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WO1997008646A1 - Dispositif d'identification - Google Patents

Dispositif d'identification Download PDF

Info

Publication number
WO1997008646A1
WO1997008646A1 PCT/GB1996/002047 GB9602047W WO9708646A1 WO 1997008646 A1 WO1997008646 A1 WO 1997008646A1 GB 9602047 W GB9602047 W GB 9602047W WO 9708646 A1 WO9708646 A1 WO 9708646A1
Authority
WO
WIPO (PCT)
Prior art keywords
antennae
antenna
driver
identification
transponder
Prior art date
Application number
PCT/GB1996/002047
Other languages
English (en)
Inventor
Robin William Sadler
Original Assignee
A.T.L. Agricultural Technology Limited
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by A.T.L. Agricultural Technology Limited filed Critical A.T.L. Agricultural Technology Limited
Priority to AU68267/96A priority Critical patent/AU6826796A/en
Priority to GB9801796A priority patent/GB2318260A/en
Priority to GBGB9704566.0A priority patent/GB9704566D0/en
Publication of WO1997008646A1 publication Critical patent/WO1997008646A1/fr
Priority to DE69705049T priority patent/DE69705049T2/de
Priority to US09/242,761 priority patent/US6445296B1/en
Priority to AU39479/97A priority patent/AU3947997A/en
Priority to ES97936776T priority patent/ES2160361T3/es
Priority to PCT/GB1997/002175 priority patent/WO1998008182A1/fr
Priority to EP97936776A priority patent/EP0920668B1/fr

Links

Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06KGRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
    • G06K7/00Methods or arrangements for sensing record carriers, e.g. for reading patterns
    • G06K7/0008General problems related to the reading of electronic memory record carriers, independent of its reading method, e.g. power transfer

Definitions

  • This invention relates to identification apparatus for reading and identifying each of a plurality of identification tags.
  • Such apparatus may, for example, identify livestock in a milking parlour, or in an out of parlour feeding station.
  • each cow in a dairy herd is fitted with identifying ear tag which is arranged to emit an RF signal distinctive of the tag, and hence the cow wearing it.
  • Each tag is read by means of an antenna at the common entrance to the stalls of a herringbone milking parlour.
  • the antenna also generates an oscillating magnetic field which induces currents within an induction coil in each ear tag as it moves into range. Those currents charge up a capacitor within the ear tag, thereby providing the tag with sufficient energy to be able to emit its identification signal.
  • the apparatus employs a driver to supply the necessary current to the antenna to create the field.
  • One disadvantage of this system is that it relies upon the cattle entering the stalls in a sequence which corresponds to the order in which the cattle pass the antenna. This relationship may not always hold.
  • identification apparatus for reading and identifying each of a plurality of identification transponders arranged to emit a corresponding identification signal
  • the apparatus comprising a plurality of antennae (preferably three or more), each operable to supply sufficient energy to a transponder in its vicinity to enable the transponder to emit its identification signal and to receive an identification signal; and driving means for supplying sufficient power to each antenna to enable it to supply said energy to a transponder, wherein the driving means comprises a common driver connected to the antennae.
  • the common driver is also operable to analyse the signal received by an antenna to identify the transponder which has emitted the signal.
  • the invention provides a relatively cost effective means of providing a sufficient number of antennae for each stall of, for example, a milking parlour to be fitted with a respective antenna.
  • the invention avoids the potential problems of cattle entering stalls in a different order from that in which they entered the milking parlour.
  • the common driver has an antenna circuit which, in use, is connected to each of the antenna via a respective one of a plurality of relays which are connected to control means operable to cause the driver to address each individual antenna in turn, so that at any one time, the antenna circuit is only connected to one antenna.
  • the power demand on the driver is only such as to enable a single antenna to be driven.
  • the relay may comprise a solid state switch (such as a triac), but preferably comprises an electrically operated mechanical switch.
  • each of said relays comprises a single pole change ⁇ over relav.
  • each relay is situated adjacent to its respective antenna, the apparatus including a connecting cable for connecting the relays, and hence the antennae, to the driver, said relays being connected to the cable at intervals therealong.
  • the antennae are of substantially the same impedance as each other.
  • the impedance seen at the driver of each load constituted by the antenna being addressed and the length of cable connecting it to the driver will vary from antenna to antenna.
  • the smallest impedance will be for the load comprising the antenna closest to the driver, the largest being for the load comprising the antenna furthest from the driver, and the loads comprising the other antennae will have impedances lying in a range between those extremes.
  • the inductance of each antenna should preferably be less than a respective maximum, to facilitate tuning of the resonance fre ⁇ uency of the circuit (which includes that antenna) to the frequency of alternating current supplied by the driver.
  • the value of each maximum depends in part on the length of cable connecting the antenna to the common driver, the smallest maximum value being for the antenna further or furthest from the driver.
  • the design of the antennae may be such that their inductance is slightly less than the maximum for said further or furthest antenna. Tuning can then be achieved using parallel capacitors, and/or series inductors.
  • the apparatus is preferably so arranged that said frequency is the resonance frequency of a circuit comprising the driver and any one of a number of loads, each comprising a respective one of the antennae.
  • each load also comprises a tuning capacitor connected in parallel with its antenna.
  • the capacitance of each tuning capacitor is such as to compensate for the effects that the cable connecting the respective load to the common driver would otherwise have on the resonance fre ⁇ uency.
  • the antennae are connected by a common cable to the driver, the antennae being connected to the common cable at intervals therealong.
  • the cable is one of a plurality of such cables, each connecting a respective group of relays and associated antennae to the common driver.
  • the or each cable is formed from oxygen-free copper.
  • the apparatus includes an inductor connected to the common driver in parallel with the antennae.
  • antennae of a greater inductance i.e. with a greater number of windings, if the antennae are coil antennae
  • the invention also lies in a station at which one or more activities are carried out by or on farm animals, the station comprising a plurality of stalls each for accommodating one animal at a time, a plurality of transponders each arranged to be carried by a respective animal, and identification apparatus, preferably as aforesaid, wherein each said antenna is mounted in or adjacent a respective stall, so as to identify an animal therein, by reading and decoding the identification signal emitted by the transponder carried by the animal.
  • the station may with advantage comprise a milking parlour for cattle, each transponder being housed in a respective ear tag.
  • Figure 1 is a block circuit diagram of the apparatus
  • Figure 2 is a plan view of a herringbone milking parlour with an identification apparatus installed therein;
  • Figure 3 is a plan view of an out of parlour feed station which can be fitted with identification apparatus according to the invention
  • Figure 4 is a block circuit diagram of part of a modified version of the apparatus
  • Figure 5 shows part of an ear tag which houses a transponder for use with the apparatus
  • Figure 6 shows the ear tag fitted to a cow.
  • the apparatus shown in Figure 1 is for use in identifying cattle having ear tags each of which contains a transponder.
  • the apparatus comprises fourteen antennae 1-14, each of which comprises a coil of multicore wire and, in use, emits an oscillating magnetic field for energising a pick-up coil of a transponder in its range so that the transponder can then emit an RF identification signal which is picked up by the antenna.
  • the tag comprises a cylindrical body 220 from the rear of which a shank 222 projects.
  • the end of the shank 222 has a socket 224 for receiving a retaining stud (not shown) for holding the tag on a cow's ear.
  • Figure 6 shows the tag on a cow's ear, the shank 222 extending through a hole in the ear.
  • the stud is attached to the socket 224 after it has been pushed through said hole, so that the ear is sandwiched between the body 222 and the stud.
  • the currents needed to drive each of the antennae 1-14 are provided by a common driver 16, which in this example comprises a TIRIS 2000 reader supplied by Texas Instruments and which also reads signals received by the antennae from transponders so that the transponders (and hence the cattle wearing the tags) can be identified.
  • the driver has a transmit fre ⁇ uency of 134.2kHz.
  • the driver 16 has an RF module for generating an AC current to be fed to the antennae, and a control module which modulates the AC current from the RF module with a pulse ⁇ ignal so that the AC current is supplied in intermittent bursts.
  • the control module also controls the operation of the RF module, decodes and checks data received from the transponders, converts the data into a format suitable for feeding to a serial port of a computer and controls various input and output lines of the reader.
  • the RF module includes an antenna circuit which has a variable inductance tuning coil for enabling an installer to tune the RF circuit to a given antenna.
  • the driver 16 has a terminal through which said currents are supplied, and through which received signals are fed to the driver, and that terminal is connected to two 16 amp signal pole change-over ( ⁇ PCO) relays 18 and 20 through a cable 22 which forms a two-core bus.
  • ⁇ PCO 16 amp signal pole change-over
  • Each of the relays 18 and 20 is, in turn, connected to a respective branch cable 24 and 26.
  • the cables 22, 24 and 26 are multi-strand cables formed from oxygen-free copper. The cables are therefore similar to certain types of high quality loud speaker cables.
  • Each of the antennae 1 to 7 is located in a respective stall, and the antennae are thus connected to the cable 24, at regular intervals therealong, through corresponding relays 28-34.
  • relays 35 to 41 each connect a respective one of the antennae 8 to 14 to the cable 26 at intervals therealong.
  • the relays 28-41 are all of the same type as the relays 18 and 20, and all the relays are connected to a control unit 44 by control lines 45 and 47, which is also connected to the driver 16.
  • Each antenna is connected to its relay by a tail (for example) of 550mm of the same wire as is used for the antenna coil.
  • the control unit 44 controls the operation of the relays in such a way that, at any one time in the operation of the apparatus, only one of the antennae 1 to 14 is connected in circuit with the driver 16.
  • the driver 16 supplies a burst of current to that antenna only, and after the burst of current, monitors that antenna for any identifying RF signal from an energised transponder, within the range of the antenna.
  • Any such signal is read by the driver 16, which then sends a signal, identifying the transponder concerned to the control unit 44 which can correlate that information with the identity of the antenna which received that signal. The process is then repeated for each other antenna of the apparatus in turn.
  • the apparatus not only identifies the transponders in the ranges of the antennae, but also determines which transponder is in the range of which antenna, and hence which cow is in which stall. Furthermore, the apparatus enables the operator to spot any cow which is not wearing a tag since such a cow, when in a stall, will not be identified.
  • all the antennae 1-14 have an inductance of approximately 22 micro Henrys.
  • the relays 18 and 34 are closed so that the antenna circuit of the driver 16 is in circuit with the antenna 7 only, and the inductance of the tuning coil is altered until the peak to peak voltage in the circuit is at its maximum.
  • the inductance seen at the input/output of the antenna circuit when the antenna 7 is connected is 27 micro Henrys, and the inductance of the tuning coil is set at or near the middle of the range of inductances of the tuning coil.
  • Fine tuning of the antenna 7 is then achieved by connecting a capacitor, not shown, of a suitable capacitance to the circuit, in parallel with the antenna 7.
  • the circuits containing the antennae 1-6 are then tuned by connecting corresponding capacitors in parallel with those antennae.
  • the capacitance of those capacitors progressively increases from the antenna 7 to the antenna 1 to compensate for the variations (resulting from the circuits having differing lengths of cable) in effect of the cable 24 on the impedance of the circuits containing the antennae.
  • a respective variable tuning inductor may be connected in series with each antenna to allow the antenna to be individually tuned.
  • the tuning inductors and/or capacitors can obviate the need to tune the system with the tuning coil.
  • the apparatus shown in Figure 1 is for installation in a milking parlour, each of the antennae 1-14 being located at one end of a respective stall so that each antenna can receive an identifying signal from a transponder on a cow in its stall.
  • the apparatus therefore determines which cows are in which stalls, enabling, for example, the productivity of a dairy cow to be monitored or for each cow to be automatically provided with an amount of feed appropriate to that particular cow.
  • the milking parlour shown in Figure 2 has sixteen stalls 61-76 arranged in two rows, each of eight stalls. Access to each row of stalls is gained via a respective one of a pair of corridors 50 and 51 which are situated one on either side of a central operator's pit 53. In use, sixteen cows pass through either one of two entry gates 52 and 54, each cow then walking into one of the stalls. After milking, the cows leave the stalls and exit the parlour through exit gates 56 and 58.
  • Each stall also contains a respective antenna, for example, the antenna 60 in the stall 62.
  • Each antenna forms part of an identification apparatus which is identical to the apparatus shown in Figure 1 in all details other than the number of antennae connected to each branch cable: eight in this case.
  • One of the branch cables connects the antennae 61-68 to a TIRIS 2000 reader, the other connects antennae 69-76 to the same reader.
  • Each antenna is mounted at its respective stall in such a position that, when a cow enters the stall, its head is adjacent to the antenna.
  • the components of the identification apparatus other than the antennae have been omitted from Figure 2.
  • the antennae 61-76 all have the same inductance (18.5 micro Henrys in this example).
  • Individual tuning compensates for the effect of the differences in lengths of branch cable connecting the antennae to the reader.
  • each antenna is tuned so that the reader sees an inductance of between 26 and 28 (preferably 27) micro Henrys.
  • parallel capacitors are used for tuning.
  • the antennae (68, 76) furthest from the reading head are connected in parallel to capacitors of the largest capacitance, whilst the capacitors for the antennae (61, 69) closest to the reading head have the smallest capacitance.
  • the capacitances of the parallel capacitor for the antennae 61 to 68 are 10.4nF, 9.2nF, 8.0nF, 6.8nF, 5.6nF, 4.4nF, 3.2nF and 2nF respectively.
  • Each of the capacitors for antennae 69 to 76 has the same capacitance as the corresponding capacitor for the corresponding one of the antennae 61 to 68.
  • Identification apparatus can be used in much larger milking parlours, for example parlours having forty stalls arranged in two rows each of twenty stalls.
  • Apparatus according to the invention can also be fitted to an out of parlour feed station, one example of which is shown in Figure 3.
  • Reference Nos 150 to 153 each denote a respective stall, each of which is fitted with its own manger, respectively referenced 154, 156, 158 and 160 which is supplied with feed from a respective one of four feed dispensing hoppers 162, 164, 166 and 168 fitted above the manger.
  • Each stall is fitted with a respective antenna.
  • a cow enters a stall of the feed station its ear tag is read and a suitable portion of feed is supplied by the dispenser to the cow in that stall.
  • the cow's daily feed ration is divided into portions so that a cow may only receive, for example, a maximum of one quarter of its daily ration in each six hour period.
  • Figure 4 shows a TIRIS 2000 reading head 200 which is identical to the reading head 16 and is connected to 8 antennae 201-208 by a single branch cable 210 of 11.6 metres length.
  • the system includes an arrangement of a control unit, relays and a control line to connect each antenna to the reading head 200 in turn.
  • the control unit relays and control lines are similar to those used in the system of Figure 1, and have been omitted from Figure 4 for the sake of clarity.
  • Each of the antennae 201-208 is connected in parallel to a respective capacitor of a capacitance indicated below the antenna.
  • the apparatus includes an inductor 212 cf 50 micro Henrys which is connected in parallel with the antennae 201- 208.
  • the inductor 212 reduces the contribution to the load (seen by the head 200) made by the inductance of whichever of the antennae 201-208 is in circuit with the head 200.
  • the inductance of the load, L ⁇ is given by the following formula:
  • L is the inductance of the inductor 212 and L 2 is the inductance of the antenna.
  • each of the antennae 201-208 can have a higher inductance, and hence more turns, than the corresponding antennae of the svstem shown in Figure 1.
  • higher voltages can be developed across each of the antennae 201-208 by the head 200 (values have been recorded in excess of lOOv (peak voltage)), and the range of each antenna is increased.
  • a parallel inductor such as the inductor 212 enables an antenna to operate at a distance of over 50 metres from a reading head with a read range of about 600 mm, which is as good as the read range of a single antenna of inductance of 18.5 micro Henrys at a distance of 11.5 metres from the RF unit in the absence of a parallel inductor.

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  • Engineering & Computer Science (AREA)
  • Artificial Intelligence (AREA)
  • Computer Vision & Pattern Recognition (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Theoretical Computer Science (AREA)
  • Arrangements For Transmission Of Measured Signals (AREA)

Abstract

Dispositif d'identification servant à lire et à identifier chacun d'une pluralité de transpondeurs (tels que des éléments d'identification fixés sur les oreilles du bétail) conçus pour émettre un signal d'identification. Une pluralité d'antennes (1-14; 61-69; 201-208) sous forme de bobines produisent des champs magnétiques oscillants qui induisent des courants dans les bobines de captage des transpondeurs et, de ce fait, produisent l'énergie nécessaire au fonctionnement des transpondeurs. Les antennes reçoivent également les signaux d'identification, et elles sont commandées par des moyens correspondants (16; 200) servant à les alimenter en courant alternatif (afin de créer le champ oscillant), les moyens de commande comprenant un circuit d'attaque commun couplé à l'antenne. L'invention concerne également une installation d'alimentation ou de traite possédant plusieurs stalles (150-153) dans chacune desquelles se trouve une antenne respective, ce qui permet d'identifier l'animal de chaque stalle.
PCT/GB1996/002047 1995-08-23 1996-08-21 Dispositif d'identification WO1997008646A1 (fr)

Priority Applications (9)

Application Number Priority Date Filing Date Title
AU68267/96A AU6826796A (en) 1995-08-23 1996-08-21 Identification apparatus
GB9801796A GB2318260A (en) 1995-08-23 1996-08-21 Identification apparatus
GBGB9704566.0A GB9704566D0 (en) 1996-08-21 1997-03-05 Identification apparatus
DE69705049T DE69705049T2 (de) 1996-08-21 1997-08-12 Identifizierungseinrichtung
US09/242,761 US6445296B1 (en) 1996-08-21 1997-08-12 Identification apparatus
AU39479/97A AU3947997A (en) 1996-08-21 1997-08-12 Identification apparatus
ES97936776T ES2160361T3 (es) 1996-08-21 1997-08-12 Aparato de identificacion.
PCT/GB1997/002175 WO1998008182A1 (fr) 1996-08-21 1997-08-12 Appareil d'identification
EP97936776A EP0920668B1 (fr) 1996-08-21 1997-08-12 Appareil d'identification

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
GBGB9517258.1A GB9517258D0 (en) 1995-08-23 1995-08-23 Identification apparatus
GB9517258.1 1995-08-23

Publications (1)

Publication Number Publication Date
WO1997008646A1 true WO1997008646A1 (fr) 1997-03-06

Family

ID=10779646

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/GB1996/002047 WO1997008646A1 (fr) 1995-08-23 1996-08-21 Dispositif d'identification

Country Status (3)

Country Link
AU (1) AU6826796A (fr)
GB (1) GB9517258D0 (fr)
WO (1) WO1997008646A1 (fr)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6698119B2 (en) 2001-01-11 2004-03-02 Farnam Companies, Inc. Decorated ear tags for domestic animals and method of making same
EP1667048A1 (fr) 2004-12-01 2006-06-07 WestfaliaSurge GmbH Dispositif d'antenne ainsi que dispositif d'identification d'animaux avec un dispositif d'antenne

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0440050A2 (fr) * 1990-01-31 1991-08-07 Texas Instruments Incorporated Système d'identification d'objet par couplage inductif
DE9406081U1 (de) * 1993-04-16 1994-07-28 Diehl GmbH & Co, 90478 Nürnberg Einrichtung zur induktiven Hochfrequenzabfrage von Kennzeichnungsträgern
EP0657098A1 (fr) * 1993-12-10 1995-06-14 N.V. Nederlandsche Apparatenfabriek NEDAP Système d'information et procédé pour obtenir automatiquement des données sur des animaux laitiers

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0440050A2 (fr) * 1990-01-31 1991-08-07 Texas Instruments Incorporated Système d'identification d'objet par couplage inductif
DE9406081U1 (de) * 1993-04-16 1994-07-28 Diehl GmbH & Co, 90478 Nürnberg Einrichtung zur induktiven Hochfrequenzabfrage von Kennzeichnungsträgern
EP0657098A1 (fr) * 1993-12-10 1995-06-14 N.V. Nederlandsche Apparatenfabriek NEDAP Système d'information et procédé pour obtenir automatiquement des données sur des animaux laitiers

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6698119B2 (en) 2001-01-11 2004-03-02 Farnam Companies, Inc. Decorated ear tags for domestic animals and method of making same
EP1667048A1 (fr) 2004-12-01 2006-06-07 WestfaliaSurge GmbH Dispositif d'antenne ainsi que dispositif d'identification d'animaux avec un dispositif d'antenne

Also Published As

Publication number Publication date
GB9517258D0 (en) 1995-10-25
AU6826796A (en) 1997-03-19

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