Abstract
Research in recent years has demonstrated that intra and inter-chip wireless interconnects are capable of establishing energy-efficient data communications within as well as between multiple chips. This paper presents a circuit level design of an energy-efficient millimeter wave (mm-wave) on-off keying (OOK) transmitter suitable for such wireless interconnects in 45-nm CMOS process. The transmitter consists of an NMOS cross-coupled VCO, an OOK modulator and a power amplifier. The transmitter is able to achieve maximum modulation data rate of 16Gb/s at 60GHz with the output power of - 3dBm consuming a total power of 3.9mW, which translates to a bit-energy efficiency of 0.24pJ/bit.
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Shinde, T., Subramaniam, S., Deshmukh, P., Ahmed, M. M., Indovina, M., & Ganguly, A. (2018). A 0.24pJ/bit, 16Gbps OOK transmitter circuit in 45-nm CMOS for inter and intra-Chip wireless interconnects. In Proceedings of the ACM Great Lakes Symposium on VLSI, GLSVLSI (pp. 69–74). Association for Computing Machinery. https://doi.org/10.1145/3194554.3194575
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