Interconnection systems between signal switching circuit boards

The invention claimed is: 1. An optical interconnection assembly for the mutual connection of a plurality of signal switching circuit boards that are coupled to a common planar support, backplane, comprising: a planar support frame configured to receive an ordered arrangement of connectors, which includes a series of first connectors arranged to face corresponding signal transmission ports of said boards, and a series of second connectors arranged to face corresponding signal reception ports of said boards, an interconnection circuit housed by the support frame and disposed between corresponding pairs of first and second connectors according to a preset interconnection scheme, wherein said interconnection circuit comprises a plurality of arrangements of aggregated interconnection optical fibers extending along a longitudinal axis of the arrangement; and a controlled deformation guide means of said plurality of optical fiber arrangements configured to establish a corresponding plurality of non-intersecting coplanar paths of said optical fiber arrangements between corresponding pairs of first and second connectors, wherein each optical fiber arrangement of the interconnection circuit extends, in the path between the corresponding first and second connectors, with the longitudinal axis parallel to the plane of the frame, according to a trajectory that has curvatures around folding axes of the arrangement perpendicular to the plane of the frame, having curvature radius higher than a preset threshold value. 2. The interconnection assembly according to claim 1 , wherein said arrangements of aggregated optical fibers include planar arrangements of fibers in the form of ribbon cables. 3. The interconnection assembly according to claim 2 , wherein each connector comprises a connector case configured to house an end portion of the corresponding optical fiber arrangement, which has, at an output section facing said signal switching circuit boards, a fiber termination element configured to be arranged, in an assembling condition of the connector on the frame, with the longitudinal axis of the optical fiber arrangement orthogonal to the plane of the frame, and at an input section facing said planar support frame an opening for the passage and holding of said optical fiber arrangement orthogonal to the plane of the frame. 4. The interconnection assembly according to claim 3 , wherein said fiber termination element comprises a ferrule or similar mechanically rigid element having a substantially rectangular section configured to hold the optical fibers in an aligned condition. 5. The interconnection assembly according to claim 3 , wherein said controlled deformation guide means comprise formations of said connector case configured to determine a torsion of the relative planar optical fiber arrangement about its own axis and a curvature of said planar optical fiber arrangement around a transversal axis, so as to bring said optical fiber arrangement orthogonal to the plane of the frame. 6. The interconnection assembly according to claim 3 , wherein said controlled deformation guide means comprise outer wall portions of said connector case in the proximity of said opening at the input section, and is configured to form curvature guide surfaces for the optical fiber arrangement coming out from the connector. 7. The interconnection assembly according to claim 3 , wherein said controlled deformation guide means comprise a plurality of deflection formations on the support frame, which define corresponding curvature guide surfaces for at least one optical fiber arrangement orthogonal to the plane of the frame. 8. The interconnection assembly according to claim 1 , wherein said support frame has a plurality of aligned connector seats, including corresponding openings for housing and holding said connectors. 9. The interconnection assembly according to claim 8 , wherein said openings form seats for a first and a second connector. 10. The interconnection assembly according to claim 1 , wherein said support frame has means for hooking the frame to the common planar support, backplane, of the signal switching circuit boards. 11. A method of assembling an optical interconnection assembly for the mutual connection of a plurality of signal switching circuit boards that are coupled to a common planar support, backplane, the optical interconnection assembly including a planar support frame configured to receive a plurality of connectors that includes a series of first connectors arranged to face corresponding signal transmission ports of said boards and a series of second connectors arranged to face corresponding signal reception ports of said boards, the support frame being configured to guide the deployment of an interconnection circuit between corresponding pairs of first and second connectors according to a preset interconnection scheme, wherein said interconnection circuit comprises a plurality of arrangements of aggregated interconnection optical fibers extending along a longitudinal axis of the arrangement, the method comprising: determining the length of each optical fiber arrangement between a corresponding first and second connectors as a function of said connection scheme; abutting each optical fiber arrangement to a corresponding first and second connectors through a combination of controlled folding and torsion deformations as a function of preset geometric configuration parameters; deposing the optical fiber arrangements according to a temporary arrangement of the interconnection circuit, said temporary arrangement comprising, for each optical fiber arrangement, the positioning of a first and a second connectors in a corresponding temporary site, said temporary sites being determined by arranging the pairs of first and second connectors of each optical fiber arrangement in an aligned position, mutually offset in parallel lines; moving said first and second connectors from the temporary sites towards a respectively aligned condition of destination, consistent with the arrangement of connector seats on said frame, wherein said optical fiber arrangements build a final arrangement of an interconnection circuit; and coupling the interconnection circuit according to the final arrangement on said support frame. 12. An optical interconnection system between a plurality of signal switching circuit boards, including: a common planar support, backplane, carrying on a side a connection matrix with orthogonal ranks, including a plurality of parallel connector arrays, each of which is configured to receive a corresponding signal switching circuit board, and a plurality of optical interconnection assemblies that may be associated with said common planar support, backplane, on the opposite side, for the mutual connection of said plurality of signal switching circuit boards, wherein each of said plurality of optical interconnection assemblies comprises: a planar support frame configured to receive an ordered arrangement of connectors, which includes a series of first connectors arranged to face corresponding signal transmission ports of said boards, and a series of second connectors arranged to face corresponding signal reception ports of said boards, an interconnection circuit housed by the support frame and disposed between corresponding pairs of first and second connectors according to a preset interconnection scheme, wherein said interconnection circuit comprises a plurality of arrangements of aggregated interconnection optical fibers extending along a longitudinal axis of the arrangement; and a controlled deformation guide means of said plurality of optical fiber arrangements configured to establish a