法国专利FR3040551A1 METHOD FOR ULTRA HIGH FREQUENCY LOCALIZATION OF A PORTABLE "HAND FREE" ACCESS DEVICE TO A MO

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专利摘要:
The subject of the present invention is a method for locating, by ultra-high frequency, a portable device (T) for "free hand" access to a vehicle (V), by a localization device (D ') on board the vehicle ( V), said locating device (D ') comprising an ultra-high frequency transceiver (10'), a power source (Vcc) and an antenna (A '), said locating method being remarkable in that the transceiver (10 ') is disconnected from the antenna (A'), and the transceiver (10 ') is connected to an attenuation module (M1, M2, M3) located at a predetermined distance (L1, L2, L3) of the transceiver (10 ') and comprising an impedance (Z1, Z2, Z3) of predetermined value connected to the ground, the predetermined distance (L1, L2, L3) between the transceiver (10 ') and the attenuation module (M1, M2, M3) as well as the predetermined value of the impedance (Z1, Z2, Z3) defining a locating area (A1, A2, A3) of the portable device (T) around the vehicle (V).
公开号:FR3040551A1
申请号:FR1558007
申请日:2015-08-28
公开日:2017-03-03
发明作者:Jerome Lee；Sylvain Godet；Stephane Billy
申请人:Continental Automotive GmbH；Continental Automotive France SAS；
IPC主号:

专利说明:

The invention relates to a method for ultra-high frequency localization of a portable access device "free hand" to a motor vehicle and an associated location device, embedded on the vehicle. The invention applies more particularly to access systems "free hand" to motor vehicles. A so-called "free hand" access system to a motor vehicle allows an authorized user to lock and / or unlock the doors of his vehicle without using a key. For this, the vehicle proceeds to the identification of a badge or a remote control worn by the user and if the badge or the remote control is identified as belonging to the vehicle, then the vehicle locks or unlocks its opening.
This access system "free hand" is known to those skilled in the art. It usually consists of an electronic control unit embedded in the vehicle, one or more radio frequency (RF) antenna (s) located on the vehicle and a badge or identification remote control comprising an RF antenna carried by the user.
An exchange of identifier between the badge and the vehicle via the RF antennas allows identification of the badge by the vehicle and triggering the locking or unlocking of the openings by the latter. The identifier may be contained in a portable device other than a badge or a remote control, for example it may be contained in a mobile phone, or a watch worn by the user. The identifier exchange is generally carried out by Radio Frequency (RF) and Low Frequency (LF) waves. The vehicle transmits, via antennas LF first of an interrogation signal in LF and the badge, if it is located in the reception zone of said signal, sends back to the vehicle an RF presence message containing its ID.
The precise location of the badge around the vehicle is achieved by measuring the intensity of the LF signal received by the badge (via the antennas and the electronic control unit) from the vehicle, more commonly called RSSI measurements ("Received Signal Strength Indication >> in English, or measurement of the power in reception of a signal received by an antenna). The measurement of the power of the signal received by the badge from each antenna LF, is analyzed by a localization device embedded in the vehicle, which thus determines the position of the badge with respect to said antennas LF, that is to say compared to the vehicle.
For this purpose, the location device D of the prior art comprises, as illustrated in FIG. 1, a power supply source Vcc supplying a transceiver 10 electrically connected to at least one antenna A, by an electrical line 20.
The location device D generally comprises three to four antennas A.
This RSSI measurement allows to precisely locate the badge around and inside the vehicle to allow the locking / unlocking of the opening and also the start of the vehicle, when the badge is detected inside the vehicle.
More and more portable devices, for example mobile phones, now have the Bluetooth® or Bluetooth Low Energy "BLE" communication standard, that is to say Ultra High Frequency (UHF) communication from 2400 MHz to 2480 MHz. This communication standard has the advantage of being universal and therefore does not require country-specific certification (only an international Bluetooth Low Energy certification), as is the case with the current RF / LF communications standards of which operating frequency differs by country.
It is therefore necessary to adapt the free-hand access system so that it can also work with the Bluetooth ® communication standard and no longer only via radio waves and low frequencies (RF / LF). The advantage of the Bluetooth® communication standard is that it allows a large communication range of around 250 m around the vehicle. However, it does not detect the presence of the portable device at shorter distances. For example, when the portable device is about ten centimeters from the vehicle and the user wishes to unlock his vehicle, which was possible with the communication device of the prior art, operating on an RF and LF exchange wave . Indeed, the RSSI measurement of a Bluetooth signal is very imprecise and varies enormously depending on the environment (noise, disturbances) and it is not possible to know if the portable device is 5 m, or 10 m or 40 m or more.
It is therefore also not possible to start the vehicle using the Bluetooth® communication, since the start is only allowed when the portable device is inside the vehicle, and a few centimeters away from the UHF antennas. vehicle. However, given the wide range of Bluetooth®, the detection of said portable device a few centimeters from UHF antennas is not possible. The invention proposes a device for ultra-high frequency localization of the portable device to overcome these disadvantages.
More precisely, the ultra-high frequency localization device according to the invention makes it possible to detect the presence of the portable device at several distances around the vehicle, from a few centimeters to several meters, as well as a few centimeters from the UHF antennas on the vehicle. , which makes the start "free hand" possible with the Bluetooth® communication standard, which was not possible in the prior art with said communication standard. Other features and advantages of the invention will appear on reading the following description and on examining the appended drawings in which: FIG. 1, explained above, schematically represents the location device D according to the art FIG. 2 is a diagrammatic representation of the locating device D 'according to the invention; FIG. 3 is a diagrammatic representation of the location zones of the portable device around the vehicle according to the invention.
The locating device D 'according to the invention is illustrated in FIG. 2. The locating device D' comprises: • an electric source Vcc, • an Ultra High Frequency transceiver, more specifically a Bluetooth® transceiver 10 ', comprising a circuit board, • an antenna A '.
According to the invention, said locating device D 'furthermore comprises between the transceiver 10' and the antenna A ', that is to say on the electrical communication line 20' (transmission / reception) between the transceiver 10 'and the antenna A', at least one attenuation module M1. Said localization device D 'also comprises means 30 for controlling the attenuation module M1 and means for determining the location of the portable device 40. In FIG. 2, a plurality of attenuation modules located in series on the communication line 20 ': a first attenuation module M1, a second attenuation module M2, a third attenuation module M3. As represented in FIG. 2, the locating device D 'also comprises: control means 30 for the plurality of attenuation modules M1, M2, M3 integrated for example in the transceiver 10', and means for determining the location of the portable device 40, electrically connected to the transceiver 10 'and the control means 30 of the attenuation module.
Each attenuation module, the first attenuation module M1, the second attenuation module M2, or the third attenuation module M3 is located at a predetermined distance from the transceiver 10 ', in this case, respectively at a first distance L1, at a second distance L2, at a third distance L3.
Each attenuation module, the first attenuation module M1, the second attenuation module M2, or the third attenuation module M3 also comprises: a switching means, for example a switch or a first switch S1, a second switch S2 and a third switch S3 and • an impedance, respectively a first impedance Z1, a second impedance Z2, and a third impedance Z3, each impedance, the first impedance Z1, the second impedance Z2, and the third impedance Z3 being of predetermined value and electrically connected to ground.
In a preferred embodiment of the invention, the predetermined values of the first impedance Z1, the second impedance Z2 and the third impedance are all equal to each other and are between 0 and 100 ku, for example, said impedances have each for 50 Ω.
For each attenuation module, for the first attenuation module M1, for the second attenuation module M2, for the third attenuation module M3, each switching means, that is to say: the first switch S1, the second switch S2 and the third switch S3 can be actuated by the control means 30 to select one of the two following positions: a first position in which the transceiver 10 'or the preceding attenuation module ( M1, M2) is disconnected from the antenna A 'or the following attenuation module (M2, M3) and in which the transceiver 10' or the preceding attenuation module is electrically connected to the impedance (Z1, Z2, Z3) associated with said switching means, • a second position in which the switching means S1, S2, S3 electrically connects the transceiver 10 'or the previous attenuation module M1, M2 to the ant A or the attenuation module M2, M3.
Each switching means (the first switch S1, the second switch S2 and the third switch S3) thus makes it possible to disconnect the transceiver 10 'from the antenna A' and to connect the transceiver 10 'to a module of associated attenuation (at the first attenuation module M1, or at the second attenuation module M2, or at the third attenuation module M3), that is to say to connect the transceiver 10 'with an impedance (at the first impedance Z1, or the second impedance Z2, or the third impedance Z3), electrically connected to the ground, of predetermined value and situated at a predetermined distance (respectively at a first distance L1, at a second distance L2, at a third distance L3) of said transceiver 10 '.
For example, in FIG. 3a, the first switch S1 is in the first position, it electrically connects the transceiver 10 'to the first impedance Z1 of the first attenuation module M1, located at a first distance L1 from the transmitter 10 'receiver. In this first configuration, the transceiver 10 'transmits an ultra-high frequency signal, this signal propagates in the printed circuit of said transceiver 10' and makes the printed circuit resonant at said frequency. The UHF signal is also propagated in the communication line 20 'up to the first impedance Z1 and then to ground. The maximum range of the UHF waves thus generated by the locating device D 'depends on the first predetermined distance L1 between the first attenuation module M1 and the transceiver 10' and the predetermined value of the first impedance Z1. In this first configuration, the first distance L1 and the value of the first impedance Z1 are chosen such that the range of the UHF waves thus transmitted is limited to a first location zone A1 located in the vehicle V (see FIG. . In FIG. 3b, the first switch S1 is in the second position, it electrically connects the transceiver 10 'to the second attenuation module M2. The second switch S2, in turn is in the first position, it electrically connects the first attenuation module M1, itself connected to the transceiver 10 'to the second impedance Z2, located at a second distance L2 of the transceiver 10 '.
In this example, the second impedance Z2 is equal to the first impedance Z1, and the second distance L2 is greater than the first distance L1.
In this second configuration of the locating device D 'of the invention, the range of the UHF waves thus transmitted is greater than that of the first configuration and defines an outside zone close to the vehicle V, which will be called the second location zone. A2, said second location area A2 is centered on the vehicle, larger than the first location area A1 and covers the first location area A1 (see Figure 4). In FIG. 3c, the first switch S1 and the second switch S2 are in the second position. The second switch S2 electrically connects the second attenuation module M2, itself electrically connected to the transceiver 10 'by the first switch, to the third impedance Z3. The third switch S3 is in the first position, it electrically connects the second attenuation module M2 (that is to say the transceiver 10 ') to the third impedance Z3, located at a third distance L3 of the transceiver 10 '.
In this example, the third impedance Z3 is equal to the second impedance Z2 and the third distance L3 is greater than the second distance L2.
In this third configuration of the location device D 'of the invention, the range of the UHF waves thus transmitted is greater than that of the second configuration and defines a third location zone A3, that is to say a centered zone. on the vehicle, larger than the second location area A2 and covering the first and second location areas A1 and A2 (see Figure 4).
Of course, a fourth configuration consists in switching all the switches (S1, S2, S3) in the second position, in this case, the transceiver 10 'is connected to the antenna A', and the transmission range the location device D 'is maximum, equal to the range of the Bluetooth®.
Of course, the values of the first, second and third impedances Z1, Z2, Z3 may be different from one another depending on the dimensions of the desired location areas. In Figure 4, by way of example only, a portable device (T) for example a mobile phone is located in the third location area A3.
When the location device D 'is in the third configuration and issues a UHF identification request, the portable device (T) located in the third location area A3 receives the identification request from the transceiver 10 'and in turn returns its identifier to said transceiver 10'. The identifier received by the transceiver is transmitted to the means for determining the location 40 of the portable device T. Said determination means 40 being connected to the control means 30, said determining means receive information concerning the configuration of the device. D location, more particularly the position of the switching means and therefore the targeted location area, here the third location area A3. If the received identifier is validated (if it corresponds to an identifier of a portable device T paired with the vehicle V) then said location means 40 deduce the presence of the portable device T in the third location area A3.
The control means 30, the transceiver 10 'and the determination means 40 may be software means integrated into a control unit (not shown) of the BCM type ("Body control Module"). cockpit control electronics).
FIG. 5 graphically represents the attenuation of the UHF waves in decibels (dBi) as a function of each distance (Li), the first distance L1, the second distance L2, the third distance L3 (between the transmitter receiver 10 'and the first attenuation module M1, the second attenuation module M2, the third attenuation module M3). At each distance (L1, L2, L3) corresponds an attenuation of the UHF waves (dB1, dB2 , dB3) and a location area (A1, A2, A3) of the portable device. The attenuation dBi of the UHF waves as a function of the distance Li is given by the following formula:
Or also:
With:
Li: predetermined distance DBi: attenuation in decibels A: coefficient greater than zero f: transmission frequency sPCB: the relative permittivity of the printed circuit of the localization device D 'sAIR: the permittivity of the air C: celerity At the first distance L1, corresponds to a first strong attenuation dB1 of the range of the UHF waves emitted and therefore a first location area A1. At the second distance L2, there corresponds a second attenuation dB2, lower than the first attenuation, defining a second location area A2 larger than the first location area A1. At the third distance L3, there corresponds a low attenuation dB3 of the range of the waves, and therefore a third location zone A3 larger than the second location zone A2.
So we have: A1 <A2 <A3 And: L1 <L2 <L3
With: Z1 = Z2 = Z3
For example if Z1 = Z2 = Z3 = 50 Ω,
And fixing: L1 = 2 mm L2 = 10 mm L3 = 30 mm
Then the maximum range of the UHF waves for each location zone is approximately equal to:
The range of the first location zone A1 is equal to 1 meter.
The range of the first location zone A2 is equal to 5 meters.
The range of the first location zone A3 is equal to 10 meters.
The localization device D 'of the invention therefore makes it possible to locate Ultra High Frequency waves, that is to say by Bluetooth®, in at least one location zone A1 the portable device T by disconnecting the transceiver 10 of the antenna A 'and connecting said transceiver 10' to an attenuation module (M1 or M2, or M3) located at a predetermined distance (L1, or L2, or L3) from the transceiver 10 ' and comprising an impedance (Z1, Z2, Z3) of predetermined value connected to ground. The predetermined distance (L1, L2, L3) between the transceiver 10 'and the attenuation module M1 or M2 or M3 as well as the predetermined value of the impedance Z1, Z2, Z3 define a location area A1, A2 , A3 of the portable device T around the vehicle V.
In a preferred embodiment, the location device D 'comprises a plurality of attenuation modules M1, M2, M3.
In this preferred embodiment, the plurality of attenuation modules M1, M2, M3 makes it possible to vary the predetermined distance between the transceiver 10 'and the attenuation module (M1, M2, M3) and / or the predetermined value of the impedance Z1, Z2, Z3 in order to define several location zones A1, A2, A3 of the portable device T around the vehicle V, that is to say several UHF wave emission zones of dimensions different in order to precisely locate the portable device T around or inside the vehicle V. The invention thus makes it possible ingeniously to "degrade" the range of Ultra High Frequency (Bluetooth®) waves of a maximum range of the prior art of 250 m approximately to a few centimeters, in order to precisely define localization areas of a portable device T inside and around a vehicle V. With the method of locating the invention the location of a portable device via Bluetooth® within a vehicle to allow "hands-free" starting is now possible.

权利要求:
Claims (7)
[1" id="c-fr-0001]
1. Method of locating by ultra-high frequency a portable device (T) for "free hand" access to a vehicle (V), by a localization device (D ') on the vehicle (V), said locating device (D ') comprising an ultra-high frequency transceiver (10'), a power supply (Vcc) and an antenna (A '), said locating method being characterized by disconnecting the transceiver (10 ') of the antenna (A'), and that the transceiver (10 ') is connected to an attenuation module (M1, M2, M3) located at a predetermined distance (L1 , L2, L3) of the transceiver (10 ') and comprising an impedance (Z1, Z2, Z3) of predetermined value connected to ground, the predetermined distance (L1, L2, L3) between the transceiver (10 ') and the attenuation module (M1, M2, M3) as well as the predetermined value of the impedance (Z1, Z2, Z3) initiating a location area (A1, A2, A3) of the portable device (T) around the vehicle (V).
[2" id="c-fr-0002]
2. Location method according to the preceding claim, characterized in that the predetermined distance (L1, L2, L3) is varied between the transceiver (10 ') and the attenuation module (M1, M2, M3). ) and / or the predetermined value of the impedance (Z1, Z2, Z3) in order to define several location zones (A1, A2, A3) of the portable device (T) around the vehicle (V).
[3" id="c-fr-0003]
3. Device for locating (D ') ultra-high frequency of a portable device (T) access "free hand", said location device (D') being embedded in a motor vehicle (V) and comprising: A source of electrical power supply (Vcc), an ultra-high frequency transceiver (10 ') comprising a printed circuit connected to an antenna (A') by an electric communication line (20 '), said ultra-high frequency locating device (D ') being characterized in that it further comprises: on the electrical communication line (20'), at least one attenuation module (M1), located at a predetermined distance ( L1) of the transceiver (10 '), comprising a switching means (S1), and an impedance (Z1) of predetermined value, connected to ground, • control means 30) of the attenuation module, means for determining (40) the location of the device portable circuit (T), electrically connected to the transceiver (10 ') and to the attenuation module control means (30), said switching means (S1) having: a first position in which the transceiver (10 ') is disconnected from the antenna (A') and is electrically connected to the impedance (Z1) associated with said switching means (S1), • a second position in which the switching means (S1) electrically connects, the transceiver (10 ') to the antenna (A').
[4" id="c-fr-0004]
4. Location device (D ') according to claim 3, characterized in that it comprises: • on the electrical communication line (20'), a plurality of attenuation modules (M1, M2, M3) in series, • control means (30) for said attenuation modules, • means for determining (40) the location of the portable device (T), electrically connected to the transceiver (10 ') and to the control means (30) attenuation modules each attenuation module (M1, M2, M3) being at a predetermined distance (L1, L2, L3) from the transceiver (10 '), and each comprising a switching means ( S1, S2, S3) and an impedance (Z1, Z2, Z3) of predetermined value connected to ground, said switching means (S1, S2, S3) each having: • a first position in which the transceiver (10 ') or the previous attenuation module (M1, M2) is disconnected from the antenna (A') and is electrically connected to the impedance (Z1, Z2, Z3) associated with said switching means (S1, S2, S3), • a second position in which the switching means (S1, S2, S3) electrically connects the transceiver (10 ') or the previous attenuation module (M1, M2) to the antenna (A') or to the next attenuation module (M2, M3).
[5" id="c-fr-0005]
Positioning device (D ') according to claim 4, characterized in that the predetermined distance (Li) between the transceiver (10') and the attenuation module (M1, M2, M3) is given by :

With:

Li: predetermined distance (mm) DBi: attenuation (dB) A: coefficient greater than zero f: emission frequency sPCB: the relative permittivity of the printed circuit of the localization device D 'sAIR: the permittivity of the air C: speed
[6" id="c-fr-0006]
6. Location device (D ') according to any one of claims 3 to 5, characterized in that the predetermined value of the impedance (Z1, Z2, Z3) is between 0 and 100 ki
[7" id="c-fr-0007]
7. Motor vehicle (V) comprising an ultra-high frequency localization device (D ') according to any one of claims 3 to 6.

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法律状态:
2016-08-22| PLFP| Fee payment|Year of fee payment: 2 |

2017-03-03| PLSC| Publication of the preliminary search report|Effective date: 20170303 |

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2018-08-27| PLFP| Fee payment|Year of fee payment: 4 |

2019-08-22| PLFP| Fee payment|Year of fee payment: 5 |

2020-08-21| PLFP| Fee payment|Year of fee payment: 6 |

2021-08-19| PLFP| Fee payment|Year of fee payment: 7 |

优先权:

申请号 | 申请日 | 专利标题

FR1558007A|FR3040551B1|2015-08-28|2015-08-28|METHOD FOR ULTRA HIGH FREQUENCY LOCALIZATION OF A PORTABLE "HAND FREE" ACCESS DEVICE TO A MOTOR VEHICLE AND ASSOCIATED LOCATION DEVICE|FR1558007A| FR3040551B1|2015-08-28|2015-08-28|METHOD FOR ULTRA HIGH FREQUENCY LOCALIZATION OF A PORTABLE "HAND FREE" ACCESS DEVICE TO A MOTOR VEHICLE AND ASSOCIATED LOCATION DEVICE|

US15/246,756| US10104510B2|2015-08-28|2016-08-25|Method for locating, via ultra high frequency, a mobile device for “hands-free” access to an automotive vehicle and associated locating device|

KR1020160109323A| KR20170026255A|2015-08-28|2016-08-26|- method for locating via ultra high frequency a mobile device for hands-free access to an automotive vehicle and associated locating device|

CN201610730290.4A| CN106476752B|2015-08-28|2016-08-26|For positioning the method and associated positioning device of mobile device|

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