Encoder wheel for wheel hub assembly

What is claimed is: 1. A rotating speed measuring device for a hub of a wheel of a vehicle comprising a rolling bearing having an inner ring and a rotating outer ring, the measuring device comprising: a radial encoder wheel comprising a base structure made of magnetized material, the encoder wheel assembled on an outer cylindrical surface of the rotating outer ring of the rolling bearing; mechanical support disposed between the encoder wheel and the rotating outer ring, wherein, the encoder wheel and the rotating outer ring are angularly fixed with each other, the mechanical support having a first end adjacent to an axial outer side of the rotating outer ring; and a first radial extension extending radially from the first end of the mechanical support and a second radial extension extending radially from the mechanical support at a second end, the second end axially inward with respect to the vehicle relative to the first end, the first radial extension extending radially further than the second radial extension, wherein, the base structure is mounted within a seat that is defined by the first radial extension and the second radial extension together with the mechanical support, and the seat comprising a first lateral flange of the first radial extension and a second lateral flange of the second radial extension unitarily joined to a cylindrical bottom wall, and defines a U-shaped insert forming the seat, the first lateral flange comprises reduced radial dimensions with respect to radial dimensions of the second lateral flange, the first lateral flange and the second lateral flange axially constraining the encoder wheel, the second lateral flange is a pushing lateral flange configured to shield the encoder wheel at least during the mounting of the rotating speed measuring device onto the rotating outer ring, and the first lateral flange comprises a reduced size relative to a radial thickness of the base structure such that a radially extending lateral edge of the base structure is exposed. 2. The rotating speed measuring device of claim 1 , wherein, the mechanical support comprises a cylindrical bottom wall that is fixed in an axially adjustable fashion on the rotating outer ring, and the base structure is configured to directly contact the cylindrical bottom wall and is angularly fixed to the cylindrical bottom wall. 3. The rotating speed measuring device of claim 1 , wherein, the first radial extension and the second radial extension are combined with the mechanical support to axially lock the encoder wheel in the mechanical support, and the two lateral flanges and the cylindrical bottom wall being made of metallic material. 4. The rotating speed measuring device of claim 1 , wherein the encoder wheel has inner radial dimensions that are less than outer radial dimensions of the lateral flanges. 5. A radial encoder wheel, comprising: a base structure made of magnetized plastic; a seat defining a cylindrical surface that radially supports the base structure such that the base structure is angularly fixed to the seat, the seat comprising an axially inner first lateral wall and an axially outer second extended lateral wall disposed axially distally from the first lateral wall relative to the cylindrical surface, wherein a radial thickness of the base structure is greater than the difference between a first radius defined by the axially outer second extended lateral wall and a second radius defined by the axially inner first lateral wall, wherein the first lateral wall and the second extended lateral wall differ in size from one another, and wherein the base structure has a thickness that is between four and six times the difference between a second diameter defined by the second radial dimension and a first diameter defined by the first radial dimension. 6. The encoder wheel of claim 5 , further comprising: an outer ring of a wheel hub assembly, wherein the encoder wheel is disposed on the outer ring such that the base structure is further angularly fixed to the outer ring. 7. The encoder wheel of claim 5 , wherein the first radial dimension is larger than the second radial dimension. 8. The encoder wheel of claim 5 , wherein the axially outer second extended lateral wall is nearer an axially outer side of the outer ring relative to the axially inner first lateral wall. 9. A rolling bearing for a hub of a vehicle wheel the rolling bearing, comprising: an inner ring; a rotating outer ring defining an axially inner side and an axially outer side; and a rotating speed measuring device mounted on the rotating outer ring, the rotating speed measuring device comprising: an encoder wheel comprising a base structure made of magnetized material, the encoder wheel assembled on the rotating outer ring of the rolling bearing; and a cylindrical seat disposed between the encoder wheel and an outer cylindrical surface of the rotating outer ring, wherein the encoder wheel and the cylindrical seat are angularly fixed with each other, wherein the cylindrical seat includes an axially inner first lateral wall having a first radial dimension less than a second radial dimension of an axially outer second lateral wall, wherein the first lateral wall and the second lateral wall differ in size from one another, the first lateral wall comprises a reduced size relative to the radial thickness of the base structure such that a lateral edge of the base structure is exposed, and wherein the base structure has a thickness that is between four and six times the difference between a second diameter defined by the second radial dimension and a first diameter defined by the first radial dimension. 10. The rotating speed measuring device of claim 9 , wherein a radially outer surface of the base structure defines a third radial dimension greater than the second radial dimension.