Instrumented bearing and method to manufacture such a bearing

The invention claimed is: 1. An instrumented rolling bearing, comprising: an outer ring and an inner ring having a rolling bearing chamber delimited therebetween; a rolling bearing cage comprising maintaining parts and intermediate parts wherein each intermediate part connects two successive maintaining parts, the rolling bearing cage further comprising a cavity located in one of the intermediate parts; rolling bodies positioned in the rolling bearing chamber and maintained by the maintaining parts of the rolling bearing cage; a measuring device comprising at least one sensor suitable for measuring at least one operating parameter of the instrumented rolling bearing, the measuring device being integrated into the rolling bearing cage such that every component of the measuring device is fixed to the rolling bearing cage, the at least one sensor being integrated with a transmitter, a processor, and an energy supply unit to form a first unit, the first unit being fixed within the cavity of the one of the intermediate parts of the rolling bearing cage such that the first unit is entirely located between two adjacent rolling bodies with respect to a circumferential direction of the instrumented rolling bearing and the first unit is completely overlapped in a radial direction and an axial direction by each of the two adjacent rolling bodies when viewing a cross section of the instrumented rolling bearing; and at least one of a cable or an antenna included with the measuring device, wherein the at least one of the cable or the antenna extends along the rolling bearing cage in the rolling bearing chamber. 2. The instrumented rolling bearing according to claim 1 , wherein the sensor is integrated into the rolling bearing cage by overmolding. 3. The instrumented rolling bearing according to claim 1 , the measuring device further comprising several sensors, wherein each sensor is suitable for measuring at least one operating parameter of the instrumented rolling bearing. 4. The instrumented rolling bearing according to claim 1 , the measuring device further comprising at least one counterweight integrated into the rolling bearing cage. 5. The instrumented rolling bearing according to claim 1 , wherein each of the outer ring and the inner ring are free of coiled metal wire thereon. 6. The instrumented rolling bearing according to claim 1 , wherein the cavity extends completely through an axial length of the one of the intermediate parts, the first unit has a first unit axial length equal to the axial length of the one of the intermediate parts and wherein each of the cavity and the first unit are entirely located between a radially outer end of the one of the intermediate parts and a radially inner end of the one of the intermediate parts. 7. A method for manufacturing an instrumented rolling bearing, the method comprising steps of: a) obtaining components of the rolling bearing, including an outer ring, an inner ring, rolling bodies, and a rolling bearing cage comprising maintaining parts and intermediate parts wherein each intermediate part connects two successive maintaining parts, the rolling bearing cage further comprising a cavity located in one of the intermediate parts; b) obtaining a measuring device comprising at least one sensor suitable for measuring at least one operating parameter of the instrumented rolling bearing, the at least one sensor being integrated with a transmitter, a processor, and an energy supply unit to form a first unit, the measuring device comprising at least one of a cable and an antenna; c) integrating at least part of the measuring device in the rolling bearing cage such that every component of the measuring device is fixed to the rolling bearing cage; d) locating at least one of the cable and the antenna extending along the rolling bearing cage in the rolling bearing chamber; and e) assembling the instrumented rolling bearing such that the first unit is located within the cavity of the one of the intermediate parts of the rolling bearing cage such that the first unit is entirely located between two adjacent rolling bodies with respect to a circumferential direction of the instrumented rolling bearing and the first unit is completely overlapped in a radial direction and an axial direction by each of the two adjacent rolling bodies when viewing a cross section of the instrumented rolling bearing.