Fluid pressure sensor

The invention claimed is: 1. A fluid pressure sensor, comprising: a flexible pipe extending around and along a central axis of the pipe, being configured to contain a fluid having a pressure to be measured, and to be deformed by an effect of the pressure exerted by the fluid, between: a first deformed position for a first pressure exerted by the fluid, in the first deformed position the pipe having on its periphery a first location and a second location, wherein respective orthogonal projections of the first location and the second location in a plane perpendicular to the central axis are separated from each other by a first distance, and a second deformed position for a second pressure exerted by the fluid that is higher than the first pressure, wherein in the second deformed position respective orthogonal projections of the first location and the second location in the plane perpendicular to the central axis are separated from each other by a second distance, a difference between the first distance and the second distance being at least greater than 0.1 times the second distance; a coil having a self-inductance that varies as a function of the pressure exerted by the fluid inside the pipe, the coil including at least one turn wound around a winding axis of the coil coinciding with the central axis, the at least one turn including: a first portion of its periphery mechanically connected to the first location on the periphery of the pipe by a first mechanical connection, which rigidly connects the first portion to the first location, a second portion of its periphery, separate from the first portion, mechanically connected to the second location on the periphery of the pipe by a second mechanical connection, separate from the first mechanical connection, which rigidly connects the second portion to the second location, so that an area defined by the at least one turn varies as a function of the deformation of the pipe, and a third portion and a fourth portion of its periphery situated between the first portion and the second portion, each of the third portion and the fourth portion being on a respective side of the central axis, the third portion and the fourth portion being free portions separated from the pipe by a clearance; and a unit configured to calculate the pressure to be measured as a function of the self-inductance of the coil. 2. The fluid pressure sensor according to claim 1 , wherein the at least one turn is wound around the pipe. 3. The fluid pressure sensor according to claim 2 , further comprising: two reinforcements situated between the pipe and the third portion and the fourth portion of each turn, respectively, each reinforcement being produced from an electrically insulative material and extending parallel to the central axis and being separated from the pipe by the clearance; and an electrically conductive material wire wound around the two reinforcements and the pipe to form the at least one turn so that the at least one turn surrounds the two reinforcements and the pipe. 4. The fluid pressure sensor according to claim 1 , wherein a maximum width of the clearance in the first position is greater than one-twentieth of an interior perimeter of the at least one turn. 5. The fluid pressure sensor according to claim 1 , wherein the at least one turn is situated inside the pipe. 6. The fluid pressure sensor according to claim 1 , wherein the at least one turn includes an upper segment situated above the winding axis and a lower segment situated below the winding axis, the upper segment joining the lower segment at a level of a plane edge extending in a plane, all plane edges of all turns of the at least one turn of coil lying in the same plane. 7. The fluid pressure sensor according to claim 6 , further comprising a printed circuit comprising: an electrically insulative substrate disposed substantially in the plane containing the plane edge; a first electrical track disposed on a first face of the substrate and forming the upper segment and the lower segment of the at least one turn; a first electrode disposed on the first face; and a second electrode disposed on a second face opposite the first face of the substrate, the second electrode facing the first electrode to form with the first electrode a capacitor electrically connected to the coil. 8. The fluid pressure sensor according to claim 1 , further comprising at least one electrically insulative reinforcement having a Young's modulus that is at least twice a Young's modulus of the pipe, the reinforcement extending continuously parallel to the central axis and the at least one turn being rigidly fixed to the reinforcement. 9. The fluid pressure sensor according to claim 1 , wherein the coil includes a plurality of immediately consecutive turns each extending from a starting point to an arrival point situated in a same plane after making exactly one complete turn around the winding axis, said plane containing the winding axis, the arrival point of a turn constituting the starting point of an immediately consecutive turn, a pitch of each turn of the plurality being less than one-twentieth of an interior perimeter of said each turn measured between its starting and arrival points, the pitch being a distance between orthogonal projections of the arrival and starting points on the winding axis. 10. The fluid pressure sensor according to claim 1 , wherein respective orthogonal projections of the first portion of the at least one turn and of the second portion of the at least one turn in a plane perpendicular to the winding axis are respectively disposed face to face on opposite sides of the winding axis. 11. A method of manufacturing a fluid pressure sensor according to claim 1 , the method comprising: providing a flexible pipe extending around and along a central axis of the pipe, being configured to contain a fluid having a pressure to be measured, and to be deformed by an effect of the pressure exerted by the fluid, between: a first deformed position for a first pressure exerted by the fluid, in the first deformed position the pipe having on its periphery a first location and a second location, wherein respective orthogonal projections of the first location and the second location in a plane perpendicular to the central axis are separated from each other by a first distance, and a second deformed position for a second pressure exerted by the fluid that is higher than the first pressure, wherein in the second deformed position respective orthogonal projections of the first location and the second location in the plane perpendicular to the central axis are separated from each other by a second distance, a difference between the first distance and the second distance being at least greater than 0.1 times the second distance; producing a coil having a self-inductance that varies as a function of the pressure exerted by the fluid inside the pipe, the coil including at least one turn wound around a winding axis of the coil coinciding with the central axis, the at least one turn including: a first portion of its periphery mechanically connected to the first location on the periphery of the pipe by a first mechanical connection, which rigidly connects the first portion to the first location, a second portion of its periphery, separate from the first portion, mechanically connected to the second location on the periphery of the pipe by a second mechanical connection, separate from the first mechanical connection, which rigidly connects the second portion to the second location, so that an area defined by the at least one turn varies as a function of the deformation of the pipe, and a third portion and a fourth portion of its