Paper Title
AMPLIFIER DESIGN USING BULK DRIVEN CIRCUIT TECHNIQUES
Abstract
This paper presents the design and analysis of amplifiers using bulk-driven circuit techniques, offering significant advancements over traditional amplifier designs. Conventional amplifier architectures often suffer from limitations such as restricted bandwidth, high power consumption, and sensitivity to process variations. Bulk-driven techniques, however, enable enhanced performance by utilizing the bulk terminal of MOSFETs as an additional input, leading to improvements in linearity, power efficiency, and bandwidth. Through detailed simulations using LTspice, various amplifier topologies were evaluated, demonstrating the superior performance of bulkdriven designs in comparison to conventional amplifiers. This study also explores the practical applications and integration challenges of bulk-driven amplifiers, highlighting their potential to revolutionize electronic systems in fields such as communication, audio amplification, and medical instrumentation.
Keywords - Bulk-Driven Amplifiers, Circuit Design, Linearity, Bandwidth, Power Efficiency, MOSFET, Ltspice Simulation, Noise Performance, Analog Circuits, Mixed-Signal Circuits.