.png&w=1920&q=75)
MTECH in Digital Electronics at Dayananda Sagar Academy of Technology and Management
Bengaluru, Karnataka
.png&w=1920&q=75)
About the Specialization
What is Digital Electronics at Dayananda Sagar Academy of Technology and Management Bengaluru?
This Digital Electronics & Communication Engineering program at Dayananda Sagar Academy of Technology and Management focuses on advanced concepts in digital system design, embedded systems, VLSI, and modern communication networks. It aims to equip students with the expertise needed to design, develop, and analyze complex electronic systems crucial for India''''s rapidly growing electronics manufacturing and telecommunications sectors. The program emphasizes both theoretical foundations and practical application, preparing graduates for cutting-edge roles.
Who Should Apply?
This program is ideal for engineering graduates with a background in Electronics & Communication, Electrical & Electronics, Telecommunication, or allied fields who aspire to specialize in hardware design, embedded systems, and advanced communication technologies. It suits fresh graduates seeking entry into R&D roles as well as working professionals looking to upskill and gain a competitive edge in the evolving Indian tech landscape, particularly in areas like IoT, AI hardware, and 5G communication infrastructure development.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding careers as VLSI design engineers, embedded software developers, digital system architects, network specialists, or R&D engineers in leading Indian and multinational companies. Entry-level salaries typically range from INR 4-8 lakhs per annum, with significant growth potential as experienced professionals. The program aligns with industry demands for professionals in areas like semiconductor design, smart devices, and next-generation communication infrastructure within India.
Student Success Practices
Foundation Stage
Strengthen Core Digital & Embedded Concepts- (Semester 1-2)
Actively engage with advanced digital system design, CMOS VLSI, and embedded system fundamentals. Regularly solve problems from textbooks and online platforms like NPTEL or Coursera for deeper understanding. This foundational knowledge is crucial for advanced projects and cracking technical interviews in core electronics companies.
Tools & Resources
NPTEL courses, Coursera, Textbooks on VLSI and Embedded Systems
Career Connection
Building strong fundamentals enables students to excel in technical screening rounds and provides a robust base for specialized roles in chip design and embedded software development.
Hands-on Lab Proficiency- (Semester 1-2)
Maximize practical learning in labs for Advanced Digital System Design and Advanced Embedded Systems. Get comfortable with tools like Xilinx ISE/Vivado, Verilog/VHDL, and ARM microcontroller development environments. Building robust practical skills early on distinguishes candidates in the Indian job market, especially for roles in hardware design and firmware development.
Tools & Resources
Xilinx ISE/Vivado, Keil uVision, FPGA/ARM development boards
Career Connection
Practical expertise leads to better performance in coding and hardware implementation tasks during interviews, crucial for hands-on engineering roles.
Explore Electives Strategically- (Semester 1-2)
Carefully choose elective subjects (e.g., Machine Learning, IoT, Medical Electronics) based on evolving industry trends and personal career interests. Attend introductory workshops or online courses related to these fields to gain a preliminary understanding before making a selection, ensuring specialization aligns with future job prospects in India''''s diverse tech ecosystem.
Tools & Resources
Online MOOCs, Industry workshops, Career counseling
Career Connection
Strategic elective choices help in developing a niche skill set, making graduates more marketable for specialized roles in emerging technologies within India.
Intermediate Stage
Initiate Research & Project Work Early- (Semester 3)
Proactively identify potential project areas and faculty mentors for Phase 1 of the Project Work. Start literature reviews, understand research methodologies, and outline initial designs. A well-defined and innovative project significantly enhances resumes for higher studies or specialized roles in Indian R&D firms.
Tools & Resources
IEEE Xplore, Google Scholar, ResearchGate, Department faculty
Career Connection
A strong project demonstrates problem-solving abilities and research aptitude, highly valued for R&D positions and academic pursuits.
Seek Relevant Industry Internships- (Semester 3)
Actively pursue internships in companies specializing in VLSI, embedded systems, or communication technologies. Utilize university career services, professional networks, and platforms like LinkedIn to secure positions. Real-world industry experience is invaluable for understanding company culture, applying theoretical knowledge, and securing pre-placement offers in the competitive Indian market.
Tools & Resources
LinkedIn, Internshala, College placement cell
Career Connection
Internships provide practical exposure, enhance networking, and often lead to full-time job offers, giving a significant edge in placements.
Develop Strong Presentation & Technical Writing Skills- (Semester 3)
Focus on refining technical seminar presentations and project reports. Seek feedback from professors and peers. Clear and concise communication of complex technical ideas is a highly valued skill in Indian engineering roles, essential for research, project documentation, and client interactions.
Tools & Resources
Grammarly, Microsoft PowerPoint, Department workshops
Career Connection
Effective communication skills are critical for project discussions, client presentations, and professional growth in any technical role.
Advanced Stage
Intensive Project Implementation & Validation- (Semester 4)
Dedicate significant effort to the second phase of project work, focusing on implementation, rigorous testing, and detailed analysis. Ensure the project delivers tangible outcomes and addresses a relevant problem. A high-quality, impactful project is often the key differentiator in job interviews for senior engineering roles in India.
Tools & Resources
Simulation software, Hardware prototypes, Testing equipment
Career Connection
A well-executed project acts as a powerful portfolio piece, showcasing practical skills and innovation to potential employers, especially for R&D and design roles.
Master Placement Preparation (Technical & Aptitude)- (Semester 4)
Engage in focused preparation for placements, including extensive practice of technical questions related to digital electronics, embedded systems, and communication. Also, hone quantitative aptitude, logical reasoning, and verbal ability skills crucial for campus recruitment drives at Indian IT and core engineering companies.
Tools & Resources
GeeksforGeeks, IndiaBix, Online mock tests, Career guidance cell
Career Connection
Comprehensive preparation increases the chances of clearing company aptitude tests and technical interviews, leading to successful placements.
Network and Professional Engagement- (Semester 4)
Attend industry conferences, workshops, and tech talks in Bengaluru to network with professionals and stay updated on the latest technological advancements. Join professional bodies if relevant. Building a strong professional network can open doors to diverse career opportunities and mentorship, which is highly beneficial in the Indian corporate landscape.
Tools & Resources
Professional associations (e.g., IEEE), Industry events, LinkedIn
Career Connection
Networking provides insights into industry trends, potential job leads, and mentorship opportunities, accelerating career progression.
Program Structure and Curriculum
Eligibility:
- B.E./B.Tech. in ECE / EEE / EIE / Telecommunication Engg./Instrumentation Technology / Medical Electronics and allied branches (as per DSATM official page), with valid GATE score or PGCET score (as per VTU norms)
Duration: 4 semesters
Credits: 88 Credits
Assessment: Internal: 50%, External: 50%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 20MDE11 | Advanced Engineering Mathematics | Core | 4 | Linear Algebra, Numerical Methods, Transform Techniques, Probability Theory, Random Variables |
| 20MDE12 | Advanced Digital System Design | Core | 4 | Combinational Logic, Sequential Logic, Hardware Description Languages, System Design using PLDs, Fault Modeling |
| 20MDE13 | Advanced Embedded System | Core | 4 | Embedded Processors, ARM Processor Architecture, Real-Time Operating Systems, Memory Organization, Embedded System Design |
| 20MDE14 | CMOS VLSI Design | Core | 4 | MOS Transistor Theory, CMOS Logic Gates, Layout Design Rules, Fabrication Technologies, Digital CMOS Circuits |
| 20MDE15 | Object Oriented Programming with C++ | Elective (Group 1) | 3 | OOP Concepts, Classes and Objects, Inheritance and Polymorphism, Exception Handling, Templates |
| 20MDE16 | Satellite Communication | Elective (Group 1) | 3 | Satellite Orbits, Link Design, Earth Station Technology, Multiple Access Techniques, VSAT Systems |
| 20MDE17 | Medical Electronics | Elective (Group 1) | 3 | Biopotential Electrodes, Biomedical Signal Acquisition, Medical Imaging Systems, Therapeutic Equipment, Telemedicine |
| 20MDE18 | Machine Learning | Elective (Group 1) | 3 | Supervised Learning, Unsupervised Learning, Neural Networks, Deep Learning Basics, Reinforcement Learning |
| 20MDEL19 | Advanced Digital System Design Lab | Lab | 2 | FPGA Design Flow, Verilog/VHDL Programming, Xilinx ISE/Vivado Tools, Digital Logic Implementations |
| 20MDEL29 | Advanced Embedded System Lab | Lab | 2 | ARM Processor Interfacing, RTOS Implementation, Device Driver Development, Embedded C Programming |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 20MDE21 | Advanced Microcontrollers and DSP | Core | 4 | ARM Cortex-M Processors, Peripherals and Interfacing, DSP Processor Architectures, Digital Filter Design, Wavelet Transforms |
| 20MDE22 | Advanced Communication Networks | Core | 4 | Network Protocols, TCP/IP Suite, Wireless and Mobile Networks, Network Security, Quality of Service (QoS) |
| 20MDE23 | MEMS & NEMS | Core | 4 | Microfabrication Techniques, MEMS Devices (Sensors, Actuators), NEMS Principles, Packaging of MEMS, Applications |
| 20MDE24 | Internet of Things | Core | 4 | IoT Architecture, Sensors and Actuators, Communication Protocols (e.g., MQTT), Cloud Computing for IoT, IoT Security |
| 20MDE25 | High-Performance Computer Networks | Elective (Group 2) | 3 | High-Speed Network Technologies, Network Performance Analysis, Traffic Management, Optical Networks, Software Defined Networking (SDN) |
| 20MDE26 | Bio-Medical Signal Processing | Elective (Group 2) | 3 | ECG Signal Processing, EEG Signal Analysis, Noise Reduction Techniques, Feature Extraction, Signal Classification |
| 20MDE27 | Ad Hoc Wireless Networks | Elective (Group 2) | 3 | MAC Protocols for Ad Hoc Networks, Routing Protocols, Multicasting Protocols, QoS in Ad Hoc Networks, Security in Ad Hoc Networks |
| 20MDE28 | Digital System Design Using Verilog | Elective (Group 2) | 3 | Verilog HDL Fundamentals, Behavioral Modeling, Dataflow Modeling, Gate-Level Modeling, Synthesis of Verilog Code |
| 20MDEL29 | Advanced Microcontrollers and DSP Lab | Lab | 2 | ARM Cortex-M Programming, DSP Processor Applications, Digital Filter Implementation, Real-time System Development |
| 20MDEL39 | Advanced Communication Networks Lab | Lab | 2 | Network Simulation Tools (e.g., NS2, QualNet), Protocol Analysis, Wireless Network Configuration, Network Performance Measurement |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 20MDE31 | Research Methodology & IPR | Core | 3 | Research Problem Formulation, Data Collection Methods, Report Writing, Intellectual Property Rights, Patents and Copyrights |
| 20MDE32 | Technical Seminar | Core | 2 | Literature Survey, Technical Presentation Skills, Report Writing, Critical Analysis |
| 20MDE33 | Internship | Core | 8 | Industrial Exposure, Practical Skill Application, Report Preparation, Presentation of Work |
| 20MDE34 | Project Work - Phase 1 | Core | 6 | Problem Identification, Literature Review, Methodology Development, Initial Design and Planning |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 20MDE41 | Project Work - Phase 2 | Core | 20 | Design Implementation, Testing and Validation, Performance Analysis, Thesis Writing, Project Defense |
