IAESTE Internships

Location

India

Internship type

ON-SITE

Reference number

IN-2025-A1423-JC

Students Requirements

General discipline

Electrical Engineering
Physics and Physical Sciences

Completed Years of Study

1

Fields of Study

Languages

English Excellent (C1, C2)

Required Knowledge and Experience

-

Other Requirements

-

Work Details

Duration

4 - 4 Weeks

Within These Dates

25.01.2025 - 30.09.2025

Holidays

NONE

Work Environment

-

Gross pay

15000 INR / month

Working Hours

35.0 per week / 7.0 per day

Living Lodging

Type of Accommoditation

IAESTE

Cost of lodging

-

Cost of living

10000 INR / month

Work Offered

Additional Info

Work description

Aim: The aim of this internship is to develop innovative methodologies for creating band-notched characteristics using slot technology. Specifically, the focus is on investigating L and U slot designs to achieve notched bands within the C-Band and WLAN (Wireless Local Area Network) frequencies.Objectives:1. Slot Design Exploration: Investigate L and U slot configurations to identify their potential in creating specific band-notched features in the C-Band and WLAN frequencies.2. Analyze the electromagnetic properties of these slot designs to understand their behavior concerning frequency notching.3. Performance Evaluation: Utilize Ansoft HFSS, a standard simulation tool, to assess the performance of the designed L and U slot configurations.4. Conduct extensive simulations to evaluate the effectiveness of these slot designs in achieving the desired band-notched characteristics.Outcome: Innovative Slot-Based methods: Develop new methodologies for creating band-notched features, expanding the existing knowledge base in slot technology applications.1. Effective L and U Slot Designs:Identify optimized L and U slot designs that demonstrate efficient band-notched characteristics in both C-Band and WLAN frequencies, contributing to improved frequency selectivity.2. Simulation Validation: Validate the performance of the designed slot configurations using Ansoft HFSS, ensuring the accuracy and reliability of the proposed methodologies.Practical Applications: Provide valuable insights for practical applications, such as wireless communication systems, where band-notched features are crucial for avoiding interference and enhancing signal quality.

Deadline

23.05.2025