ABSTRACT
Description In this study, a survey on LNA is presented, and various methodologies for LNA planning are investigated. For high voltage applications, the cascode speaker technique is used to increase data transfer capacity. The acquisition supporting approach is utilised to aid in the speaker’s expansion; the current reuse method can be employed to achieve minimal power dispersion. The planned chip size was to be as tiny as feasible without losing activity speed, hence a memrister-based tuneable inductance LNA was employed to quickly shrink the chip size. The potential of reconfigurable LNAs to chip away at many frequencies with the same circuit is well-known.
