Titlebook: Design of Low-Voltage CMOS Switched-Opamp Switched-Capacitor Systems; Vincent S. L. Cheung,Howard C. Luong Book 2003 Springer-Verlag US 20

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https://doi.org/10.1007/978-3-030-38200-1ed both by the increasing demand of low-voltage low-power IC designs from most market segments and by the reliability concern under voltage scaling of deep-submicron CMOS processes. While many low-voltage RF circuits [SHA 97, WAN 98, WON 02] have been able to operate at very low supply voltages, and

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From Collective Beings to Quasi-Systemsally not optimal in term of opamp settling consideration, which could easily waive the benefits gained by the double-sampling operation. The settling problem will be investigated by considering a conventional double-sampling SC biquadratic filter. After that, a fast-settling double-sampling SC biquadratic filter architecture will be proposed.

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System Considerations for High-Speed and Low-Power Switched-Opamp Circuits,ally not optimal in term of opamp settling consideration, which could easily waive the benefits gained by the double-sampling operation. The settling problem will be investigated by considering a conventional double-sampling SC biquadratic filter. After that, a fast-settling double-sampling SC biquadratic filter architecture will be proposed.

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Design of Low-Power and High-Level-Integrated Switched-Opamp Circuits, recently low-voltage receiver front-end [UGA 01] has been demonstrated with special SIMOX/CMOS processes of low V., the possibility of integrating 1-V channel-select filter and A/D converter in a CMOS process with high-V. is still unknown.

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Conclusion,lti-phase switched-opamp technique, which enables SC systems to have opamps active at all time. As a result, it significantly improves the compatibility of switched-opamp technique on conventional SC architectures as demonstrated with a circuit prototype of a 1-V SC Pseudo-2-Path Filter.

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0893-3405 itched-opamp architectures and techniques for low-voltage low-power switched-capacitor (SC) systems. Specifically, the book presents a novel multi-phase switched-opamp technique together with new system architectures that are critical in improving significantly the performance of switched-capacitor

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