Optical transceiver implementing erbium doped fiber amplifier

What is claimed is: 1. An optical transceiver that generates an output optical signal and receives an input optical signal, the optical transceiver comprising: an optical source that generates a continuous wave (CW) light; an optical splitter that splits the CW light into two portions as maintaining polarization of the CW light; an optical modulator that modulates one of the portions of the CW light split by the optical splitter and outputs a modulated optical signal, the optical modulator including a modulating device primarily made of semiconductor materials; an optical receiver that interferes the input optical signal with the another of the portions of the CW light split by optical splitter; an erbium doped fiber amplifier (EDFA) that outputs the output optical signal by amplifying the modulated optical signal generated by the optical modulator; inner fibers that optically couple the optical source, the optical splitter, the optical modulator, the optical receiver, and the EDFA to each other; a mother board that mounts the optical modulator and the optical receiver thereon; and a housing that encloses the optical source, the optical splitter, the optical modulator, the optical receiver, the EDFA, and the inner fibers therein, wherein the housing has dimensions following a CFP2 standard and includes a top housing, a bottom housing, and a frame that is sandwiched between the top housing and the bottom housing, the frame, the top housing, and the bottom housing forming a space where the optical source, the optical splitter, the optical modulator, the optical receiver, the mother board, and the EDFA are enclosed therein, wherein the mother board is set in the frame of the housing, the optical modulator is fixed to the top housing, the optical modulator and the optical receiver being arranged in a space formed by the frame, the mother board, and the top housing, wherein the EDFA is assembled on the bottom housing and arranged in a space formed by the mother board, the frame and the bottom housing. 2. The optical transceiver of claim 1 , wherein the optical source is a wavelength tunable optical source including a wavelength tunable laser diode (LD). 3. The optical transceiver of claim 1 , wherein the inner fibers include polarization maintaining fibers (PMF) for coupling the optical source, the optical splitter, the optical modulator, and the optical receiver. 4. The optical transceiver of claim 1 , wherein the inner fibers are connected with respective polarization maintaining connectors (PMCs). 5. The optical transceiver of claim 4 , wherein the inner fibers connecting the optical source with the optical splitter, the optical splitter with the optical modulator, and the optical splitter with the optical receiver provide the respective polarization maintain connectors (PMCs). 6. The optical transceiver of claim 1 , wherein at least one of the inner fibers is once drawn outside of a housing, bent thereat, and pulled within the housing again. 7. The optical transceiver of claim 6 , wherein the inner fibers are bent by respective radii greater than 15 mm. 8. The optical transceiver of claim 1 , wherein the housing has dimensions of 91.5 mm in a length, 41.5 mm in a width, and 12.4 mm in a height. 9. The optical transceiver of claim 1 , further comprising an optical receptacle having a port for transmitting the output optical signal and another port for receiving the input optical signal, wherein the optical receptacle is integrally formed with the frame. 10. The optical transceiver of claim 1 , further comprising an optical receptacle having a port for transmitting the output optical signal and another port for receiving the input optical signal, wherein the optical receptacle is independent of the frame. 11. The optical transceiver of claim 10 , further comprising a shield gasket that shields a gap formed between the optical receptacle and the frame. 12. The optical transceiver of claim 1 , wherein the EDFA includes an erbium doped fiber (EDF) wound around a bobbin, a pump laser, a coupler, a gain-flattening filter (GFF), a variable optical attenuator (VOA), and a monitor photodiode (mPD), and wherein the EDF, the pump laser, the GFF, the VOA, and the mPD are mounted on the bottom housing through an EDF circuit board.