Abstract: The novel approach to FPGA-based ramp generation adapts for X-Band applications, achieving a remarkable 2 GHz RF bandwidth. The study outlines the design methodology, emphasizing the FPGA’s flexibility in generating complex waveforms crucial for X-Band systems. Through extensive experimentation, the proposed solution demonstrates its efficacy in meeting the requirements of X-Band applications, such as radar and communication systems. The research highlights the performance advantages of the FPGA – based ramp generator, including enhanced system agility, reduced hardware complexity, and improved scalability. Furthermore, potential applications and benefits of the developed solution are discussed, showing its significance in advancing the capabilities of FPGA technology in high-frequency RF domains. Overall, this work contributes to the ongoing evolution of FPGA-based solutions for X-Band applications, promising improved performance and versatility in future systems likes wireless communication.
Keywords: Field-Programmable Gate Arrays (FPGA), radar, sweep signal, large bandwidth, Linear frequency modulated signal.
Title: FPGA Board Ramp Generation for 2 GHz RF Bandwidth in X-Band Application
Author: Vaishnavi D. Kanzarkar, Kshitija S. Kayat, Akanksha B. Jadhav, Pranav kumar Tingare, Sampurna De, Chinchu Joseph, Vineeth Kumar, Vanita. P. Patil, A Arockia Bazil Raj
International Journal of Electrical and Electronics Research
ISSN 2348-6988 (online)
Vol. 12, Issue 2, April 2024 - June 2024
Page No: 10-15
Research Publish Journals
Website: www.researchpublish.com
Published Date: 04-May-2024