Top B.Tech Electrical Engineering Colleges in India

About Department

Electrical and Electronic Engineering is one of the most sought after engineering course in the country. It has immense potential and increasingly exciting future prospects. Electrical and Electronic engineering is broadly known as electrical power engineering & electronic engineering. These engineers are responsible for designing, developing, testing and supervising the production of electrical and electronic equipment and machinery. Broadcast and telecommunication systems, power generation, controls of machinery, lights and wiring in building complexes, vehicles, electric motors, radar and navigation systems, aircraft, control and transmission devices which are used by electric. They may also work in fields related to IT and IT enable services. CUTM is one of the best engineering colleges in Bhubaneswar based on placement records, especially in electrical and electronics engineering.

EEE department offers B.Tech in Electrical and Electronics Engineering which follows specialisations/Domains:

Domains:

Industrial Automation (collaboration with FESTO)
Operation and Maintenance of Electrical Grid System & Transformers
Renewable Energy Applications (collaboration with SELCO and OPTCL)
Embedded System

The department also offers M.Tech programme in Power Systems and Control Engineering discipline. The department has excellent product focused lab where Distribution Transformer is manufactured. Students get enough hands-on practice in design, fabrication and repair maintenance of Transformer. The Industrial Automation Lab has been set up by FESTO to give ample opportunity for students to learn automation on Industrial Machines and it undertake real-time project viz; making Robot etc. The students and faculty are working on E-Vehicle designed and simulated using 3D Experience software of Dassault Systemes. The Renewable Energy Application center and research lab has been set up in collaboration with SELCO and OPTCL and also supported by Schneider Electric to work on alternative energy production from wind and solar.

The department undertakes full-time and part-time research scholars to pursue Ph.D. in the area of renewable energy, Electric Vehicle and power systems.

PSOs: Department of Electrical and Electronics Engineering

PSO1. Graduates can use their skills gained in the domain to work in Industrial Automation/Transformer Manufacturing/Distribution of Power/Renewable Energy.

PSO2. Demonstrate proficiency in use of software & hardware to be required to practice Electrical Engineering profession.

PSO3. Graduates will able to qualify GATE and other PSU examinations.

Tamper proof Meter System	Automated Cooking range	Smart Substation with Dashboardw
Automated Vertical Car Parking

Design and construction of mini APFC panel for laboratory purpose	Design and construction of mini APFC panel for laboratory purpose	Survey and Design of New substation
Survey and Design of New substation	Energy Audit of Own Campus	Energy Audit of Own Campus

Manufacturing of 16 KVA Transformer	Manufacturing of 25 KVA Transformer	Manufacturing of 63 KVA Transformer
Manufacturing of 100 KVA Transformer	Building 3D Model of 100 KVA Distribution Transformer	Building 3D Model of 100 KVA Distribution Transformer

Battery Management System		Hybrid Electric Bi-Cycle

A BMS monitors the temperatures across the pack, and open and closes various valves to maintain the temperature of the overall battery within a narrow temperature range to ensure optimal battery performance. Not only is a BMS important in indicating the health of a battery, but it also functions to protect the battery while in operation. Each battery cell and chemistry has voltage, temperature, and current range within which it can safely operate.		A hybrid electric bike is exactly what it sounds like – a combination of a e-road bike and a e-mountain bike. Hybrid bikes feature all the best bits to create a great all-rounder that’s perfectly suited to sorts of terrain. Electric hybrid bikes really shine in the urban environment. E-Cycle is a motorized bicycle that comprises an integrated electric motor to assist propulsion.

Smart Car Parking System	IoT Based Home Automation System	Smart RGB LED Bulb with Emergency Lighting System

A smart car parking system gives a visual output indicating an available parking space rather than driving aimlessly. The driver looks up to the row of LED lights and their colour to deduct a result of determining the parking space availability. When a vehicle enters the space, sensors detect its presence and calculate available parking slots. This information is then sent to the driver’s phone via an app. The smart parking system also has real-time data on occupancy rates, which can be found on the app.	IoT-based smart home automation systems are designed to monitor and control the attributes you want to manage. For example, a range of Wi-Fi devices collects and shares data via Internet protocols. In turn, each device has sensors or detectors reporting to a central home automation hub. IoT home automation is the ability to control domestic appliances by electronically controlled, internet-connected systems. It may include setting complex heating and lighting systems in advance and setting alarms and home security controls, all connected by a central hub and remote-controlled by a mobile app.	The hub is attached to a port in your router, but sometimes, smart bulbs don’t have smart hubs at all. There is wireless technology built into the bulb itself to send messages between your device, the hub (if any), and the bulb, resulting in the bulb turning on or off, changing colors, dimming, or brightening. Here we are using NodeMCU to control the RGB light through Blink Android Application and also the system is attached through a Li-Ion Battery to provide emergency Lighting.

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PSOs: Department of Electrical and Electronics Engineering

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1. Power Train for E-Rickshaw		2. Automatic Cooking system

IoT based Smart Transformer

Smart transformers are controlled dynamically allowing facilities to monitor and manage the transformers directly during the period of power fluctuations – and helping them ensure that their power supply remains voltage optimised even when new demands are being placed upon it. We can able to continuous monitoring the operation of transformer as well as tack care of it. Here we are using Node MCU as a controller to programme the IoT devices and also provided the Authorized login to make it secure from unwanted data manipulations.

Android App controlled Mobile Robot CAR	Smart Helment	Hall Sensor Based Seed Measurent of Vehicle

Android controlled robot project makes use of an Android mobile phone for robotic control with the help of wireless/Bluetooth technology. This is a simple robotics project using a NodeMCU. We have already seen Mobile Controlled Robot using DTMF technology which uses call based method to control the robot.	What is a Smart Helmet? A smart helmet is a device that makes a traditional helmet look dumb. Smart helmets have added features that can help riders drive safer, more efficiently and enhance their driving experience. Smart helmets can include some or all of these features: Bluetooth connectivity.	The designed system can measure the actual speed of a bicycle using the rotational speed of a bicycle wheel. The system implemented by using the Hall Effect sensor that will detect the magnet. The microcontroller then processes the data and convert the rotation per second into linear velocity. Its application is most popular among the Digital speedo meter system.

IR Sensor Based Speed Measuremnt of Vehicle		Battery Pack-48Volt-10Ah

Vehicle speed detection is used to estimate the velocity of the moving vehicle using image and video processing techniques. Without any camera calibrations video is captured and analyzed for speed in real time. By employing frame subtraction and masking techniques, moving vehicles are segmented out. To solve for speed or rate use the formula for speed, s = d/t which means speed equals distance divided by time.		A lithium-ion battery or Li-ion battery is a type of rechargeable battery composed of cells in which lithium ions move from the negative electrode through an electrolyte to the positive electrode during discharge and back when charging. Energy is stored and released as lithium ions travel between these electrodes through the electrolyte. The charger passes current to the battery. Lithium ions move from the cathode to the anode through the electrolyte. The battery is charged by a potential difference between the two electrodes.