A K/Ka-Band Switchless Reconfigurable 65 nm CMOS LNA Based on Suspended Substrate Coupled Line

Joint Communication and radio Sensing (JC&S) has gained significant attention over the past few years. The advantages of this technology include reduced cost, size and power consumption. With further advancements in JC&S systems, it can potentially be used in next-generation cellular networks, internet-of-things and upcoming applications such as Industry 4.0, where a single system is capable of performing a wide variety of functions or tasks. The inclusion of this technology will result in improved performance and safety of the systems. Even though communication and radio sensing make use of a similar Radio Frequency (RF) front-end, the specifications for both these technologies mainly differ in terms of bandwidth and linearity. In this survey, a detailed study of the specifications of radar and communication was conducted. For the RF front-end to operate efficiently in both radar and communication modes, there must be reconfigurability in terms of frequency, bandwidth, gain and linearity. In this survey, we investigated different frequency, bandwidth, gain and linearity reconfigurable low noise amplifier (LNA) and downconversion mixer architectures. The merits and demerits of each architecture are discussed and a summary of the performance of the reconfigurable LNAs and down-conversion mixers in the literature is presented. Finally, possible topologies for JC&S are deduced based on their performance.INDEX TERMS Frequency reconfiguration, Joint Communication and Sensing, multi-mode LNA, multimode down conversion mixers, reconfigurable RF front-end, variable gain

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A K/Ka-Band Switchless Reconfigurable 65 nm CMOS LNA Based on Suspended Substrate Coupled Line

Cited by 3 publications

References 24 publications

A 28 nm CMOS low-noise amplifier with novel redundant noise cancellation technique beyond ultra-wideband for 6G-based wireless systems

A 28 nm CMOS low-noise amplifier with novel redundant noise cancellation technique beyond ultra-wideband for 6G-based wireless systems

A 18–33 GHz CMOS LNA with 26.7 dB peak gain and 2.8 dB minimum NF for K/Ka-band applications

Realizing Joint Communication and Sensing RF Receiver Front-Ends: A Survey

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