Akinwande, Deji2012-10-302017-05-112012-10-302017-05-112012-08August 201http://hdl.handle.net/2152/ETD-UT-2012-08-6362textDue to variations in process, voltage, and temperature (PVT), amplifiers are almost solely designed for use in a negative feedback loop. The feedback loop mitigates the effect of PVT, however maintaining stability becomes the main design challenge. Further, multi-stage amplifiers with high open-loop gain are used for powering headphone speakers in modern portable electronics. As there are many different headphone manufacturers and compatibility specifications, headphone amplifiers are subjected to a wide variation in capacitive and resistive loads, which further complicates the stability upkeep. This thesis explores a two-stage (Common-Gate Feedback) and three-stage (Impedance Adapting Compensation) amplifier topology with respect to performance under wide load variations. For both compensation topologies, an analytical analysis is presented, followed by a design proposal for a headphone amplifier application. Finally, the trade-offs for maintaining stability under varying loads are discussed.application/pdfengAmplifierCompensationMulti-stageMillerImpedance Adapting CompensationAhujathesis2012-10-302152/ETD-UT-2012-08-6362