Biomedical Engineering Reference
In-Depth Information
CHAPTER
9
Bioinstrumentation
John D. Enderle, PhD
OUTLINE
9.1 Introduction
510
9.10 A General Approach to Solving
Circuits Involving Resistors,
Capacitors, and Inductors
9.2 Basic Bioinstrumentation System 512
551
9.3 Charge, Current, Voltage,
Power, and Energy
9.11 Operational Amplifiers
560
514
9.12 Time-Varying Signals
572
9.4 Resistance
520
9.13 Active Analog Filters
578
9.5 Linear Network Analysis
531
9.14 Bioinstrumentation Design
588
9.6 Linearity and Superposition
537
9.15 Exercises
591
9.7 Th´venin's Theorem
541
Suggested Readings
608
9.8 Inductors
544
9.9 Capacitors
548
AT THE CONCLUSION OF THIS CHAPTER, STUDENTS WILL
BE ABLE TO:
Describe the components of a basic
instrumentation system.
Analyze linear circuits using the node-
voltage method.
Simplify complex circuits using Th
´
venin's
equivalent circuits.
Solve circuits involving resistors, capacitors,
and inductors of any order.
Analyze circuits that use operational
amplifiers.
Determine the steady-state response to
sinusoidal inputs and work in the phasor
domain.
