e-Newsletter - June 2022

From HoD’s Desk

Commencement of the new academic year and conclusion of the previous one happens in June. The classes, practical and oral exams of SE, TE, and BE are over in June, however, the FE classes are still going on due to delayed admission.

This month, the result of accreditation is also declared and the accreditation is extended for the next three years, i.e. from the academic year 2022-23 to 2024-25. This is the outcome of continuous efforts taken by all the faculty and staff members. This is the motivation for everyone to set the benchmark in the coming years.

Department Events

One Day Workshop on 'BE Electrical Syllabus Revision (2019 Pattern)' in association with Board of Studies (Electrical), Savitribai Phule Pune University, Pune on 20th June 2022

Department of Electrical Engineering has organized a One Day Workshop on 'BE Electrical Syllabus Revision (2019 Pattern)' in association with the Board of Studies (Electrical), Savitribai Phule Pune University, Pune on 20th June 2022. Dr. B. E. Kushare, Chairman, Board of Studies (Electrical), Dr. M. G. Unde, Shri. Narendra Duvedi, Dr. D. P. Kadam, Member, BoS, Dr. Ujval Sonone, Industry Representative (ABB India, Nashik), Mr. U. G. Salawade, GM (AURDC) Retired, HAL Ojhar, Nashik and faculty members from various colleges in Pune, Nashik and Ahmadnagar attended the workshop. The complete workshop was coordinated by Dr. R. K. Munje and Prof. S. K. Shinde. 

Expert Lecture on ‘Electrical Energy Conservation for HT Consumers’ on 24th June 2022

Department of Electrical Engineering has organized an Expert Session on ‘Electrical Energy Conservation for HT Consumers’ by Shri. Promod Daspute, Energy Auditor under the institutional training program offered by Petroleum Conservation Research Association (PCRA), Ministry of Petroleum Government of India on 24th June 2022. The expert introduced the concept of Energy Conservation for HT Consumers. A total of 45 students from FE gained knowledge and information about it. The content of the lecture was fascinating and students will definitely develop an interest in the respective domain. It will also add to the academics as well.

Training session on 'Professional Software for Electrical Engineers' on 30^th June 2022

Department of Electrical Engineering has organized an Online introductory training session on 'Professional Software for Electrical Engineers' Phase I for MATLAB and PSCAD. In this training, two software used by electrical engineers are explored, namely MATLAB and PSCAD.   is completed on 30^th June 2022. MATLAB was introduced by Dr. R. K. Munje and PSCAD was introduced by Prof. J. D. Patil. Phase II of the same training program is scheduled in July in which ETAP and ANSYS will be explored.

Expert Lecture  on ‘Battery Manufacturing’ for  FE students on 11^th June 2022

Department of Electrical Engineering has organized an Expert Session on ‘Battery Manufacturing’ by alumni Mr. Dhaval Tagare and Mr. Omkar Sonawane, E-Mmortal Automotives Pvt. Ltd., Nashik, on 11th June 2022. The speaker introduced the concept of different types of Batteries, their characteristics, and manufacturing. A total of 40  students from FE gained knowledge and information about it. The session was coordinated by Prof. J. D. Patil.

Expert   session on  ‘Building Patent Ecosystem’ on 22nd June 2022

Institution’s Innovation Council of KKWIEER in association with the Electrical Department and WeGo Library Foundation organized a session on  ‘Building Patent Ecosystem’ On 22nd June 2022 at 3.00 pm at Faraday Hall of Electrical Engineering Department,  The various department a total of 33 faculty members participated in this event. The event was coordinated by Dr. Ravindra K. Munje. The session was delivered by Shri. Nilesh Pawaskar, Ms. Smita Joshi and Mr. Sujit Nair, WeGo Library Foundation.

International Yoga Day

Department has organized Session on 'Meditation' on the occasion of 'International Yoga Day' on 21st June 2022 for the students of the First year and faculty members, This session was delivered by Shri. Jayant Sharma and coordinated by Prof.Priya Vyavahare.

 

Student Corner

Student Placement

Following students are placed in various multinational companies. Congratulations to all the students!

Placed Students Details (June - 2022)

Sr. No.	Name of the Student	Placement Date	Batch
1	Nikita Patil	24/06/2022	2021-22
2	Mujahid Sayyad	24/06/2022	2021-22

 

Student Felicitation

Following students are felicitated for their placement in various multinational companies. 

Placed Students Felicitation Details (June  2022)

Sr. No.	Name of the Student	Batch	Felicitation Date
1.	Bhor Dhanashree Popat	2021-22	04/06/2022
2.	Pawar Shraddha Govind	2021-22	04/06/2022
3.	Wagh Priyanka Yashwant	2021-22	04/06/2022
4.	Chaudhari Nilesh Amrut	2021-22	04/06/2022
5.	Dharaskar Vedika Rajesh	2021-22	04/06/2022
6.	Sonawane Madhuri Shivnath	2021-22	04/06/2022
7.	Tambe Jaydip Maruti	2021-22	04/06/2022
8.	Porje Shraddha Kailas	2021-22	04/06/2022
9.	Patil Ritesh Mohan	2021-22	04/06/2022
10.	Sonawane Saurabh Baban	2021-22	04/06/2022
11.	Nilakshi Chandratre	2021-22	04/06/2022
12.	"Karpe Kirti Kailas	2021-22	04/06/2022
13.	Tejal Balkrushna Hadpe	2021-22	04/06/2022
14.	Yash Vikram Kamble	2021-22	04/06/2022
15.	Shubham Sanjay Nawale	2021-22	04/06/2022
16.	Malode Dinesh Balasaheb	2021-22	04/06/2022
17.	More Nikita Ashok	2021-22	04/06/2022
18.	Somwanshi Vaishali Jaywant	2021-22	04/06/2022
19.	Gaurav Laxman Sawkare	2021-22	04/06/2022
20.	Mahesh Ghule	2021-22	04/06/2022
21.	Omkar Ravindra Todkar	2021-22	04/06/2022
22.	Kalyani Dhande	2021-22	04/06/2022
23.	Bachhav Rajeshwari Kevba	2021-22	04/06/2022

Industrial Visit

Industrial visit of the First Year students at Link Servo Systems coordinated by Prof. J. D. Patil and Shri. Tanaji Shinde on 17th June 2022.

Project Competition for the FE students (29^th June 2022)

Department of Electrical Engineering organized on ‘Project Competition for the FE students (Div. G and P)’ on their projects in PBL on  29^th June 2022. A total of 20 projects are presented by students. The chief guest and the project evaluator for this project competition.The overwhelming response by students with innovative projects. This project competition was coordinated by Prof. S. S. Khairnar and Prof. J. D. Patil.

Smart India Hackathon

Team Sanrakshan is selected for the grand finale of the Smart India Hackathon. Team Members are Aarambh Ahire, Tejas Rayate, Pranjal Jain, Vrushali Bangar, Sanskruti Atal and Gurkirat Kohli. The team is guided by Prof. J. P. Shah.

Sports Achievement of the Students

Department is delighted to share that FE Electrical Div. G is the winner of ELITE CLUB CRICKET TOURNAMENT 2022. Players are Omkar Ozarkar (C), Yugant Kalkhaire, Sagar Thorkar, Roshan Anwat, Harshal Wagh, Kalpesh Patil, Prathamesh Jadhav, Tejas Kathe, Hiten Dhatak, Tanmay Mahale, Jayesh Balak, Shubham Lokhande and Ayan Shaikh.

Student Publication

1. Prathmesh Kulkarni, Ritesh Patil, Manoj Kastoore, Abhishek Shinde, & Ravindra Munje (2022). Development of Object Identification Glasses for Visually Impaired People. Journal of Advances in Computational Intelligence Theory, 4(2), 1–10. https://doi.org/10.5281/zenodo.6675747

2. Swaraj Birari, Sujay Choukhande, Vishal Daund, Apurva Shinde, & Ravindra Munje. (2022). Design and Development of Power Generating Tiles and Demonstration. Journal of Research and Advancement in Electrical Engineering, 5(1), 1–7. https://doi.org/10.5281/zenodo.6646103

3. Unika Benson, Bharsat Jagruti, Shubham Jadhav, Bhagyashri Pawar (June 2022) “Transmission Line Fault Location and Classification Using Machine Learning Technique” Journal of Recent Trends in Electrical Power System, Vol. 5, No. 1, 2022    

4.  Pratik Patil, Priyanka Nikam, Sushant Sonar, Vedant Singnapurkar, N. N. Jangle (June 2022) “Solar Based EV Charging Station” Recent Trends in Control and Converter, Vol. 5, No. 1, 2022

5. Saurav Beldar, Shashikant Bhujade, Ritesh Buta, Darshan Bhor, “Smart Vehicular Communication System using Li-Fi Technology” Advancement of Signal Processing and its Applications, Vol. 5, No. 1, 2022

Faculty Corner

Faculty Participation

The following staff members have completed the courses given below in June 2022

Name of staff	Name of course	Duration	Platform	Name of Organization
Mrs. Shubhada Bodade	Advance Excel	1 Day	offline FDP	K. K. Wagh I. E. E. & R.
Mrs. Shubhada Bodade	AICTE IDEA Lab FDP on Electronics Product Design.	3 Day	offline FDP	K. K. Wagh I. E. E. & R.

Faculty Industry Visit

Faculty Participation Dr. R. K. Munje, Prof. A. M. Jain, Dr. M. P. Thakre, and Prof. J. P. Shah visited the Automotive Research Association of India (ARAI), Pune (E-Mobility Section and various labs) and Sun C Batteries, Pune on 14th June 2022 to explore possibilities for collaboration.

NPTEL Course

Prof. Ganesh Jadhav has completed the NPTEL course on ‘Digital Protection of Power system’, awarded with an Elite certificate for completing the course with a score of 85%.

Prof. Ganesh Jadhav has completed the NPTEL course on ‘Introduction of Professional Scientific Communication’, awarded with an Elite certificate for completing the course with a score of 75%

NPTEL ENTHUSIAST

Certificate of Appreciation to Prof. Ganesh Jadhav for being recognized as NPTEL ENTHUSIAST January –April 2022. Congratulations to Prof. Jadhav.

Alumni and Industry Leaders Meet

Alumni and Industry Leaders Meet was organized at Vadodara by the institute on 17^th June 2022. Prof. J. P. Shah represented the same from Electrical Department.

 

Sr. No	Name of Industry Representative	Designation and Name of Industry
1.	Navil Shah	Director, Power green Technologies Electrical products
2.	Ayush Jain	GETCO, Gujarat Electricity Board
3.	Vikrant Ray (2010 passed out)	Amal Electricals (Consultancy and Engg)
4.	AbhishekDatir (2010 passed out)	Technic process Technologies Pvt, Ltd
5.	Sameer Joshi (2016 Passed out)	Junior Engineer, Indian Railways
6.	Snehal Arun Kukane (2021 Passed out)	Digital Solution Specialist (ABB)
7.	Kranti Arun Porje (2021 Passed out)	Management trainee at transformer factory, Hitachi Energy
8.	Samiksha S Yawalkar (2021 Passed out)	Management Trainee at global feeder factory, Hitachi Energy
9.	Aishwarya Shukla (2016 passed out)	Software Application Engineer, ALSTOM
10.	Anuja Potdar  (2016 passed out)	Deputy Manager MG Motors

 

Felicitation of the Young Entrepreneurs

Felicitation of the Young Entrepreneurs of the Department, Mr. Dhaval Tagare and Mr. Omkar Sonawane, E-Mmortal Automotives Pvt. Ltd., Nashik was done on 11th June 2022 with the hands of Institute Training and Placement Officer, Dr. P. K. Shahadakar.

 

Alumni Visit

Visit of department alumni (2017 batch) to the department on 16th June 2022.

Alumni Achievement

The interviewer and interviewee both are Electrical Department Alumni. Unacademy has taken an interview with Ms. Punam Ahire. From Unacademy, the interview was taken by Ms. Vaibhavi Thakre. Both are alumni of the Department. 

Department in News

Student Articles

Li-Fi – THE FUTURE OF WIRELESS

Aditya Dilip Kale TE-Div B, (Electrical)

adityakale7075@gmail.com

Li-Fi stands for Light Fidelity. The technology is very new and was proposed by the German physicist Harald Haas in the 2011 TED (Technology, Entertainment, Design) Global Talk on Visible Light Communication (VLC). Li-Fi is a wireless optical networking technology that uses light emitting diodes (LEDs) for the transmission of data. The term Li-Fi refers to visible light communication (VLC) technology that uses light as a medium to deliver high-speed communication like Wi-Fi and complies with the IEEE standard IEEE

1. Introduction

In today’s world of overcrowded (data communication), Li-Fi is a new and efficient way of wireless communication. Li-Fi uses LED lights to transmit data. The Transmission of data is done wirelessly. The current wireless networks that connect us to the Internet become very slow when many devices are connected. Also with the increase in the number of devices, which uses the Internet, the availability of fixed bandwidth makes it much more difficult to enjoy high data transfer rates and to connect to a secure network. Radio waves are just a small part of the electromagnetic spectrum available for data transfer. Li-Fi has got a much broader spectrum for transmission of data compared to conventional methods of wireless communications that are done on radio waves. The basic idea behind this technology is that the data can be transferred through LED light by varying light intensities faster than the human eyes can’t detect. This technology uses a part of the electromagnetic spectrum that is still not generally utilized- The Visible Spectrum, instead of Gigahertz radio waves for transferring data.

The idea of Li-Fi was introduced by German physicist Harald Hass in the TED (Technology, Entertainment, Design) Global talk on Visible Light

Communication (VLC) in July 2011, by introducing it as data through illumination. He used a table lamp with an LED bulb to transmit a video of a blooming flower that was then projected onto a screen. In simple terms, Li-Fi can be thought of as light-based Wi-Fi i.e. instead of radio waves it uses light to transmit data. In place of Wi-Fi modems, Li-Fi would use transceivers fitted with LED lamps that could light a room as well as transmit and receive information. By adding new and unutilized bandwidth of visible light to the currently available radio waves for data transfer, Li-Fi can play a major role in relieving the heavy loads which the current wireless system is facing. Thus it may offer an additional frequency band of the order of 400 THz compared to that available in RF communication which is about 300 GHz. Also, as the Li-Fi uses the visible spectrum, it will help alleviate concerns that the electromagnetic waves coming with Wi-Fi could adversely affect our health. By Communication through visible light, Li-Fi technology can change how we access the Internet, stream videos, receive emails, and much more. Security would not be an issue as data can’t be accessed in the absence of light. As a result, it can be used in high-security military areas where RF communication is prone to eavesdropping.

2. ARCHITECTURE OF LI-FI

Li-Fi which can be the future of data communication appears to be a fast and cheap optical version of Wi-Fi. Being a Visible Light Communication (VLC), Li-Fi uses visible light of electromagnetic spectrum between 400 THz and 800 THz as an optical carrier for data transmission and illumination. It uses fast pulses of light to transmit information in a wireless medium. The main components of a basic Li-Fi system may contain the following:

1.      A high brightness white LED acts as a transmission source.

2.      A silicon photodiode with a good response to visible light as the receiving element.

Turning the LEDs on and off can make them generate digital strings with different combinations of 1s and 0s. To generate a new data stream, data can be encoded in the light by varying the flickering rate of the LED. In this way, the LEDs work as a transmitter by modulating the light with the data signal. The LED output appears constant to the human because they are made to flicker at a phenomenal speed (millions of times per second) and the human eye can't detect this frequency. Communication rate more than

100 Mbps can be achieved by using high-speed LEDs with the help of various multiplexing techniques. And this VLC data rate can be further increased to as high as 10 Gbps via parallel data transmission using an array of LED lights with each LED transmits a different data stream.

The Li-Fi transmitter system consists of four primary subassemblies:

·         Bulb

·         RF Power Amplifier Circuit (PA)

·         Printed Circuit Board (PCB)

·         Enclosure                                                                                                                                                                                      

3. How it works

The working of Li-Fi is very simple. There is a light emitter on one end i.e. an LED transmitter, and a photodetector (light sensor) on the other. The data input to the LED transmitter is encoded into the light (technically referred to as Visible Light Communication) by varying the rate at which the LEDs turn on and off to achieve different strings of 1s and 0s. The on-off activity of the LED transmitter which seems to be invisible (The LED intensity is modulated so fast that the human eye cannot notice it, so the light of the LED appears constant to humans), enables data transmission in the light form by the incoming binary codes: switching ON a LED is a logical '1', switching it OFF is a logical '0'. By varying the rate at which the LEDs turn on and off, information can be encoded in the light to different combinations of 1s and 0s.In a typical setup, the transmitter (LED) is connected to the data network (Internet through the modem), and the receiver.

Light Fidelity (Li-Fi) technology is a wireless communication system based on the use of visible light between violet (800 THz) and red (400 THz). Unlike Wi-Fi which uses the radio part of the electromagnetic spectrum, Li-Fi uses the optical spectrum i.e. Visible light part of the electromagnetic spectrum. The principle of Li-Fi is based on sending data by amplitude modulation of the light source in a well-defined and standardized way. LEDs can be switched on and off faster than the human eyes can detect since the operating speed of LEDs is less than 1 microsecond. This invisible switching activity enables data transmission using binary codes. If the LED is on, a digital signal 1 is transmitted and if the LED is off, a digital signal 0 is transmitted. Also, these LEDs can be turned on and off very quickly which gives us a very nice opportunity for transmitting data through LED lights, because there are no interfering light frequencies like that of the radio frequencies in Wi-Fi. Li-Fi is thought to be 80% more efficient, which means it can reach speeds of up to 1Gbps and even beyond. Li-Fi differs from fiber optic because the Li-Fi protocol layers are suitable for wireless communication over short distances (up to 10 meters). This puts Li-Fi in a unique way of extremely fast and efficient wireless communication over short distances.

sensor) on the receiving end receives the data as a light signal and decodes the information, which is then displayed on the device connected to the receiver. The receiver (photodetector) registers a binary 1 when the transmitter (LED) is ON and a binary 0 when the transmitter (LED) is OFF. Thus flashing the LED numerous times or using an array of LEDs (perhaps of a few different colors) will eventually provide data rates in the range of hundreds of Mbps.                      

 Smart Lighting: Opportunities & Challenges

Prerna Umesh Sakate, BE (Electrical), Div. B

sakateprerna2642@gmail.com

Lighting plays an important role in our well-being and the use of a smart lighting system adds elegance, ambiance, convenience, and energy efficiency to any place…

Lighting is a vital part of life at home. It makes our homes safer, cozier, and more welcoming. Lighting plays an important role in our well-being and the use of a smart lighting system adds elegance, ambiance, convenience, and energy efficiency to any place. Warm, dimmed light creates a calming atmosphere that encourages socializing and relaxation. At present, incorporating smart lighting in homes is easier than to think. The kits are ready right out of the box, with light sources and steering devices pre-paired. All we need to do is install the smart bulbs. Smart lighting is getting smarter. Create a range of pre-set moods for all activities, from weeknight cooking to weekend movie marathons, we can create a pre-set lighting mood for each activity. By setting a ‘rise and shine’ timer, we can wake up gently to softly brightening light. Smart lighting dimming kit white spectrum changes the room and atmosphere from reading light to dancing light and back again with a simple click on the remote control. Smart lighting, for instance, gives flexibility because we can control it with timers, plus can set schedules and monitor bulb status remotely, etc. There are four reasons why you should use smart lighting. First and foremost it can save money on a utility bill. That’s because a smart lighting network is very energy efficient; it allows us to calibrate when exactly a light should be on. Smart lights can also simplify our life. When preparing to travel, we won’t have to physically alter the settings of each smart light or check to see if it is off before we leave., we can do all this remotely, from afar.

 

Segments of Smart Lighting System: Smart lighting incorporates many technologies so that either indoor or outdoor lights will work automatically under certain conditions. Different smart lighting networks do different things, but some of the more popular solutions feature smart lights that are capable of instantly switching on when someone enters a room or changing color when something occurs. Different types of smart lighting systems are available with all know-how of their working, and the many products we can buy on market today.

Home Automation: enables to have automatic, electronic, and even remote control of the home as well as the devices, fixtures, accessories, and appliances inside. Several manufacturers have already developed smart products for homes and various control systems that enable their automation. Smart lighting networks fit into the home automation trend and will change the way of lighting our homes, forever.

Networks & Controls: Often allow lights to interact with each other, so that they can be calibrated enmasse, or even individually through a remote control setup. Smart lighting networks vary drastically, but generally, their lights can either work independently or together when connected. There are two main types of smart lighting networks: sensor-integrated and non-sensor integrated. Sensor-integrated lights feature sensors that enable them to recognize people and daylight, among other things. These lights automatically send data to the smart lighting network, which sets specific parameters for each light. Although non-sensor integrated lights don’t have sensors, they’re still considered smart, because we can program them. There are two main ways of controlling smart lights: control hubs and smart devices. We can use tablets, smartphones, laptops, and even desktop computers (as long as both the device and the smart lights are connected to Wi-Fi or Bluetooth) to remotely configure and manage smart lighting. In some situations, typically, in larger buildings, there is a dedicated control hub that maintains the smart lighting network.

Role of LEDs: Energy savings, exciting new designs, better light quality, lower environmental impact, and a 20-year lifespan; new LED lighting is so much better than old incandescent lighting. So, we’ve switched our entire lighting range to LEDs. This does mean everything, from bright and accurate kitchen lighting to warm and cozy bedroom lighting with LED bulbs for all existing light fittings. To reduce your energy consumption without making sacrifices. To make living a sustainable life at home easier, more beautiful, and more affordable, LEDs are an easy way to make a big difference. Energy efficiency, viability, and sustainability were the questions the LED lighting industry addressed over the last decade. With Solid-State Lighting successfully established for indoor, outdoor, and roadway lighting, the industry is poised to take LED to new dimensions. Within the smart lighting market, light emitting diodes (LEDs) are expected to remain the largest market and are expected to witness the highest growth over the forecast period. The declining cost of LEDs, low maintenance, and high energy efficiency are expected to spur the growth of this segment.

Smart Cities with Smart Lighting: Sensor technology is developing at a phenomenal rate, battery-powered sensors can now last up to 10 years and be deployed in challenging locations to help deploy smart city solutions almost anywhere. Solutions such as smart lighting, where traditional legacy lights are replaced with LED lamps can generate significant savings on energy bills and maintenance costs, and deliver a potential return on investment in less than eight years. The upgraded street lighting assets can then be further used to support other Smart City initiatives such as a WiFi mesh network; smart parking and air quality monitoring. Devices that can power themselves, by tapping into sunlight, vibrations, or heat, are also under development. Moving beyond the functionality of products to meaningful applications providing value for citizens and society requires a change in paradigm that affects all participants. Cities strive to improve the quality of life for their citizens and see opportunities in new information and communication technology-based technologies. Public lighting and public lighting infrastructure can play a significant role as a stepping stone to achieving the ambitions of cities to become ‘smart cities. New technologies, like LED lighting and data science, do not only contribute to energy saving but at the same time provide opportunities for value-adding services.

Opportunities: There are always challenges in creating and implementing smart solutions that are truly serving the needs of people and making the place attractive to live in. Emerging challenges include connectivity, interoperability, data security, non-visual effects of lighting, and spectral and light dosage for plant and poultry growth. Questions have arisen with respect to potential health implications of blue-rich, solid-state, or compact fluorescent lighting. Short-wavelength visible light at very high intensities can be phototoxic to the retina, and the newly discovered retinal cells that influence circadian rhythm are strongly blue-sensitive. Night shift workers have a higher cancer risk, and some scientists have suggested a possible link to lighting at work that could indirectly impact cancer risk by disruption of human circadian (day-night) regulation. Changing fixture and control technologies — coupled with integration expectations and energy management demands — leaves many lighting designers hesitant to fully embrace lighting controls. Relying on manufacturers and engineers for all things “controls” related, the lighting designer can ignore a vital tool in the design and weaken their position with their clients when problems occur. Most of us take for granted that our city lights will illuminate the streets – but good-quality city lighting can also create a feeling of safety, allowing citizens to enjoy life and make the most of everything a city has to offer. Cities need to remain attractive and safe places for residents and visitors, to develop as centers of economic growth. But this must be balanced by the harsh reality of budget constraints and the requirement to lower our carbon footprint by using fewer resources.

Future: The future of the smart lighting market looks promising with opportunities in the residential and commercial sectors. The global smart lighting market is expected to reach an estimated USD 17.7 billion by 2022 and is forecast to grow at a CAGR of 23.9% from 2017 to 2022. The major drivers of growth for this market are the development of smart cities, increasing usage of wireless technology, and increasing awareness of energy saving. Emerging trends, which have a direct impact on the dynamics of the smart lighting industry, include the growing demand for Internet of Things (IoT) technology and the emergence of light fidelity (Li-Fi) technology in the field of the smart lighting market.

About Newsletter:

Declaration

Content in the e-Newsletter is checked and compiled by Newsletter Committee. Suggestions and inputs leading to the improvement of this newsletter are highly welcomed. Please write to engg-hod-elct@kkwagh.edu.in.

Newsletter Committee:

Chief Editor:             Dr. Ravindra K. Munje, Professor and I/C HoD, Electrical Department

Faculty Editors:             Prof. Saravanan. S., Assistant Professor

                                        Prof. Priya Vyavahare, Assistant Professor

 

Student Editors:       Anuj Paul (BE-A)

VedikaDharaskar (BE-A)

Sharvari Phase (BE-A)

Abhishek Jadhav (BE-A)

RutujaKapile (BE-A)

VaibhavDhanokar (TE-A)

HuzaifSayyed (TE-A)

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