PCB-compatible optical interconnection using 45 degrees-ended connection rods and via-holed waveguides

Abstract

In this paper, a new architecture for a chip-to-chip optical interconnection system is demonstrated that can be applied in a waveguide-embedded optical printed circuit board (PCB). The experiment used 45degrees-ended optical connection rods as a medium to guide light paths perpendicularly between vertical-cavity surface-emitting lasers (VCSELs), or photodiodes (PDs) and a waveguide. A polymer film of multimode waveguides with cores of 100 x 65 mum was sandwiched between conventional PCBs. Via holes were made with a diameter of about 140 mum by CO2-laser drilling through the PCB and the waveguide. Optical connection rods were made of a multimode silica fiber ribbon segment with a core diameter of 62.5 and 100 mum. One end of the fiber segment was cut 45degrees and the other end 90degrees by a mechanical polishing method. These fiber rods were inserted into the via holes formed in the PCB, adjusting the insertion depth to locate the 45degrees end of rods near the waveguide cores. From this interconnection system, a total coupling efficiency of about -8 dB was achieved between VCSELs and PDs through connection rods and a 2.5 Gb/s x 12-ch data link demonstrated through waveguides with a channel pitch of 250 mum in the optical PCB.