Department of Electronics and Electrical Engineering

Overview

School of Electronics & Electrical Engineering (SoEEE) has been evolving since the inception of Lingaya’s Vidyapeeth (Formerly Known as Lingaya’s University) in the year 2009. The major objective of the School is to impart high quality education and to encourage the students, comprising B.Tech, M.Tech and PhD, in pursuing research. The School offers B. Tech in Electronics & Communication Engineering (ECE), M. Tech (Embedded System) and Ph.D. program in various specialized areas of Electronics & Electrical Engineering. The major research areas of the department include Communication Systems, Signal Processing, Image and Video Processing, VLSI and Embedded Systems, Internet of Things (IoT), Wireless Communication, RF and Microwave, Electric Drives, Power Systems and Power Electronics.

In tune with the academic philosophy of the Lingaya’s Vidyapeeth, the SoEEE curricula for the undergraduate and postgraduate programs aim at producing high quality engineers in the area of Electronics & Communication /Electrical Engineering.

Some of the famous companies works in multiple domains of ECE include: Intel, ARM, Motorola, Broadcom, Qualcomm, Texas Instruments, Cypress Semiconductors, Xilinx, STMicroelectronics, Infineon Technologies, Synopsys, Cadence, Mentor Graphics, Comsol®, Coventorware®, Intellisuite®, Samsung, Bosch, Siemens, GE, Honeywell Automation, Bombardier, Adtran, Google, Amazon, Facebook, Tata, Wipro, Infosys, TCS, Reliance.

Why B.Tech. In Electronics & Communication Engineering

B.Tech. program in Electronics and Communication Engineering at Lingaya’sVidyapeeth focuses on developing a suitable academic environment to promote research attitude, employability readiness, and entrepreneurial spirit among students.

The Electronics & Communication Engineers who can take up challenges in design, development, research and manufacturing in areas such as Internet of Things& Artificial Intelligence, 5G & Beyond, Embedded Systems, Information Processing & Analytics , Telecommunication & Networking etc. Students shall undertake courses in Basic Sciences, Mathematics, and Basic Engineering as well as in core subjects of Electronics & Communication Engineering (ECE).

The programs shall be fully supported by laboratory facilities which shall be set up in a phased manner. All laboratories will be equipped with state of the art instruments and software tools to enable students to perform designoriented experiments and test their designs by simulation in research areas of VLSI Design & VLSI Signal Processing, Signal Processing for Information, wireless Networks, Internet of Things, Antenna and Microwave for 5G and above.

The program is supported by relevant, up-to-date curriculum, unique teaching pedagogy, fully equipped labs and experienced faculty. It is an intensely focused undergraduate program tailored to a student’s interests and real-world opportunities.

Overview of Industry in Electronics and Communication Engineering

The electronics industry is estimated at a global market of USD 2000 billion and above by 2025 with demand for complete hardware solutions. Three significant fields - Internet of Things, Communication Systems, InformationProcessing and Embedded systems play a significant role.

The tech giant Microsoft has said that by the year 2021, over 60 percent of India’s GDP would be derived from digital products and services such as Artificial Intelligence, Internet of Things and cloud computing, among others.

“Artificial Intelligence, AI, New Technology to contribute $154 Billion to India’s GDP by 2021”, says Microsoft India President.

Internet of Things requires Electronic Hardware Design, which mainly consist of new product design and development in the field of electronics. An electronic system may include an embedded microcontroller or a microprocessor requiring programming, a field programmable gate array (FPGA) coded in a hardware description language such as Verilog or VHDL, software in C, assembly language, or other languages.

Electronic design includes data acquisition techniques using various sensors, wireless sensors, low noise analog systems design, high‐speed digital design, instrumentation, PCB design, at multiple frequencies. It is also essential to be aware of what’s happening on the other side of the hardware-software boundary, manufacturability question, or applications programming interface (API).

Information Processing and Analytics is inevitable and more versatile for numerous applications including audio and speech processing, digital image and video processing, sonar, radar and many other sensor array processing, signal processing for telecommunications, control systems, biomedical engineering, seismology and remote sensing, to name a few. The applications of signal processing include Healthcare, digital and software radio frequency processing, single‐chip solutions, ASIC, digital signal processing applications, system‐on‐chip with hardware accelerators, cognitive and reconfigurable radar, Internet of things (IoT), cloud and service computing, new‐generation television, and autonomous system perception.

Advances in Communication Engineering for 5G and Beyond plays a crucial role in upcoming technologies like 5G and beyond, and IoT. The applications include communication protocol and system development, communication network development and implementation, telecommunication equipment design, the design of RF components, Antenna design to name a few.

Some of the famous companies works in multiple domains of ECE include: Intel, ARM, Motorola, Broadcom, Qualcomm, Freescale, Texas Instruments, Cypress Semiconductors, Xilinx, National Instruments, STMicroelectronics, Infineon Technologies, Synopsys, Cadence, Mentor Graphics, Comsol®, Coventorware®, Intellisuite®, Samsung, LG, Nokia, Moserber, Bosch, Siemens, GE, Honeywell Automation, Bombardier, Adtran, Google, Amazon, Facebook, Tata, Wipro, Infosys, TCS, Reliance, Idea, Airtel Companies like Matlab®, Cadence, Synopsys, NI also work on Algorithm development for their simulation environments.

Indian hardware companies include the names of Sankalp Semiconductors (Mixed Circuit Design), SES Instruments (Instrumentation), NTL Electronics (Drivers for LED systems).

 

Why study B.Tech. Electronics and Communication Engineering from Lingaya’sVidyapeeth

• Lingaya’sVidyapeeth offers B.Tech in Electronics and Communication Engineering with the unique specializations:
  1. Internet of Things (IoT) & Artificial Intelligence (AI)
  2. Telecommunication & Networking
  3. Embedded Systems
  4. Industrial Automation
  5. Cloud Computing & Big Data
• Modern state of art technology laboratory, Intel Intelligent System Lab in collaboration with INTEL. Students get the opportunity to work on latest technology such as INTERNET of THINGS (IOT).
• Havingcollaboration with HUAWEI Telecom Ltd to prepare students as per the industry demand in telecom/networking field.
• Rigorous and industry relevant course curriculum combining conventional electronics and communications instruction with courses related to latest areas of applications
• Final year project provides students the opportunity to work in interdisciplinary teams to pursue an engineering idea from conception to design
• Strong partnerships with industry provide excellent opportunities to the students for internships &placements

 

Career Prospects after B.Tech. Electronics and Communication Engineering

• Network Communications Systems Engineer
• RF Wireless Systems Engineer
• RF Systems Engineer
• Data Analyst
• Telecommunication Engineer
• Analog Design Engineer
• Digital Design Engineer
• Layout Engineer
• Testing and Verification Engineer
• PDK Developer
• Design Synthesis Engineer
• Design and Development Engineer, electrical and electronic systems
• PCB Designer
• Product Validation Engineer
• Embedded Firmware Engineer
• Embedded Hardware Engineer
• Embedded System Developer
• Hardware Systems Firmware Debug and Integration Engineer
• Control Systems Engineer
• Instrumentation Engineer
• Systems & Communications Engineer
• Antenna Engineer
• Network Communications Systems Engineer
• RF Wireless Systems Engineer
• RF Systems Engineer
• Data Analyst
• Software engineer
• Cybersecurity Engineer - Embedded Systems

 

Having a further look at the career prospects, there is bound to be huge demand for competent engineers in electronic industry to cope this demand in technology. The engineers would be involved in sustaining cutting edge technology to stay ahead in competition.

1. An electronic engineer can find a job in Consumer electronics manufacturing organization , Telecommunication & IT industries, Health care equipment manufacturing , Mobile communication(2G,3G,4G), Internet technologies, Power Electronics, and other industries like steel, petroleum and chemical industry, directing control and testing production process.
2. Electrical Technicians and technologists can specialize in technical sales, product representation, systems management, the design and manufacture of electronic devices and systems, or the installation, maintenance and repair of electronic systems and equipment.
3. They may also work with computers and electronic equipments in the medical, manufacturing, industrial control, telecommunications, aeronautical and military fields.
4. The Major advantage that ECE student has the ability to do coding of the software program alongwith the knowledge of Electronics Hardware's devices.

HOD's Desk

Welcome to the School of Electronics & Electrical Engineering (SoEEE) at Lingaya’s Vidyapeeth (Formerly Known as Lingaya’s University). The School is located in a sprawling environment with a state of art facilities and highly qualified faculty. School works with the objective of addressing critical challenges faced by the industry, society and the academia. Perhaps even more important is our commitment to our students, helping them to learn, grow, develop, and achieve their goals in their pursuit to excel in their professional career. SoEEE strives to provide a conducive environment for the students to develop analytical and practical skills and apply them to real world problems. To motivate the students, SoEEE organizes regular training in state of art software & Hardware, arrange workshop, National & International Conferences periodically.

I am pleased to share that our students are consistently excelling in their placement process in highly reputed companies like Accenture, TCS, Intel, Wipro and Analog Devices etc.

We are constantly on the lookout for bright young minds, which would enrich our department by joining us in the capacity of students, researchers or faculty members; we shall be delighted to hear from you. I welcome you to School of Electronics & Electrical Engineering and hope to be part of your success.

Vision

The School is committed to engage in high quality research and pursuit of excellence in teaching. The faculty members of the school are actively involved in research and development in challenging areas of both theory and experiment. The labs established here have been well equipped with the latest equipment. School of Electronics & Electrical Engineering has intel sponsored Lab on Internet of Things. The School has online access to DELNET digital library and other online journals. High End Computational Servers and Software’s like MATLAB, PSPICE, and CAD Tools are available with the school in order to accelerate the research. Instructional laboratories for Basic Electronics, Analog Electronics and Digital Electronics are fully operational. Advanced laboratories like Communication Systems, Digital Signal Processing, Embedded Systems, VLSI, Electrical Machines, Power Electronics and Power Systems are also fully operational with advanced technologies, hardware equipment and software. The School undertakes a continuous process of setting up experimental and computational facilities for taking up research & development and consultancy activities in various fields as also to produce state-of-the-art research output.

Mission

To arrange for periodic assessment and accreditation of institutions of higher education or units thereof, or specific academic programmes or projects;

To stimulate the academic environment for promotion of quality of teaching-learning and research in higher education institutions;

To encourage self-evaluation, accountability, autonomy and innovations in higher education;

To undertake quality-related research studies, consultancy and training programmes, and

To collaborate with other stakeholders of higher education for quality evaluation, promotion and sustenance.