Abstract:
A systematic study of the gain-boosted regulated-cascode operational transconductance amplifier (OTA) CMOS stage is presented. Symbolic analysis is used first to describe...Show MoreMetadata
Abstract:
A systematic study of the gain-boosted regulated-cascode operational transconductance amplifier (OTA) CMOS stage is presented. Symbolic analysis is used first to describe the pole-zero behaviour and second to propose design criteria for optimal settling time. A synthesis procedure based on the "gm/ID" methodology is considered further on for quick optimization of the architecture based on the dc open-loop gain, transition frequency, and settling time specifications. Practical design cases are finally discussed.
Published in: IEEE Journal of Solid-State Circuits ( Volume: 32, Issue: 7, July 1997)
DOI: 10.1109/4.597291
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Symbolic Analysis ,
- Design Criteria ,
- Practical Cases ,
- Settling Time ,
- Transition Frequency ,
- Operational Amplifier ,
- Transfer Function ,
- Current Source ,
- Step Change ,
- Transient Response ,
- Electrical Engineering ,
- Design Space ,
- Parasitic Capacitance ,
- Bias Current ,
- Pole Pairs ,
- Phase Margin ,
- Poles And Zeros ,
- Complex Poles ,
- Closed-loop Response ,
- Open-loop Transfer Function ,
- Catholique De Louvain ,
- Intuitive Analysis ,
- DC Gain ,
- Strong Inversion ,
- Laboratoire De ,
- Thin-film Technology ,
- Design Methodology
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Symbolic Analysis ,
- Design Criteria ,
- Practical Cases ,
- Settling Time ,
- Transition Frequency ,
- Operational Amplifier ,
- Transfer Function ,
- Current Source ,
- Step Change ,
- Transient Response ,
- Electrical Engineering ,
- Design Space ,
- Parasitic Capacitance ,
- Bias Current ,
- Pole Pairs ,
- Phase Margin ,
- Poles And Zeros ,
- Complex Poles ,
- Closed-loop Response ,
- Open-loop Transfer Function ,
- Catholique De Louvain ,
- Intuitive Analysis ,
- DC Gain ,
- Strong Inversion ,
- Laboratoire De ,
- Thin-film Technology ,
- Design Methodology
