CSIT is pioneer institute in this region to introduce Electronics and Instrumentation in 2005 as one of the important branch of Engineering. In view of the requirements of the industry and other R & D organizations, the course gives emphasis on Mathematics, Electronics (Analog and Digital), Microprocessors and Micro-controllers, Transducers, Fiber Optics, Computer programming, Computer assisted Measurements, and the latest Instrumentation Techniques.
The Department has the State of Art Laboratories fully Equipped Automatic Control System Lab, Sensor and Transducer lab, Bio Medical Instrumentation Lab, Virtual Instrumentation Lab, Optical Instrumentation Lab ,Programmable logic controller lab ,Industrial instrumentation lab ,Applied Electronics Lab, Simulation Lab in addition to laboratories of Digital Electronics, Microprocessors and Microcontrollers , Computer Programming, Computer assisted Measurements, and the latest Instrumentation Techniques.
1. The Department is run by Committed, Highly Qualified and Experienced Faculties.
2. In addition to academics, thrust is given for overall development like personality, analytical and event management.
3. Students associations guided by efficient faculties, create platform for students to bring out the talents in Co-curricular and extracurricular activities.
4. Students are encouraged for participation in seminars and prepare projects on industrial problems.
5. Students are exposed to Computer Software Simulation and MATLAB tool.
6. Industrial visits and training programs on SCADA, PLC and Industrial automation which will help students in future.
7. Special classes are arranged for preparation of campus selection and self-grooming.
Electronics League of Instrumentation Techno Engineers (ELITE)
The Department of Electronics & Instrumentation Engineering provides a platform to students to showcase their talent and enhance their personality through Students Association, ELITE acronym ‘Electronics League of Instrumentation Techno Engineers' organizes various curricular and extracurricular events under its banner. Students gain rich experience of working as a team and competing amongst different teams.
1. DTMF BASED ROBOTIC ARM
Basically DTMF based robotic arm is developed to be used in the industrial manufacturing systems. This arm uses human mechanism consisting of four finger and thumb. It encompasses all design areas required to make a hand able to move and pick an object, including mechanical design, analysis, electronic PCB design, and software control & gripping algorithms. For a robotic device to perform a given task, it is necessary to control specific movements, to have the capabilities to send orders to the manipulator (in terms of positions or velocities of its final effectors) and sensing the real obtained position or velocity.
2.OVER HEAD CRANE AUTOMATION & YARD MANAGEMENT
This project is an approach to meet the automation needs of the over head cranes. The basic principle of this project is to convert the circular motion developed by the motors in to the linear distance and then controlling this motion by the program in the micro-controller. The operators just have to enter the destination’s two axes co-ordinates and then the crane will itself place the load at the given destination according to the program feeded in the micro-controller. It uses visual basic (VB) as a man machine interface (MMI). Based on these advancements, a complete database can be created about the goods and their location in the yard and hence enabling the manufacturer to keep a close eye on the yard activities.
3.WIRELESS INFRARED MOTION DETECTOR
The wireless motion detector transmitter is designed to detect motion over a narrow field of less than 10 degrees so that the area where motion occurs is easily identified. A miniature active wireless infrared motion detector contains a self-heating temperature sensitive resistor, an electronic circuit to maintain temperature of that resistor at predetermined constant level which is higher than ambient temperature. The detector actively radiates thermal energy to environment & measures electric power required to generate that energy. This provides information about temperature variations in surrounding objects. The detector is also comprised of a focusing system, image distortion means & a threshold circuit. An optical system can be made of a curved Fresnel lens or curved mirror, such as parabolic, cylindrical, spherical etc., which distributes thermal radiation over narrow or wide field of view, potentially up to 360 degrees. The method of detecting movements is based on the use of a sensor whose temperature is maintained constant & above ambient.
4.MONITORING & CONTROLLING OF GREEN HOUSE ENVIRONMENT
Greenhouses form an important part of the agriculture & horticulture sectors in our country as they can be used to grow plants under controlled climatic conditions for optimum produce. Automating a greenhouse envisages monitoring & controlling of the climatic parameters which directly or indirectly govern the plants growth & hence their produce.
© Copyright 2020 CSIT Powered by CSIT Group