Design of a two-stage microwave balanced amplifier implemented with microstrip technology
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Updated
May 23, 2024 - TeX
Design of a two-stage microwave balanced amplifier implemented with microstrip technology
Inductor lumped circuit model from s-parameters.
Final NanoVNA & Wi-Fi Antenna Z-Match Project for my UW RF & Microwave Engineering course where we designed a network RLC matching circuit for a Wi-Fi Antenna using AWR Microwave Office DE, a NanoVNA network analyzer, and LTSpice.
For Electromagnetic class, I made multiple comparison tables and equation summaries.
Design of a 2.45GHz RFIC CMOS LNA
A scriptable program to control the Signal Hound VSG25A signal generator using its C++ API
Experiment Control system using Embedded C++ with ARM mbed OS on STM32 Nucleo boards
Project at MISiS, Moscow, 2017-2018. Implementation of the SOLT calibration for the legacy VNA HP8753E using Touchstone s1p/s2p files for the coaxial terminations.
💡 Thermal imaging microwave and visualization created by Mark Rober.
Read microwave network scattering parameters from CITIfile-formatted files
Designing Amplifier based on Y-parameters
This contains theoretic results important to get insight in the working of a qubit inside microwave cavity. We have made an analogy with coupled spring-mass system to understand the coupling of the qubit with the resonant cavity.
This project aims to develop a robust rectenna system for implantable medical devices, utilizing energy harvesting principles to efficiently harvest energy from the RF band. By incorporating a dual band rectenna design, the system gains versatility, allowing it to operate across a wide range of frequencies.
A tool to automatic design Multiple-Stub Matching Networks (MSMN) for wideband on Transmission Lines, using Metaheuristics Optimization Algorithms.
Bachelor's thesis on the design and simulation of an implantable antenna for microwave hyperthermia
App for solving common microwave/communications parameters.
This repository is my ADS learn note, will be updated according to my study progress.
Calculates the ideal and discretized Klopfenstein taper and associated performance in Python, Julia, and MATLAB.
This repo contains my engineering lab experiment simulations and reports for MWE. Softwares Used: CST Studio Suite 2019, Scilab 6.1.0. MWE is the area of science and technology concerned with the study and application of the properties of electromagnetic oscillations and waves in the frequency range from 300 megahertz (MHz) to 300 gigahertz (GHz).
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