Project and Design Laboratory


General information about the Laboratory: The general objective of the project lab is to apply the theoretical knowledge to solve the real life problems. It is also a pathway to enhance for employment and self-employment potential of graduates and enhance innovativeness. Students will achieve this by developing a co-creative and supportive environment. This lab will encourage and foster students’ entrepreneurial intent and at the same time support open innovation approach.

Course Outcomes:

CO 1: Students will be able to practice acquired knowledge within the chosen area of technology for project development.

CO 2: Students will be able to Identify, discuss and justify the technical aspects of the chosen project with a comprehensive and systematic approach.

CO 3: Students will be able to Reproduce, execute and review technical aspects for engineering projects.

CO 4: Students will be able to Work as an individual or in a team in development of technical projects.

CO 5: Students will be able to Communicate and report effectively project related activities and findings.

CO 6: Students will be able to inculcate innovative thinking and thereby preparing for main project.

Lists of experiments performed:

  • Design and implementation of Rectifier circuit using Diode and Transformer.

  • Realization of a linear voltage regulator using linear voltage regulator IC.

  • Design, implementation and simulation of Inverting and Non inverting Amplifier using IC 741.

  • Design of Adder and Subtractor using Op-Amp.

  • Design of Monostable and Astable Multivibrator using IC 555.

  • Design and implementation of Single stage audio frequency voltage amplifier with BJT.

  • Design and implementation of Complimentary symmetry power amplifier using transistor.

  • Design of RC Phase shift oscillator using BJT.

  • Design of Full Adder and Full Subtractor using Multiplexers.

  • Design of Comparator/Voltage Level Detector circuit using IC 741.

  • Design and implementation of sequence detector using flip flops and basic gates.

  • Design and implementation Schmitt trigger circuit using IC 741.

  • Design and implementation of BCD to 7 – segment decoder with basic and universal gates.

  • Mini projects by students (as per MAKAUT curriculum in mini project/electronics design) .

Facility available in the laboratory: All project related works are done here including software as well as hardware.

Major equipment:

  • Computers

  • CRO

  • Function generator

  • DC Power Supply