Electronics & Communication


Courses

Degree Awarded Discipline Duration Entry Level Seats in IIST
B.E Electronics and Communications 4 years 10+2 120
M.E. Digital Communications 2 years B.E. 18

Note:-Eligibility for BE (EI) : 10+2 with (PCM)


About EC Department

The Department of Electronics and Communications Engineering at IIST is committed towards providing quality education in its undergraduate and postgraduate programmes. Bachelor programme (BE) in Electronics & Communication Engineering started in 2003. PG programme in Electronics & Communication Engineering started in 2008 with specialization in Digital Communication. The Department has highly qualified and competent faculty members in the areas of Digital Signal Processing, Analog and digital electronics, Embedded systems, Data Communications & Networking, Mobile and Wireless communications, High Speed Networks, Optical Networks and VLSI.

Course Objective:

The main objective of the ECE Department is to provide education for those students who are able to compete internationally, able to produce creative solutions to the society's needs, conscious to the universal moral values, adherent to the professional ethical code, and to generate and disseminate knowledge and technologies essential to the local and global needs in the field of electronics and communication engineering. The vision of the ECE Department is to become a nationally and internationally leading institution of higher learning, building upon the culture and the values of universal science and contemporary education, and a center of research and education generating the knowledge and the technologies which lay the groundwork in shaping the future in the fields of electronics and communication engineering.

  • Encourage the students to develop in their respective fields & learn more on the basis of research & practical assignments.
  • Facilitate them to lay greater emphasis on anticipating & predicating the sound future through honing technical & interpersonal skills.
  • Train them to result oriented & promising by being good on both logic creations as well as its successful implementation.
  • Develop people skills, leadership qualities & team orientations.
  • Enable them to develop a global perspective.

The Program


  • Electronics and Communication engineering is an emerging area which includes mobile phones to fiber optics and remote sensing. With technology becoming all pervasive, opportunities in electronics are enormous.
  • This highly popular program trains students in broad areas of Micro electronics, Embedded Systems, Communication Engineering / Networking, Digital Signal Processing, Fiber Optics and Medical Electronics.
  • Electronic Communication Engineering is under constant flux, finding applications in all human endeavors.
  • The focus in the study programme is on understanding electronic networks and devices, electromagnetic field theory, computer fundamentals, as also their protection, and communication and control systems.
  • Design, fabricate, maintain, supervise, and manufacture electronic equipments used in the entertainment media, in hospitals, in the computer industry for communication and in defense. Electronics engineers work with devices that use extremely small amounts of power. They work with microprocessors, fibre optics in telecommunication, television, and radio fields.
  • The program is challenging, the curriculum is rigorous & the selection procedure is highly competitive. As a result, IIST seeks candidates whose abilities, skills & personality indicate strong potential for success in the future.

The Program Design

Spread over eight semesters in four years the program comprises of 80 courses:

  • 37 compulsory courses
  • 9 elective courses
  • 31 laboratory courses
  • One minor project
  • One industrial training
  • One major project

Offering students the opportunity for specialization in the field of Electronics & Communication.

Teaching Pedagogy

The teacher's professional duties extend beyond formal teaching. Outside the classroom teachers accompany students on field trips, supervise study halls and serve as supervisors for extracurricular activities. Increasing use of technology, specifically the increase in the Internet usage has begun to shape the way teachers approach their roles in the classroom. It also involves using differentiated instructions as well as supervision to meet the needs of all students in the classroom. Teaching aids including computer, projectors etc. that are used for effective class conduction

Mr. Keshav Patidar
Head of Department, Electronics and Communication Engineering
Indore Institute of Science and Technology,
Pithampur Road,
Opposite Indian Institute of Management, Rau,
Indore - 453331
Phones: 0731-4010624
Fax: 0731-4010502

First Semester
Course Code Course Name Periods Per Week (Hrs)
- L T P c
BE - 101 Engineering Chemistry 3 1 2 6
BE - 102 Engg. Mathematics-I 3 1 0 4
BE - 103 Communication Skills 3 0 2 5
BE - 104 Basic Elect. Engineering 3 1 2 6
BE - 105 Engineering Graphics 2 1 3 6
BE - 107 Basic Electronics 3 1 2 6
- Total 17 5 11 33
Second Semester
Course Code Course Name Periods Per Week (Hrs)
- L T P c
BE - 201 Engineering Physics 3 1 2 6
BE - 202 Engg. Mathematics-II 3 1 0 4
BE - 203 Engineering Mechanics 3 1 2 6
BE - 204 Basic Mech. Engineering 3 1 2 6
BE - 205 Basic Civil Engineering 3 1 2 6
BE - 206 Basic Computer Programming 1 0 3 4
BE - 207 Workshop Practice 0 0 3 3
- Total 16 5 14 35
Third Semester
Course Code Course Name Periods Per Week (Hrs)
- L T P c
EC - 301 Mathematics-III 3 1 0 4
EC - 302 Energy, Ecology, Enviorn. & Society 3 1 0 4
EC - 303 Electronic Instrumentation 3 1 2 6
EC - 304 Electronic Devices 3 1 2 6
EC - 305 Network Analysis 3 1 2 6
EC - 306 CP-III Java 0 0 4 4
EC - 307 Self Study 0 0 1 1
EC - 308 Seminar/ Group Discussion etc. 0 0 1 1
- Total 15 5 12 32
Fourth Semester
Course Code Course Name Periods Per Week (Hrs)
- L T P c
EC - 401 Computer System 3 1 0 4
EC - 402 Control System 3 1 0 4
EC - 403 Digital Electronics 3 1 2 6
EC - 404 Electronics Circuits 3 1 2 6
EC - 405 Analog Communication 3 1 2 6
EC - 406 Software Lab - I 0 0 4 4
EC - 407 Self Study 0 0 1 1
EC - 408 Seminar/ Group Discussion etc. 0 0 1 1
- Totals 15 5 12 32
Fifth Semester
Course Code Course Name Periods Per Week (Hrs)
- L T P c
EC - 501 Voice Communication 3 1 0 4
EC - 502 Electromagnetic Theory 3 1 0 4
EC - 503 Digital Communication 3 1 2 6
EC - 504 Microprocessors, Microcontroller and Embedded Systems 3 1 2 6
EC - 505 COMS VLSI Design 3 1 2 6
EC - 506 Software Lab - II 0 0 4 4
EC - 507 Self Study 0 0 1 1
EC - 508 Seminar/ Group Discussion etc. 0 0 1 1
- Total 15 5 12 32
Sixth Semester
Course Code Course Name Periods Per Week (Hrs)
- L T P c
EC - 601 Data Communication and Networks 3 1 0 4
EC - 602 Cellular Mobile Communication 3 1 0 4
EC - 603 Digital Signal Processing 3 1 2 6
EC - 604 Microwave Engineering 3 1 2 6
EC - 605 Communication Network and Transmission Lines 3 1 2 6
EC - 606 Minor Project 0 0 4 4
EC - 607 Self Study 0 0 1 1
EC - 608 Seminar/ Group Discussion etc. 0 0 1 1
- Total 15 5 12 32
Seventh Semester
Course Code Course Name Periods Per Week (Hrs)
- L T P c
EC - 701 Optical Communication 3 1 2 6
EC - 702 Computer Network 3 1 2 6
EC - 703 Microwave Engineering 3 1 2 6
EC - 704 Major Project (Planning and Literature Survey) 0 0 4 4
EC - 705 Industrial Training (Six Weeks) 0 0 0 4
EC - 7101 Cellular & Mobile Communication 3 1 0 4
EC - 7102 Bio-Medical Instrumentation 3 1 0 4
EC - 7103 e-Enterprise 3 1 0 4
EC - 7201 Telemetric 3 1 2 4
EC - 7202 Neural Networks 3 1 2 4
EC - 7203 Satellite Communication 3 1 0 4
- Total 29 9 14 50
Eighth Semester
Course Code Course Name Periods Per Week (Hrs)
- L T P c
EC - 801 Advance Communication System 3 1 2 6
EC - 802 Television & Radar Engg. 3 1 2 6
EC - 803 VLSI Design 3 1 2 6
EC - 804 Major Project 0 0 8 8
EC - 8101 Digital Image Processing 3 1 0 4
EC - 8103 Web Engineering 3 1 0 4
EC - 8302 ATM Networks 3 1 0 4
- Total 18 6 14 38