Electronics and Telecommunication Engineering Syllabus 2026: Core Subjects, Electives, and New AI Modules

The landscape of technical education is shifting rapidly, and the electronics and telecommunication engineering syllabus for 2026 reflects a monumental leap into the future. With the rollout of the National Education Policy (NEP 2020) across major universities like Mumbai University (MU), SPPU, and GTU, the curriculum has been redesigned to bridge the gap between traditional circuit theory and the next generation of intelligent systems.

If you are a student entering the stream in 2026, your academic journey will no longer be confined to just breadboards and soldering. The new electronics and telecommunication engineering syllabus integrates cutting-edge fields such as 6G communication, Quantum Electronics, and Embedded AI, ensuring you are industry-ready for a world driven by hyper-connectivity.

Electronics and Telecommunication Engineering Syllabus

The 2026 academic structure is divided into four distinct phases: Foundation, Core Circuits, Advanced Systems, and Emerging Tech Specializations. While the initial semesters focus on the mathematical rigor of Engineering Mathematics and Physics, the later stages dive deep into high-tech domains.

1. Core Subjects: The Foundation of Modern Electronics

Traditional subjects remain the bedrock of the degree but with a modern twist. In 2026, subjects like Electronic Devices and Circuits (EDC) now emphasize Nano-devices and FinFETs over basic PN junctions.

• Signals and Systems: Updated to include massive data processing and digital twins.

• Analog and Digital Communication: Shifted focus from 4G/LTE to 5G-Advanced and 6G standards.

• Control Systems and Fuzzy Logic: Now includes AI-driven predictive control models.

• Electromagnetics: Advanced antenna design for satellite mega-constellations and Terahertz (THz) communication.

New Inclusions: 6G, Quantum, and Embedded AI

The most significant updates to the electronics and telecommunication engineering syllabus in 2026 are the "Verticals" or specialized modules. These are designed to align with the global "Industry 5.0" standards.

The 6G Revolution

The 2026 syllabus introduces 6G Wireless Standards as a dedicated module. Students explore technologies that promise ultra-low latency and terabit-per-second speeds. Key topics include:

• Holographic Beamforming: Precision signal targeting.

• Massive MIMO: Managing thousands of simultaneous connections.

• Non-Terrestrial Networks (NTN): Integrating satellite links with terrestrial cellular systems.

Quantum Electronics

As classical computing reaches its physical limits, Quantum Electronics has moved from PhD research to the undergraduate level. The curriculum covers Qubit stability, Quantum Key Distribution (QKD) for secure communication, and the hardware required to maintain quantum states.

Embedded AI and Edge Computing

Perhaps the most "humanized" part of the 2026 update is the inclusion of Embedded AI. Instead of running AI on massive cloud servers, students learn to deploy "TinyML" models onto low-power microcontrollers like the ESP32 or custom NPUs (Neural Processing Units). This allows devices like smart wearables or industrial sensors to make autonomous decisions in real-time.

Semester-Wise Breakdown of Subjects (2026 Standard)

The Shift Toward "Simulation-First" Learning

In 2026, the lab experience has undergone a digital transformation. While hands-on PCB fabrication is still vital, the electronics and telecommunication engineering syllabus prioritizes a "Simulation-First" approach.

Students utilize industry-standard tools like Cadence, PSpice, and MATLAB with Deep Learning toolboxes from the very first year. This ensures that by the time you reach your final year project, you can create a "Digital Twin" of your hardware system to test every failure point before even touching a physical component.

Why Choose EXTC in 2026?

The stream has evolved into a multidisciplinary powerhouse. By choosing EXTC, you aren't just an "electronics engineer"—you are a specialist in communication protocols, a designer of intelligent hardware, and a pioneer of quantum-secure networks. The inclusion of Neural Networks and Fuzzy Logic within the core subjects means you are as proficient in writing Python code as you are in analyzing circuit frequency responses.

Related Resources & Guides

For those interested in the broader electrical domain, there are several excellent resources available:

• Read more about Future Trends in Electrical Engineering 2026 published by Mayuri Pawar.

• Explore Smart Grid Technology and AI Integration on Concept Simplified for in-depth technical insights.

Frequently Asked Questions (FAQs)

Q1: Does the 2026 electronics and telecommunication engineering syllabus require heavy coding?

Yes, coding is now integral. The electronics and telecommunication engineering syllabus includes Python for signal processing and C++/Verilog for hardware description and Embedded AI modules.

Q2: What are the new AI modules included in the course?

New modules include Embedded AI (TinyML), Neural Processing Units (NPU) design, and AI-optimized hardware for Edge Intelligence.

Q3: Is Quantum Electronics difficult for undergraduate students?

The 2026 curriculum introduces it through simplified mathematical models and focuses on practical applications like Quantum Key Distribution rather than just theoretical physics.

Q4: Can I switch to software roles after studying this syllabus?

Absolutely. The curriculum provides a strong foundation in Data Structures, Algorithms, and AI, making graduates highly versatile for both hardware and software domains.

Final Thoughts

The EXTC Engineering Syllabus 2026 is no longer just about passing exams; it is about mastering the technologies that will define the next decade. From the chips that power AI to the 6G networks that will connect the planet, this curriculum is your roadmap to innovation.