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Radio Frequency and how communication happens with it.

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Frequency is the number of occurrences of a repeating event per unit time.

Radio is the wireless transmission of signals through free space by electromagnetic radiation of a frequency significantly below that of visible light.

Radio Waves: In the range of frequency from about 3 kHz to 300 GHz are called Radio Frequency Range. These waves are called Radio waves. Electromagnetic radiation travels by means of oscillating electromagnetic fields that pass through the air and the vacuum of space.

How does an RF communication system work?
Imagine an RF transmitter wiggling an electron in one location. This wiggling electron causes a ripple effect, somewhat akin to dropping a pebble in a pond. The effect is an electromagnetic (EM) wave that travels out from the initial location resulting in electrons wiggling in remote locations. An RF receiver can detect this remote electron wiggling.

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The RF communication system then utilizes this phenomenon by wiggling electrons in a specific pattern to represent information. The receiver can make this same information available at a remote location; communicating with no wires.

In most wireless systems, a designer has two overriding constraints: it must operate over a certain distance (range) and transfer a certain amount of information within a time frame (data rate). Then the economics of the system must work out (price) along with acquiring government agency approvals (regulations and licensing).

How is range determined?
In order to accurately compute range – it is essential to understand a few terms:

dB - Decibels
Decibels are logarithmic units that are often used to represent RF power. To convert between milliWatts (mW) and decibels (dB),

use the following conversion equations (P = power):
(mW to dBm) PdBm = 10 * Log10(PmW)
(dBm to mW) PmW = 10^(PdBm/10)

Line-of-Sight (LOS)
Line-of-Sight when speaking of RF means more than just being able to see the receiving antenna from the transmitting antenna. In, order to have true line-of-sight no objects (including trees, houses or the ground) can be in the Fresnel zone. The Fresnel zone is the area around the visual line-of-sight that radio waves spread out into after they leave the antenna. This area must be clear or else signal strength will weaken.
There are essentially two parameters to look at when trying to determine range.

Transmit Power:
Transmit power refers to the amount of RF power that comes out of the antenna port of the radio. Transmit power is usually measured in Watts, milliwatts or dBm. (For conversion between watts and dBm see above.)

Receiver sensitivity
Receiver sensitivity refers to the minimum level signal the radio can demodulate. It is convenient to use an example with sound waves; Transmit power is how loud someone is yelling and receive sensitivity would be how soft a voice someone can hear. Transmit power and receive sensitivity together constitute what is know as “link budget”. The link budget is the total amount of signal attenuation you can have between the transmitter and receiver and still have communication occur.

Example: 
Digi 9XStream TX Power: 20dBm 
Digi 9XStream RX Sensitivity: -110dBm 
Total Link budget: 130dB. 

For line-of-sight situations, a mathematical formula can be used to figure out the approximate range for a given link budget. For non line-of-sight applications range calculations are more complex because of the various ways the signal can be attenuated.

RF communications and data rate
Data rates are usually dictated by the system - how much data must be transferred and how often does the transfer need to take place. Lower data rates, allow the radio module to have better receive sensitivity and thus more range. In the XStream modules the 9600 baud module has 3dB more sensitivity than the 19200 baud module. This means about 30% more distance in line-of-sight conditions. Higher data rates allow the communication to take place in less time, potentially using more power to transmit.

posted Apr 16, 2014 by anonymous

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