Title :
A 25 Gb/s, 4.4 V-Swing, AC-Coupled Ring Modulator-Based WDM Transmitter with Wavelength Stabilization in 65 nm CMOS
Author :
Hao Li ; Zhe Xuan ; Titriku, Alex ; Cheng Li ; Kunzhi Yu ; Binhao Wang ; Shafik, Ayman ; Nan Qi ; Yang Liu ; Ran Ding ; Baehr-Jones, Thomas ; Fiorentino, Marco ; Hochberg, Michael ; Palermo, Samuel ; Chiang, Patrick Yin
Author_Institution :
EECS, Oregon State Univ., Corvallis, OR, USA
Abstract :
Silicon photonics devices offer promising solution to meet the growing bandwidth demands of next-generation interconnects. This paper presents a 5 × 25 Gb/s carrier-depletion microring-based wavelength-division multiplexing (WDM) transmitter in 65 nm CMOS. An AC-coupled differential driver is proposed to realize 4 × VDD output swing as well as tunable DC-biasing. The proposed transmitter incorporates 2-tap asymmetric pre-emphasis to effectively cancel the optical nonlinearity of the ring modulator. An average-power-based dynamic wavelength stabilization loop is also demonstrated to compensate for thermal induced resonant wavelength drift. At 25 Gb/s operation, each transmitter channel consumes 113.5 mW and maintains 7 dB extinction ratio with a 4.4 V pp-diff output swing in the presence of thermal fluctuations.
Keywords :
CMOS integrated circuits; wavelength division multiplexing; AC coupled differential driver; AC coupled ring modulator; CMOS; WDM transmitter; next-generation interconnects; optical nonlinearity; ring modulator; silicon photonics devices; thermal fluctuations; tunable DC-biasing; wavelength division multiplexing; wavelength stabilization; Bandwidth; Nonlinear optics; Optical modulation; Optical refraction; Optical transmitters; Wavelength division multiplexing; AC-coupled; CMOS; FFE; WDM; high-swing driver; ring modulator; silicon photonics; thermal tuning; transmitter;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2015.2470524
