Transmission loss

Sound measurements
Sound measurements
Characteristic	Symbols
Sound pressure	p, SPL, LPA
Particle velocity	v, SVL
Particle displacement	δ
Sound intensity	I, SIL
Sound power	P, SWL, LWA
Sound energy	W
Sound energy density	w
Sound exposure	E, SEL
Acoustic impedance	Z
Audio frequency	AF
Transmission loss	TL

Transmission loss (TL) in general describes the accumulated decrease in intensity of a waveform energy as a wave propagates outwards from a source, or as it propagates through a certain area or through a certain type of structure.

It is a terminology frequently used in radio communication, twisted pair systems (PTSN, Ethernet, etc), optics and acoustics.^[1]^[2] Measures of TL are very important in the industry of acoustic devices such as mufflers and sonars.

Definition

Measurement of transmission loss can be in terms of decibels.

Mathematically, transmission loss is measured in dB scale and in general it can be defined using the following formula:

TL =

10\log _{10}\left\vert {W_{i} \over W_{t}}\right\vert

dB

where:

$W_{i}$ is the power of incident wave coming towards a defined area (or structure);
$W_{t}$ is the power of transmitted wave going away from the defined area (or structure).

Applications

Transmission loss may refer to a more specific concept in one of the fields below:

Transmission loss in electrical engineering describes the decrease of electrical power along an electrical cable. The term has its origins in telephony.
Transmission loss in duct acoustics describes the acoustic performances of a muffler like system.
Transmission loss in room acoustics describes the decrease of sound intensity that is reduced by a wall or other structure at a given frequency.
Transmission loss in underwater acoustics describes the decrease of sound intensity that is reduced by a bubble curtain or other damping structure at a given frequency. The same term is sometimes used to mean propagation loss, which is a measure of the reduction in sound intensity between the sound source and a receiver, defined as the difference between the source level and the sound pressure level at the receiver.^[3]

Types

Transmission loss types in fiber-optic communication include absorption loss, scattering loss, dispersion loss, radiation loss and coupling loss.^[4]^[2]
Transmission loss types in twisted pair transmission systems include conductor loss, dielectric loss as well as radiation loss.^[5]

References

↑ Norton, Kenneth A. (January 1953). "Transmission Loss in Radio Propagation". Proceedings of the IRE. 41 (1): 146–152. doi:10.1109/JRPROC.1953.274172. hdl:2027/mdp.39015077289554. ISSN 2162-6634. S2CID 51651739.
1 2 "The FOA Reference For Fiber Optics - Measuring Power in dB and dBm". www.thefoa.org. Retrieved 2023-04-21.
↑ ISO 18405:2017 Underwater acoustics - Terminology (International Organization for Standardization, Geneva, 2017)
↑ Sonali (2022-03-22). "What are the losses in Optical fiber?". Goseeko blog. Retrieved 2023-04-21.
↑ "Twisted pair". qucs.sourceforge.net. Retrieved 2023-04-21.

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[1] Norton, Kenneth A. (January 1953). "Transmission Loss in Radio Propagation". Proceedings of the IRE. 41 (1): 146–152. doi:10.1109/JRPROC.1953.274172. hdl:2027/mdp.39015077289554. ISSN 2162-6634. S2CID 51651739.

[:0-2] 1 2 "The FOA Reference For Fiber Optics - Measuring Power in dB and dBm". www.thefoa.org. Retrieved 2023-04-21.

[3] ISO 18405:2017 Underwater acoustics - Terminology (International Organization for Standardization, Geneva, 2017)

[4] Sonali (2022-03-22). "What are the losses in Optical fiber?". Goseeko blog. Retrieved 2023-04-21.

[5] "Twisted pair". qucs.sourceforge.net. Retrieved 2023-04-21.

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