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Book Cover
E-book
Author Enderle, John D. (John Denis)

Title Bioinstrumentation / John D. Enderle
Edition 1st ed
Published Cham, Switzerland : Springer, ©2006
Online access available from:
Synthesis Digital Library    View Resource Record  

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Description 1 online resource (vii, 212 pages)
Series Synthesis lectures on biomedical engineering, 1930-0336 ; #6
Synthesis lectures on biomedical engineering (Online) ; #6.
Contents Introduction -- Basic bioinstrumentation system -- Charge, current, voltage, power and energy -- Charge -- Current -- Voltage -- Power and energy -- Sources -- Resistance -- Resistors -- Power -- Equivalent resistance -- Series and parallel combinations of resistance -- Voltage and current divider rules -- Linear network analysis -- Node-voltage method -- Mesh-current method -- Linearity, superposition and source transformations -- Thevenin's and Norton's theorems -- Thevenin's theorem -- Norton's theorem -- Dependent sources and Thevenin and Norton equivalent circuits -- Inductors -- Power and energy -- Capacitors -- Power and energy -- Inductance and capacitance combinations -- General approach to solving circuits involving resistors, capacitors and inductors -- Discontinuities and initial conditions in a circuit -- Circuits with switches -- Operational amplifiers --Voltage characteristics of the Op amp -- Time-varying signals -- Phasors -- Passive circuit elements in the phasor domain -- Kirchhoff's laws and other techniques in the phasor domain -- Active analog filters -- Bioinstrumentation design -- Noise --Computers -- Exercises
Summary This short book provides basic information about bioinstrumentation and electric circuit theory. Many biomedical instruments use a transducer or sensor to convert a signal created by the body into an electric signal. Our goal here is to develop expertise in electric circuit theory applied to bioinstrumentation. We begin with a description of variables used in circuit theory, charge, current, voltage, power and energy. Next, Kirchhoff's current and voltage laws are introduced, followed by resistance, simplifications of resistive circuits and voltage and current calculations. Circuit analysis techniques are then presented, followed by inductance and capacitance, and solutions of circuits using the differential equation method. Finally, the operational amplifier and time varying signals are introduced. This lecture is written for a student or researcher or engineer who has completed the first two years of an engineering program (i.e., 3 semesters of calculus and differential equations). A considerable effort has been made to develop the theory in a logical manner developing special mathematical skills as needed. At the end of the short book is a wide selection of problems, ranging from simple to complex
Notes Title from PDF title page (viewed Nov. 2, 2006)
Bibliography Includes bibliographical references
Subject Medical instruments and apparatus.
Biomedical engineering -- Instruments
Electric circuits.
Biomedical Engineering -- instrumentation
Electronics, Medical -- instrumentation
Equipment and Supplies
circuits.
MEDICAL -- Instruments & Supplies.
Electric circuits
Medical instruments and apparatus
Form Electronic book
ISBN 1598291335
9781598291339
1598291327
9781598291322
9783031016165
3031016165