| Popis: |
This letter presents a high-gain energy-efficient three-stage amplifier, which employs buffering-based pole relocation and dual-path structure. The proposed design does not rely on the introduction of compensation zero and preserves the unity-gain bandwidth (GBW) of the local feedback loop (LFL). Compared to the topologies using active-zero insertion, the 3rd pole is formed with a much smaller capacitance (parasitic capacitance), enabling it to be placed at a significantly higher frequency while consuming lower power. Moreover, the parasitic pole at the main path is bypassed by using an auxiliary path. Thus, the 3rd pole can be pushed to a higher frequency more easily than the topologies using an active zero. As a result, the GBW of the LFL in the proposed work is less limited. The proposed design improves the state-of-the-art FOM L by 36%, LC-FOM S by 26%, and LC-FOM L by 218%, while preserving robustness of the performance. |
