In this Laboratory, students are taught Electronics Circuits. Analog and Digital circuits which are types of Electronic circuits are also included in the curriculum. The important features that the student’s study in this lab are characteristics of Diodes, Transistors, and other Semiconductor Devices and their applications. In addition, they learn to create logic gates that provide the functions of Boolean logic: AND, NAND, OR, NOR, XOR, and combinations thereof. Digital circuitry is used to create general-purpose computing chips, such as microprocessors, and custom-designed logic circuits, known as an application-specific integrated circuit (ASICs). Field-programmable gate arrays (FPGAs), chips with logic circuitry whose configuration can be modified after fabrication, are also widely used in prototyping and development.

In this Lab, students get an overview of the different power electronics components like SCR, TRIAC, DIAC, and their characteristics. They are demonstrated the functioning of different triggering circuits such as UJT, Digital for SCR, and TRIAC and their application in speed control of different motors such as dc motor, universal motor using the full converter, and semi converter. Power electronic circuits are the backbone of almost every modern convenience such as automobiles, cell-phones, laptops, desktop computers, television sets, and all electronic appliances, among many other systems, which require power electronics circuits to convert electrical energy into a useful form.

In this lab, Students get the practical exposure to the breakdown strength of transformer oil, spark over characteristics of free space for uniform and non-uniform configurations for both AC and DC voltage. The students also learn the characteristics of over current, over voltage, under voltage and negative sequences relay for both electromagnetic and static type relays, microprocessor based over current, over voltage, under voltage relays and distance relay. The students also get to know how the protection will be done for generator, motor and feeders in industries and substations. The students also study about standard lightning impulse voltage and study its characteristics.

The goal of this lab is to prepare students for the “real world”, where students may program DSP for signal processing, energy, biomedical, robotics, or communications companies amongst others. One main intention is to introduce students to what a DSP engineer would be doing from the software, hardware, and application-based perspectives. This means the labs will cover theory, design, implementation, as well as user interfacing. With MATLAB and Simulink signal processing products, they can: Acquire, measure, and analyse signals from many sources, design streaming algorithms for audio, smart sensor, instrumentation, and IoT devices.