Overview
Hands-On Learning: Gain real experience in designing, fabricating, and testing electronic circuits.
Industry-Relevant Tools: Learn to use EDA software and essential electronic instruments.
Holistic Skill Development: Includes technical skills, scientific writing, research ethics, and AI awareness.
Digital & Cyber Literacy: Understand cyber safety, legal rights, and responsible digital behaviour.
Project-Based Approach: Build confidence through practical project work and assessments.
Career-Oriented Training: Develop competencies that benefit future studies, internships, and engineering careers.
Short Duration, High Impact: A compact 7-day program delivering maximum skill enhancement.
Our Trainers
Dr. Gourav Shrivastava
Professor,
School of Computer Technology, SAGE University Bhopal M.P.
Dr. Tarun Kanade
Associate Professor
School of Sciences, SAGE University Bhopal M.P.
Dr. Priyanka Gupta
Associate Professor
School of Sciences, SAGE University Bhopal M.P.
Dr. Chandrabhan Makode
Professor
Govt. Motilal Vigyan Mahavidyalaya, Bhopal M.P.
Dr. Sanjay Dixit
Head & Professor
Govt. Motilal Vigyan Mahavidyalaya, Bhopal M.P.
Modules
Module 1: Introduction to electronic components, instruments (CRO, Function Generator) (4 Hours)
Module 2: Analog and Digital electronics (4 Hours)
Module 3: Circuit design using EDA Software (4 Hours)
Module 4: Circuit design using EDA Software (4 Hours)
Module 5: Circuit fabrication and testing (4 Hours)
Module 6: Circuit fabrication and testing (4 Hours)
Module 7: Scientific Writing, Research Ethics & Ethical Use of AI (4 Hours)
Module 8: Cyber Literacy and IPR Rights for Students (4 Hours)
Module 9: Hands-On / Practical Training (4 Hours)
Module 10: Assessment & Project Work (4 Hours)
Outcomes
1. Students will be able to operate electronic instruments, interpret signals and design basic analog and digital circuits.
2. Students will understand the fundamentals of circuit design using EDA tools and gain hands-on experience in fabrication and testing of electronic circuits.
3. Students will develop competency in scientific writing, research ethics and the ethical use of artificial intelligence in academic and technical work.
4. Students will understand the principles and significance of cyber literacy, IPR rights, patents, copyrights and innovation ethics.
5. Students will build digital safety skills and recognize common cyber threats and safe online practices.
6. Students will apply prompt engineering techniques to enhance problem-solving in electronics, physics and computational tasks.
7. Students will gain introductory exposure to AI applications, simulations and emerging concepts related to advanced scientific computing.
