Today Norway has begun switching off FM radio. They are the first country in the world to begin the move to fully digital instead of FM radio. The UK, Switzerland and Denmark will watch the move and the public reaction in Norway as they are considering similar moves. The old
Wireless may become a thing of the past. You will need a digital radio or the internet to receive most radio stations.
The move is unpopular in Norway with two thirds opposing it, according to an opinion poll published in the Dagbladed newspaper. The timeline of the move is what is proving most controversial with it being rolled out across the country over the year.
There are generally issues with FM radio, particular in a country such as Norway which is characterised by landscapes of Fjords. Interference of reception proves it costly to run an FM infrastructure in such a country. There are two alternatives
Guglielmo Marconi in the late 1800s is credited as the inventor of radio but FM radio didn't appear until the 1930s when Major Edwin Armstrong devised a new way of transmitting radio signals.
Radio waves are simply a way of transmitting energy from a transmitter to a receiver.
A station broadcasts a signal over the airwaves and your radio receiver catches the signal and decodes it.
Radio waves are part of a larger group of waves (or ways of sending energy through space) classified all together as electromagnetic radiation. This radiation is in the air all around us and it is what makes sending a signal from one place to another possible.
Radios and radio communication have played a vital role since their invention in the late 1800s by Marconi. Radio waves that power radio communication are one end of the Electromagnetic Spectrum. The radio wave is invisible but is characterised by its length, its frequency, its intensity and whether its analog or digital. Our radios catch the signal sent from the radio station and decode the message.
Radio waves used for communication range in size from 1 millimeter (0.04 inches) to more than 100 kilometers (62 miles). The following picture shows the difference between AM, FM and TV wavelengths.
If the air becomes overcrowded with waves then there can be interference.
You may have noticed your radio flickering when you turned on the microwave. Microwaves are close in size to radio waves on the electromagnetic spectrum. Your radio flickers because the air has become overcrowded with radio waves.
Overcrowding interference is what distinguishes the use of different frequencies and types of broadcast.
**Tip:* If you live in an apartment and get a lot of interference on the WIFI make sure your WIFI uses the 5GHz band which is less common and has less interference than the older 2.4GHz band*
Just think of all the uses for radio communication; Radio Stations, TV stations, Mobile Phones, Walkie Talkies, Ships, Trucks, Cops, Emergency Services...
For this reason limits were put on who uses the airwaves. In most countries the air is licensed by the government with limits put on who can use certain wavelengths and for what. Interference causes you problems in your kitchen but it would cause huge issues for broadcasters if other stations were broadcasting on the same frequency or even on a frequency that was close to their one.
Analogue waves differ from Digital waves in that each wave carries one piece of information all of which needs to reach the receiver. There can be different intensities and the data is not encoded.
These travel along the ground and are reflected (technically refracted) by the ionosphere. But the are very low intensity so generally only travel short distances and are not as clear as FM rays.
These waves go in a straight line and don't bend around the earth as AM ground waves do. Thus, they can quickly disappear into space. This is the problem in Norway. Due to the landscape which is full of Fjords and valleys a lot of repeater stations are needed so that FM radio is available everywhere.
These are signals sent our like AM and FM but with much longer wavelengths and the data is sent in packets which then need to be decoded by the digital radio receiver. Unlike Analogue Waves each packet in a Digital Wave may be sent multiple times so there can be some loss in data or interference without any loss in quality.
Put a digital radio and an ordinary analogue radio next to one another and tune them both into the same station. You'll find the sound from the digital radio lags noticeably behind the sound from the analogue radio because of the time it takes to reassemble the digital signal.
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