FR3061994A1 - ANTENNA AND ITS USES - Google Patents

Abstract

The invention relates to an antenna (100) comprising at least a first conductor (1) for transmitting and / or receiving electromagnetic radiation and a module (3) for transmitting and / or receiving an electrical signal, connected to the first driver (1). The invention is characterized in that the first conductor (1) is wound in a first direction of winding around a longitudinal direction (41) away from it and extends over at least a first determined length following the longitudinal direction (41) from the transmission module (3) and / or reception.

Description

Holder (s): tée.

TYWAVES Limited liability company Extension request (s):

(® Agent (s): REGIMBEAU.

FR 3 061 994 - A1 ® ANTENNA AND ITS USES.

(57) The invention relates to an antenna (100) comprising at least a first conductor (1) for transmitting and / or receiving electromagnetic radiation and a module (3) for transmitting and / or receiving an electrical signal, connected to the first conductor (1).

The invention is characterized in that the first conductor (1) is wound in a first direction of winding around a longitudinal direction (41) at a distance therefrom and extends over at least a first length determined according to the longitudinal direction (41) from the transmission and / or reception module (3).

The invention relates to an antenna connected to a module for transmitting and / or receiving electromagnetic radiation, as well as uses of this antenna.

One field of application of the invention relates to antennas having to transmit measurements taken by a sensor on a measurement site, in particular buried.

One of the problems of buried measurement sites is that the measurement antenna which must retransmit the measurement carried out must be fixed to the member on which the measurement is carried out and is difficult to access.

Thus, more often than not, in the case of a buried organ, the antenna having to retransmit the measurement having been carried out must be placed on the top of the buried organ. The quality of retransmission of the measurement made by the antenna to a remote receiver is therefore entirely dependent on the placement of the antenna. Since the antenna is intended to be carried with the buried member on which the measurement is to be made, the placement of the antenna therefore depends on the placement of the member when the antenna is fixed in advance to the organ before installation on site. Therefore, because the organ can have any position or that cannot be easily chosen when it is buried or installed, the antenna can be badly positioned by being too far from the top of the organ , which can prevent reception of the information radiated by the antenna.

The invention aims to obtain an antenna which overcomes the drawbacks of the state of the art and which has better tolerance of the emission and / or reception of electromagnetic radiation with respect to its arrangement on a support.

To this end, a first object of the invention is an antenna comprising at least a first conductor for transmitting and / or receiving electromagnetic radiation and a module for transmitting and / or receiving an electrical signal, connected to the first conductor. , characterized in that the first conductor is wound in a first direction of winding around a longitudinal direction at a distance therefrom and extends over at least a first length determined in the longitudinal direction from the transmission module and / or reception.

Thanks to the invention, the antenna radiates in the same way in transmission and / or in reception around the longitudinal direction. Thus, the antenna radiates in the same way, in particular upwards, whatever its position around the longitudinal direction. It is thus assured that the antenna will always radiate correctly in transmission and / or in reception upwards, whatever its arrangement on the support.

According to one embodiment, the antenna further comprises at least one second conductor for transmitting and / or receiving electromagnetic radiation, which is connected to the module for transmitting and / or receiving electrical signals, the second conductor being wound in a second direction of winding around the longitudinal direction at a distance therefrom and extends over at least a second length determined in the longitudinal direction from the transmission and / or reception module.

According to one embodiment, the second length is included in the first length, the first conductor being electrically isolated from the second conductor.

According to one embodiment, the second length is merged with the first length, the first conductor being electrically isolated from the second conductor.

According to one embodiment, the first direction of winding is opposite to the second direction of winding.

According to one embodiment, the first conductor has a first end connected to a first access to the module and a second end connected to a second access to the module and extends between the first end and the second end, the antenna further comprising at least one second conductor, which is not electrically connected to the module or to the first conductor, the second conductor being wound in a second direction of winding around the longitudinal direction at a distance from it and extending over the at least a second length determined in the longitudinal direction having at least one section in common with the first length in the longitudinal direction.

According to one embodiment, the second conductor has a third free end and a fourth free end and extends between them.

According to one embodiment, the first winding direction is the same as the second winding direction.

According to one embodiment, the first conductor is disposed on a first electrically insulating substrate, the second conductor being disposed on a second electrically insulating substrate, itself disposed on the first conductor by crossing the latter.

According to one embodiment, the first conductor has the shape of a first helix around the longitudinal direction and / or the second conductor has the shape of a second helix around the longitudinal direction.

According to one embodiment, the first conductor and / or the second conductor is in the form of a ribbon.

According to one embodiment, the antenna is of the RFID and / or NFC and / or RFID HF and / or NFC HF type.

A second object of the invention is a use of the antenna as described above, in which the antenna is carried by a cylindrical and / or tubular support around the longitudinal direction, the first conductor and / or the second conductor being wrapped around the support.

According to one embodiment, the support is metallic.

According to one embodiment, the support is a fluid transport tube.

According to one embodiment, the support is a cable.

According to one embodiment, the support is an electric cable.

The invention will be better understood on reading the description which follows, given solely by way of nonlimiting example, with reference to the appended drawings, in which:

Figure 1 is a schematic side view of an antenna according to an embodiment of the invention, when mounted on a support, Figure 2 is a schematic perspective view of the antenna according to the embodiment of FIG. 1, not mounted on a support, FIG. 3 is a schematic view from above of the antenna according to an embodiment of the invention, in a non-wound configuration, FIG. 4 is a schematic side view of the antenna according to another embodiment of the invention, not mounted on a support, FIG. 5 represents an equivalent electrical diagram of the antenna according to the embodiment of FIG. 4.

In the figures, the antenna 100 can operate in transmission and / or in reception. The antenna 100 comprises at least a first conductor 1 which is wound around a longitudinal direction 41 of the antenna 100, at a distance from this longitudinal direction 41. The first conductor 1 is connected to a signal transmission module 3 electric and / or electric signal reception. The first conductor 1 is capable of emitting electromagnetic radiation to the outside when the module 3 sends it an electrical signal. The first conductor 1 is capable of receiving electromagnetic radiation coming from the outside to send in this case an electrical signal corresponding to the module 3.

The first conductor 1 is wound in a first winding direction around the longitudinal direction 4L The first conductor 1 extends over a first determined length LI in this longitudinal direction 41 from the transmission and / or reception module 3.

In transmission, the antenna 100 is thus able to radiate in the same manner in all the radial directions starting from the longitudinal direction 41 towards the outside, whatever the angular position of the conductor 1 around the longitudinal direction 41 (and of even at reception).

The antenna 100 is intended to be mounted on a support 4. The support 4 extends in a determined longitudinal direction 41 and can for example be tubular and / or cylindrical around the longitudinal direction 4L The antenna 100 can be used with different types of support 4.

In certain applications, known as of the metallic type, the support 4 may for example be metallic and / or may comprise at least one metallic part extending in the direction 41.

In other applications, called insulating type, the support 4 can be made of an electrically insulating material.

The support 4 can for example be a tube, in particular a fluid transport tube, such as for example a liquid or a gas, such as for example combustion gas, in particular natural combustion gas. Such a tube must most often be installed by being buried. Such a tube is, for example, part of a distribution network. Such a tube may for example be of the metallic type or of the insulating type.

The support 4 can also be a cable, in particular an electric cable used to transport electricity or a telecommunication cable. The cable can comprise at least one metallic part extending in the direction 41. The cable can for example be of the metallic type or of the insulating type.

When the antenna 100 is mounted on the support 4, the antenna 100 is located around the support 4 or around a part of the support 4. In this case, the first conductor 1 is wound around the support 4 or around part of the support 4. The support 4 then carries the first conductor 1 and the module 3.

In the following, the antenna 100 is described in its mounting position on the support 4. Of course, the support 4 is not part of the antenna 100, which can be provided without the support. In addition, the invention extends to any device comprising the antenna 100 and the support 4 carrying the antenna 100.

FIGS. 1 and 2 represent a first embodiment of the invention, in which the antenna 100 also comprises at least one second conductor 2 for transmitting and / or receiving electromagnetic radiation, connected to the module 3 for transmitting and / or receiving an electrical signal. The first conductor 1 is wound in a first winding direction around the longitudinal direction 41 of the support 4 over a first determined length L1 of the support 4 in this longitudinal direction 41 from the transmission and / or reception module 3. The second conductor 2 is wound in a second direction of winding around the longitudinal direction 41 of the support 4 at a distance from this longitudinal direction 41. The second conductor 2 extends over a second determined length L2 of the support 4 in this longitudinal direction 41 from the transmission and / or reception module 3.

In the mounting position, the first conductor 1 and the second conductor 2 are carried by the support 4 and are wound around the support 4 or around a part of the support 4. The second length L2 can be included in the first length LI or be confused with this first length L1, as shown in FIGS. 1 and 2.

The first conductor 1 is electrically isolated from the second conductor 2.

In FIGS. 1 and 2, the first direction of winding of the first conductor 1 around the longitudinal direction 41 of the support 4 is opposite to the second direction of winding of the second conductor 2 around the longitudinal direction 41 of the support 4.

Thus, whatever its positioning around the support 4, the conductors 1 and 2 radiate upwards, which allows, in the case where the support 4 is buried on a site, to be able to receive, by a remote receiver and / or remote reader located above the support 4, the information transmitted by the antenna 100, whatever its angular arrangement around the direction 41. Of course, the antenna 100 can also be used to receive information from the top and whatever its angular arrangement around the support 4.

In the embodiment shown in FIGS. 1 to 3, the first conductor 1 has a first end 11 connected to a first access 31 of the module 3. The second conductor 2 has its third end 21 connected to a second access 32 of the module 3. The first conductor 1 extends over the first length L1 of the support 4 going from its first end 11 connected to the first access 31 of the module 3 and its second free end 12 spaced apart by the length L1 relative to this first end 11. The second conductor 2 extends over the second length L2 of the support 4 going from its third end 21 connected to the first access 31 of the module 3 and its fourth free end 22, distant by the length L2 relative to this third end 21.

In the embodiment shown in Figures 4 and 5, the second conductor 2 is electrically connected neither to the module 3, nor to the first conductor 1. In the mounting position, the first conductor 1 and the second conductor 2 are carried by the support 4 and are wound around the support 4 or around a part of the support 4. The first conductor 1 has a first end 11 connected to the first access 31 of the module 3 and a second end 12 connected to the second access 32 of the module 3 and extends between the first end 11 and the second end 12 around the longitudinal direction 41 of the support 4. The second conductor 2 is wound in the second winding direction of the longitudinal direction 41 of the support 4 and extends over the second determined length L2 of the support 4 in the longitudinal direction 41. This second length L2 of the support 4 and the first determined length LI over which the first co inductor 1 is wound in the first direction of winding around the longitudinal direction 41 have at least one section in common L12 in this longitudinal direction 41. As for the second conductor 2, it has a third free end 21 and a fourth free end 22 and extends between the ends 21 and 22.

In Figures 4 and 5, the first winding direction and the second winding direction, respectively of the conductors 1 and 2, are the same.

In the embodiment of FIGS. 4 and 5, the second conductor 2 makes it possible to stabilize the electromagnetic radiation from the antenna 100 and serves as a core at a distance from which the first conductor 1 connected to the module 3 is wound. In one embodiment, as shown in FIGS. 4 and 5, the second conductor 2 is interlaced in three dimensions with the first conductor 1.

In general, conductors 1 and 2 are immobilized relative to each other. Generally, conductors 1 and 2 are made of an electrically conductive material, for example metallic. In general, in order to avoid conductors 1 and 2 touching, one or more insulating part (s) may be provided between conductors 1 and 2, at least in the places where they cross. Thus, according to an embodiment shown in Figure 3, the first conductor 1 is disposed on a first electrically insulating substrate 13. The second conductor 2 is disposed on a second electrically insulating substrate 23. The second substrate 23 can be fixed to the first substrate 13. The substrate 13 is for example in one piece with the substrate 23. The substrate 13 and / or 23 can for example be made of ferrite. The substrates 13 and 23 can be made of a flexible material allowing it to be wound around the tube 4 in the mounting position. Figure 3 shows the substrates 13 and 23 in the planar state and not wound. The substrate 13 and / or 23 can carry several modules 3 connected to several conductors 1 and / or several conductors 2, as shown in FIG. 3. In the mounting position, the first substrate 13 is placed on the support 4. The second substrate 23 is also arranged on the support 4 and on the first conductor 1 by crossing this first conductor 1.

In general, the first conductor 1 and / or the second conductor 2 has a three-dimensional shape around the longitudinal direction 4L According to one embodiment, the first conductor 1 is for example formed by a winding of one or more turns (s) not contiguous (s) and has for example the shape of a first helix extending around the longitudinal direction 4L According to one embodiment, the second conductor 2 is for example formed by a winding of one or more non-contiguous turn (s) and for example has the shape of a second helix extending around the longitudinal direction 4L

According to one embodiment, the first conductor 1 is for example in the form of a ribbon. The second conductor 2 is for example in the form of a ribbon. In the case where the support 4 is a cable, the conductor 1 and / or the conductor 2 can be integrated in an insulating sheath surrounding the electric cable.

According to one embodiment, the first conductor 1 and / or the second conductor 2 as described above are arranged to form an antenna 100 of the RFID and / or NFC and / or RFID HF and / or NFC HF type.

RFID is the abbreviation for radio frequency identification (in English: radiofrequency identification). NFC is the abbreviation for near field communication. HF is the abbreviation for high frequencies. The frequency band of the antenna 100 of the RFID HF and / or NFC HF type may correspond to a tuning frequency of the antenna 100 located in an HF band of frequency greater than or equal to 30 kHz and less than 80 MHz. For example, this tuning frequency can be 13.56 MHz.

In this case, the transmission and / or reception module 3 can be an RFID chip.

The information radiated by the antenna 100 is capable of being read by a remote receiver and / or a remote reader, such as for example a reader of the RFID and / or NFC and / or HF RFID and / or NFC HF type, when this reader and / or receiver is approached from the antenna 100, for example above the antenna 100 in the case of a buried support 4. Thus, the antenna 100 can be fixed to the support 4 in advance in the factory before the installation of this support 4 on a site where it must be buried. Whatever part of the support 4 which turns out to be oriented upwards when it is buried, the antenna 100 will always radiate upward to transmit the information to a receiver and / or reader situated above. This receiver and / or reader can for example be carried by a user wishing to interrogate the antenna 100.

Thus, the antenna 100 for transmitting and / or receiving electromagnetic radiation may be of the transponder type, that is to say not to include a battery or an electrical supply but to transmit the electromagnetic radiation transporting information to the outside in response to incident electromagnetic radiation received from the reader by the antenna 100.

A method of mounting the antenna 100 on the support 4 comprises a step in which the conductor 1 and / or the second conductor 2 is wound on the support 4 around the determined longitudinal direction 41, respectively over the first length LI and / or L2 of support 4 in this direction 4L

According to a possible application, the module 3 for transmitting and / or receiving electromagnetic radiation is connected to at least one sensor, not shown, capable of providing a measurement of at least one parameter, which can be a parameter of the support 4 ( for example fluid in the case of a fluid transport tube as indicated above and / or a physical and / or electrical parameter of the cable as described above). In this case, the antenna 100 makes it possible to emit to the outside an electromagnetic radiation transporting the parameter, which has been measured by the sensor and which has been sent to the conductor (s) 1 and / or 2 by through module 3.

In another possible application, the antenna 100 can be used to transmit an identification recorded in the module 3 and which may correspond to an identification of a geographic location of the location of the antenna 100 and / or the like.

Claims (17)

1. Antenna (100) comprising at least a first conductor (1) for transmitting and / or receiving electromagnetic radiation and a module (3) for transmitting and / or receiving an electrical signal, connected to the first conductor (1 ), characterized in that the first conductor (1) is wound in a first direction of winding around a longitudinal direction (41) at a distance therefrom and extends over at least a first determined length (L1) in the longitudinal direction (41) from the transmission and / or reception module (3). 2. Antenna (100) according to claim 1, characterized in that it further comprises at least one second conductor (2) for transmitting and / or receiving electromagnetic radiation, which is connected to the module (3) of transmission and / or reception of electrical signal, the second conductor (2) being wound in a second direction of winding around the longitudinal direction (41) at a distance therefrom and extends over at least a second determined length (L2) in the longitudinal direction (41) from the transmission and / or reception module (3). 3. Antenna (100) according to claim 2, characterized in that the second length (L2) is included in the first length (L1), the first conductor (1) being electrically isolated from the second conductor (2). 4. Antenna (100) according to claim 2 or 3, characterized in that the second length (L2) coincides with the first length (L1), the first conductor (1) being electrically isolated from the second conductor (2) . 5. Antenna (100) according to any one of claims 2 to 4, characterized in that the first direction of winding is opposite to the second direction of winding. 6. Antenna (100) according to claim 1, characterized in that the first conductor (1) has a first end (11) connected to a first access (31) of the module (3) and a second end (12) connected to a second access (32) of the module (3) and extends between the first end (11) and the second end (12), the antenna (100) further comprising at least one second conductor (2), which n is not electrically connected to the module (3), nor to the first conductor (1), the second conductor (2) being wound in a second winding direction around the longitudinal direction (41) at a distance therefrom and s extending over at least a second determined length (L2) in the longitudinal direction (41) having at least one section in common (L12) with the first length (L1) in the longitudinal direction (41). 7. Antenna (100) according to claim 6, characterized in that the second conductor (2) has a third end (21) free and a fourth end (22) free and extends between them. 8. Antenna (100) according to claim 6 or 7, characterized in that the first direction of winding is the same as the second direction of winding. 9. Antenna (100) according to any one of claims 2 to 8, characterized in that the first conductor (1) is disposed on a first electrically insulating substrate (13), the second conductor (2) being disposed on a second electrically insulating substrate (23), itself disposed on the first conductor (1) by crossing the latter. 10. Antenna (100) according to any one of the preceding claims, characterized in that the first conductor (1) has the shape of a first helix around the longitudinal direction (41) and / or the second conductor (2) has the shape of a second helix around the longitudinal direction (41). 11. Antenna (100) according to any one of the preceding claims, characterized in that the first conductor (1) and / or the second conductor (2) is in the form of a ribbon. 12. Antenna (100) according to any one of the preceding claims, characterized in that it is of the RFID and / or NFC and / or RFID HF and / or NFC HF type. 13. Use of the antenna (100) according to any one of the preceding claims, in which the antenna (100) is carried by a support (4) cylindrical and / or tubular around the longitudinal direction (41), the first conductor (1) and / or the second conductor (2) being wound around the support (4). 14. Use according to claim 13, wherein the support (4) is metallic. 5 15. Use according to claim 13 or 14, wherein the support (4) is a fluid transport tube. 16. Use according to claim 13 or 14, wherein the support (4) is a cable. 17. Use according to claim 16, wherein the support (4) is an electric cable.