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B.Tech. (Electronics & Instrumentation Engineering)
B.Tech (Electronics & Instrumentation Engineering)
B.Tech (Electronics & Instrumentation Engineering)
In view of the requirements of the industry and other R & D organizations, the curriculum is designed to give due emphasis on Mathematics, Electronics, (Analog and Digital), Microprocessors and Microcontrollers, Transducers, Fiber Optics, Computer Programming, Computer assisted Measurements, and the latest Instrumentation Techniques.
Objectives
Objectives
- To develop and apply mathematics, science and engineering skills to identify, formulate, and solve electrical / electronic / instrumentation engineering problems.
- To use industry standard tools to analyse, design, develop and test computer-based systems containing instrumentation and software components.
- To understand and assimilate new trends in engineering / technology.
- To equip students to apply theoretical knowledge to real-world engineering problems and to manage complex engineering projects.
- To encourage continuous knowledge and skill development; to work effectively as a member of a multi-disciplinary development team.
| University Core Courses | |
| Course Title | Credits |
| English for Engineers – I | 3 |
| English for Engineers – II | 3 |
| Foreign Language | 2 |
| Environmental Studies | 3 |
| Computer Programming and Problem Solving | 3 |
| Multivariable calculus and Differential Equations | 4 |
| Modern Physics | 4 |
| Engineering Chemistry | 4 |
| Ethics and Values | 3 |
| Comprehensive Examination | 2 |
| University Elective | |
| Course Title | Credits |
| University Elective-I | 3 |
| University Elective-II | 3 |
| Programme Core Courses | |
| Course Title | Credits |
| Differential and Difference Equations | 4 |
| Animal Physiology and Biotechnology | 3 |
| Complex variables and Partial differential equations | 4 |
| Applied Numerical Methods | 4 |
| Semiconductor Device Physics | 3 |
| Materials and Instrumental Techniques | 4 |
| Management Course –I | 3 |
| Management Course – II | 3 |
| Management Course – III | 3 |
| Applied Mechanics and Thermal Engineering | 4 |
| Engineering Graphics | 2 |
| Workshop Practice - I | 1 |
| Data Structures and Algorithms | 4 |
| Basic Electrical Engineering∗ | 4 |
| Semiconductor Devices and Circuits | 4 |
| Network Theory | 3 |
| Analog Electronic Circuits | 4 |
| Electrical Technology | 4 |
| Engineering Electromagnetics | 3 |
| Transform Techniques for signals | 3 |
| Digital Design | 4 |
| Communication Engineering | 4 |
| Control Systems | 4 |
| Sensors and Signal ConditioningD | 4 |
| Electrical and Electronic Instrumentation | 4 |
| Industrial Instrumentation | 3 |
| Microcontroller and its Applications | 4 |
| Digital Signal Processing | 4 |
| VLSI Design | 4 |
| Process Control | 4 |
| Process Automation | 4 |
| Project Work | 20 |
| Industrial Internship | 2 |
| Programme Elective Courses | |
| Course Title | Credits |
| Object oriented Programming | 3 |
| Nanotechnology Fundamentals & Applications | 3 |
| Computer Architecture & Organization | 3 |
| Optoelectronic Instrumentation | 3 |
| Micro Electro Mechanical Systems | 4 |
| Biomedical Instrumentation | 3 |
| Wireless Sensor Networks | 3 |
| Robotics and Control | 3 |
| Applied Soft Computing | 3 |
| Analog VLSI Design | 3 |
| Digital system Design | 3 |
| Industrial Communication Networks | 3 |
| Instrumentation & control in Petrochemical Industries | 3 |
| Power plant Instrumentation | 3 |
| Embedded System Design | 4 |
| Advanced Microcontrollers | 3 |
| System on Chip Design | 3 |
| Low Power VLSI Design | 3 |
| Digital Image Processing | 3 |
| Industrial Power Electronics | 3 |
| Non-Destructive Testing | 3 |
| Analytical Instrumentation | 3 |
| Fiber Optic Sensors | 3 |
| History of Indian Independence Movement** | 1 |