A 112Gb/s PAM-4 Extra-Short-Reach Transceiver for Co-packaged Optics Application
Technology Introduction:
CPOs integrate the switch chip and modules on the same board, reducing size and distance. This achieves a Nyquist loss of <10dB at 28GHz for 112Gb/s PAM-4 signals. The focus is on a low-power 112Gb/s PAM-4 XSR RX using a 2b/3b TI-ADC. Time-interleaving removes high-speed comparators, allowing a low-speed SAR ADC to be efficient. Replacing some 2-bit ADCs with 3-bit ADCs improves signal alignment. The TX features an unsegmented FFE driver, enhancing bandwidth and reducing power consumption.
Industry Applicability:
This technology has multiple patents in the U.S. and Taiwan, indicating strong industrial potential. The commercialized model licenses the TX and RX architecture to IC design houses, maximizing royalty revenue through non-exclusive agreements. Moreover, we can provide the design files and layout for the 112Gb/s PAM-4 TRX chip, validated at 28nm, as high-speed SerDes IP. Other related technologies, such as front-end circuit design, CDR and adaptive equalization algorithms, can also be licensed.
National Tsing Hua University (NTHU), established in 1911 and located in Hsinchu, Taiwan, is one of the top research universities in the country. NTHU offers a wide range of programs in fields such as engineering, science, management, and humanities. The university is known for its strong emphasis on innovation, research excellence, and fostering global perspectives. With a commitment to academic rigor and interdisciplinary collaboration, NTHU plays a key role in advancing knowledge and technological development, contributing to both Taiwan’s growth and the global academic community.
112-Gb/s PAM-4 Transceiver for Extra-Short-Reach (XSR) Application
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Technology maturity:Others
Exhibiting purpose:Display of scientific results
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