Electronics & Communication Engineering
This program lays emphasis on honing and developing technical skills with an eye on Designing Development, Installation, Testing and maintenance of the communication system.
It gives me immense pleasure to lead the department of ECE. Our college is one of the premier institutions, unique like a prism reflecting the manifold shades of learning and co-curricular activities. Pranveer Singh Institute of Technology, Kanpur is striving hard towards the goal of providing innovative and quality education with high standard to achieve academic excellence.
The very motto of our department is to provide quality education. The process of learning is extremely important in life. What you learn, how you learn and where you learn plays a crucial role in developing your intellectual capability. On behalf of my department, I welcome you to PSIT, Kanpur. Along with academic knowledge PSIT also trains its Engineers to face the challenges in life by providing many value added courses to enhance their career prospects. The excellent infrastructure, teaching faculty of the best kind that is industry's best and ensuring quality education such as interaction among students, parents and staff, along with Training and Placement Cell, ensures a bright future to its students. Thus we are confident that our Engineers will emerge as assets not only to this institution and to the organization they belong, but also to the country at large.
I congratulate the team of faculty members and the students for their brilliant and original efforts. I wish all the Students and Faculty a great academic year.
Dr. Yogesh M Dubey
(HOD,Department of Electronics and Communication Engineering)
To become a known centre of excellence that produces skilled, innovative, ethical and industry ready Electronics & Communication engineers.
1. To offer qualitative education of global standards in Electronics & Communication Engineering with professional ethics through innovative methods of teaching & learning.
2. To foster the culture of innovation and research in the field of Electronics & Communication Engineering.
3. To provide best experiential teaching-learning environment in order to achieve excellence in technical education.
The following PEO’s are expected to be exhibited by the students of PSIT after 4 to 5 years of graduation:
1. To provide educational foundation that prepares student for careers & higher studies in the field of Electronics & Communication Engineering.
2. To provide in-depth knowledge of the Electronics & Communication Engineering so that the student is successful in designing new products and developing technically viable, cost effective and socially acceptable solutions to engineering problems.
3. To exhibit broad knowledge and approaches to various disciplines so as to fit into the global multi- disciplinary working environment.
4. To exhibit lifelong learning attitude by applying and adapting new ideas and technologies as the field of Electronics & Communication Engineering evolves.
5. To exhibit leadership qualities by being effective communicators to work efficiently in diverse teams, promote and practice appropriate ethical practices.
Engineering Knowledge » To apply the knowledge of mathematics, science, Electronics & Communication engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
Problem Analysis » To identify, formulate, review research literature, and analyze complex engineering problems and reaching substantiated conclusions using first principles of mathematics, natural sciences, and Electronics & Communication engineering sciences.
Design/Development of Solutions » To design solutions for complex Electronics & Communication engineering problems and system components or processes that meet the specified needs of the public health , safety, culture, society, and environmental with appropriate consideration.
Conduct Investigations of Complex Problems » To use research-based knowledge and research methods including analysis design of experiments, interpretation of data, and synthesis of the information to provide valid conclusions in the field of Electronics & Communication Engineering.
Modern Tool Usage » To create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex Electronics & Communication engineering activities with an understanding of limitations.
The Engineer and Society » Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal , cultural issues and consequent responsibilities relevant to professional Electronics & Communication engineering practice.
Environment and Sustainability » To understand the impact of professional Electronics & Communication engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, sustainable development.
Ethics » To apply ethical principles and commit to professional ethics , responsibilities and norms of the engineering practice.
»To function effectively as an individual, and as a member or leader in diverse teams, in multidisciplinary settings.
Communication » To communicate effectively on complex Electronics & Communication engineering activities with the engineering community and with society at large, being able to comprehend and write effective reports , design documentation, make effective presentations, and to give and receive clear instructions.
Project Management and Finance » To d emonstrate knowledge and understanding of the Electronics & Communication engineering and management principles and apply these to one's own work, as a member and leader in a team and to manage projects in multidisciplinary environments.
Life-Long Learning » Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.
Apply principles of probability and linear algebra, including applications appropriate to the Electronics & Communication Engineering discipline;
» Apply science, engineering, mathematics through differential and integral calculus; to solve complex Electronics & Communication engineering problems.
» Demonstrate proficiency in use of software and hardware to required to practice Electronics & Communication profession.
|1||ECE Lab1||Digital Logic Design Lab|
|2||ECE Lab2||Electronic Devices and Circuits Lab|
|3||ECE Lab3||Signals & Systems Lab|
|4||ECE Lab4||Electronics Workshop & PCB Design Lab|
|5||ECE Lab5||Microprocessors & Microcontrollers Lab|
|6||ECE Lab6||Advanced Electronics System Lab|
|7||ECE Lab7||Electronic Measurement & Instrumentation Lab|
|8||ECE Lab8||Data Structure & Algorithms Lab|
|9||ECE Lab9||Integrated Circuits Lab|
|10||ECE Lab10||Communication Lab – I|
|11||ECE Lab11||Digital Signal Processing Lab|
|12||ECE Lab12||CAD of Electronics Lab-I|
|13||ECE Lab13||Microwave Engg. Lab|
|14||ECE Lab14||Communication Lab- II|
|15||ECE Lab15||Control System Lab-I|
|16||ECE Lab16||Microcontrollers For Embedded Systems Lab|
|17||ECE Lab17||Optical Communication & Networking Lab|
|18||ECE Lab18||Electronics Circuit Design Lab|