| CPC G02B 6/4269 (2013.01) [G02B 6/4272 (2013.01)] | 5 Claims |
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1. A silicon photonics optical transceiver device, comprising:
a silicon photonics optical module that includes:
a substrate having an installation surface, formed with a plurality of conductive traces, extending in an extending direction, and having a first end and a second end that are opposite to each other in the extending direction;
a plurality of transmitter optical sub-assemblies (TOSAs) disposed on said first end of said substrate and extending away from said substrate in the extending direction, wherein each of said TOSAs is electrically connected to a corresponding part of the conductive traces, and has an optical port;
a digital signal processor mounted to said installation surface of said substrate and spaced apart from said TOSAs; and
a silicon optical sub-assembly (SOSA) mounted to said installation surface of said substrate;
wherein said silicon optical sub-assembly includes:
a photonic integrated circuit that is fixedly mounted to said installation surface of said substrate, that includes at least a beam splitter, a modulator and a photodiode, and that has a first optical port segment and a second optical port segment, each having a plurality of optical ports;
a laser diode driver and a transimpedance amplifier that are electrically connected to and integrated with said photonic integrated circuit, each of said laser diode driver and said transimpedance amplifier being electrically connected to said digital signal processor through a corresponding part of said conductive traces;
a polarization-maintaining optical fiber (PMF) component that includes a first optical coupler seat which is coupled to said first optical port segment of said photonic integrated circuit, a plurality of connectors which are respectively coupled to said optical ports of said TOSAs, and a plurality of PMFs each of which is coupled between said first optical coupler seat and a respective one of said connectors, wherein each of said PMFs has an end portion optically coupled to a corresponding one of said optical ports of said first optical port segment of said photonic integrated circuit through said first optical coupler seat; and
a transmission optical fiber component that includes a second optical coupler seat which is coupled to said second optical port segment of said photonic integrated circuit, an optical fiber connector, and a plurality of optical-fiber cables which are coupled between said second optical coupler seat and said optical fiber connector, wherein each of said optical-fiber cables includes a plurality of optical fibers, each having an end portion optically coupled to a corresponding one of said optical ports of said second optical port segment of said photonic integrated circuit through said second optical coupler seat;
said silicon photonics optical transceiver device further comprising a heat conducting housing that is formed with:
an inner accommodating space for fittingly and firmly accommodating said silicon photonics optical module therein;
a first opening in spatial communication with said inner accommodating space for exposing said optical fiber connector;
a second opening opposite to said first opening; and
an inner surface defining said inner accommodating space, and having a first heat dissipation portion and a second heat dissipation portion;
wherein said first heat dissipation portion wraps around and is in contact with said TOSAs to realize thermal conduction, and said second heat dissipation portion is in contact with a surface of said digital signal processor, so as to transfer heat generated during operation of said TOSAs and said digital signal processor outside of said heat conducting housing.
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