Course Outcome

Program Outcomes (PO)

PO1 – Electronics Knowledge:
Apply knowledge of Mathematics, Electronics Science, and Physics for solving problems and modeling.

PO2 – Problem Analysis:
Design of experiments using new electronic tools. Analyzing those designs and enabling one to make their own projects. This helps to identify, formulate, research, and analyze difficult electronic problems.

PO3 – Electronics and Society:
Develop new techniques for helping society using Electronics. Understand and correctly interpret the impact of electronics for global solutions.

PO4 – Modern Tool Usage:
Apply appropriate techniques, resources, and modern tools (IT tools) to complex electronic activities and research. This includes using Arduino boards and interfacing with Blinking of an LED, LCD, IR Sensor, Gas Sensor, Heartbeat Sensor, Stepper Motor.

PO5 – Investigation of Complex Problems:
Using research-based knowledge and research methods, including designing experiments and analyzing data.

PO6 – Life-Long Learning:
Engage in life-long learning; demonstrate knowledge and understanding of the issues related to their domain.

Program Specific Outcomes (PSO)

PSO1: Understand the basic concepts and apply the knowledge of Electronics and Physics fundamentals.

PSO2: Analyze the circuit concepts, Basics of Physics, and Electronics.

PSO3: Perform procedures as per the laboratory standards in the areas of Basic Electronics, Digital Electronics, Basic Physics, Amplifiers and Oscillators, C and C++ Programming, Microprocessor, Microcontroller, and Real-Time Embedded Systems.

PSO4: Understand the concepts and applications of Electronics in Medicine, Antenna, Television, Computer Networks, Python, Arduino, Raspberry Pi, Consumer Electronics, Robotics, and Automation.

PSO5: Acquire the strategies of problem-solving in electronic circuits.

PSO6: Develop research-oriented skills.

PSO7: Understand how to handle sophisticated instruments.

Course Outcomes (CO)

• Recognize diodes as rectifiers
• Identify the operation of transistors as switching circuits
• Compare the operation of transistors and FETs
• Describe the fundamental operation of semiconductor electronic devices.

• Describe the basic principles of communication systems
• Differentiating analog and digital communication systems
• Demonstrate the parameters for various types of modulation and demodulation techniques
• Identify basic communication problems
• Analyze transmitter and receiver circuits
• Compare design issues, advantages, disadvantages, and limitations of communication systems
• Define satellite systems
• Differentiating the advantages and disadvantages of geostationary satellites

• Implement programs using functions, pointers, and structures in C language
• Implement files and perform file operations
• Perform the execution of programs written in C language
• Identify the C code for a given algorithm

• Describe the architecture of the 8085 microprocessor
• Analyze assembly language programs
• Implement program efficiency using various addressing modes
• Perform interfacing of memory & various I/O devices with the 8085 microprocessor

• Explain the OSI Reference Model
• Analyze the requirements for a given organizational structure and select the most appropriate networking architecture and technologies
• Describe the functions of physical, data link, and network layers in the OSI model
• Define the transport, session, and presentation layers

• Explain the Arduino environment and its applications
• Design smart systems applications
• Implement circuits using Arduino
• Perform Raspberry Pi using the programming language Python
• Analyze IoT-based applications

• Describe the origin of biopotentials and explain the role of biopotential electrodes
• Design and operate biopotential amplifiers
• Describe common biomedical signals and distinguish characteristic features
• Measure biomedical information
• Demonstrate the position of biomedical instrumentation in modern hospital care
• Explain physiological assist devices and computer applications

• Explain the functions of a microwave oven
• Perform electronic fund transfer and online ticketing
• Describe the working of an air conditioner and refrigerator
• Define the basics behind facsimile machines, calculators, and digital clocks