is in the antenna holder 113 by screws 112 locked with the corresponding, in the antenna holding device 113 provided threads 114 can intervene.

The antenna holding device 113 (and thereby the antenna 106 ) is with a locking screw 116 on one side of the antenna holder 113 which is provided by the antenna holding device 113 in the central opening 115 extends to the mast 105 locked. When the locking screw 116 is tightened, the antenna becomes 106 safe in their position on the mast 105 held. When the locking screw 106 However, the antenna can be loose 106 up and down on the mast 105 be moved along to the height of the antenna 106 adjust. The antenna 106 is also in a horizontal plane above an axis that coincides with the longitudinal axis of the mast 105 coincides, rotatable, as in 2 shown. At the top of the mast 105 over the antenna 106 becomes an LED unit 107 provided. An RF shield can be around the antenna 106 be positioned by eyelets, which are provided on the underside of the shield block (not shown) in shield thread 110 which are in the upper surface of the block 104 be deployed. The mast 105 , the antenna 106 and the LED unit 107 form a tag testing unit.

One on the frame 101 provided array of antennas 106 is below a flat glass pane 117 positioned. Every antenna 106 is with a multiplexer unit 119 connected. In this case, two multiplexer units 119 provided so that each multiplexer unit 119 with half of the antennas 106 connected in the array. The multiplexer units 119 are each with a tag reader 118 connected with a com computer 122 connected is. The Tag Tester is housed in a metal case 121 provided. The glass pane 117 is in the upper surface of the metal case 121 provided.

The computer 122 controls the operation of the RFID tag tester, in particular the switching of the multiplexer units 119 , the day reader 118 and the LED units 107 , On the computer 122 Executed test software can read text files containing control parameters for each test sequence. The computer 122 is to a database 127 in which test results are stored for later documentation.

Each LED unit 107 is through an LED terminal strip 120 driven. An input / output interface, in this case a digital plug-in card 123 , gets into an electronics module inside the computer 122 plugged in and controls the operation of the LED terminal block 120 , One with the PC 122 connected screen 124 Provides information about the inspection status. The on the computer 122 executed testing software arranges on the screen 124 displayed sample objects corresponding tag verification units. The screen 124 is a touch screen, so that if necessary individual tag test units can be deselected by touching a corresponding part of the screen. The default, however, is that all tag checkers go through in order.

A carrier sheet 126 containing an array of RFID tags 127 such as carrying credit cards, will be on top of the glass 117 placed over the antenna array. An operator sets the position of the blocks 104 one by the rails 102 along the frame 101 and the blocks 104 along the rails 102 pushes up the antennas 106 in relation to the tags 127 required position. The antennas 106 then tighten by tightening the locking screws 116 locked in the required position. Every antenna 106 should be positioned so that its position matches that of a tag 127 matches. The position of each antenna 106 in relation to a corresponding day 127 can then be adjusted by the locking screw 116 in the antenna holder 113 solved and the holding device 113 on the mast 105 to the right height in relation to the day 127 is moved; and by the antenna holding device 113 about an axis coinciding with the central longitudinal axis of the mast 105 coincides, is rotated. If the antenna 106 is in the correct position, the antenna holding device 113 by tightening the locking screw 116 locked in their position. The relative position of each antenna 106 related to the corresponding day 127 depends on the characteristics of the antenna within the tested tag 127 from.

If all antennas 106 Locked in the correct position, the operator starts an automatic test procedure, that by the on the computer 122 implemented software or deselects tags to be tested 127 by looking at the area of the screen 124 that represents the corresponding tag check unit touches. The on the computer 122 executed software controls the RF multiplexer unit 119 so that these are under the day to be tested 127 located antenna 106 turns on, and she also points the tag reader 118 to read the day. At the same time, the digital card points 123 the LED terminal block 120 on, the corresponding LED unit 107 to drive so that it produces a flashing light. Everyday 127 is made of a material that is at least to some extent transparent to the light from the LED unit 107 is so the light from the LED unit 107 the glass pane 126 happens and through the day 127 can be seen, although the LED unit 107 under the day 127 located. When the LED unit 107 blinking, this indicates that the day 127 is checked.

The multiplexer 119 connects every antenna 106 selectively with a reader 118 , The RF signal from the reader 118 interacts with the day 127 , and the day 127 sends an answer back from the antenna 106 and the multiplexer is received. The software running on the PC then processes and interprets the received response signal. If it turns out that the parameters of the signal (rise or fall time, field strength, modulation or frequency, etc.) indicate a day that does not meet specifications, the digital board will control 123 the LED terminal block 120 so that this is the LED unit 107 turns on so that it produces a strong uninterrupted light. This indicates to the operator that the day 127 is invalid, and the operator can then cancel the day 127 Mark, for example, by placing a cross on the top surface of the tag 127 scribing.

However, the software notes that by the tag reader 118 from that of the day 127 Returned RF signal read parameters indicate that the tag 127 is valid, rejects the digital map 123 the LED terminal block 120 on, the LED unit 107 off. Consequently, over the day can 127 no light from the LED unit 107 which indicates to the operator that the tag is valid.

Claims (10)

RFID tag test device for testing on a carrier sheet ( 126 ) attached RFID tags ( 127 ), the device comprising a plate ( 117 ) for positioning the carrier sheet ( 126 ) with RFID tags to be checked ( 127 ), a plurality of tag verification units each with an antenna ( 106 ) for coupling to an RFID tag ( 127 ) and a base frame ( 101 ) for flexibly attaching the tag check units to each of the tag check units to one of the RFID tags ( 127 ) on the carrier sheet ( 126 ), characterized in that the plate ( 117 ) is a transparent pane and each tag check unit is an optical signaling element ( 107 ) for the optical signaling of a test result through the transparent pane ( 117 ) and by an RFID tag ( 127 ) contains. Tag tester according to claim 1, wherein the base frame ( 101 ) a series of parallel carrier rails ( 102 ), and each support rail ( 102 ) carries a plurality of Prüfeinheitsspannvorrichtungen. Tag tester according to claim 2, wherein the carrier rails ( 102 ) adjustable on the base frame ( 101 ) are mounted. Tag checker according to one of claims 1 to 3, wherein a tag reader ( 118 ) via a multiplexer ( 119 ) is coupled to each of the test units so that the RFID tags ( 127 ) can be tested in turn. A tag validator according to any one of claims 1 to 3, wherein a plurality of tag readers are connected via a plurality of multiplexers ( 119 ) is each coupled to a different part of the test units, the plurality of multiplexers being connected to a corresponding tag reader ( 118 ), so that each RFID tag ( 127 ) can be checked in turn and several in parallel. Use of the RFID tag test device according to one of Claims 1 to 5 for testing on a carrier sheet ( 126 ) attached RFID tags ( 127 ). Use of the RFID tag test device according to claim 6, wherein a test software on a computer ( 122 ) controls the device, and wherein the test software is configured to read scripts that define test parameters for the operation of the tag test units to execute a predetermined test sequence. Use of the RFID tag test device according to claim 7, wherein the multiplexer ( 119 ) or the plurality of multiplexers via a correspondingly configured input / output interface in the computer ( 122 ) is controlled. Use of the RFID tag test device according to claim 7 or 8, wherein a terminal strip unit ( 120 ) is controlled via the correspondingly configured input / output interface around the optical signaling elements ( 107 ) to selectively supply energy. Use of the RFID tag test device according to one of claims 7 to 9, wherein the computer ( 122 ) is connected to a database via a network and test result data is stored in the database.