Microwave Labcast
This channel content is primarily created as additional material for my microwave lectures in master and bachelor courses. Nonetheless, everybody is welcome watch and enjoy.
The Python code used throughout the lectures is now available at:
https://github.com/sfpeik/py-microwave
Lecture08: Microwave Amplifier Design Introduction
Wellenausbreitung: Antennen und Freiraumstrecke Teil 2
Lecture 15a: Satellite Power Subsystem
Lecture 15b: Satellite Power Subsystem
Anfertigung eines Laborprotokolls
Laborauswertung mit Jupyter Lab
Lecture 11: Introduction to Noise
Lecture 10a: Receiving Antennas and Friis Formula
Lecture 10b: Receiving Antennas and Friis Formula
Webcast zur Demo XBand Versuch
Lecture 09: General Aspects of Antennas
Satellite Communications Lecture 06: The RF Communication Link, General Idea
Лекция 7 по спутниковой связи: Теория информации в двух словах
ESP32 Mikrocontroller Programmierung, Eine erste Einführung
Лекция 09: Вопросы устойчивости при проектировании усилителей
Lecture07: Impedance Matching with the Smith Chart
Lecture 06: Introduction to the Smith Chart with Examples
Smith Chart Hand-On Example 3: Converting Impedance into Admittance,
Smith Chart Hand-On Example 2: Inserting a transmission line
Smith Chart Hands-On Example 1: Finding Γ from Z and vice versa.
Lecture05 Part 1: Network Theory for Microwave Circuits(english)
Лекция 5 Часть 3: Параметры ABCD
Лекция 05 Часть 2: Невзаимные устройства
Lecture04: Microstrip Lines (english)
Lecture03: Transmission Line Theory in a Nutshell
Lecture03: Leitungstheorie
Лекция 2: Решение для избежания проблем с высокими частотами
Лекция 01: Зачем нужна микроволновая техника
Vermessung einer 4x4 Patch-Array-Antenne
labcast RS SMHU Signal Generator Bedienung