Title :
High-speed monolithically integrated silicon photoreceivers fabricated in 130-nm CMOS technology
Author :
Csutak, S.M. ; Schaub, J.D. ; Wu, W.E. ; Shimer, R. ; Campbell, J.C.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Texas, Austin, TX, USA
fDate :
9/1/2002 12:00:00 AM
Abstract :
A complementary metal-oxide-semiconductor (CMOS) monolithically integrated photoreceiver is presented. The circuit was fabricated in a 130-nm unmodified CMOS process flow on 2-μm-thick silicon-on-insulator substrates. The receiver operated at 8 Gb/s with 2-dBm average input optical power and a bit error rate of less than 10-9. The integrated lateral p-i-n photodetector was simultaneously realized with the amplifier and had a responsivity of 0.07 A/W at 850 nm. The measured receiver sensitivities at 5, 3.125, 2, and 1 Gb/s, were -10.9, -15.4, -16.5, and -19 dBm, respectively. A 3-V single-supply operation was possible at bit rates up to 3.125 Gb/s. The transimpedance gain of the receivers was in the range 53.4-31 dBΩ. The circuit dissipated total power between 10 mW and 35 mW, depending on the design.
Keywords :
CMOS integrated circuits; integrated optoelectronics; optical receivers; photodetectors; photodiodes; sensitivity; silicon; substrates; 10 to 35 mW; 130 nm; 2 micron; 850 nm; CMOS technology; Si; average input optical power; bit error rate; bit rates; circuit dissipated total power; complementary metal-oxide-semiconductor; high-speed monolithically integrated silicon photoreceivers; integrated lateral p-i-n photodetector; photodiodes; receiver sensitivities; responsivity; silicon-on-insulator substrates; single-supply operation; transimpedance gain; unmodified CMOS process; Bit error rate; CMOS process; CMOS technology; High speed optical techniques; Integrated circuit technology; Optical receivers; Optical sensors; PIN photodiodes; Silicon on insulator technology; Stimulated emission;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2002.802221
