Radio Frequency Fundamentals Quickstart Guide For RF Signals

Learn All You Need For Radio Frequency Signals RSSI EIRP RF Math Antennas Gain Beamwidth Essentials For CWNA CWS CWNP

What you'll learn
- We will learn about rf signals and the electromagnetic spectrum.
- We will learn frequency, wavelength, amplitude and phase difference
- We will learn absorption, reflection, diffraction, scattering, refraction, multipath and fading
- We will learn free space path loss and also fresnel zone
- We will learn what are different device requirements and capabilities
- We will start learning principles of rf mathematics
- We will learn to calculate EIRP
- We will see different wifi antenna characteristics
- We will learn how the radiation pattern of an antenna occurs
- We will learn polarization, the beamwidth of an antenna and different types of antennas
- We will study amplifiers and attenuators

Requirements
- No prerequisites for taking this course

Description
We will be learning about RF Fundamentals and RF fundamentals will start with the description of propagation of radio waves

We will learn about rf signals and the electromagnetic spectrum

We will answer some questions like

What is frequency,

What is wavelength

What is amplitude and

What is phase difference

We will also learn about different phenomenas related with rf signals

Such as absorption, reflection, diffraction

scattering, refraction, multipath and fading

We will also learn free space path loss and also fresnel zone

On the second chapter

We will go deep into rf fundamentals

what is signal strength

what does RSSI mean

how to calculate transmit power

We will go over some different interference types and the noise

We will learn what are different device requirements and capabilities

We will also start learning principles of rf mathematics

how to calculate dB, dBi, dBd, dBm and

how we can measure different power levels

We will also learn to calculate EIRP

We will see different wifi antenna characteristics,

How does the radiation pattern of an antenna occur

what is polarization

how gain is measured

what is the beamwidth of an antenna

And we will go over different types of antennas

Omnidirectional, yagi,patch and dish

We will explain different antenna connectors and why we need them

And lastly

We will study amplifiers and attenuators

Let's see all topics we will learn with our training:

Radio Frequency Signals

Frequency For RF Signals

Amplitude For RF Signals

Phase and Phase Difference For RF Signals

Wavelength For RF Signals

Absorption For RF Signals

Reflection For RF Signals

Diffraction For RF Signals

Scattering For RF Signals

Diffraction For RF Signals

Multipath and Fading For RF Signals

Free Space Path Loss For RF Signals

Fresnel Zone For RF Signals

Signal Strength RSSI Transmit Power For RF Signals

Interference Types and Noise For RF Signals

Device Requirements and Capabilities For RF Signals

Principles of RF Mathematics Overview For RF Signals

EIRP For RF Signals

Radiation Pattern Polarization Gain and Beamwidth For RF Signals

Different Antenna Types For RF Signals

Antenna Connectors Amplifiers Attenuators Lightning Arresters For RF Signals

Who this course is for:
- Network Engineers
- Network Administrators
- Wireless Network Engineers
- Wireless Network Technicians
- System Admins
- System Technicians
- Wireless Field Engineers
More Info