Electrical Engineering Lab

Electrical Labs
Sr. No.Lab NamePurpose & Practical WorkSpecial FeaturesLab In-chargeLab AssistantVideo Link
1High Voltage (UG+PG )Manpower development in the field of High voltage engineering. Demonstration of Type and routine Tests related to high voltage to students of UG and PG. Testing and consultancy of various insulating materials and products for industries like Adani Power, Railways etcImpulse generator for tests up to 800 kV, Power frequency tests up to 300 kV, High current (up to 5000 A) test setup, Portable PD detector setupProf. H. B. Choudhari and
Dr. P. P. Gupta		Mr. P. C. SatamLink
2Electrical Machines and Drives LabCore Electrical Machines Lab for Diploma and UG having transformers, DC Machines, Induction machines, and Synchronous MachinesMake: The Lisper Electric Co. Voltage: 230V, Current: 77 A Speed: 700 RPM

Voltage: 220 V, Current: 99 A Output: 26.8 HP, Speed: 930 RPM

3-Ph Alternator Output: 3-Ph, 50Hz, 10kVA, Speed: 1500 RPM Voltage: 110/220 V(AC), Current: 52/26 A		Dr. S. K. Bhil
Dr. S. R. Wagh		Mr. A. K. KesarkarLink
3E-MC ^ 2 Lab UG + PG ProjectElectrical: Modeling, Computation, and Control Lab (E-MC^2)

With the real-time simulators, the lab specializes in cutting-edge research and development in electrical power systems and control systems, with a wide-
ranging focus that extends beyond core areas. The lab has made significant contributions in diverse fields such as motor control, computer vision, data science, and machine learning.

In addition to research, the lab provides consultancy services to industry partners, offering motor control solutions to companies like Motwane and computer vision solutions to IGI, driving innovation across multiple domains.		Domain areas
1. Non-Linear and Linear System Modelling
2. Power System Stability and Fault Analysis
3. Grid Connected Converter and Microgrid design simulation
4. Power System Stability and Control
5. Control System Design and Simulation
6. Control Algorithm Optimization
7. Computer Vision
8. Data Driven Modelling and Control
9. Time Series Analysis and Forecasting
10. Machine Learning
11. Temporal Data Study and modelling
12. Generative AI-Transformer Architecture		Dr. S. K. Bhil
Dr. S. R. Wagh
Prof. N. M. Singh		-Link
4Controls labMr. P. C. SatamLink
5Electrical Workshop-
6Simulation Lab-
7Electrical CircuitsMr. D. B. GareLink
8Measurement & Instrumentation LabMr. P.C. Satam
9Power Electronics LabMr. N. D. BelnekarLink
10BEE LabStudents learn about electrical components and their rating, how to make electrical
connections, how to use electrical measuring instruments and about transformers and electrical machines		Mr. N. D. Belnekar
Electronics and EXTC Program Labs
Sr. No.Lab NamePurpose & Practical WorkSpecial FeaturesLab In-ChargeLab AssistantVideo Link
1VLSI & Embedded SystemsTo provide students, researchers, and professionals with hands-on experience and practical knowledge in designing, and simulating, integrated circuits (ICs) built using advanced semiconductor technology.20 high-end computers equipped with CADENCE & Console software for device simulation.Dr. Neha Mishra-Link
2Basic ElectronicsDr. R A PatilMr. Bandu IlagLink
3Basic communicationTo give students practical exposure to the fundamental concepts and principles. It bridges the gap between theoretical knowledge and real-world applications, enabling students to effectively understand and analyze telecommunication networks, protocols, and devices.Dr. G. M. Galshetwar

Dr. Jyoti Gondane		Mr. S.M. MahadikLink
4Digital communicationTo analyze the behavior of digital communication systems. To study the characteristics of signals and the impact of noise, interference, and other factors on system performance. To familiarize students with telecommunication technologies such as modulation, multiplexing, and signal processingMr. R.K. TatkareLink
5RF & Antenna Computer NetworkingMr. R.K. Tatkare
6Advance BiomedicalDr. R. N. Awale
Dr. Rahul Ingale
Mr. S.J. KadamLink
7IoT LabMicroprocessor 8085 KITS are available.

23 high-end computers are available for software simulation.		Dr. Rahul Ingale
Dr. Vikram Kehri		Mr. S. S. DapaleLink
8MicroprocessorPurpose:
1. Learn about the hardware and software of microprocessors
2. Gain knowledge of microprocessor architecture and programming
3. Apply microprocessor solutions to reduce system costs and improve product quality
Practical work:
1. Use microprocessor kits to learn how to program in assembly language
2. Learn how to interface microprocessors with other peripherals
3. Apply microprocessor concepts to real-time applications		Dr. Rahul Ingale
Dr. Vikram Kehri		Mr. S. S. DapaleLink
9Biomedical Engineering
(First Floor)		Dr. R. A. Patil
Dr. Jyoti Gondane		Mr. N. D. Belnekar
10Industrial ElectronicsDr. Jyoti Gondane
Dr. R. A. Patil		Mr. N. D. BelnekarLink
11DSP LabPurpose:
Understand DSP concepts, Implement algorithms,Experiment with tools, Analyze performance,Apply theoretical knowledge and Develop problem-solving skills.
Practical Work:
1. Digital Signal Processing Lab
2. Advance DSP Lab
3. Audio and speech processing
4. Image processing
5. Biomedical and radar Imaging		Data Acquisition devices , Digital Signal Processors and equipment to analyze signals are available.

One workstation with 64GB RAM for developing and testing DSP algorithms.		Dr. R. A. PatilMr. S.M. MahadikLink
12Wireless communicationDr. R. A. Patil

Dr. Vikram Kehri		Mr. Bandu Ilag
13IC lab (above library)Prof. Krishna KanakgiriMr. D. B. GareLink
14Computer Communication LabTo provide students with practical knowledge of computer communications and networking principles20+ high-end computers are available for software simulation.Dr. Yogesh Wankhede

Dr. N. S. Agrawal		Mr. R.K. TatkareLink
15Virtual Instrumentation LabDr. R. A. Patil

Dr. Jyoti Gondane

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