Benefits of FM modulation/reception.
- Improved signal to noise ratio (about 25dB) w.r.t. to man made interference.
- Smaller geographical interference between neighboring stations.
- Less radiated power.
- Well defined service areas for given transmitter power.
- Less interference in neighbours equipment .
Disadvantage, needs a more complex demodulation circuit in the receiver compared to AM.
Resilient to noise: One of the main advantages of frequency modulation that has been utilised by the broadcasting industry is the reduction in noise. As most noise is amplitude based, this can be removed by running the signal through a limiter so that only frequency variations appear. This is provided that the signal level is sufficiently high to allow the signal to be limited.
Resilient to signal strength variations: In the same way that amplitude noise can be removed, so too can any signal variations. This means that one of the advantages of frequency modulation is that it does not suffer audio amplitude variations as the signal level varies, and it makes FM ideal for use in mobile applications where signal levels constantly vary. This is provided that the signal level is sufficiently high to allow the signal to be limited.
Does not require linear amplifiers in the transmitter: As only frequency changes are required to be carried, any amplifiers in the transmitter do not need to be linear. ( Class C amps.).
Enables greater efficiency than many other modes: The use of non-linear amplifiers, e.g. class C, etc means that transmitter efficiency levels will be higher - linear amplifiers are inherently inefficient.
All the transmitted power in FM is useful, while in AM most of the transmitted power is in carrier which contains no information.
The amplitude of FM is constant which makes it independent of the modulation depth, while in AM modulation depth directs the transmitted power.
Noise in FM is reduced to a large extent by employing amplitude limiters to remove the amplitude variations caused by noise. However these amplitude limiters cannot be used in AM as information is contained in the amplitude variations of the signal. Thus FM reception is immune to noise then AM reception.
The noise in FM can be further reduced by increasing the deviation, which is not in AM.
In FM if there are two or more signals received at the same frequency, the FM receiver will capture the stronger signal and eliminate the weaker signal. However in AM if there are two more signals received at the same frequency, then both will be demodulated which can lead to interference.
That will put most objections to bed about FM.
