Everything about Electronic Noise totally explained
Electronic noise is an unwanted signal characteristic of all
electronic circuits. Depending on the circuit, the
noise put out by electronic devices can vary greatly. This noise comes from many different electronic effects.
Thermal noise and shot noise are inherent to all devices. The other types depend mostly on manufacturing quality and semiconductor defects.
Types
Shot noise
Shot noise in electronic devices consists of random fluctuations of the
electric current in an electrical
conductor, which are caused by the fact that the current is carried by discrete charges (
electrons).
Thermal noise
Johnson-Nyquist noise (sometimes
thermal noise,
Johnson noise or
Nyquist noise) is the
noise generated by the
equilibrium fluctuations of the
electric current inside an
electrical conductor, which happens regardless of any applied
voltage, due to the random thermal motion of the charge carriers (the
electrons).
The charges may be bound (for a dielectric material) or free (for a conductor). Free charges generate kinetic energy from their motion according to the equation E=(mv
2)/2. This kinetic energy results in noise. Bound charges generate kinetic energy when the direction of polarity changes.
This noise is characterized as
Additive white Gaussian noise (AWGN) with a
noise spectral density in Watt/Herz of
No =
kT, where
k is
Boltzmann's constant in joules per
kelvin, and
T is the receiver
system noise temperature in kelvin. Since thermal noise can be considered as
white noise, the total noise power
N detected in a receiver with bandwidth
B is
BNo.
This phenomenon limits the minimum
signal level that any
radio receiver can usefully respond to, because there will always be a small but significant amount of
thermal noise arising in its input circuits. This is why
radio telescopes, which search for very low levels of signal from
stars, use
front-end circuits, usually mounted on the
aerial dish, cooled in
liquid nitrogen to a very low temperature.
Flicker noise
Flicker noise, also known as
1/f noise, is a signal or process with a
frequency spectrum that falls off steadily into the higher frequencies, with a
pink spectrum. It occurs in almost all electronic devices, and results from a variety of effects, though always related to a direct current.
Burst noise
Burst noise consists of sudden step-like transitions between two or more levels (non-
Gaussian), as high as several hundred
millivolts, at random and unpredictable times. Each shift in offset voltage or current lasts for several milliseconds, and the intervals between pulses tend to be in the
audio range (less than 100
Hz), leading to the term
popcorn noise for the popping or crackling sounds it produces in audio circuits.
Avalanche noise
See
Avalanche diode and
Avalanche breakdown.
Lightning
Lightning is a natural phenomenon that consists of large currents that cause fluctuations that may result in noise in a system.
Measurement
Electronic noise is properly measured in
watts of
power. Because noise is a random process, it can be characterized by
stochastic properties such as its
variance,
distribution, and
spectral density. The spectral distribution of noise can vary by
frequency, hence its power density is measured in watts per hertz
.
Integrated circuit devices, such as
op-amps commonly quote
equivalent input noise level in these terms (at room temperature).
Further Information
Get more info on 'Electronic Noise'.
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