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Dec 21, 2024
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ELT 143 Pulse Circuit Fundamentals
Lecture Hours: 2
Lab Hours: 3
Credits: 3
Introduces the theory, analysis and operation of discrete pulse waveform circuits. Promotes and supports sustainable and green technologies
Prerequisite: ELT 141 with a grade of C or better; or consent of instructor.
Student Learning Outcomes:
- Perform basic design and analysis calculations for transistor switches, Schmitt triggers, discrete multivibrators, and other switching and pulse circuits and their characteristic waveforms.
- Construct, evaluate, and troubleshoot pulse generation and shaping circuits, using both hardware and software test and measurement techniques.
- Document the design, analysis, construction, and measurement techniques of pulse circuits through formal technical laboratory reports.
Content Outline
- Introduction to Pulse Waveform Characteristics
- Duty cycle
- Pulse Repetition Rate - prr
- Pulse Width - tpw
- Leading/Trailing Edges - risetime tr, falltime tf
- Fourier Analysis of Pulse Waveforms
- Basic Transistor Switch Circuits
- Switching Times
- Speedup Capacitor
- Inverters
- Discrete Schmitt Trigger Circuits
- Basic Schmitt-Trigger Circuit Operation
- Designing for UTP and LTP
- Speedup Capacitor
- Characteristic Schmitt-Trigger Waveforms
- Discrete Multivibrators
- Monostable
- Astable
- Bistable
- Triggering Circuits
- Integrated Circuit Multivibrators
- 555 Timer Operation
- 555 Timer Application Circuits
- Other IC Multivibrators
- Discrete Sweep/Ramp Generators
- RC Ramp Generators
- Constant Current Ramp Generators
- Transistor Bootstrap Ramp Generators
- Relation to Sustainable and Green Technologies
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