van der Horst, Marcel J., Serdijn, Wouter A., Linnenbank, André C.
2013, XIV, 300 p. 75 illus., 1 illus. in color.
ABOUT THIS BOOK
Describes design methods that incorporate electromagnetic interference (EMI) in the design of application specific negative-feedback amplifiers
Provides designers with a structured methodology to avoid the use of trial and error in meeting signal-to-error ratio (SER) requirements
Equips designers to increase EMI immunity of the amplifier itself, thus avoiding filtering at the input, reducing the number of components and avoiding detrimental effects on noise and stability
This book enables circuit designers to reduce the errors introduced by the fundamental limitations and electromagnetic interference (EMI) in negative-feedback amplifiers. The authors describe a systematic design approach for application specific negative-feedback amplifiers, with specified signal-to-error ratio (SER). This approach enables designers to calculate noise, bandwidth, EMI, and the required bias parameters of the transistors used in application specific amplifiers in order to meet the SER requirements.
· Describes design methods that incorporate electromagnetic interference (EMI) in the design of application specific negative-feedback amplifiers;
· Provides designers with a structured methodology to avoid the use of trial and error in meeting signal-to-error ratio (SER) requirements;
· Equips designers to increase EMI immunity of the amplifier itself, thus avoiding filtering at the input, reducing the number of components and avoiding detrimental effects on noise and stability.
Content Level » Research
Keywords » Analog Integrated Circuit Design – EMI – EMI-resilient – Electromagnetic Compatibility – Electromagnetic Compatibility Engineering – Electromagnetic Interference – Electromagnetic Interference-resilient – Negative-feedback Amplifier Circuits – Signal-to-Error Ratio
Related subjects » Applied & Technical Physics – Circuits & Systems – Electronics & Electrical Engineering
TABLE OF CONTENTS
Introduction.- Decreasing the disturbance coupled to amplifiers.- Modelling of active devices.- The Cascode and Differential amplifier stages.- Design of EMI-resilient single-stage amplifiers.- Design of EMI-resilient dual-stage amplifiers.- Realizations.- Conclusions and recommendations.