ABSTRACT:

The performance of an ultra-wideband (UWB) radiator is examined in a 15-element linear-array environment. The numerically predicted array impedance is validated by means of physical measurements. The broadside scanned radiation patterns of the array are measured and proven to be extremely favorable. A zoom-in on the measured elementary radiation patterns is employed for evidencing the effect of embedding the radiator in an array environment. The study is rounded off by a post-processing phase, in which the measured array radiation pattern results are employed for predicting the array's scanning performance.


Did you like this research project?

To get this research project Guidelines, Training and Code... Click Here


PROJECT TITLE :Robust Unambiguous Estimation of Angle-of-Arrival in Hybrid Array With Localized Analog Subarrays - 2018ABSTRACT:Hybrid array is ready to leverage array gains, transceiver sizes, and prices for huge multiple-input-multiple-output
PROJECT TITLE :Energy-Efficient Transmission of Hybrid Array With Non-Ideal Power Amplifiers and Circuitry - 2018ABSTRACT:This Project presents a brand new approach to efficiently maximizing the energy potency (EE) of hybrid arrays
PROJECT TITLE :Parallel Pseudo-Exhaustive Testing of Array Multipliers with Data-Controlled Segmentation - 2018ABSTRACT:This paper presents a brand new method for pseudo-exhaustive testing of standard array multipliers employing
PROJECT TITLE :Improved 64-bit Radix-16 Booth Multiplier Based on Partial Product Array Height Reduction - 2017ABSTRACT:In this paper, we have a tendency to describe an optimization for binary radix-16 (changed) Booth recoded
PROJECT TITLE :Solar Photovoltaic Array Based Multilevel Inverter for Power Conditioning In Four-Wire Distribution System - 2017ABSTRACT:This paper proposes a photovoltaic (PV) array primarily based cascaded H-bridge multilevel

Ready to Complete Your Academic MTech Project Work In Affordable Price ?

Project Enquiry