Design of a 4 $\times$ 10 Gb/s VCSEL Driver Using Asymmetric Emphasis Technique in 90-nm CMOS for Optical Interconnection

This paper describes the design and experimental results of a 4 × 10 Gb/s vertical-cavity surface-emitting laser (VCSEL) driver using the asymmetric emphasis technique. Conventional symmetric emphasis techniques can compensate for the influences of parasitic capacitances; however, they cannot compensate for the nonlinear effects of a VCSEL. To overcome this problem, an asymmetric emphasis technique that can separately control the emphasis pulses at the rising and falling edges is proposed. This allows fast transition in VCSEL output waveform suppressing ringing. A driver circuit that has two separate emphasis circuits for the rising and falling edges is proposed in order to implement the asymmetric emphasis technique. This configuration enables us to separately control the height, width, and setup time of the emphasis pulses at the rising and falling edges. The test chip fabricated by using 90-nm CMOS technology generates a clearly open optical eye at a data rate of 10 Gb/s, and we can confirm the existence of a wide phase margin by a transmission experiment.

[1]  R. John,et al.  120-Gb/s VCSEL-based parallel-optical interconnect and custom 120-Gb/s testing station , 2004, Journal of Lightwave Technology.

[2]  Y. Kwark,et al.  A 20 Gb/s VCSEL driver with pre-emphasis and regulated output impedance in 0.13 /spl mu/m CMOS , 2005, ISSCC. 2005 IEEE International Digest of Technical Papers. Solid-State Circuits Conference, 2005..

[3]  F. Ellinger,et al.  A 100-mW 4/spl times/10 Gb/s transceiver in 80-nm CMOS for high-density optical interconnects , 2005, IEEE Journal of Solid-State Circuits.

[4]  Xuguang Zhang,et al.  A Scalable 3.6-to-5.2mW 5-to-10Gb/s 4-tap DFE in 32nm CMOS , 2009, 2009 IEEE International Solid-State Circuits Conference - Digest of Technical Papers.

[5]  A. Chandrakasan,et al.  18Gb/s Optical IO: VCSEL Driver and TIA in 90nm CMOS , 2007, 2007 IEEE Symposium on VLSI Circuits.

[6]  Azita Emami-Neyestanak,et al.  A 90nm CMOS 16Gb/s Transceiver for Optical Interconnects , 2007, 2007 IEEE International Solid-State Circuits Conference. Digest of Technical Papers.

[7]  Andrew C. Y. Lin,et al.  A Serial Data Transmitter for Multiple 10Gb/s Communication Standards in 0.13μm CMOS , 2008, 2008 IEEE International Solid-State Circuits Conference - Digest of Technical Papers.

[8]  Alexander V. Rylyakov,et al.  A ≪5mW/Gb/s/link, 16×10Gb/s Bi-Directional Single-Chip CMOS Optical Transceiver for Board-Level Optical Interconnects , 2008, 2008 IEEE International Solid-State Circuits Conference - Digest of Technical Papers.

[9]  K. Ohhata,et al.  A 90-nm CMOS 4 × 10 Gb/s VCSEL driver using asymmetric emphasis technique for optical interconnection , 2008, 2008 Asia-Pacific Microwave Conference.

[10]  S. Palermo,et al.  High-Speed Transmitters in 90nm CMOS for High-Density Optical Interconnects , 2006, 2006 Proceedings of the 32nd European Solid-State Circuits Conference.

[11]  Azita Emami-Neyestanak,et al.  A 90 nm CMOS 16 Gb/s Transceiver for Optical Interconnects , 2008, IEEE Journal of Solid-State Circuits.

[12]  Sushmit Goswami,et al.  A 96Gb/s-Throughput Transceiver for Short-Distance Parallel Optical Links , 2008, 2008 IEEE International Solid-State Circuits Conference - Digest of Technical Papers.

[13]  P. Pepeljugoski,et al.  VCSEL modulation at 20 Gb/s over 200 m of multimode fiber using a 3.3 V SiGe laser driver IC , 2001, 2001 Digest of LEOS Summer Topical Meetings: Advanced Semiconductor Lasers and Applications/Ultraviolet and Blue Lasers and Their Applications/Ultralong Haul DWDM Transmission and Networking/WDM Compo.

[14]  Byungsub Kim,et al.  A 10-Gb/s Compact Low-Power Serial I/O With DFE-IIR Equalization in 65-nm CMOS , 2009, IEEE Journal of Solid-State Circuits.

[15]  Frank Ellinger,et al.  Tradeoffs of vertical-cavity surface emitting lasers modeling for the development of driver circuits in short distance optical links , 2005 .

[16]  Goichi Ono,et al.  10Gb/s receiver with track-and-hold-type linear phase detector and charge-redistribution 1st-order ΔΣ modulator , 2009, 2009 IEEE International Solid-State Circuits Conference - Digest of Technical Papers.