Department of Electronics Engineering
Designing the future through innovation in electronics, embedded systems, and communication technologies
Our Programs CurriculumWelcome to Electronics Engineering Department
The Department of Electronics Engineering at Government Polytechnic Nainital is dedicated to providing excellence in electronics education and research. Established in 1998, our department has been instrumental in producing skilled electronics engineers who contribute significantly to various industries including telecommunications, embedded systems, and VLSI design.
Our curriculum is designed to meet the evolving demands of the electronics industry, with a focus on analog and digital electronics, communication systems, and embedded systems. We offer state-of-the-art laboratories, experienced faculty, and industry collaborations to ensure our students receive comprehensive education.
Join us to embark on a journey of innovation and technological advancement in the field of electronics engineering.
Vision & Mission
Our Vision
To be a center of excellence in Electronics Engineering education, fostering innovation, cutting-edge technology, and ethical values to produce globally competent electronics engineers who can contribute to technological advancement and societal development.
Our Mission
- Provide quality education in electronics through industry-relevant curriculum
- Foster research, innovation, and emerging technology practices
- Develop technical and professional skills to meet global standards
- Promote ethical values and innovation in electronics design
- Establish strong industry-academia collaborations for mutual growth
Our Programs
Diploma in Electronics Engineering
Our 3-year diploma program in Electronics Engineering is designed to provide students with a strong foundation in analog and digital electronics, communication systems, and embedded systems. The curriculum covers both theoretical concepts and practical applications, preparing students for successful careers in the electronics industry.
Career Opportunities
Detailed Curriculum
Our comprehensive 3-year diploma program covers foundational engineering concepts in the first year and specialized electronics subjects in subsequent years.
Program Structure
The Diploma in Electronics Engineering is a 3-year program divided into 6 semesters. The first year (Semesters 1 & 2) covers common engineering fundamentals, while the remaining semesters focus on specialized electronics subjects.
Subjects:
- English & Communication Skills – I
- Applied Mathematics – I
- Applied Physics – I
- Applied Chemistry – I
- Engineering Graphics – I
- Basic Electronics
- General Workshop Practice – I
- General Proficiency, Industrial Exposure
Learning Outcomes:
- Develop communication (listening, speaking, reading, writing) skills
- Apply algebra, trigonometry, derivatives to solve engineering problems
- Understand fundamentals of physics and chemistry applied in engineering
- Learn basic electronic components and circuits
- Learn to create engineering drawings
- Acquire basic workshop and practical technical skills
Subjects:
- English & Communication Skills – II
- Applied Mathematics – II
- Applied Physics – II
- Applied Chemistry – II
- Environmental Science & Energy Management
- Engineering Graphics – II
- General Workshop Practice – II
- General Proficiency, Industrial Exposure
Learning Outcomes:
- Communicate fluently with improved writing, speaking & listening skills
- Apply integration, differential equations, coordinate geometry, statistics in engineering problems
- Understand laws of physics and chemistry in engineering context
- Acquire awareness of environment, energy use, and sustainability
- Improve drawing and modeling skills
- Apply workshop practices in real-world engineering tasks
| Subject | Learning Outcomes |
|---|---|
| Electronic Devices & Circuits | Understand semiconductor physics, diodes, transistors, amplifiers, oscillators, and power supplies. Analyze and design basic electronic circuits. |
| Digital Electronics | Comprehend number systems, logic gates, Boolean algebra, combinational and sequential circuits, counters, registers, and memory devices. |
| Electrical Technology | Understand basic electrical circuits, AC fundamentals, transformers, motors, and electrical measurements. Apply electrical principles to electronic systems. |
| Network Analysis & Filters | Analyze electrical networks using various theorems, understand transient response, and design passive and active filters. |
| Electronic Instrumentation | Learn about electronic measuring instruments, transducers, signal conditioning, and data acquisition systems. |
| Workshop Practice - I | Gain hands-on experience in PCB design, soldering, component testing, and basic electronic circuit assembly. |
Subjects:
- Analog Integrated Circuits
- Microprocessors & Microcontrollers
- Communication Engineering
- Control Systems
- Power Electronics
- Workshop Practice - II
- Industrial Exposure
Learning Outcomes:
- Design and analyze operational amplifier circuits and applications
- Program and interface microprocessors and microcontrollers for various applications
- Understand analog and digital communication systems, modulation techniques
- Analyze and design control systems for various applications
- Design power electronic circuits for conversion and control of electrical power
- Gain practical skills in electronic circuit design and troubleshooting
- Connect theory with real-world industrial practices
| Subject | Learning Outcomes |
|---|---|
| VLSI Design | Understand VLSI technology, CMOS circuits, layout design, and fabrication processes. Use EDA tools for IC design. |
| Embedded Systems | Design and develop embedded systems using microcontrollers, understand real-time operating systems, and interface various peripherals. |
| Digital Signal Processing | Understand discrete-time signals and systems, Z-transform, DFT, FFT, digital filters, and DSP applications. |
| Advanced Communication Systems | Study microwave engineering, satellite communication, optical communication, and wireless communication systems. |
| Minor Project | Apply knowledge to design and implement an electronics-based project, from concept to prototype development. |
| Industrial Training | Gain real industry exposure, apply theory in practice, work with electronics/embedded systems companies. Build employability skills & professionalism. |
Subjects:
- Internet of Things (IoT)
- Robotics & Automation
- Medical Electronics
- Consumer Electronics
- Major Project
- Employability Skills
- Industrial Exposure, General Proficiency
Learning Outcomes:
- Design and implement IoT systems with sensors, connectivity, and cloud integration
- Understand robotics fundamentals, automation systems, and industrial applications
- Comprehend medical electronic instruments, bio-signals, and diagnostic equipment
- Analyze and troubleshoot consumer electronic products and systems
- Undertake major projects addressing real-world community/industry needs
- Develop employability skills: communication, teamwork, time management, interview preparation
- Gain industrial exposure and workplace ethics
Student Projects Showcase
Our students have developed innovative projects that demonstrate their technical skills and creativity in electronics engineering.
Smart Home Automation
IoT-based home automation system with remote control via mobile app and voice commands.
Health Monitoring System
Wearable device for real-time health parameter monitoring with cloud data storage.
Autonomous Robot
Line-following robot with obstacle avoidance and remote monitoring capabilities.
Solar Tracking System
Dual-axis solar tracker with maximum power point tracking for improved efficiency.
Department Timeline & Achievements
Department Established
Electronics Engineering Department was established with an initial intake of 40 students.
Electronics Lab Expansion
New electronics laboratories established with latest test and measurement equipment.
Industry Collaboration
Signed MoUs with leading electronics companies for student internships and training programs.
Embedded Systems Focus
Introduced advanced embedded systems and microcontroller programming in curriculum.
IoT & Robotics Lab
Established IoT and robotics laboratory with industry partnerships.
VLSI Design
Integrated VLSI design and semiconductor technology into electronics curriculum.
Our Distinguished Faculty
Qualifications
Experience
Specialization
Contact
Electronics Engineering Department Facilities
Specialized labs for circuit design, communication systems, and embedded applications.
Electronics Devices Lab
Hands-on practice with diodes, transistors, and basic circuit design.
Communication Systems Lab
Training on analog, digital, and wireless communication systems.
Microprocessor & Embedded Lab
Programming microcontrollers and embedded systems with real-world hardware.