ACTIVATION MODULE SIMULTANEOUSLY DETECTING THE APPROACH AND PRESSURE OF A USER WITH A MOVABLE HIGH-FREQUENCY ANTENNA

Abstract

Disclosed is an activation module for a function in a motor vehicle accommodated in a component, the module including a detection and communication device including at least one communication antenna transmitting at a high frequency and a device for detecting a deformation of the component, the communication antenna being connected to a printed circuit board including a unit for measuring voltage variation across the terminals of the communication antenna, a unit for interpreting the measuring unit and transmission and reception unit with an electronic control unit having a unit for activating the function. The communication antenna is movable relative to the printed circuit board under the action of the deformation of the component, the measuring unit then detecting a voltage variation across the terminals of the communication antenna.

Claims

1. An activation module (2) for a function, which activation module is intended to be incorporated into a component (1) that is present in a motor vehicle in order to activate a function of the vehicle from a portable access device with which a user is equipped, the activation module (2) comprising a detection and communication device comprising at least one communication antenna (3) transmitting a magnetic field at a high frequency selected between 3 and 30 MHz for a detection of the portable access device and a communication with the access device and the activation module also comprising a device for detecting a deformation of the component (1) after a part of the user's body presses the component (1), said at least one communication antenna (3) being connected by an electrical connection (11) to a printed circuit board (4) comprising means for measuring voltage variation across the terminals of said at least one communication antenna (3), means for interpreting the measuring means and transmission and reception means with an electronic control unit having means for activating the function, wherein said at least one communication antenna (3) is movable relative to the printed circuit board (4) under the action of a pressure exerted on said at least one communication antenna (3), the measuring means then detecting a voltage variation across the terminals of said at least one communication antenna (3).

2. The activation module (2) as claimed in claim 1, wherein said at least one communication antenna (3) is movable toward the printed circuit board (4), a ferrite layer (5) being sandwiched between said at least one communication antenna (3) and the printed circuit board (4).

3. The activation module (2) as claimed in claim 2, wherein a foam layer (6) is interposed between the ferrite layer (5) and said at least one communication antenna (3) and wherein said at least one communication antenna (3) is carried by a flexible printed circuit board.

4. The activation module (2) as claimed in claim 3, wherein said at least one communication antenna (3), the ferrite layer (5) and the printed circuit board (4) extend in parallel planes, said at least one communication antenna (3), the foam layer (6), the ferrite layer (5) and the printed circuit board (4) being adjacent by successively resting on each other.

5. A component (1) carried by a motor vehicle, the component comprising the activation module (2) as claimed in claim 1 into a closed interior space, an outer wall area (7a) of the component (1) being capable of being pressed by a part of the user's body, said at least one communication antenna (3) of the module being in contact with an inner wall area (7b) of the component (1) facing the outer wall area (7a).

6. The component (1) as claimed in claim 5, wherein the component is a motor vehicle door handle or door frame.

7. A method for activating a function of a motor vehicle from a portable access device with which a user is equipped communicating with a detection and communication device forming part of an activation module (2) as claimed in claim 1 accommodated in a component (1) of the vehicle, an activation resulting from a detection of the approach of the access device toward the vehicle by periodic transmission of signals at a high frequency selected between 3 and 30 MHz that are sent by at least one communication antenna (3) of the detection and communication device, the approach being detected, in response to said signals, by a first variation in a voltage across the terminals of said at least one communication antenna (3) and being confirmed by a subsequent establishment of a communication between the detection device and the access device, and the activation resulting from a detection of a deformation of the component (1) after a part of the user's body presses the component (1), wherein the act of a part of the user's body pressing the component (1) moves said at least one communication antenna (3) in the component (1), creating a second voltage variation across the terminals of said at least one communication antenna (3), and when this second voltage variation is detected subsequently to a confirmed first variation the function is activated.

8. The method as claimed in claim 7, wherein the first variation is a drop in the voltage across the terminals of said at least one communication antenna (3) and the second variation is an increase in the voltage across the terminals of said at least one communication antenna (3).

9. The method as claimed in claim 7, wherein the communication takes place at a frequency of 13.56 MHz.

10. The method as claimed in claim 7, wherein the communication takes place in the near field.

11. A component (1) carried by a motor vehicle, the component comprising the activation module (2) as claimed in claim 2 into a closed interior space, an outer wall area (7a) of the component (1) being capable of being pressed by a part of the user's body, said at least one communication antenna (3) of the module being in contact with an inner wall area (7b) of the component (1) facing the outer wall area (7a).

12. A component (1) carried by a motor vehicle, the component comprising the activation module (2) as claimed in claim 3 into a closed interior space, an outer wall area (7a) of the component (1) being capable of being pressed by a part of the user's body, said at least one communication antenna (3) of the module being in contact with an inner wall area (7b) of the component (1) facing the outer wall area (7a).

13. A component (1) carried by a motor vehicle, the component comprising the activation module (2) as claimed in claim 4 into a closed interior space, an outer wall area (7a) of the component (1) being capable of being pressed by a part of the user's body, said at least one communication antenna (3) of the module being in contact with an inner wall area (7b) of the component (1) facing the outer wall area (7a).

14. A method for activating a function of a motor vehicle from a portable access device with which a user is equipped communicating with a detection and communication device forming part of an activation module (2) as claimed in claim 2 accommodated in a component (1) of the vehicle, an activation resulting from a detection of the approach of the access device toward the vehicle by periodic transmission of signals at a high frequency selected between 3 and 30 MHz that are sent by at least one communication antenna (3) of the detection and communication device, the approach being detected, in response to said signals, by a first variation in a voltage across the terminals of said at least one communication antenna (3) and being confirmed by a subsequent establishment of a communication between the detection device and the access device, and the activation resulting from a detection of a deformation of the component (1) after a part of the user's body presses the component (1), wherein the act of a part of the user's body pressing the component (1) moves said at least one communication antenna (3) in the component (1), creating a second voltage variation across the terminals of said at least one communication antenna (3), and when this second voltage variation is detected subsequently to a confirmed first variation the function is activated.

15. A method for activating a function of a motor vehicle from a portable access device with which a user is equipped communicating with a detection and communication device forming part of an activation module (2) as claimed in claim 3 accommodated in a component (1) of the vehicle, an activation resulting from a detection of the approach of the access device toward the vehicle by periodic transmission of signals at a high frequency selected between 3 and 30 MHz that are sent by at least one communication antenna (3) of the detection and communication device, the approach being detected, in response to said signals, by a first variation in a voltage across the terminals of said at least one communication antenna (3) and being confirmed by a subsequent establishment of a communication between the detection device and the access device, and the activation resulting from a detection of a deformation of the component (1) after a part of the user's body presses the component (1), wherein the act of a part of the user's body pressing the component (1) moves said at least one communication antenna (3) in the component (1), creating a second voltage variation across the terminals of said at least one communication antenna (3), and when this second voltage variation is detected subsequently to a confirmed first variation the function is activated.

16. A method for activating a function of a motor vehicle from a portable access device with which a user is equipped communicating with a detection and communication device forming part of an activation module (2) as claimed in claim 4 accommodated in a component (1) of the vehicle, an activation resulting from a detection of the approach of the access device toward the vehicle by periodic transmission of signals at a high frequency selected between 3 and 30 MHz that are sent by at least one communication antenna (3) of the detection and communication device, the approach being detected, in response to said signals, by a first variation in a voltage across the terminals of said at least one communication antenna (3) and being confirmed by a subsequent establishment of a communication between the detection device and the access device, and the activation resulting from a detection of a deformation of the component (1) after a part of the user's body presses the component (1), wherein the act of a part of the user's body pressing the component (1) moves said at least one communication antenna (3) in the component (1), creating a second voltage variation across the terminals of said at least one communication antenna (3), and when this second voltage variation is detected subsequently to a confirmed first variation the function is activated.

17. The method as claimed in claim 8, wherein the communication takes place at a frequency of 13.56 MHz.

18. The method as claimed in claim 8, wherein the communication takes place in the near field.

19. The method as claimed in claim 9, wherein the communication takes place in the near field.

20. The component (1) as claimed in claim 11, wherein the component is a motor vehicle door handle or door frame.

Description

[0049] Other features, aims and advantages of the present invention will become apparent from reading the detailed description that follows and from examining the appended drawings given by way of non-limiting examples, in which:

[0050] FIG. 1 is a schematic representation of a sectional view of a motor vehicle door handle as an embodiment of a component that is present in the vehicle comprising an embodiment of the activation module according to the present invention,

[0051] FIG. 2 is a schematic representation of a flowchart of the detection method according to the present invention showing the control by a microprocessor integrated in the printed circuit board of the activation module for a communication antenna of a detection and communication device forming part of the module and specifically designed for detecting an approach of the user of the motor vehicle but also fulfilling, in accordance with the present invention, the role of a device for detecting a deformation of the component that is representative of the act of the user pressing the component.

[0052] Referring to FIGS. 1 and 2, the present invention relates to a method for activating a function of a motor vehicle from a portable access device with which a user is equipped communicating with an activation module 2 accommodated in a component 1 of the vehicle. An activation results, on the one hand, from a detection of an approach of the access device toward the vehicle by a detection and communication device. The portable access device can be an electronic badge or a cell phone.

[0053] The detection and communication device has at least one communication antenna 3 periodically transmitting signals at a high frequency selected between 3 and 30 MHz. This detection and communication device can be a detection and near field communication device as mentioned previously. Without limitation, the preferred operating frequency can be 13.56 MHz.

[0054] The signals can be pulses transmitted by the detection and communication device without containing information.

[0055] The activation module 2 can contain multiple communication antennas 3 so as, for example, to have a detection operating configuration and a communication operating configuration. For example, one communication antenna 3 can be active while another communication antenna 3 is not or is set to resonance, which makes it possible to modulate the electromagnetic field transmitted by the activation module 2.

[0056] The approach is detected, in the detection and communication device present in the component 1 and in response to said signals, by a first variation in a voltage across the terminals of said at least one communication antenna 3. The first voltage variation can be detected during a rereading of the voltage of the antenna referenced 8 in FIG. 2, the voltages across the terminals of the communication antenna 3 being transmitted to a microprocessor integrated in a printed circuit board 4 forming part of the activation module 2, the transmission received by the microprocessor being referenced Rx in FIG. 2.

[0057] For an activation of the function, this approach detection is confirmed by a subsequent establishment of a communication between the detection device and the access device. Indeed, if the portable access device is detected while being compatible with the detection and communication device, a communication can be established between the detection and communication device and the portable access device. This makes it possible to avoid false detection of a stray object being inadvertently taken as a portable access device of the user.

[0058] Another confirmation of detection consists in a part of the user's body pressing the component 1 accommodating the activation module 2. The part of the body is advantageously the hand, more precisely a finger of the user, but may also be a foot or another part of the body. This pressing of an outer wall area 7a of the component 1 causes a micro-deformation of the component 1, which can then be detected.

[0059] According to the present invention, the act of a part of the user's body pressing the component 1 moves said at least one communication antenna 3 in the component 1, creating a second voltage variation across the terminals of said at least one communication antenna 3. This voltage variation is transmitted and received Tx to/at the microprocessor of the printed circuit board 4 during a rereading of the antenna voltage referenced 10 in FIG. 2. When this second voltage variation is detected subsequently to a confirmed first variation the function is activated.

[0060] The microcontroller of the printed circuit board 4 can adjust the transmission and reception parameters of said at least one communication antenna 3 so that the first and second voltage variations across the terminals of said at least one communication antenna 3 are indeed distinct from each other, which is done by virtue of the microcontroller transmitting control signals TX to an adjustment module 9 for adjusting the parameters of the communication antenna 3 that is able to control the parameters of said at least one communication antenna 3.

[0061] The communication antenna 3 moves in the activation module 2 by moving closer to an element of the activation module acting as an inductive sensor target, such as for example a ferrite or electromagnetic material layer or another element associated with the printed circuit board 4. It is possible to perform an adjustment of the parameters of the antenna by means of the adjustment module 9, which is different when the communication antenna 3 operates by communicating with the portable access device than when the communication antenna 3 operates as a target for detecting the deformation of the component 1 incorporating the activation module 2.

[0062] For example, it is possible to make an adjustment by means of the specific adjustment module 9 for an approach detection and a deformation detection so that the first variation is a drop in the voltage across the terminals of said at least one communication antenna 3 and the second variation is an increase in the voltage across the terminals of said at least one communication antenna 3.

[0063] This is the case when the movement of said at least one communication antenna 3 is a bringing of said at least one communication antenna 3 closer to the printed circuit board 4, which is easy to achieve during a depression deformation of the component 1 incorporating the activation module 2.

[0064] Referring mainly to FIG. 1, the present invention is concerned with an activation module 2 for a function, which activation module is intended to be incorporated into a component 1 that is present in a motor vehicle in order to activate a function of the vehicle from a portable access device with which a user is equipped. This function may be a function for locking or unlocking a door of the motor vehicle or a starting function, which is not limiting.

[0065] This activation module 2 implements an activation method as described previously. To do this, the activation module 2 comprises a detection and communication device comprising at least one communication antenna 3 transmitting a magnetic field at a high frequency selected between 3 and 30 MHz for a detection of the portable access device and a communication with the access device, advantageously using near field communication or NFC communication.

[0066] The activation module 2 also comprises a device for detecting a deformation of the component 1 following the act of a part of the user's body pressing the component 1, said at least one communication antenna 3 being connected to a printed circuit board 4 by an electrical connection 11.

[0067] The printed circuit board 4 comprises means for measuring voltage variation across the terminals of said at least one communication antenna 3, means for interpreting the measuring means and transmission and reception means with an electronic control unit having means for activating the function.

[0068] According to the invention, said at least one communication antenna 3 is movable relative to the printed circuit board 4 under the action of a deformation of the component when the user presses it. This can be verified on an activation module 2 taken in isolation from the component, a pressure exerted on said at least one communication antenna 3 causing a movement of said at least one communication antenna 3. The measuring means then detect a voltage variation across the terminals of said at least one communication antenna 3.

[0069] Those skilled in the art have sufficient skills to quantify the micro-deformation that the area of the component 1 undergoes under the pressure due to the act of the user pressing it and consequently to select the style and the material of the support for said at least one communication antenna 3 so that said at least one communication antenna 3 moves under this micro-deformation without moving under a lesser pressure.

[0070] There are multiple mobility options for the communication antenna or antennas 3, advantageously a single antenna with respect to the printed circuit board 4. The movement of the communication antenna or antennas 3 may be moving closer to or away from the printed circuit board 4 when the user presses the component 1, a moving closer being preferred.

[0071] In an embodiment of the invention that is not shown in the figures, the communication antenna or antennas can be carried by a flexible arm that bends toward the printed circuit board when the user presses an area of the outer wall of the component, the communication antenna or antennas bearing against an area of the inner wall of the component corresponding to the area of the outer wall that the user presses while facing this area of the outer wall.

[0072] In another preferred embodiment, shown in FIG. 1, the communication antenna or antennas 3 can, on the one hand, bear against an area of the inner wall 7b of the component 1 corresponding to the area of the outer wall 7a that the user presses while facing this area of the outer wall 7a and, on the other hand, supported directly or indirectly by an element bearing against the printed circuit board 4.

[0073] In both embodiments, the communication antenna or antennas 3 can be glued against the area of the inner wall 7b of the component 1, this advantageously via a flexible intermediate printed circuit board, which is different from the printed circuit board 4, this flexible intermediate printed circuit board not being visible in FIG. 1. The use of a flexible intermediate printed circuit board makes it possible to protect the communication antenna or antennas 3 and to model them on the inner dimensions of an area of the inner wall 7b of the component 1.

[0074] For example, said at least one communication antenna 3 may be movable toward the printed circuit board 4, a ferrite layer 5 being sandwiched between said at least one communication antenna 3 and the printed circuit board 4. The ferrite layer 5 channels the magnetic field coming from the communication antenna or antennas 3 and causes a more pronounced increase in the inductance of the communication antenna or antennas 3, the inductance already also being increased by the bringing of the communication antenna or antennas 3 closer to the printed circuit board 4.

[0075] A foam layer 6 may be interposed between the ferrite layer 5 and at least one communication antenna 3. The foam layer 6 is flexible enough not to hamper the movement of at least one communication antenna 3 toward the printed circuit board 4 but strong enough to damp a stray movement of said at least one communication antenna 3 other than during a deformation of the component 1 incorporating the activation module 2, thus supporting said at least one communication antenna 3. At least the communication antenna 3, the foam layer and the ferrite layer 5 can have the same length and advantageously the same width, while the printed circuit board 4 can be noticeably longer and wider than the communication antenna 3, for example two to three times longer or more. In FIG. 1, the arrow FA indicates the direction in which the user presses the component 1, while the arrow Fd indicates the movement of said at least one communication antenna 3 toward the printed circuit board 4 and back as soon as the pressing no longer causes deformation of the component 1, the deformation of the component 1 naturally being reversible.

[0076] Thus, at least one communication antenna 3, the ferrite layer 5 and the printed circuit board 4 can extend in superimposed parallel planes, advantageously perpendicular to a thickness of the component 1 incorporating the activation module 2. At least one communication antenna 3, the foam layer 6, the ferrite layer 5 and the printed circuit board 4 are adjacent by successively resting on each other.

[0077] The invention is concerned with a component 1 carried by a motor vehicle incorporating such an activation module 2 advantageously surrounded by plastic such as polyurethane into a closed interior space. An outer wall area 7a of the component 1 is capable of being pressed by a part of the user's body, said at least one communication antenna 3 of the module 2 being in contact, advantageously via the flexible intermediate printed circuit board supporting said at least one communication antenna 3, with an inner wall area 7b of the component 1 facing the outer wall area 7a.

[0078] This component 1 may be a motor vehicle door handle or door frame. The outer wall area 7a of the component 1 for the user to press in order to perform a locking may be different from the outer wall area 7a for an unlocking.

[0079] In FIG. 1, the component 1 is in two parts with one part in the form of a receptacle 1b and one part in the form of a cover 1a, the two parts together incorporating the activation module 2 and being hermetically secured to one another.