Analysis and Application of Analog Electronic Circuits to Biomedical InstrumentationThis book introduces the basic mathematical tools used to describe noise and its propagation through linear systems and provides a basic description of the improvement of signal-to-noise ratio by signal averaging and linear filtering. The text also demonstrates how op amps are the keystone of modern analog signal conditioning systems design, and il |
Contents
Chapter 1 Sources and Properties of Biomedical Signals | 1 |
Chapter 2 Models for Semiconductor Devices Used in Analog Electronic Systems | 23 |
Chapter 3 The Differential Amplifier | 141 |
Chapter 4 General Properties of Electronic SingleLoop Feedback Systems | 173 |
Chapter 5 Feedback Frequency Response and Amplifier Stability | 199 |
Chapter 6 Operational Amplifiers | 239 |
Chapter 7 Analog Active Filters | 281 |
Chapter 8 Instrumentation and Medical Isolation Amplifiers | 311 |
Chapter 9 Noise and the Design of LowNoise Amplifiers for Biomedical Applications | 331 |
Chapter 10 Digital Interfaces | 391 |
Chapter 11 Modulation and Demodulation of Biomedical Signals | 431 |
Chapter 12 Examples of Special Analog Circuits and Systems in Biomedical Instrumentation | 467 |
| 539 | |
Back cover | 543 |
Common terms and phrases
4kTR amplifier amplifier’s amplitude Analog Circuits Analog Electronic Circuits Analog Electronic Systems analog multiplier Analysis and Application Application of Analog approximately Assume bandwidth biomedical block diagram Bode plot capacitance capacitor carrier closed-loop CMRR converter demodulation differential diode emitter example feedback Find an expression frequency response GBWP HFSSM high-frequency ideal illustrates impedance integrator JFET leakage linear loop low-noise low-pass filter MFSSM mid-frequency Miller effect Models for Semiconductor modulation MOSFET negative node equation noise noninverting nonlinear Northrop Note op amp oscillator output voltage phase phase detector photon poles pulse resistance resistor root-locus s-plane sampling shown in Figure signal conditioning sinusoidal slew rate small-signal spectrum temperature Thevenin transfer function transistors V₁ VCCS zero
References to this book
Circuits, Signals, and Systems for Bioengineers: A MATLAB-Based Introduction John Semmlow Limited preview - 2005 |