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Nov 23, 2024
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BME 3710 - Biomedical Instrumentation I2 lecture hours 2 lab hours 3 credits Course Description This course focuses on the fundamental devices, circuitry, and techniques needed to acquire and preprocess biomedical signals. Operating principles of basic semiconductor devices as well as their application are explained. The electrical characteristics of diodes, photodiodes, Zener diodes, LED, regulators, and BJT transistors are covered. Switched mode power supplies are introduced as an application. Filtering principles and filer types are demonstrated in detail. Additionally, operational amplifiers are studied and used in multiple amplifier and filter circuits to preprocess signals. Non-ideal op amp properties are treated in sufficient depth to permit design of high gain circuits capable of handling small DC and low frequency biomedical signals. Prereq: ELE 2011 (quarter system prereq: EE 2070) Note: This course is not available to students with credit for ELE 3101 . This course meets the following Raider Core CLO Requirement: Integrate Learning Course Learning Outcomes Upon successful completion of this course, the student will be able to:
- Utilize semiconductor theory to explain the behavior of diodes and transistors
- Utilize diodes as sensor, rectifiers, and regulators
- Design different types of power supplies
- Implement basic amplifier circuits and utilize simulation tools to verify circuit outputs
- Determine suitability of an amplifier to a certain application through datasheets
- Design basic passive and active filters to preprocess signals
- Predict the overall performance of cascaded processing modules
- Design circuitry to generate periodic voltage or current waveforms
- Assess the stability of feedback systems with respect to oscillation
- Assess the effect of non-ideal operational amplifier properties on circuit performance
- Identify the design blocks of a biomedical instrument/measuring device
- Analyze the functionality and performance of a used amplifier circuit through simulation
- Design electronic circuitry using operational amplifiers to amplify the signals produced by resistive pressure transducers
Prerequisites by Topic
- Analysis of single op-amp non-standard configurations
- Dependent source modeling
- Laplace transform circuit analysis concepts
- Transfer functions in the complex frequency(s) domain
- First and second-order circuit analysis in the S domain with initial condition models
Course Topics
- Semiconductor fundamentals
- Diode fundamentals and applications
- Conventional power supplies
- Principles of switching using BJT transistors
- Switched mode power supplies
- Amplification concepts using simple 3-element models: cascading and loading effects
- Amplifier implementation using operational amplifiers: inverting, non-inverting, summing amplifiers
- Difference amplifiers and fundamentals of instrumentation amplifiers
- Filtering principles, low pass, high pass, band stop, and band pass.
- Passive analog filters
- Active analog filters.
- First and second order filters implemented with op amps, low pass, high pass, and band pass
- Static non-ideal op amp characteristics: offset voltages and bias currents, finite gain and input and output resistances
- Dynamic non-ideal op amp characteristics: finite bandwidth, frequency response, and slew rate
- Stability of feedback amplifiers
- Positive feedback, hysteresis, and relaxation oscillators
- Timing circuits
- Instrumentation for physiologic pressure measurements: Hands-on end of term project
Laboratory Topics
- Characteristics of the rectifier diodes and LED
- Design and implement circuits containing diodes and Zener diodes.
- Design and implement a power supply
- Design, simulate, and implement basic amplifiers using op amps
- Investigation of non-ideal operational amplifier characteristics
- Analog integration of signals.
- Design, simulate, and implement analog filters
- Linear, sinusoidal oscillator or relaxation oscillator implementation
- Design, simulate, and implement a simple Hysteresis Function Generator
- Simulate and implement a basic instrumentation Amplifier circuit
- Physiologic pressure measurements: Hands-on end of term project
Coordinator Dr. Ahmed Sayed
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