All COs of ECE (UG)
Course Outcomes (COs) – B.Tech in Electronics & Communication Engineering
1. Electronic Devices and Circuits
- CO1: Understand the operation and characteristics of semiconductor devices such as diodes, BJTs, and FETs.
- CO2: Analyze and design basic amplifier and rectifier circuits.
- CO3: Evaluate the performance of electronic circuits using simulation tools.
- CO4: Apply device knowledge to real-world analog circuit problems.
2. Digital Electronics
- CO1: Understand number systems, logic gates, and Boolean algebra.
- CO2: Design combinational and sequential logic circuits.
- CO3: Implement digital circuits using HDL (Hardware Description Language).
- CO4: Use logic analyzers and simulation tools to test digital designs.
3. Signals and Systems
- CO1: Represent and analyze continuous and discrete time signals.
- CO2: Apply convolution and Fourier analysis in signal processing.
- CO3: Evaluate system response using Laplace and Z-transforms.
- CO4: Use MATLAB tools to model and simulate signals and systems.
4. Analog Communication
- CO1: Understand the fundamentals of AM, FM, and PM modulation techniques.
- CO2: Analyze performance of analog communication systems under noise.
- CO3: Design modulators and demodulators for analog communication.
- CO4: Apply analog communication concepts to real-world scenarios.
5. Digital Communication
- CO1: Understand sampling, quantization, and PCM techniques.
- CO2: Analyze error probability in digital modulation schemes.
- CO3: Apply concepts of source and channel coding.
- CO4: Evaluate the performance of digital communication systems.
6. Microprocessors and Microcontrollers
- CO1: Understand architecture and instruction sets of 8085/8051/ARM processors.
- CO2: Write and debug assembly language programs.
- CO3: Interface peripheral devices with microcontrollers.
- CO4: Develop microcontroller-based embedded applications.
7. VLSI Design
- CO1: Understand the principles of CMOS technology and digital IC design.
- CO2: Use HDL for designing combinational and sequential circuits.
- CO3: Simulate and synthesize digital systems using industry tools.
- CO4: Analyze timing, power, and area in VLSI circuits.
8. Antenna and Wave Propagation
- CO1: Understand radiation principles and antenna parameters.
- CO2: Analyze performance of various types of antennas.
- CO3: Evaluate propagation mechanisms and their impact on communication.
- CO4: Design basic antenna systems for wireless applications.
9. Control Systems
- CO1: Model and analyze dynamic systems using differential equations and Laplace transforms.
- CO2: Design and tune controllers using time-domain and frequency-domain techniques.
- CO3: Evaluate stability using Routh-Hurwitz, Bode, and Nyquist plots.
- CO4: Simulate control systems using MATLAB/Simulink.
10. Embedded Systems
- CO1: Understand embedded system design methodologies and real-time constraints.
- CO2: Develop firmware using C and RTOS concepts.
- CO3: Interface sensors, actuators, and communication modules.
- CO4: Build mini-projects for applications in automation, IoT, and robotics.