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B-E-B-TECH in Mechatronics Engineering at Sri Krishna College of Engineering and Technology
Coimbatore, Tamil Nadu
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About the Specialization
What is Mechatronics Engineering at Sri Krishna College of Engineering and Technology Coimbatore?
This Mechatronics Engineering program at Sri Krishna College of Engineering and Technology focuses on the synergistic integration of mechanical engineering, electronics, computer science, and control engineering. With India''''s rapidly growing manufacturing and automation sectors, this program uniquely prepares students for designing, building, and operating intelligent systems, ranging from advanced robotics to smart factory solutions. It emphasizes interdisciplinary skills crucial for modern industrial demands.
Who Should Apply?
This program is ideal for high school graduates with a strong aptitude in Physics, Chemistry, and Mathematics, who are passionate about developing integrated engineering solutions. It also suits individuals seeking careers in automation, robotics, product design, and smart manufacturing. Working professionals looking to upskill in areas like industrial automation, AI in engineering, or IoT integration will find specialized elective tracks beneficial.
Why Choose This Course?
Graduates of this program can expect diverse career paths in automation, robotics, automotive, aerospace, and consumer electronics industries across India. Entry-level salaries typically range from INR 4-6 LPA, growing to INR 8-15+ LPA for experienced professionals. Career growth trajectories lead to roles like Automation Engineer, Robotics Specialist, Systems Integrator, or R&D Engineer in leading Indian and multinational companies.
Student Success Practices
Foundation Stage
Build a Strong Foundational Knowledge- (Semester 1-2)
Dedicate significant effort to mastering core engineering subjects like Linear Algebra, Calculus, Physics, and Electrical/Electronics basics. These form the bedrock for advanced Mechatronics concepts. Utilize NPTEL courses, Khan Academy, and peer study groups to clarify doubts and reinforce learning.
Tools & Resources
NPTEL, Khan Academy, Reference textbooks, Peer study groups
Career Connection
A robust foundation ensures ease in grasping complex concepts in later semesters, which is critical for solving real-world engineering problems and excelling in technical interviews for core companies.
Cultivate Early Programming and Hands-on Skills- (Semester 1-2)
Beyond classroom learning, actively engage in programming practice (Python is fundamental) and hands-on lab experiments. Participate in college''''s technical clubs focused on robotics or coding to build small projects and understand practical applications of theoretical knowledge.
Tools & Resources
HackerRank, CodeChef, Python IDLE/Jupyter, College Robotics Club/Labs
Career Connection
Proficiency in programming and practical skills is highly valued in automation and robotics roles. Early project experience enhances your resume and provides talking points during placements.
Develop Effective Study Habits and Time Management- (Semester 1-2)
Establish a consistent study schedule, prioritize tasks, and practice effective note-taking. Focus on understanding concepts rather than rote learning. Seek guidance from faculty and seniors for effective exam preparation and project management.
Tools & Resources
Planner/Calendar apps, Study groups, Faculty consultation, Online tutorials for study techniques
Career Connection
Good study habits lead to academic excellence, which is a key criterion for scholarships, internships, and placements. Strong time management is a critical professional skill.
Intermediate Stage
Deep Dive into Core Mechatronics Concepts with Simulations- (Semester 3-5)
Focus intensely on subjects like Manufacturing Processes, Fluid Power, Sensors, Microcontrollers, and Control Systems. Utilize simulation software (e.g., MATLAB/Simulink, SolidWorks, Proteus) to visualize and analyze system behaviors, enhancing theoretical understanding.
Tools & Resources
MATLAB/Simulink, SolidWorks, Proteus, NI LabVIEW, Departmental Labs
Career Connection
Mastery of these core areas, complemented by simulation skills, makes you a strong candidate for design, analysis, and development roles in mechatronics industries.
Undertake Mini-Projects and Seek Internships- (Semester 3-5)
Actively participate in mini-projects, building prototypes that integrate mechanical, electronic, and software components. Seek internships during summer/winter breaks in manufacturing, automotive, or automation companies to gain practical industry exposure and apply learned skills.
Tools & Resources
Project funding from college, Industry contacts, Internship portals like Internshala, Linkedln
Career Connection
Practical project experience and internships are crucial for building a professional portfolio, understanding industry practices, and often lead to pre-placement offers.
Certify in CAD/CAM/CAE and PLC Programming- (Semester 3-5)
Become proficient in industry-standard software for CAD (e.g., SolidWorks, AutoCAD), CAM, and CAE (e.g., ANSYS). Pursue basic certifications in PLC programming (e.g., Siemens, Rockwell) to demonstrate specialized skills demanded in manufacturing automation.
Tools & Resources
Autodesk/SolidWorks certifications, Online courses (Coursera, Udemy), Industrial training centers
Career Connection
These certifications directly enhance employability for roles in design, analysis, manufacturing, and industrial automation, showcasing job-ready skills.
Advanced Stage
Specialize through Electives and Advanced Projects- (Semester 6-8)
Strategically choose professional and open electives aligning with your career interests (e.g., AI/ML, Robotics, EV Technology). Undertake complex, interdisciplinary final year projects with real-world impact, potentially aiming for publications or patents.
Tools & Resources
Research papers, Faculty mentors, Incubation centers, Industrial problem statements
Career Connection
Specialized knowledge and high-impact projects differentiate you in the job market, opening doors to R&D, advanced engineering, and entrepreneurial opportunities.
Intensive Placement Preparation and Networking- (Semester 6-8)
Focus on aptitude training, communication skills, and mock interviews. Regularly attend workshops, seminars, and career fairs organized by the college. Network actively with alumni and industry professionals to explore job opportunities and gain insights.
Tools & Resources
Placement cell workshops, LinkedIn, Alumni network events, Online aptitude tests
Career Connection
Comprehensive preparation and a strong professional network significantly increase your chances of securing desirable placements in top companies.
Pursue Advanced Professional Certifications- (Semester 6-8)
Obtain advanced certifications in highly sought-after areas such as Industrial IoT, Robotics Programming (specific platforms like FANUC, KUKA), AI/ML for industrial applications, or Cybersecurity for Mechatronics. These demonstrate readiness for cutting-edge roles.
Tools & Resources
Industry-recognized certification bodies, Online specialized courses, Government skill development programs
Career Connection
Advanced certifications provide a competitive edge, validating your expertise for niche and high-paying roles in the rapidly evolving mechatronics landscape.
Program Structure and Curriculum
Eligibility:
- Candidates must have passed 10+2 (or equivalent) with Physics, Chemistry, and Mathematics (PCM) as core subjects from a recognized board, meeting minimum aggregate percentage criteria as per SKCET/Anna University admission norms.
Duration: 8 semesters / 4 years
Credits: 174 Credits
Assessment: Internal: 50%, External: 50%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21HS101 | Professional English I | Core | 2 | Basic English grammar, Reading comprehension, Vocabulary building, Formal writing, Listening skills, Presentation basics |
| 21MA101 | Linear Algebra and Calculus | Core | 4 | Matrices and determinants, Vector calculus, Differential calculus, Integral calculus, Sequences and series |
| 21PH101 | Engineering Physics | Core | 3 | Quantum physics, Solid state physics, Laser physics, Fiber optics, Nondestructive testing, Applied optics |
| 21CY101 | Engineering Chemistry | Core | 3 | Water technology, Electrochemistry, Corrosion and control, Energy sources, Nanomaterials, Polymers |
| 21ME101 | Engineering Graphics | Core | 3 | Orthographic projections, Isometric views, Sectional views, Perspective projections, CAD fundamentals, Development of surfaces |
| 21CS101 | Problem Solving and Python Programming | Core | 3 | Algorithmic thinking, Python syntax, Control flow, Functions, Data structures, Object-oriented concepts |
| 21CS102 | Problem Solving and Python Programming Lab | Lab | 2 | Python programming practice, Data structure implementation, Algorithmic problem solving, Debugging, File I/O |
| 21GE102 | Engineering Practices Lab | Lab | 2 | Carpentry, Welding, Sheet metal work, Plumbing, Electrical wiring, Machining |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21HS201 | Professional English II | Core | 2 | Advanced grammar, Report writing, Technical communication, Group discussions, Interview skills, Professional ethics |
| 21MA201 | Probability and Statistical Analysis | Core | 4 | Probability theory, Random variables, Probability distributions, Hypothesis testing, Regression analysis, Design of experiments |
| 21PH201 | Materials Science | Core | 3 | Crystal structures, Mechanical properties of materials, Phase diagrams, Heat treatment, Smart materials, Composites |
| 21GE201 | Environmental Sciences and Engineering | Core | 3 | Ecosystems, Pollution control, Waste management, Renewable energy, Environmental ethics, Global environmental issues |
| 21EC201 | Basics of Electrical and Electronics Engineering | Core | 3 | Circuit laws, AC/DC circuits, Diodes and transistors, Operational amplifiers, Digital electronics, Power systems basics |
| 21ME201 | Engineering Mechanics | Core | 4 | Statics of particles and rigid bodies, Equilibrium, Friction, Dynamics of particles, Kinetics of rigid bodies, Vibrations |
| 21EC202 | Basics of Electrical and Electronics Engineering Lab | Lab | 2 | Basic circuit experiments, Diode characteristics, Transistor circuits, Op-amp applications, Digital gate verification |
| 21GE202 | Digital Manufacturing Lab | Lab | 1 | Introduction to CAD/CAM, 3D printing, CNC machining basics, Reverse engineering, Rapid prototyping |
| 21SD201 | Universal Human Values | Core | 1 | Self-exploration, Human aspirations, Harmony in family and society, Professional ethics, Holistic development |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21MA301 | Fourier Series and Transforms | Core | 4 | Fourier series, Fourier transforms, Z-transforms, Partial differential equations, Boundary value problems |
| 21MT301 | Manufacturing Processes | Core | 3 | Casting, Forming, Welding, Machining processes, Powder metallurgy, Non-traditional machining |
| 21MT302 | Fluid Power Systems | Core | 3 | Hydraulics fundamentals, Pneumatics fundamentals, Valves and actuators, Hydraulic circuits, Pneumatic circuits, Fluid power control |
| 21MT303 | Strength of Materials | Core | 4 | Stress and strain, Bending moment and shear force, Torsion, Deflection of beams, Combined stresses, Theories of failure |
| 21MT304 | Sensors and Instrumentation | Core | 3 | Sensor types, Transducers, Signal conditioning, Data acquisition systems, Measurement errors, Smart sensors |
| 21EC301 | Digital Logic Design | Core | 3 | Boolean algebra, Logic gates, Combinational circuits, Sequential circuits, Registers and counters, Memory devices |
| 21MT305 | Sensors and Instrumentation Lab | Lab | 1 | Pressure, Temperature, Displacement sensor experiments, Data acquisition, LabVIEW basics, Calibration |
| 21MT306 | Manufacturing Processes Lab | Lab | 1 | Machining operations, Welding techniques, Foundry practice, Metrology, CNC programming basics |
| 21MT307 | Product Design and Development | Core | 1 | Design thinking, Product lifecycle, Conceptual design, Material selection, Prototyping, Design for manufacturing |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21MA401 | Numerical Methods | Core | 4 | Solution of equations, Interpolation, Numerical differentiation, Numerical integration, Numerical solution of ODEs, Numerical solution of PDEs |
| 21MT401 | Kinematics of Machinery | Core | 4 | Mechanisms and machines, Kinematic links and pairs, Velocity and acceleration analysis, Cams and followers, Gears and gear trains, Friction |
| 21MT402 | Microcontrollers and PLC | Core | 3 | Microcontroller architecture, Assembly language programming, Interfacing peripherals, PLC architecture, Ladder logic programming, Industrial applications |
| 21MT403 | Theory of Control Systems | Core | 3 | System modeling, Transfer functions, Time domain analysis, Frequency domain analysis, Stability analysis, PID controllers |
| 21MT404 | Electrical Machines and Drives | Core | 3 | DC motors, AC motors, Transformers, Special machines, Motor control, Power electronics |
| 21MT405 | Machine Drawing and CAD | Core | 2 | Orthographic views, Sectional views, Assembly drawings, CAD software skills, GD&T, Detailing |
| 21MT406 | Microcontrollers and PLC Lab | Lab | 2 | Microcontroller programming, Interfacing sensors/actuators, PLC programming, HMI development, Industrial control |
| 21MT407 | Electrical Machines and Drives Lab | Lab | 2 | DC motor control, AC motor speed control, Transformer testing, Drive characteristics, Power converter experiments |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21MT501 | Dynamics of Machinery and Design of Machine Elements | Core | 4 | Vibrations, Balancing of rotating masses, Gyroscopic effects, Stress analysis, Design of machine components, Shafts and bearings |
| 21MT502 | Industrial Automation and Robotics | Core | 3 | Automation hierarchy, Control architectures, Robot kinematics, Robot programming, Sensors in robotics, Industrial applications |
| 21MT503 | CAD/CAM and Mechatronics Product Development | Core | 3 | CAD tools, CAM principles, CNC programming, Reverse engineering, Product design methodology, Concurrent engineering |
| 21MT504 | MEMS and Nanotechnology | Core | 3 | MEMS fabrication, Sensors and actuators in MEMS, Nanomaterials, Nanofabrication, Nano-robotics, Applications of MEMS/NEMS |
| 21MT505 | Image Processing and Machine Vision | Core | 3 | Digital image fundamentals, Image enhancement, Feature extraction, Object recognition, Machine vision systems, Industrial inspection |
| 21MT506 | Industrial Automation and Robotics Lab | Lab | 2 | PLC programming, SCADA, Robot path planning, Robot control, Vision system integration, Actuator control |
| 21MT507 | CAD/CAM and Mechatronics Product Development Lab | Lab | 2 | CAD modeling, CAM tool path generation, CNC simulation, Reverse engineering projects, Product design software |
| PE I | Professional Elective I | Elective | 3 | Topics chosen from the Professional Elective list provided by the department based on student interest and current industry trends |
| OE I | Open Elective I | Elective | 1 | Topics chosen from the Open Elective list offered by various departments within the college to broaden knowledge |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21MT601 | Artificial Intelligence and Machine Learning for Mechatronics | Core | 3 | AI fundamentals, Machine learning algorithms, Neural networks, Deep learning, Expert systems, Applications in Mechatronics |
| 21MT602 | Advanced Control Systems | Core | 4 | State-space analysis, Nonlinear control, Optimal control, Adaptive control, Robust control, Digital control systems |
| 21MT603 | Additive Manufacturing | Core | 3 | 3D printing technologies, Material selection for AM, Design for AM, Post-processing, Applications, Future trends |
| 21MT604 | Internet of Things (IoT) in Mechatronics | Core | 3 | IoT architecture, Communication protocols, Sensor networks, Cloud computing, Data analytics, Smart factory applications |
| 21MT605 | Engineering Economics and Financial Management | Core | 3 | Time value of money, Capital budgeting, Cost analysis, Depreciation, Project evaluation, Financial statements |
| 21MT606 | Artificial Intelligence and Machine Learning Lab | Lab | 2 | Python for ML, Data preprocessing, Supervised learning, Unsupervised learning, Neural network implementation, Mechatronics case studies |
| 21MT607 | Mini Project I | Project | 2 | Problem identification, Literature survey, Design and implementation, Testing, Report writing, Presentation |
| PE II | Professional Elective II | Elective | 3 | Topics chosen from the Professional Elective list provided by the department based on student interest and current industry trends |
| OE II | Open Elective II | Elective | 1 | Topics chosen from the Open Elective list offered by various departments within the college to broaden knowledge |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21MT701 | Industrial Management and Safety | Core | 3 | Production planning, Inventory management, Quality control, Lean manufacturing, Industrial safety, Ergonomics |
| 21MT702 | Electric and Hybrid Vehicles | Core | 3 | EV architectures, Motor types, Battery technologies, Charging systems, Hybrid vehicle configurations, Control strategies |
| 21MT703 | Renewable Energy Systems | Core | 3 | Solar energy, Wind energy, Bioenergy, Geothermal energy, Hydropower, Energy storage |
| 21MT704 | Professional Practice / Internship | Internship | 2 | Industry exposure, Project execution, Report writing, Professional communication, Teamwork, Problem-solving in industry |
| PE III | Professional Elective III | Elective | 3 | Topics chosen from the Professional Elective list provided by the department based on student interest and current industry trends |
| PE IV | Professional Elective IV | Elective | 3 | Topics chosen from the Professional Elective list provided by the department based on student interest and current industry trends |
| OE III | Open Elective III | Elective | 1 | Topics chosen from the Open Elective list offered by various departments within the college to broaden knowledge |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21MT801 | Project Work II | Project | 15 | Advanced research, System design, Prototype development, Experimental validation, Data analysis, Thesis writing |
