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DESIGN CRITERIA FOR LOW DISTORTION IN FEEDBACK OPAMP CIRCUITS 1st Edition by BjÃ¸rnar Hernes, Trond SÃ¦ther ISBN 9780306480133 0306480131

Name: DESIGN CRITERIA FOR LOW DISTORTION IN FEEDBACK OPAMP CIRCUITS 1st Edition by BjÃ¸rnar Hernes, Trond SÃ¦ther ISBN 9780306480133 0306480131
SKU: EB-19864
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Authors:BjÃ¸rnar Hernes; Trond SÃ¦ther , Author sort:Hernes, BjÃ¸rnar & SÃ¦ther, Trond , Published:Published:Jan 2005

SKU: EB-19864 Category: eBook PDF Tags: BjÃ¸rnar Hernes, DESIGN CRITERIA, LOW DISTORTION, Trond SÃ¦ther

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DESIGN CRITERIA FOR LOW DISTORTION IN FEEDBACK OPAMP CIRCUITS 1st Edition by Bjørnar Hernes, Trond Sæther – Ebook PDF Instant Download/Delivery. 9780306480133 ,0306480131
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Product details:
ISBN 10: 0306480131
ISBN 13: 9780306480133
Author: Bjørnar Hernes, Trond Sæther

Broadband opamps for multi-channel communication systems have 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 obtain opamps with low distortion it is necessary to do a thorough analysis of the nonlinear behaviour of such circuits and this is the main subject of Design Criteria for Low Distortion in Feedback Opamp Circuits. The biasing of each transistor in the circuit is a major issue and is addressed in this work. It is important to bias the transistor such that the distortion is low and stable in the entire range of its terminal voltages. This will ensure high linearity and robustness against variations in circuit conditions such as power supply voltage, bias current and process variations. Design Criteria for Low Distortion in Feedback Opamp Circuits is written for .

DESIGN CRITERIA FOR LOW DISTORTION IN FEEDBACK OPAMP CIRCUITS 1st Edition Table of contents:

Part I: Fundamentals of Operational Amplifiers and Feedback Systems

The Operational Amplifier: Characteristics and Models
- Basic Op-Amp Structure and Functionality
- Open-Loop Gain, Frequency Response, and Linearity
- Internal Nonlinearity in Op-Amps
- Frequency Domain Characteristics of Op-Amps
- The Role of Negative Feedback in Linearization
Feedback Mechanisms in Op-Amp Circuits
- Types of Feedback: Voltage, Current, and Series/Parallel
- Stability Considerations in Feedback Circuits
- Effects of Feedback on Linearity and Distortion
- Feedback Networks and Their Impact on Performance

Part II: Sources of Distortion in Feedback Op-Amp Circuits

Nonlinearities and Their Impact on Circuit Behavior
- Types of Nonlinearities in Op-Amps: Saturation, Crossover, and Harmonics
- Distortion due to Internal Op-Amp Factors: Slew Rate, Offset, and Bias Current
- Temperature Effects and Their Influence on Distortion
- Sources of Distortion in Active and Passive Components
Distortion Mechanisms in Feedback Systems
- The Role of Harmonic Distortion in Op-Amp Circuits
- Intermodulation Distortion and Its Effects on Signal Integrity
- Nonlinear Feedback Effects and Their Consequences
- Distortion in High-Frequency Operation and Bandwidth Constraints

Part III: Design Techniques for Low Distortion

Selecting the Right Op-Amp for Low Distortion
- Key Parameters to Consider: Noise, Gain, and Linearity
- High-Performance Op-Amps for Distortion-Free Operation
- Trade-offs Between Performance, Power, and Cost
- Matching Op-Amps to Circuit Requirements
Feedback Network Design for Minimizing Distortion
- Linearizing Feedback Paths to Reduce Distortion
- Choosing the Right Feedback Resistors and Capacitors
- Techniques for Improving Linearity: Error Correction and Compensation
- Optimizing Feedback Topologies for Specific Applications
Power Supply Design for Low Distortion
- Power Supply Noise and Its Effect on Op-Amp Performance
- Design of Low-Noise and Low-Distortion Power Supplies
- The Role of Decoupling Capacitors in Distortion Reduction
- Minimizing Power Supply Ripple in Sensitive Circuits
Compensation and Error Correction Methods
- Internal Compensation for Low Distortion
- Techniques for Minimizing Offset and Bias Errors
- Digital and Analog Correction Methods for Distortion Reduction
- Adaptive Techniques in Feedback Circuits

Part IV: Advanced Topics in Low-Distortion Op-Amp Circuits

High-Speed Op-Amp Circuits and Distortion Control
- Distortion in High-Speed and High-Frequency Applications
- Managing Slew Rate and Settling Time for Low Distortion
- Techniques for High-Frequency Compensation
- Applications in Communication and Signal Processing Systems
Low Distortion in Audio and Precision Instrumentation Circuits
- Audio Amplifiers and Their Distortion Sensitivity
- Designing High-Fidelity Audio Circuits with Low Distortion
- Precision Instrumentation and Measurement Systems
- Feedback Considerations for High-Accuracy Circuits
Low-Distortion Designs in Mixed-Signal Systems
- Analog-Digital Interface Issues and Distortion Management
- Low Distortion in Data Converters and Signal Processing Systems
- Mixed-Signal Design for High-Precision Applications
- Managing Distortion in Digital Feedback Control Systems

Conclusion
13. Future Directions in Low Distortion Feedback Op-Amp Design
– Emerging Trends in Op-Amp Technology
– Advances in Feedback Theory and Nonlinear Control
– The Role of Low-Distortion Circuits in Modern Electronics
– Challenges and Opportunities in the Field

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