EP1906363A1 - Access control system - Google Patents

Abstract

The access control system (10) has an electronic control device (14), a user-lateral identification mechanism (12) and units for wireless bi-directional communication. A waking signal produced by the control equipment is sent to the identification mechanism in a mode of operation for waking up the identification mechanism. The waking signal is sent over an ultra high frequency (UHF) to the identification mechanism. The waking signal of modulated audio frequency carriers is mixed with the UHF and the merged signal is sent to the identification mechanism.

Description

The invention relates to an access control system, in particular for vehicles, having an access-side electronic control device, a user-side identification device and means for a wireless bidirectional communication between the access-side control device and the user-side identification device, wherein in a first mode for waking the identification device at least one generated by the control device wake-up signal sent to the identification device and information is exchanged between the control device and the identification device in a second mode of alert identification device.

Such an access control system is used, for example, when it comes to checking whether a respective person is authorized as the owner of a respective identification device to pass through the relevant access control device. This may be the case both for stationary access control devices, to which only a selected group of persons has access, and for mobile access control devices, in particular in vehicles, such as e.g. Motor vehicles, ships or bicycles. With the access control devices in question should be counteracted in particular a theft of the vehicle in question.

The respective access control system can be provided in particular as a so-called keyless entry system and / or keyless entry system for vehicles. In this case, it comprises an electronic control unit assigned to the vehicle, which as a rule is permanent is powered, and the mobile identification means to identify a respective authorized user. In this case, a respective identification device itself may be part of a vehicle key which is in a bidirectional data exchange with the control device in the region of the closing and / or starting system of the vehicle. The respective identification devices can also be integrated, in particular, into chip cards or the like and designed, for example, as a transponder. Transponders have no own power supply, they are rather supplied with energy as the identification device approaches the control device and subsequently automatically addressed for transmission of the authentication response signals.

Typical of keyless vehicle access control systems is the use of two-way radio communication between the vehicle and the identification device. In the hitherto conventional systems, to wake up the identification means and to identify the position of this identification means (inside or outside), an LF communication (e.g., 20 kHz, 125 kHz, 13.56 MHz) is provided. For the communication and data exchange between the vehicle and the electronic identification device, the use of a UHF system (eg 315 MHz, 433 MHz, 868 MHz, 2.45 GHz) is proposed in order to take advantage of a higher data rate compared to a NF Use data communication and save communication time and thus increase the life of the battery.

To make the connection between the vehicle and the identification device ferrite core antennas are used in door handles or inside a door in the conventional systems. Each antenna must be matched to the electronic central unit and with these are connected, which is extremely complicated and expensive, since a fully protected keyless system would require up to 10 ferrite antennas.

The invention has for its object to provide an improved access control system of the type mentioned, in which the aforementioned problems are eliminated. In particular, the structure should be simplified and accordingly the costs should be reduced.

This object is achieved in that in the first mode, the wake-up signal generated by the controller is sent via at least one UHF frequency to the identification device.

Due to this design results in a much simpler in construction and correspondingly less expensive access control system. Given the intended for the first mode for waking the identification device UHF (Ultra High Frequency) can be dispensed with the previously required LF antennas. In view of the far-field situation in this UHF mode, the wake-up channel of the identification device is independent of the orientation or position of this identification device. In contrast, in a conventional pure AF wake-up system a full three-dimensional wake-up receiving circuit is required, due to the near field behavior at low frequency.

Preferably, a NF carrier modulated with the wake-up signal is mixed with the UHF frequency and the mixed signal obtained is sent to the identification device.

In this case, an ASK-modulated carrier, a PSK-modulated carrier or an FSK-modulated carrier can advantageously be provided as the AF carrier (ASK = amplitude shift keying; PSK = phase shift keying).

Expediently, the identification device comprises filter means and demodulation means for filtering and demodulating the received mixed signal, and a LF wake-up receiving part to which the LF carrier information obtained by the filtering and demodulation of the mixed signal is fed (LF = low frequency). The filter means and demodulation means are preferably passive, i. non-battery powered components.

The demodulation means may comprise, for example, at least one NF-resonant electrical circuit. In this case, such an electrical LF resonant circuit may include, for example, an inductance and a capacitor parallel thereto.

In a preferred practical embodiment of the access control system according to the invention, in the second operating mode, the information exchange between the control device and the identification device takes place at least partially via at least one UHF frequency. In particular, the entire exchange of information between the control device and the identification device can take place via at least one UHF frequency.

Alternatively, in the second mode of operation, the information exchange between the control device and the identification device can take place at least partially via at least one LF frequency. At least in this case, the identification device can also comprise both high frequency and low frequency antenna receiving means. In principle, it is also conceivable that in this second mode of operation the entire exchange of information between the control device and the identification device takes place via at least one LF frequency.

The previously required LF antennas on the vehicle can therefore be omitted if only one UHF connection is used. The demodulated signal of the UHF connection causes the user-side identification device to wake up. In the case of a woken identification device, the data exchange can take place in the UHF range, whereby a higher data rate can be achieved. However, the data exchange can also take place in the same way as the waking up of the identification device.

An example of an ASK, PSK or FSK-modulated LF carrier is to be mixed with a UHF frequency in order to send a connection setup signal from the vehicle or an electronic control device or base station associated therewith to the identification device. After receiving the connection setup signal formed by the mixed signal, the RF information (RF = radio frequency) can be filtered and demodulated on the side of the identification device such that only the LF carrier information is present at the LF section of the circuit of the identification device. The identification device may be provided with a low-frequency resonant circuit, for example, of an inductance and a capacitor parallel thereto, which is arranged at the input of a LF receiver part of the identification device, so that, for example, a logic of the identification device comprising at least one integrated circuit from that coming from the control device modulated NF-carrier a wake-up signal generate and ensure that the identification device is put into the awake state. Thereafter, the data exchange between the example associated with a vehicle control device and the user-side identification device, for example, via at least one UHF frequency to shorten the communication time by increasing the data rate. However, the relevant data exchange can also take place in the LF range, as is known per se.

After waking the identification device during a UHF connection, the wake-up channel of the LF receiver of the identification device is independent of the orientation or position of the identification device, due to the far-field situation in this mode. This technique differs fundamentally from that of a pure AF-wake-up system in which a three-dimensional wake-up receiving circuit is required due to the near-field behavior at low frequency or correspondingly large wavelength.

Fig. 1

eine vereinfachte schematische Darstellung einer beispielhaften Ausführungsform eines Zugangskontrollsystems in einer dem Aufwecken der Identifikationseinrichtung dienenden ersten Betriebsart und

Fig. 2

das Zugangskontrollsystem gemäß Fig. 1 in einer zweiten Betriebsart für einen Informationsaustausch bei aufgeweckter Identifikationseinrichtung.

The invention will be explained in more detail below with reference to exemplary embodiments with reference to the drawing; in this show:

Fig. 1

a simplified schematic representation of an exemplary embodiment of an access control system in a the waking of the identification means serving first mode and

Fig. 2

the access control system according to Fig. 1 in a second mode for an information exchange in a wake-up identification device.

1 shows, in a simplified schematic illustration, an exemplary embodiment of an access control system 10 in a first operating mode for waking up an identification device 12, while FIG. 2 shows this access control system 10 in a second operating mode in which information is exchanged when the identification device awakens ,

The access control system 10 provided in particular for vehicles comprises an access-side electronic control device 14, the user-side identification device 12 and antennas 16, 18 for wireless bidirectional communication between the access-side control device 14 and the user-side identification device 12.

In the first operating mode shown in FIG. 1, to wake up the identification device 12, at least one wake-up signal generated by the control device 14 is sent via an antenna 16 assigned to the control device 14 or the vehicle to the identification device 12, which transmits this wake-up signal via an antenna assigned to it 18 receives. In the second operating mode shown in FIG. 2, in the case of a woken identification device 12, information is exchanged between the control device 14 and the identification device 12.

In this case, in the first operating mode (see FIG. 1), the wake-up signal generated by the control device 14 is sent to the identification device 12 via at least one UHF frequency F2.

In the present case, a modulated with the wake-up signal NF carrier F 1 is mixed by means of a mixer 20 with the UHF frequency F2 and the obtained mixed signal F12 is sent to the identification device 12.

As an NF carrier F1, for example, an ASK-modulated carrier, a PSK-modulated carrier or an FSK-modulated carrier can be provided.

The identification device 12 comprises filter means 22 and demodulation means 24 for filtering and demodulating the received mixed signal F12. In addition, it comprises a LF wake-up receiving part 26 to which the LF carrier information obtained by the filtering and demodulation of the mixed signal F12 is supplied.

The demodulation means 24 comprise a low-frequency electrical resonance circuit 28, which in the present case contains an inductance L1 and a capacitor C1 parallel thereto.

For example, between the filter means 22 and the LF resonant circuit 28, a passive demodulation device such as e.g. a demodulation diode, preferably a Schottky diode 30 may be provided.

In the second operating mode (cf., FIG. 2), the information exchange between the control device 14 and the identification device 12 can take place, for example, via at least one UHF frequency F2. In particular, a bidirectional data exchange is possible.

As can be seen from FIG. 2, the identification device 12 may include filter means 22, a UHF receiver 32, a microcontroller 34, and a UHF transmitter 36.

The access or vehicle-side control device 14 are associated with transmitting and receiving antennas 16, but in principle, however, an integrated transmission / reception antenna is conceivable. Also, the identification device 12 are associated with receive and transmit antennas 18, which in principle again an integrated transmit / receive antenna can be provided.

LIST OF REFERENCE NUMBERS

10

Access control system

12

identification device

14

electrical control device

16

antenna

18

antenna

20

mixer

22

filter means

24

demodulation

26

NF-receiving section

28

NF-resonant circuit

30

passive demodulation device, Schottky diode

32

UHF reception part

34

microcontroller

36

UHF transmitter part

C1

capacitor

F1

modulated NF carrier

F2

UHF frequency

F12

mixed signal

L1

inductance

Claims (12)

Access control system (10), in particular for vehicles, having an access-side electronic control device (14), a user-side identification device (12) and means (16, 18) for wireless bidirectional communication between the access-side control device (14) and the user-side identification device (12), wherein in a first mode for waking up the identification means (12) at least one wake-up signal generated by the control means (14) is sent to the identification means (12) and in a second mode, when the identification means (12) are awake, information between the control means (14) and the identification means (12) to be exchanged,
characterized,
that produced in the first mode by said control means (14) wake-up signal via at least one UHF frequency (F2) is sent to the identification device. Access control system according to claim 1,
characterized,
in that a NF carrier (F1) modulated with the wake-up signal is mixed with the UHF frequency (F2) and the resulting mixed signal (F12) is sent to the identification device (12). Access control system according to claim 2,
characterized,
in that an ASK-modulated carrier is provided as the NF carrier (F1). Access control system according to claim 2,
characterized,
in that a PSK-modulated carrier is provided as the NF carrier (F1). Access control system according to claim 2,
characterized,
in that an FSK-modulated carrier is provided as the NF carrier (F1). Access control system according to one of the preceding claims,
characterized,
in that the identification device (12) comprises filter means (22) and demodulation means (24) for filtering and demodulating the received mixed signal (F12) and a low-frequency wake-up receiving part (26) to which the NF-1 obtained by the filtering and demodulation of the mixed signal (F12) Carrier information is supplied. Access control system according to claim 6,
characterized,
in that the demodulation means comprise at least one NF-resonant electrical circuit (28). Access control system according to claim 7,
characterized,
in that the LF electrical resonance circuit (28) comprises an inductance (L1) and a capacitor (C1) parallel thereto. Access control system according to one of the preceding claims,
characterized,
that at least partially carried out in the second mode, the information exchange between the control device (14) and the identification device (12) via at least one UHF frequency (F2). Access control system according to claim 9,
characterized,
that in the second operating mode of the entire exchange of information between the control device (14) and the identification device (12) via at least one UHF frequency (F2). Access control system according to one of claims 1 to 8,
characterized,
that in the second mode, the information exchange between the control device (14) and the identification device (12) at least partially via an NF-frequency is at least. Access control system according to claim 11,
characterized,
that in the second operating mode of the entire exchange of information between the control device (14) and the identification device (12) via a NF-frequency is at least.

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