EE1223 ELECTRIC CIRCUITS Lab
In this
lab course the student will get hands-on experience to design, construct and
analyze different Electrical circuits. Student will learn Ohm's law, Kirchoff's
current & voltage laws, Resistors in Series & Parallel, Thevenin's &
Norton's, theorem Superposition theorem & Maximum power transfer theorem
verification RC circuit transient analysis & AC sinusoidal analysis. During
this course the student will learn hand on experience on simulation software
"Pspice", Bread board, oscilloscope & Functional generators.
COURSE LEARNING OUTCOMES
| Code | Course Learning Outcomes | ABET SO-KPI
| | Knowledge and understanding | | K1
| Solve Basic Electric circuit problems by using linear algebra and simple calculus. | 1.2 | K1
| Solve practical problem logically using correct theoretical concepts. | 1.6 | | Skills | | | S1 | Use various engineering tools to design, analyze, build, and test electric circuits. | 2.3 | | S2 | Simulate electric circuits using various IDE environments | 6.6 | | S2 | Use engineering Judgment to draw conclusion | 6.7 | | Values, autonomy, and responsibility | | | V1 | Use of Graphs, Tables and Diagrams | 3.3 |
LIST OF EXPERIMENTS
- Introduction to PSpice for Circuit Analysis
- Introduction to Bread board and Resistor color codes
- Verification of Kirchoff's Current Law (KCL)
- Verification of Kirchoff's Voltage Law (KVL)
- Series and Parallel Circuits
- Delta-Wye (Y-Δ) and Bridge Circuit Analysis
- Verification of Superposition Theorem
- Verification of Thevenin's Theorem
- Verification of Norton's Theorem and Source Transformation
- Verification of Maximum Power Transfer Theorem
- The Oscilloscope and Function Generator
- Transient Analysis of First Order RC Circuit
- The Sinusoidal AC Response of R, L, and C Circuits
- Transient Analysis of First Order RL Circuit
- RLC Series and Parallel Resonance (AC Analysis)
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