Low-Noise Electronic System Design
by: C. D. Motchenbacher, J. A. Connelly
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Topics include: narrowband noise figure, transfer voltage gain, quantum interval, total equivalent input noise, supply noise rejection, optimum source resistance, resistor current noise, large source resistance, noise equivalent circuit, fundamental noise mechanisms, noise current generator, shot noise voltage, noise index, popcorn noise, sine wave method, equivalent input noise voltage, noise voltage generator, noise corner frequency, calibrated noise source, capacity multiplier, output noise voltage, sensor impedance, total noise voltage, responding meter, mth node
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First Sentence:
The problems caused by electrical noise are apparent in the output device of an electrical system, but the sources of noise are unique to the low-signal-level portions of the system.
Reflecting the key dramatic changes that have occurred in the electromagnetic compatibility field since the first edition, this updated edition covers noise suppression and control in electronic systems and analog and digital systems. DLC: Electronic circuit design.
The publisher, John Wiley and Sons
Emphasizes IC design concepts with additional support for discrete design where necessary. Describes noise sources and models; addresses practical problems of circuit design for low noise using negative feedback, filtering, component noise, measurement techniques and instrumentation; gives numerous examples of practical amplifier designs. Five chapters cover the use of SPICE and PSpice for low noise analysis and design.
Table of Contents:
FUNDAMENTAL CONCEPTS
Fundamental Noise Mechanisms
Amplifier Noise Model
Noise in Feedback Amplifiers
NOISE MODELING
CAD for Noise Analysis
Noise in Bipolar Transistors
Noise in Field Effect Transistors
System Noise Modeling
Sensors
DESIGNING FOR LOW NOISE
Low-Noise Design Methodology
Amplifier Design
Noise Analysis of D/A and A/D Converters
LOW-NOISE DESIGN APPLICATIONS
Noise in Passive Components
Power Supplies and Voltage References
Low-Noise Amplifier Design Examples
Noise Measurement
Appendices
Index
Reviews:
Noise in Microelectronics
This is the best book that I have read on noise in microelectronic circuits. The noise equations and treatments are compete for bipolar and MOSFETs. The book is written largely from a discrete transistor level, hence is not as familiar to integrated circuit engineers as say Gray and Meyer, but the treatment is extensive, clear and to the best of my knowledge accurate. This is my favorite book on low noise at the transistor level and I have several.