CA2297797A1 - Portable object with contactless communication through two communication channels, inductive and radio wave - Google Patents

Abstract

The invention concerns a portable object (10) to be used in a contactless secure automatic electronic transaction system comprising: means for setting up a first communication channel, by induction and short range, between the portable object and a terminal, with first transmitting means (26) and receiving means (26), co-operating with a tuned element (20) so as to pick up a modulated magnetic field coming from a terminal or to produce in response a modulated disturbance of said magnetic field; and means for setting up a second communication channel, long range, between the portable object and a receiver, said means comprising second transmission means (40) co-operating with an antenna (42) so as to radiate a modulated radio frequency wave. The second transmission means are capable of setting up a communication channel separate from the induction channel and of transmitting its own particular data to the remote receiver, and further means (26, 36 PWR) for selectively activating the second transmission means are provided.

Description

Portable object with contactless communication according to two communication channels, inductive and hertzian The invention relates to contactless communication between a terminal ne and a portable object.
Such contactless data exchange systems are well known and among the applications of this technique, we find (so nonlimiting) access control and electronic toll collection, for example for (ac-these and the public transport toll.
10 In this last example, each user is provided with a portable object.
tif of the type "contactless card" or "contactless badge", which is an object likely to exchange information with a fixed terminal when appropriate sing the badge of the latter so as to allow a coupling non-galvanic.
The invention relates to the case where the exchange of information following this coupling is effected by varying a magnetic field produced by an induction coil, a technique known as "process by induction ". The terminal has for this purpose a tuned circuit excited by an alternating signal which produces in the surrounding space a field 20 alternating magnetic. The portable object located in this space tect this field using a circuit tuned to the same frequency and signal channel towards the terminal, by modulation of the coupling for example, thus establishing the desired communication dialogue.
EP-A-0 565 469 (Innovation Industries) describes an exchange system 25 of data using this technology.
By nature, this induction process involves a short range, typically less than 1 m, preferably less than 20 cm, generally to properly define the geometry of the terminal's action area, avoid interference between neighboring terminals and avoid the establishment of 30 untimely data exchanges with remote badges.
The present invention proposes the addition to such a badge of long range means of communication (typically a long range less than 10 m, preferably more than 30 m) to establish a communication channel separate from the induction channel, usable 35 for other purposes.

2 So. in the aforementioned application of the electronic toll system for transport in common, we can add to the traditional ticketing function contactless, implemented by means of induction communication, an emergency call or alarm function implemented by the same badge, so with common circuits and power supplies or partly common, and directly by the bearer of this badge.
This application is not limiting, and the invention can also be implemented for example in the field of home automation, the short-range induction communication channel being used 10 me access key or alarm unlock, and the communication channel long-range cation for remote control functions, for example example for opening a gate or a garage door.
Likewise, the term "card" or "badge" is in no way limiting, and other forms of portable objects such as key, bracelet, etc. are good heard possible. The "badge" can also be created, always as illustrated in the aforementioned EP-A-0 565 469, of a device comprising, in combination, a microcircuit card of the "card type"
chip "with contacts combined with a flat case, in which this card is embedded which includes the transmission / reception circuits serving as an inter-. face for communication between this microcircuit card and a terminal not distant.
There are certainly systems, such as those described for example in US-A-5,054,112 and EP-A-0 575 013, which combine two modes of data transmission, short-range induction and radio (or 25 microwave) at long range. But it's about getting redundancy dance in data transmission using two alternative techniques according to propagation conditions, with automatic switching tick from induction mode to radio mode in case of failure of the both by induction. The two modes of trans-30 missions are intended to transmit the same data and do not form therefore, basically, only one and the same communication channel.
More specifically, the invention provides a portable object of the type signed for example by the aforementioned US-A-5,054,112, that is to say comprising both: means to establish a first communication channel, 35 by induction and at short range, between the portable object and a terminal, these

3 means comprising first data transmission means and data reception means, cooperating with a tuned element of so as to pick up a modulated magnetic field coming from a bound or to produce in response a modulated perturbation of this field 5 magnetic; and means for establishing a second communication channel long-range cation between the portable object and a receiving device, these means comprising second means for transmitting data co-operating with an antenna so as to radiate a radio wave than modulated.
According to the invention, the second data transmission means are able to establish a communication channel separate from the induction and to transmit own data to said device remote receiver, and the object further comprises activation means selective second transmission means.
The second communication channel can be a unidirectional channel.
and an emergency call route.
According to a number of subsidiary characteristics before-geuses - the selective activation means can be activated at will by the 20 carrying the portable object, and in particular comprise a button pusher, advantageously with means for detecting a se-predefined number of presses on the push button;
- the data transmitted by the second data transmission means include object-specific identification information 25 ~~;
- the portable object comprises two dissociable organs, one of which mier organ, in particular in the form of a card, comprising a micro-circuit with a memory containing data necessary for the implementation of said electronic transactions and, if necessary, 30 ment, to the implementation of the communication protocol by the first and / or the second communication channel, and a second or-gane. in particular in the form of a case, comprising said means for establish the first and second communication channels, as well as means for coupling to the first member;
in the latter case, the portable object may further include

4 selector means, controlled by the selective activation means ve, to apply a data signal from the microcircuit of the first organ is to an internal circuit of the second organ, when the selective activation means are in the inactive position, i.e.
a data entry of the second data transmission means, when the selective activation means are in the activated position;
the ratio between long range and short range is greater than 10: 1, with in particular a short range of less than 1 m, preferably rence less than 20 cm, and a long range greater than 10 m, preferably greater than 30 m.
The invention also relates to a system comprising a plurality of receiving devices for data emitted by portable objects such as above ~~ ia said second communication channel, each of these dis-positive receivers being associated with a geographic coverage area clean, characterized in that it further comprises means for locating to determine, in the event of reception of a radio wave modulated from a portable object, that or those of the devices having received this wave, so as to allow the identification of the area where this portable object is located.

Other characteristics and advantages of the invention will appear on reading the detailed description below of an example of a sation, with reference to the single appended figure, which is a representation schematic tion of a portable object incorporating the teachings of the invention.

In the figure, reference 10 generally designates an object portable type "contactless badge", which is for example (but of not limited to) consisting of a microcircuit card 12 (card to contacts) inserted in a case 16 integrating the various functions of contactless communication in combination with microcircuit 14 via an interfacing connector 18.

Such a mixed structure contact card / case for communication contactless is described in the aforementioned EP-A-0 565 469, to which ra refer for further details.
This structure is advantageous in that it makes it possible to distinguish

5 purely digital functions and signal processing software, specific to the microcircuit 14 of the card (which it is possible to exchange or easily reprogram) and hardware communication functions for contactless transmission / reception, as well as the means of supplying tion. It is also possible to provide each user with a card 10 with microcircuit allowing to carry out the teleticketing operations and integrating in advance also the own software for the call function of security ; the user of the card may, in a second step, get a case integrating the means to put in actually implement this safety call.
15 The microcircuit card 12 can optionally be a mix-contacts / contactless authorizing an exchange of data with the memory of the microcircuit either via the galvanic contacts or by induction by means of circuits incorporated in the card, general circuits actually remotely powered by the terminal (these two modes of communication 20 alternatives, however, constituting only one "means of communication tion "within the meaning of the invention, since they are intended to transmit es-substantially the same data). This mixed type card 12 will be serée in the case 16 for the implementation of the functions according to the invention-ass.
25 Portable object 10 includes for data exchange by channel inductive a tuned circuit 20 consisting of a coil 22 formed of a printed loop and associated with a capacitor 24, the assembly being ac-strung on a given frequency, for example 13.56 MHz, allowing bidirectional data exchange with a terminal by the technique 30 called "by induction". The portable object also includes a circuit analog and digital integrated 26, typically produced from a microcontroller and interfacing circuits, preferably all realized in the form of a specific integrated circuit (ASIC).
The circuit 26 receives on an I / 0 port for input / output of data 35 informaüons coming from microcircuit 14 via the connector of information

6 face 18, a line 28 and a selector or multiplexer circuit 30 whose role will be explained below. Circuit 26 is also connected to microcircuit 14 via bus 32 (clock, reset, supply voltage tation, mass). The circuit 26 is controlled by a quartz 34 and it is connected to a push button 36 externally actuable by the user. Finally, all of the circuits of the portable object are powered by one or more their batteries 38 such as lithium batteries.
Characteristically of the invention, the portable object comprises in in addition to a data transmission circuit 40 associated with an antenna 42 pre to emit a radio wave (hertzian). This transmitter is powered by batteries 38 (or possibly a single battery). He can be consisting for example of a single transistor associated with a wave filter surface and a variable capacitance diode. The associated antenna is im-awarded on the circuit in order to obtain a compact product. Note that, pop ~~ reduce the cost of the "safety call" function we chose a unidirectional transmission, that is to say that the circuit 40 is, in the example illustrated, not equipped with reception functions.
The transmission frequency is (in no way limiting) of 433.92 MHz, with FSK modulation of 10 kHz (~ 20%) of the data applied as input to port I / 0. The transmitted power is around 7 mW (5 dBM), for a consumption of less than 10 mA under a 4.5 to 6 V supply voltage supplied by two lithium batteries 38 (or possibly a single battery). Circuit 40 also includes an activation input WR port on the order of circuit 26.
The operating sequence is as follows.
The first case is that of the entry of the portable object in the field of action of an induction terminal. The circuit 26 then energizes the microcircuit 14, which will then decide on its operation by examining nant the status register of the circuit 26. The multiplexer 30 directs the signal I / p to circuit 26 to allow data exchange by induc-tion, in itself known and which will not be described below.
was.
We will simply indicate that the messages exchanged between the subject and the terminal are inherently subject to numerous interferences.
this or loss of data, which implies a format of messages per-

7 providing very reliable error detection, with protection against noise between frames. The typical general format is "Frame Start / datao / datal /.../ datan-l / datari CRLC / CRCH / FrameEend".
FrameStart and FrameEnd are particular sequences which do not can be found in the data, and which vary according to the meaning of transmission.
Datao I dcxta 1 I ... I datan- ~ I datan are N bytes of data arbi milked. The maximum frame length (typically 80 bytes) will laughs according to achievements, and is limited by memory space RAM available in the portable object. It contains all or part of information for carrying out a quick telephone transaction of and secure.
CRCL and CRCH are two bytes depending on the N data bytes.
which are generated and verified according to the FCS algorithm of the specification cation CCITT X25 # 2.2.7 and V42 # 8.1.1.6.1.
Functionally, the different orders involved are, for a typical teleticketing transaction - initialization of the certificate, - mutual control of the certificate, - invalidation, - universal reading, - universal writing, - reading profiles and histories, - request to write the new history with any debit from token holder, - presentation of unencrypted key.
All this taking place in the first aforementioned case, that is to say that of communication by induction with a terminal such as a public transport tolls.
The second case is that of pressing the push button 36. The cir-cooked 26 again turns on the microcircuit 14, which detects this support by reading the status register of circuit 26. If this support is firm (for example by keeping the push button pressed)

8 or by a second press at short notice after the first), the microcircuit 14 controls the portable object so that it switches to "call origination" mode This mode will make the PWR signal active, this which will, on the one hand, move the multiplexer 30 into the position to direct data from line 28 to the port input I / 0 of the transmitter circuit 40 and, on the other hand, control the setting on the transmitter. Data specific to the call sequence are then coded and signed by the microcircuit 14 and then transmitted by the transmitter to a remote radio receiver device.
Alternatively, the PWR signal may be generated by the data.
born Il0 from the input port of the transmitter 40.
In order to secure the call, the message format contains re dondance and uses an error correcting code to correct two eight-bit errors. The data transmitted include example the serial number of the card accompanied by a signature DES of this number: this information makes it possible to identify the card to memory, and therefore the person, from whom the call originated.
In addition, always for safety, the emergency call message is repeatedly issued.
It is thus possible to provide a message formatted for example by the ma-next - 24 bytes per frame, - 4 identical frames sent on each call, - at frame level, correction code "2 errors on 8 bits" then code "1 error on 4 büs" detector (4 bytes of general serial number 20 bytes), - 2 frame synchronization words interleaved with the data.
In addition, the software may incorporate a protocol that limits the name-number of consecutive calls to avoid misuse, with reset p ~ the entry of the portable object into the field of action of a charging station duction.
The receiver is of a conventional type comprising receiver stages signal reception, demodulation and decoding. In a variant, the receiver is of the so-called "scanning" type, which scans the frequency band these predictable emissions and which automatically locks onto the

9 effective frequency. The receivers or "beacons" are arranged in various appropriate rights (e.g. metro platforms and corridors) so that cover the widest possible area, with a range of around 60 to 70 m.
The system advantageously includes discriminating means.
sensors allowing to know which of the receivers having received the signal emergency call, in order to locate the person who made this call pel. If several receivers have simultaneously received the call, this one comes from a point in the region where the zones overlap of action of these transmitters. Identification of the person who issued the call will be made thanks to the serial number on 4 bytes of the card, content in the frame received by the receiver; there is no need to trans-put other information from the portable object to the receivers.

Claims (11)

10 1. A portable object (10) for use in a security system.
automatic secure contactless electronic transactions, including:
~ means for establishing a first communication channel, by induction and at short range, between the portable object and a terminal, these means including first means (26) for transmitting data and means (26) for receiving data, cooperating with a tuned element (20) to pick up a magnetic field modulated from a terminal or to produce in response a modulated disturbance of this magnetic field, and ~ means for establishing a second communication channel, long range, between the portable object and a receiving device, these means comprising second means (40) for transmitting data cooperating with an antenna (42) so as to radiate a wave modulated radio, portable object characterized in that:
~ the second data transmission means are capable of establishing a communication channel separate from the inductive channel and transmit own data to said remote receiver device, and ~ it comprises means (26, 36, PWR) for selective activation of second transmission means. 2. The portable object of claim 1, wherein the second channel communication is a one-way channel. 3. The portable object of claim 1 or 2, wherein the second communication channel is an emergency call channel. 4. The portable object of one of claims 1 to 3, in which the selective activation means can be actuated at will by the wearer of the portable object, and include in particular a push-button (36). 5. The portable object of claim 4, wherein the means selective activation include means for detecting a sequence predefined number of push button presses. 6. The portable object of one of claims 1 to 5, in which the data transmitted by the second data transmission means include identification information specific to the portable object. 7. The portable object of one of claims 1 to 6, comprising two separable members, including a first member (12), in particular form of card, comprising a microcircuit (14) with a memory containing data necessary for the implementation of said transactions electronics and, possibly, the implementation of the protocol of communication by the first and/or the second communication channel, and a second member (16), in particular in the form of a case, comprising said means (20, 26, 40, 42) for establishing the first and second communication channel, as well as means (18) for coupling to the first organ. 8. The portable object of claim 7, further comprising selector means (30), controlled by the selective activation means, to apply a data signal from the microcircuit of the first organ or to an internal circuit (26) of the second organ, when the selective activation means are in the inactive position, either at an input data from the second data transmission means (40), when the selective activation means are in the activated position. 9. The portable object of one of claims 1 to 8, wherein the ratio of long range to short range is greater than 10:1. 10. The portable object of claim 9, wherein the short span is less than 1m, preferably less than 20cm, and the long range is greater than 10 m, preferably greater than 30 m. 11. A system comprising a plurality of receiving devices of data emitted by portable objects according to one of the claims tions 1 to 10 via said second communication channel, each of these receiving devices being associated with a coverage area specific geographical area, characterized in that it also comprises means of location to determine, when receiving a radio wave modulated from a portable object, that or those of the devices having received this wave, so as to allow the identification of the area where this portable object is located.