Facilities

The lab content comprises the high frequency sources as Klystron & Gunn diode and different microwave components are Isolator, frequency Meter, Slotted line carriage, wave guides, magic TEE, H-plane TEE, E plane Tee junction and horn antenna radiation parameters. Gunn Diode and Reflex Klystron Characteristics, VSWR wavelength Measurement, Impedance and Frequency Measurement, Scattering Parameters of Magic Tee, Directional Coupler, Radiation Pattern of Horn Antenna

Antenna lab

The lab course provides an understanding of the Antenna Transmitter and Receiver trainer for different type of Antenna and transmission parameter, field radiations & antenna parameters Basic antennas & parameter measurement (gain Directivity efficiency, beam efficiency) designing of Microstrip antenna using ADK software.

To attain knowledge on the basic parameters those are considered in the antenna design process and the analysis while designing the antenna. To analyze the designed antenna and Array system, field evaluation under various conditions and formulate the electric as well as the magnetic fields Equation set for Far field and near field conditions.

Analyze the radiation patterns from various basic antennas. Design procedure of a Microstrip antenna using HFSS software shown in below diagram for better understanding of students.

This lab consists of different relays like Differential relay, Overcurrent relay, Thermal relay, Instantaneous overcurrent relay, single line to ground fault analysis, three phase to ground fault analysis on which students of final year perform experiments related to topics studied in power system.

The main experimental setups includes

• Experimental setup for A,B,C,D parameters, Hybrid parameters
• Percentage differential relay kit
• Thermal relay
• Three phase fault earth relay kit
• Line to ground fault relay kit
• Over current relay kit
• Oil testing set

In this lab, students will engage in the following key activities:

• VI Characteristics of Solar Panels: Students will use a simulation kit to observe the Voltage-Current (VI) characteristics of solar panels, understanding how solar cells behave under different irradiation levels.
• Shadowing Effect on PV Characteristics: They will explore the impact of shadowing on the performance of photovoltaic (PV) systems and learn about the challenges it poses to solar energy efficiency.
• Diode-Based Solutions for Shadowing: The lab includes experiments on how diode-based solutions, such as bypass diodes, can help overcome the negative effects of partial shading on solar panels.
• Performance Assessment of Solar Panels: Students will assess the performance of both standalone and grid-connected solar panels, gaining insight into their efficiency, energy output, and integration into the power grid.
• Wind Energy Generator Performance: The lab also covers the performance analysis of wind energy generators, allowing students to evaluate their efficiency and contribution to renewable energy systems.
• Hybrid Wind-Solar System: Students also study and assess the performance of hybrid systems that combine both wind and solar energy, learning how these complementary systems can enhance energy reliability and sustainability.

This lab provides a practical foundation in renewable energy, preparing students to work with and develop innovative solutions in the rapidly evolving field of clean energy.