Control Systems syllabus : Latest Updated Syllabus for syllabus
Pragati SinghSenior Executive - Content
Control system engineering is a discipline of engineering that uses control theory ideas to create a system that produces the desired behaviour in a controlled way. As a result, control system engineering is concerned with a wide spectrum of dynamic systems, including human and technological interaction. Control systems cover a wide range of systems. Control Systems can be studied as a bachelor's degree, a certificate, a certification, or a postgraduate degree, depending on your preferences and qualifying requirements. Candidates must pass a recognised educational board or council's 10+2 level in Physics, Chemistry, and Mathematics with at least a 50% aggregate score to be eligible for this course study. The most prevalent for this degree admission are JEE Mains, JEE Advanced, BEEE, KIITEE, AP EAMCET, MH CET, and other national/state-level entrance examinations.
- Syllabus – Important Facts for Control System
- List of Subjects in Control Systems
- 2.1 Typical Core Subjects for Control Systems
- 2.2 Typical Elective Subjects for Control Systems
- Detailed Syllabus for Control System
- Specialisations offered in Control Systems
- Entrance Exams for Control System
- Syllabus for Distance Program in Control System
- Top Colleges for the Control Systems
- Frequently Asked Questions
Syllabus – Important Facts for Control System
? B.Tech in Control System is an eight-semester programme with a four-year undergraduate programme. Like other engineering programmes, the undergraduate programme may be followed after passing the 10+2 Board exam.
? M.Tech in Control System is a four-semester degree with a two-year postgraduate programme. After completing the undergraduate programme, you can pursue a postgraduate programme.
? Scope in India: One can work in practically all relevant manufacturing industries, hospitals, research institutes, oil & gas, petrochemical industries, automobiles, and so on after graduating in this discipline. Control engineers are in great demand in both the public and private sectors. Work ranges from design and development to testing and report writing.
? Control System in NITs: The National Institute of Technology (NIT) is a popular institution for Control System studies in India, with various disciplines. The B.Tech. in Control System programme aims to educate students on the importance of system modelling and how to describe systems mathematically in various ways. To educate them on examining system stability and related concerns using several well-established approaches.
? Control System in IITs: The Indian Institute of Technology, India's most prestigious university for Control systems, provides several fundamental Control System courses. The B.Tech. in Control System programme aims to educate students on the importance of system modelling and how to describe systems mathematically in various ways. To educate students on several well-known approaches for analysing system stability and related challenges.
? General examination pattern: In general, lab exercises, assignments, short projects, mid-semester assessments, and end-of-semester examinations are used to assess students.
List of Subjects in Control Systems
Check below the subjects of Control Systems
Typical Core Subjects for Control Systems
| Subject title |
Subject details |
| Circuit Theory |
Basic circuits analysis is part of this subject's syllabus & includes the following topics: ? Ohm's Law: Resistive Elements ? Kirchhoff's rules apply to resistors in series and parallel circuits-Analysis techniques for mesh current and node voltage. ? Theorems and network reductions for dc and ac circuits: Voltage and current division and source transformation — star delta conversion — are all used to reduce the size of the network. ? Theorems of Thevenin and Norton — Millman's Theorem — Superposition Theorem — Maximum Power Transfer Theorem — Reciprocity Theorem ? Three-phase circuits, Transient response analysis ? A.C. circuits — RMS and average values – Phasor Diagram — Power ? Coupled circuits and resonant circuits |
| Signals and systems |
Through this subject, students learn the basic principles of signals & systems covering, topics like 1. Signal Representation 2. System Classification 3. Singularity Functions 4. Convolution 5. Fourier Series and Applications to Electric Circuits 6. Fourier Transforms 7. Nyquist Sampling Theorem 8. Fourier Analysis of Discrete Systems 9. Laplace Transforms, Transfer Functions, and Applications to Electric Circuits 10. Discrete-Time Systems and Z-Transforms 11. Digital Computer Simulation Using MATLAB |
| Fundamentals of VLSI Design |
This is an introductory course in digital VLSI design in CMOS technology, covering fundamental ideas and methodologies. CMOS devices and circuits, conventional CMOS manufacturing processes, CMOS design principles, static and dynamic logic architectures, interconnect analysis, CMOS chip layout, modelling and testing, low power approaches, design tools, methodologies, and VLSI architecture will all be covered in this course. Some parts of the syllabus are: ? Introduction to VLSI Systems ? CMOS logic, fabrication and layout ? MOS Transistor theory ? Layout Design Rules ? Circuit characterization and performance estimation ? Circuit Simulation ? Combinational and sequential circuit design ? Memory system design ? Design methodology and tools |
| Process Controls |
This course introduces technical concepts and nomenclature related to the Process Control domain, familiarises students with control valve characteristics, selection, and size, and offers an overview of the features associated with Industrial type PID controllers. Some parts of the syllabus are: ? Laplace Transforms ? Response of First-Order Systems ? Second-Order Systems ? The Control Systems ? Controllers and Final Control Elements ? Transfer functions of P, On-off, PI, PD, and PID control ? Transient Response of Simple Control Systems |
Typical Elective Subjects for Control Systems
| Subject title |
Subject details |
| Digital Signal Processing |
Signal representation in the time domain, Fourier transform, sampling theorem, linear time-invariant system, discrete convolution, z-transform, discrete Fourier transform, and discrete filter design are some of the topics we will cover in this course. Students should be able to understand how to analyse a signal or system using tools like the Fourier transform and the z-transform; what kinds of characteristics should we analyse to determine a signal's or system's property; how to process signals to make them more useful; and how to design a signal processor (digital filter) for a given problem. |
| Power Electronics |
Students acquire the fundamental ideas to transmit information on the following subjects: ? Different types of power semiconductor devices, as well as their switching characteristics ? Controlled rectifiers: operation, characteristics, and performance parameters ? The operation, switching techniques, and the fundamentals of DC-DC switching regulator topologies. ? Understanding harmonic reduction strategies and different modulation approaches for pulse width modulated inverters. ? The operation of an AC voltage controller, as well as several configurations. |
| Radar Systems |
This course introduces the essential ideas required to comprehend the design and operation of radar systems for several applications. The radar range equation, signal-to-noise ratio, radar cross-section, range and velocity ambiguity, radar clutter, detector and receiver design, transmitters, and antenna systems are only a few topics discussed. Pulsed, C.W., and F.M. radars and Doppler and imaging radars are among the applications investigated. |
Detailed Syllabus for Control System
The syllabus of B.Tech in Control System may vary from one university to the other, but the subjects are more or less the same. Here is a general overview of the main subjects taught from the first to eighth semesters in B.Tech Control System.
| Semester |
Core/Elective |
Subject title |
Subject Details |
| 1 |
Control System |
Semester 1 |
Students learn the following subjects and practical applications in semester 1: Computer Science Engineering Graphics Physics and Mathematics-1 Workshop Technology
Practical Labs: Computer Lab Engineering Graphics Lab Engineering Workshop Physics Lab I |
| 2 |
Control System |
Semester 2 |
Students learn the following subjects and practical applications in semester 2: Chemistry Environmental Studies Electrical Engineering Physics and Mathematics-II
Practical Labs: Chemistry and Electrical Lab Physics Lab II |
| 3 |
Control System |
Semester 3 |
Students learn the following subjects and practical applications in semester 3: Electronic Devices & Circuits (EDC) Mathematics III Network Theory and Signals & Systems OOPs with C & C++
Practical Labs: EDC Lab Electronics Lab Network Lab OOPs Lab |
| 4 |
Control System |
Semester 4 |
Students learn the following subjects and practical applications in semester 4: Analog Electronics and Electromagnetic Field Theory Digital Logic Design & Application Electronic Material & Processes Information Theory & Coding Instrumentation & Measurement
Practical Labs: Analog Electronics Lab Digital Circuit Design Lab Instrumentation & Measure Lab |
| 5 |
Control System |
Semester 5 |
Students learn the following subjects and practical applications in semester 5: Artificial Intelligence Linear Integrated Circuits Microprocessor and Peripherals Numerical Methods & Applications Power Electronics & Derives
Practical Labs: Linear Integrated Circuit Lab Microprocessor Lab Industrial Visit Minor Project I |
| 6 |
Control System |
Semester 6 |
Students learn the following subjects and practical applications in semester 6: Antenna & Wave Propagation Advanced Microprocessor and Embedded Systems Control System Engineering Digital Communication and Digital Signal Processing
Practical Labs: Advanced Microprocessor and Embedded Lab DSP Lab Minor Project II |
| 7 |
Control System |
Semester 7 |
Students learn the following subjects and practical applications in semester 7: Microwave Electronics Nano Electronics Technology VLSI Engineering
Elective-I IC Technology Optical Communication Remote Sensing Solar-Cell Technology Wireless Communication
Practical Labs: Microwave & Antenna Lab VLSI Lab Major Project I Industrial Training
|
| 8 |
Control System |
Semester 8 |
Students learn the following subjects and practical applications in semester 8: Industrial Automation, Organisations, and Management Microelectromechanical Systems
Elective-II Biomedical Instrumentation Broadband Communication and Mobile & Cellular Communication Multimedia Systems Radar Systems VHDL
Practical Labs: Major Project II
|
Specialisations offered in Control Systems
| Specialisation |
Subjects |
Details |
| Digital Control Systems |
? Introduction: Why digital control? ? Discrete-Time Systems ? Difference equations ? The z-transform ? Control Systems ? ADC model ? DAC model ? Stability of Digital Control Systems ? Digital Control System Design ? Digital implementation of analog controllers ? Optimal Control ? Optimal linear quadratic regulator design |
Introduction linear control system analysis design approaches, as well as digital control system implementation. Linearization, linear equation solutions, z-transforms, and Laplace transforms, linear controller design, optimum control, and digital implementation of control schemes are covered. For problem-solving and control system design, students will utilise MATLAB. |
| Automation & Robotics |
? Linear Systems Theory ? Biology-Inspired Robot Control ? Automatic Control ? Linear Multivariable Control ? Estimation and System Identification ? System Identification and Adaptive Control ? Feedforward Control ? Robust Control ? Networked Dynamic Systems ? Dynamics and Vibrations ? Stability and Control of Flight Vehicles ? Spacecraft Dynamics and Control ? Automatic Control of Flight Vehicles |
Students will learn about robot design, building, operation, application, and computer systems for controlling, sensing, and processing information. From quantum technologies to energy-efficient communications networks, robotics offers a lot to prospective students. |
| Process Control and Instrumentation |
? Instrumentation ? Modern Control System ? Process Modelling and Simulation ? Advanced Process Control ? Process Control Laboratory ? Computer Control of Process ? Industrial Communication Systems ? Piping and Instrumentation ? Control & Instrumentation Lab |
This course introduces you to instrumentation, which is at the core of every industry, and advanced process control and guiding techniques that are necessary in today's world. This course prepares students to plan, construct, install, run, control, and manage sophisticated material-producing systems. The curriculum provides students with theoretical and practical skills needed in many instrumentation and control fields. |
Books and Authors Related to Control System
Control systems are a versatile field with many specialisations; students follow a wide range of books during their graduation or post graduation. Listed below are some books that are highly referred to.
| Subject |
Book title |
Author |
Description |
| Control System |
Control Systems Engineering |
Norman S. Nise |
Control Systems Engineering book provides students with a thorough overview of the design and analysis of feedback systems used in current technologies. This work provides real-world case studies, hard chapter questions, and extensive explanations emphasising computer-assisted design, going beyond theory and abstract mathematics to convert essential concepts into physical control systems design. |
| VLSI |
Advances in VLSI and Embedded Systems |
Zuber Patel, Shilpi Gupta, Nithin Kumar Y. B. |
VLSI design, devices and upcoming technologies, embedded systems, and CAD for VLSI are all covered in this book. The contents focus on fundamental ideas of circuit and systems design, manufacturing, testing, and standardisation to meet the need for complex and high-functionality systems and portable consumer electronics.
|
| Power Electronics |
Power Electronics: Converters, Applications, and Design |
Ned Mohan, Tore M. Undeland, William P. Robbins |
Power electronics principles are presented in a logical order for applications and design in the 500 kW or less power spectrum. The new generation of power semiconductor devices has enabled the development of several practical and developing power electronic converters. |
| Signals & Systems |
Signals & Systems |
Alan V. Oppenheim, Alan S. Willsky, Syed Hamid Nawab, with Hamid |
The book is organised so that students may compare and contrast the analysis methods for continuous-time and discrete-time signals and systems. There is a strong emphasis on applications, and there are several working examples. |
Entrance Exams for Control System
Listed below are the central and state-level exams to secure seats for B.Tech Control System courses at the premier institutes in India. The minimum eligibility condition for these exams is passing the 10+2 examination with good scores. Individually, every exam has different cut-off requirements for those scores.
? Joint Entrance Exam (JEE) Main
? Joint Entrance Exam - Advanced
? Maharashtra Common Entrance Test (MHCET)
? KCET- Karnataka Common Entrance Test
? BITSAT
? GATE
? VITEEE- Vellore Institute of Technology Engineering Entrance Exam
? GUJCET
? Kalinga Institute of Industrial Technology Entrance Exam (KIITEE)
? Bharat Engineering Entrance Examination (BEEE)
? Engineering, Agriculture and Medical Common Entrance Test (AP Or TS EAMCET)
These tests range in difficulty from moderate to challenging, with the remaining exams mentioned falling into the moderate category. Students must thoroughly study the areas of physics, chemistry, and mathematics to achieve high results on these exams. Almost all of the exams are multiple-choice. The examinations can help you get into the finest B.Tech/M. Tech in Control System colleges, including IITs, NITs, and IIITs.
Syllabus for Distance Program in Control System
Distance education is a viable option for those who cannot afford full-time classes. In B.Tech distant education, classes and study materials are available online compared to normal B. Tech, the course price for B.Tech distant education is lower. To enrol in a B.Tech distance program, you do not need to take an admission test. To enrol in a B.Tech distant education program, you must have completed 10+2 from PCM.
The top colleges for remote education are Aligarh Muslim University, Karnataka State Open University, and the International Institute of Management and Technical Studies, Bhopal.
Top Colleges for the Control Systems
Based on the curriculum, elective choices, and in-house placement opportunities, these are India's top colleges for Control systems.
| SI. No. |
College/University/Institution |
Syllabus PDFs |
| 1 |
IIT Madras |
To be uploaded soon |
| 2 |
IIT Delhi |
To be uploaded soon |
| 3 |
IIT Bombay |
To be uploaded soon |
| 4 |
IIT Kanpur |
To be uploaded soon |
| 5 |
IIT Roorkee |
To be uploaded soon |
| 6 |
IIT Guwahati |
|
| 7 |
NIT Trichy |
To be uploaded soon |
| 8 |
IIT Varanasi |
To be uploaded soon |
| 9 |
NIT Rourkela |
|
| 10 |
Manipal Institute of Technology |
To be uploaded soon |
Frequently Asked Questions
Q. What is the scope of the Control System?
Q. What are the subjects in the Control System?
· Feedback control systems
· Power Systems
· VLSI
· R-H Criteria & closed-loop control systems
· State-space analysis
· Signal flow graphs
· Transfer Function
· Time Domain Analysis
· Frequency Response
Q. Is Control System a good course?
Q. What is the salary of a Control System professional?
Q. Will I get a job after completing the Control System course?
Q. Does Control System Engineering require JEE?
Q. Is there any entrance exam for Control System?
Q. Is JEE required for the Control System?
Q. Do you need Maths for Control System Engineering?
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Popular Control Systems Colleges in India
Popular Private Control Systems Colleges in India
Most Popular Courses
Popular Courses
- M.Tech. in Control and AutomationVIT Vellore
- B.Tech. in Instrumentation and Control EngineeringNIT Trichy - National Institute of Technology
- B.E. in Electronics Engineering (Instrumentation and Control)Thapar University
- B.Tech. in Instrumentation and Control EngineeringCollege of Engineering, Pune
- B.Tech. in Instrumentation and Control EngineeringNetaji Subhas University of Technology
- B.Tech. in Instrumentation and Control EngineeringNational Institute of Technology, Jalandhar
- B.E. in Instrumentation and Control EngineeringPSGCT Coimbatore
- B.E. in Instrumentation and Control EngineeringSant Longowal Institute of Engineering and Technology
- B.E. in Instrumentation and Control EngineeringSri Sairam Engineering College
- B.Tech. in Instrumentation and Control EngineeringBharati Vidyapeeth College of Engineering, Delhi
Popular Control Systems UG Courses
UG Courses
- B.E. / B.Tech
35 Colleges
- UG Diploma
1 College
Popular Control Systems PG Courses
PG Courses
- M.E./M.Tech
128 Colleges
- MBA/PGDM
3 Colleges
- M.Sc.
2 Colleges
- PG Diploma
1 College
News & Updates
Student Forum
Anything you would want to ask experts?Answered 2 months ago
Hey, Some of the important steps to make a future in Control Systems Engineering are given below:
- You can pursue a BTech in Electrical Engineering, Control Systems Engineering, or a related field.
- Consider an MSc in Control Systems or a related field for deeper knowledge and specialisation.
- Gain skills
P
Contributor-Level 10
Answered 2 months ago
Here are some excellent books on Control System Engineering, depending on your level and area of interest:
Foundational and Introductory:
- Modern Control Engineering, 5th Edition by Katsuhiko Ogata
- Control Systems Engineering, 7th Edition by Norman S. Nise
- Feedback Control of Dynamic Systems, 7th Edit
P
Contributor-Level 10
Answered 2 months ago
To know the key differences between them refer to the table given below which covers all the important details about both the courses in their comparison context:
| Feature | Instrumentation Engineering | Control Systems Engineering |
|---|---|---|
| Focus | Design, selection, and installation of instruments for measurement and control. | Design and implementation of feedback control systems to achieve desired performance. |
| Emphasis | Hardware - sensors, transducers, transmitters, actuators, valves, etc. | Software - control algorithms, modeling, simulation, optimization, etc. |
| Core Courses | Physics, chemistry, materials science, instrumentation technologies, signal processing, data acquisition. | Mathematics, computer science, control theory, system dynamics, robotics, mechatronics. |
| Typical Projects | Selecting sensors for a chemical reactor, designing a pneumatic control system, calibrating instruments. | Developing a controller for an autonomous robot, optimizing performance of a power plant, designing a fault-tolerant control system. |
| Industries served | Chemical, oil & gas, power generation, pharmaceuticals, food processing, manufacturing. | Aerospace, automotive, robotics, transportation, telecommunications, consumer electronics. |
| Career Options | Instrumentation engineer, field service engineer, calibration technician, project engineer. | Control systems engineer, automation engineer, embedded systems engineer, robotics engineer. |
P
Contributor-Level 10
Answered 2 months ago
The admissions to M.Tech courses in Control System is done on the basis of GATE. Candidates can pursue M.Tech from the following colleges:
P
Contributor-Level 10
Answered 2 months ago
There are various Polytechnic colleges which offer Diploma courses in the field of Control System. This course is offered to candidates who have completed Class 10 from recognised board. Some of these colleges are as follows:
P
Contributor-Level 10
Answered 2 months ago
Given your interest in machine learning and software development, Control Systems Engineering may be a better fit for you than Telecommunication Engineering. Here's why:
- Control Systems heavily utilizes algorithms and software development to design and implement feedback loops that manage complex sy
P
Contributor-Level 10
Answered 2 months ago
To pursue the postgraduate course in Electronics Control System Engineering, the candidates would need to sit for GATE and to complete the undergraduate programme in the same discipline or in Electronics Engineering, Electrical Engineering, Electrical and Electronics Engineering, Electrical and Com
P
Contributor-Level 10
Answered 2 months ago
To pursue undergraduate course they would have to sit for the entrance tests like JEE Main or the other state level Entrance tests. Besides, they should have completed 10+2 Board examination along with Physics, Chemistry and Mathematics as subjects. Those who have appeared for their Class XII Board
P
Contributor-Level 10
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