FR2701614A1 - Remote data transfer unit and corresponding transponder. - Google Patents

Abstract

The present invention relates to a remote data transfer unit (10), of the type comprising a fixed beacon (11) and a mobile transponder (12). The invention also relates to the corresponding transponder. According to the invention, data is exchanged between the beacon and the transponder by coding a microwave signal. When the signal is emitted by the beacon, it is emitted in amplitude modulation; when it is transmitted by the transponder, it is transmitted in phase or amplitude modulation. The transponder has the particularity of receiving a removable memory card (21) on which it can read or write these data. In addition, this transponder is provided with a compact and inexpensive antenna.

Description

REMOTE DATA TRANSFER UNIT
AND CORRESPONDING TRANSPONDER
The present invention relates to a remote data transfer unit and a corresponding transponder. More particularly, this unit comprises a fixed beacon and a transponder, and allows a bidirectional data exchange between these two elements.

I1 is already known, in particular by the patent
FR 89.02502, systems for identifying a moving mobile near a fixed interrogation beacon.

In such a system, the moving mobile (transponder) transmits a predetermined unique code. This code is received by the fixed tag that identifies it. Such systems are for example used for monitoring the movement of personnel in a company. Each employee wears a badge (transponder) which identifies him when he passes in front of a beacon. Depending on their identity, access to certain areas of the company is authorized (or not).

 In this type of system, the transponder transmits a single signal. It is not possible to interrogate the transponder selectively so that it transmits such or such data to the beacon. In addition, the beacon cannot transmit data capable of being memorized by the transponder; there is no real interactivity between these two elements.

 The object of the present invention is to overcome all of these drawbacks and to create a transfer unit in which a bidirectional dialogue is established between the beacon and the transponder, with the possibility of storage in the transponder and in the beacon.

 Another object of the invention is to differentiate the data flowing in each direction between the beacon and the transponder, in order to avoid any interaction of this data.

 Another object of the invention is to achieve this differentiation of the data, according to their direction of circulation, without complicating the production of the beacon and the transponder. In particular, the transponder must remain a light element, compact and easy to transport.

 Another object of the invention is to provide the transponder with removable storage means, for example a memory card.

To this end, the present invention relates to a remote data transfer unit of the type comprising a fixed beacon and a mobile transponder suitable for exchanging data remotely, said unit being characterized in that, on the one hand, the transponder comprises
- a means of receiving and transmitting signals from or to the fixed beacon,
a means for processing the signals received or to be transmitted, said signals being representative of the data received or transmitted,
a means of reading and / or writing this data on a memory card,
and on the other hand the tag has
- means for receiving and transmitting signals from or to the transponder,
a means for processing and analyzing the signals received or to be transmitted, said signals being representative of the data received or transmitted and,
- memory means suitable for storing this data, so that the data transmitted by the beacon is carried by a microwave signal with amplitude modulation and that the data transmitted by the transponder is carried by a microwave signal with phase modulation or amplitude.

 Advantageously, the signal carrying the data is a microwave signal. Such a signal is produced by light and space-saving electronic circuits. In addition, the data is transmitted by phase modulation or by amplitude modulation. Such modulations also do not require complex, expensive or bulky devices.

 The storage of the data in the transponder is advantageously carried out in the memory card itself.

 Advantageously, the means for receiving and / or transmitting (the antenna) of the transponder is produced on a printed circuit of the conventional type, of low cost, and has a compact geometry. This antenna can transmit, either in linear polarization, or in circular polarization. In this second case, the wave is emitted on either side of the plane of the antenna. The beacon can thus easily receive the data transmitted by the transponder, whatever the positioning of the latter relative to the beacon.

 The present invention also relates to a transponder provided with the means indicated above having standardized connection means for a memory card.

 Such a transponder can be worn like a badge by a person, or by a moving object, for example a motor vehicle.

 Advantageously, the use of a microwave signal to exchange data between a beacon and a transponder allows rapid exchange having a wide range of action. For example, a car fitted with a transponder housing a bank card and passing at a motorway toll can be detected and debited without imposing a slowdown in its pace.

Other objects, advantages and characteristics of the invention will become apparent from the following description, for information, with reference to the accompanying drawings in which
FIG. 1 is a schematic perspective view showing a transfer unit according to the invention,
FIG. 2 is a schematic plan view of the transfer unit according to FIG. 1,
FIG. 3 is a schematic view partially showing the production of a slot antenna according to the present invention,
FIG. 4 is a schematic plan view showing the slot antenna according to the invention,
- Figures 5a and 5b are schematic plan views showing alternative embodiments of antennas.

 According to the embodiment shown in Figures 1 to 4, the data transfer unit 10 according to the invention comprises a fixed tag 11 and a mobile transponder 12. These two elements are suitable for transmitting data between them, without contact physical and more precisely by using a microwave signal.

 The fixed beacon 11 comprises (FIG. 2) a means for receiving and transmitting signals 13 (an antenna), a means for processing and analysis 14 of the signals received or to be transmitted, and means for storing 15 the data received or issued. As shown in Figures 1 and 2, the fixed tag can be connected, by any suitable means 16, to a computer 17, comprising in particular a central processing unit for the signals received. This computer can be installed remotely from the beacon.

 The transponder 12 comprises meanwhile (FIG. 2), a means 18 for receiving and transmitting signals (an antenna), a means for processing and analysis 19 of the signals received or to be transmitted, a means 20 for reading and / or writing data associated with a memory card 21.

 This memory card 21 is inserted into slots 22 provided for this purpose (FIG. 1) in the transponder 12. This card is removable and can be removed or put in place by simply sliding along arrow F. Standardized connection means 23 (not detailed) allow a link between the memory card and the read / write means 20.

 The entire transponder 12 (except memory card) is produced on a printed circuit of the glass / epoxy type. The transponder thus has a low cost and a reduced bulk.

 Advantageously, the antenna 18 of the transponder is produced by etching a printed circuit 40 on a first face 30 of the latter, and consists of two annular slots 25 (FIG. 4) orthogonal to each other and containing each a central conductive line 26. It will be noted that the circumference of these slots is equal to the guided wavelength.

 As shown in Figure 3, each slot 25 is made by recessing a conductive layer A. Thus, the periphery of the slot 15 and the central line 26 are conductive (Figure 3), but not the slot itself.

 Each central line 26 (FIG. 4) is supplied by an excitation line 27. These excitation lines 27 are produced on the opposite face 31 (FIG. 3) of the epoxy glass substrate, and are in contact with the central line 26 at its midpoint. For this purpose, they pass through the entire thickness of the glass / epoxy substrate, at the midpoint of the central lines 26.

 As shown in FIG. 4, each of these excitation lines 27 is connected to the means for processing the signals received or to be transmitted 19.

 The operation of the unit 10 according to the invention is described below.

 The exchange of data between the mobile transponder and the fixed beacon is done without physical contact, by transmission and / or reception of microwave waves (that is to say whose frequency is greater than 100 MHz).

 The antennas 13 and 18 respectively of the beacon and the transponder are adapted to receive or transmit such waves.

 So that the waves emitted by the beacon and those emitted by the transponder are easily differentiable, these waves are coded differently. Thus, the antenna 18 of the transponder transmits in phase modulation and the antenna 13 of the beacon transmits in amplitude modulation.

Any interaction between these two emissions is thus advantageously avoided.

According to a preferred embodiment, the antenna 13 of the beacon transmits by modulating the amplitude of a continuous microwave wave emitted in rectilinear polarization by the beacon. The transponder receives and re-emits this microwave wave in phase modulation, with a -circular polarization. The beacon then receives the wave re-emitted by the transponder according to a crossed rectilinear polarization (relative to the initial wave emitted by the beacon). To simplify, we can assimilate this process to the following
the beacon emits a polarized wave according to
X,
the transponder retransmits the polarized wave along X and Y,
the beacon receives in return a wave polarized according to Y.

 Advantageously, the phase modulation is carried out by a field effect type transistor (not shown) mounted as a common source and whose gate is modulated by the data to be transmitted, in its binary form.

Amplitude modulation is all or nothing. The data to be transmitted in one direction or the other is coded differential biphase. Such coding ensures zero continuous spectral density, hence insensitivity to the absolute phase of the signal, while allowing possible recovery of the binary rhythm.

The antenna 13 according to the invention is such that each of the excitation lines 27 supplying the central lines 26 is traversed by a microwave signal (emitted by the processing means 19) n having a phase shift of n - (n integer odd positive)
4 and of the same amplitude. The length of each of the slits corresponds to a quarter of the guided wavelength.

 The joint radiation of the two orthogonal slits 25 whose polarization is rectilinear, excited by such a signal, creates an antenna with circular polarization. Such an antenna radiates on both sides of its plane. Therefore, whatever the position of the transponder carrying such an antenna, its signal is picked up by the beacon.

The data transmitted in each direction between the beacon and the transponder are formatted according to structured frames (called HDLC) containing in order
- a preamble allowing to know the frequency and the phase of the transmitting clock,
- a first flag,
- a data field
- a control field and
- a second flag.

 Note that the transponder also has an alarm function known per se. Thus, the transponder emits a signal only when it has been awakened by the interrogation signal from a fixed beacon.

This awakening is advantageously carried out by the phase modulation of the wave emitted by the beacon.

 The data transfer unit, as previously described, makes it possible, when placing a memory card of the bank card type in the transponder, not only to detect the passage of the transponder in front of the fixed tag, but also to debit the bank card accordingly.

 The bidirectional data exchange between the beacon and the transponder allows the beacon to know the bank account number written on the bank card, which then allows it to debit (via a network of computers 17 linked to the bank ) the account in question. The tag can also store data directly on the memory card, for further processing, when the card is used.

Note that such a unit has many advantages, namely
a low cost of producing electronic circuits but also of the antenna which has good performance, although it is produced on an inexpensive substrate of the glass / epoxy type,
- security in the exchange of data between the beacon and the transponder (the data flowing in each direction cannot interfere with each other),
- speed of data exchange,
- a wide range of action and
- a small footprint.

 It will also be noted that the transponder antenna has a very compact geometry (2 orthogonal slots between them) and does not require adjustment or sorting in production. According to a preferred embodiment, this antenna is adapted to transmit in circular polarization in the two directions normal to its plane.

Such an antenna has the following characteristics
- a large bandwidth,
- bidirectional radiation and
- a gain of the order of 3 to 6 dBi (dB compared to an isotropic antenna).

 As a variant, it will be noted that the beacon and the transponder both transmit in amplitude modulation.

 Likewise, as a variant, the transponder transmits in linear and non-circular polarization. In this case, the antenna 18 transmits or receives in only one of the directions normal to its plane. This simplifies the transfer unit and reduces costs, which is interesting even if it requires presenting the transponder in a specific way to the beacon so that communication is established between the transponder and the beacon.

 In another variant, it will be noted that the antenna can also be produced as shown in FIG. 5a.

In this case, the slot 25 has no center line.

The excitation line 27 remains on the underside 31 (in the drawing) of the printed circuit and is adapted to cross the slot and extend beyond it. This crossing can be done at a midpoint or not. In the case where the crossing point is non-midpoint, an antenna of variable characteristic impedance is formed. We then create an open stub which will induce a selfic compensation.

 Likewise, it is also possible to produce a slot 25, of elliptical annular shape whose central line 26 is also elliptical. The excitation line 27, as in the case of FIGS. 3 and 4, short-circuits this central part 26. The slot 25, in this case, is of very small width compared to the wavelength and of equal circumference at the guided wavelength.

 Of course, the present invention is not limited to the embodiments described and covers any variant within the reach of ordinary skill in the art. In particular, the antenna of the fixed beacon can be of the same type (or not) as the antenna of the transponder. Similarly, the transponder and its memory card can be integrated in a case, not opposing the propagation of waves.

Claims (12)

 1 / - Remote data transfer unit of the type comprising a fixed beacon (11) and a mobile transponder (12) adapted to exchange data remotely, said unit (10) being characterized in that, on the one hand, the transponder (12) comprises  - means (18) for receiving and transmitting signals from or to the fixed beacon,  a means (19) for processing the signals received or to be transmitted, said signals being representative of the data received or transmitted,  - A means (20) for reading and / or writing this data on a memory card (21), and on the other hand the tag (11) comprises  - means (13) for receiving and transmitting signals from or to the transponder,  a means (14) for processing and analyzing the signals received or to be transmitted, said signals being representative of the data received or transmitted and,  - memory means (15) adapted to store this data, so that the data transmitted by the beacon (11) are carried by an amplitude modulated microwave signal and that the data transmitted by the transponder (12) are carried by a microwave signal with phase or amplitude modulation.  2 / - Unit according to claim 1, characterized in that the means (18) for receiving and transmitting the transponder is an antenna produced on a printed circuit (40) transmitting in linear polarization.  3 / - Unit according to claim 2, characterized in that the antenna (18) transmits or receives in only one of the directions normal to its plane.  4 / - Remote data transfer unit according to claim 1, characterized in that the means (18) for receiving and transmitting the transponder is an antenna produced on a printed circuit (40) transmitting in circular polarization suitable for transmitting along each of the faces (30, 31) of the printed circuit (40).  5 / - Unit according to claim 4, characterized in that the antenna (18) of the transponder consists of two slots (25) orthogonal to one another, each of these slots having in its middle a central line ( 26) excited by a microwave signal, the microwave signals having the same amplitude n and a phase shift of n - (n odd positive integer)  4 relative to each other.  6 / - Unit according to claims 4 to 5, characterized in that each slot (25) is of length corresponding to a quarter of the guided wavelength.  7 / - Unit according to one of claims 4 to 6, characterized in that the antenna (18) is constituted by a conductive dielectric circuit on its two faces, such that the two slots (25) are formed on a first face (30) and the two excitation lines (27) are made on the other face (31) and are short-circuited at their ends on the first face in line with the middle of the slots (25).  8 / - Unit according to claim 7, characterized in that the excitation lines (27) extend beyond the right of the slots (25) and thus form an open stub.  9 / - Unit according to claim 4, characterized in that the antenna (18) of the transponder consists of two slots (25) orthogonal to each other, each of these slots being excited by a central line (26 ) traversed by a microwave signal, the excitation lines (27) and the slots (25) crossing at a non-midpoint, to form an antenna of variable characteristic impedance.  10 / - Unit according to claim 1, characterized in that the means (18) for receiving and transmitting the transponder is an antenna produced on a printed circuit (40) having two conductive faces, a first face (30) having a annular slot (25), of circumference equal to the guided wavelength, and a second face having two excitation lines (27) short-circuited with the conductive part present inside the annular slot (25) of the first side.  11 / - Unit according to claim 10, characterized in that the annular slot (25) is rectangular.  12 / - Transponder adapted to be used in a transfer unit (10) according to one of the preceding claims, characterized in that it further comprises housing means (22) and connection means ( 23) for a memory card (21).