Design criteria for low distortion in feedback opamp circuits /

"Broadband opamps for multi-channel communication systems place strong demands on linearity performance. When these opamps are integrated in deep sub-micron CMOS technologies, the signal-swing has to occupy a large part of the rather low supply voltage to maintain the signal-to-noise ratio. To...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Hernes, Bjørnar
Otros Autores: Sæther, Trond
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Boston : Kluwer Academic Publishers, ©2003.
Colección:Kluwer international series in engineering and computer science ; SECS 720.
Kluwer international series in engineering and computer science. Analog circuits and signal processing.
Temas:
Operational amplifiers > Design and construction.
Electric distortion > Prevention.
Feedback amplifiers.
Amplificateurs à contre-réaction.
TECHNOLOGY & ENGINEERING > Electronics > Circuits > VLSI & ULSI.
TECHNOLOGY & ENGINEERING > Electronics > Circuits > Logic.
COMPUTERS > Logic Design.
Feedback amplifiers
Operational amplifiers > Design and construction
Andre fag (naturvidenskab og teknik) > Andre fag.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Ch. 1. Introduction
  • Ch. 2. Specification and Analysis of Nonlinear Circuits
  • 2.1. Linearity Specifications
  • 2.2. Volterra Series
  • 2.3. Phasor Method
  • Ch. 3. Biasing and Opamp Modeling for Low Distortion
  • 3.1. Biasing for Robust Linearity Performance
  • 3.2. Opamp Modeling for Nonlinear Analysis
  • Ch. 4. Nonlinear Analyzes of Feedback Miller Opamp
  • 4.1. The Non-Inverting Configuration
  • 4.2. The Inverting Configuration
  • Ch. 5. Opamp Circuits with High Linearity Performance
  • 5.1. Measurement System
  • 5.2. A 1.8V CMOS Opamp with -77.5dB HD2 and HD3 at 80MHz
  • 5.3. A 3.3V CMOS Opamp with -80dB HD3 at 80 MHz
  • 5.4. A 3.3V CMOS Current Opamp with -63dB HD3 at 100MHz
  • 5.5. A 3.3V CMOS Unity-Gain Opamp with -80dB HD3 at 10MHz
  • Ch. 6. Conclusions and Discussions
  • 6.1. Opamp Topologies Versus Linearity
  • App. A. Transistor Model
  • App. B. Closed Loop Opamp Transfer Functions
  • App. C. Open Loop Opamp Transfer Functions.

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