Return loss of transmission line and optical fiber

In summary, there is a loss in optical fiber at discontinuities of refractive index, such as at an air-glass interface. This causes a fraction of the optical signal to be reflected back towards the source. However, in transmission lines, an open circuit will result in all of the wave being reflected back. In the case of an air gap in an optic fiber, it is not necessarily considered an open circuit because light can still cross it. The reflection coefficient will depend on the width of the gap and the presence of mismatched impedance interfaces.
  • #1
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In wikipedia, it said for optical fiber, a loss that takes place at discontinuities of refractive index, especially at an air-glass interface such as a fiber endface. At those interfaces, a fraction of the optical signal is reflected back toward the source.
But what I learned in tranmission line is when the line is terminated with an open circuit, all the wave will be reflected back.
If a section of a fiber is separated by a layer of air, isn't that considered as open circuit and all the light will be reflected back?
 
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  • #2
It depends on the degree of mismatch in the transmission line. An open circuit in an electrical line will reflect almost all the energy, but a minor variation will only reflect a minor proportion of the incident energy.

With optic fibre a narrow air gap does not represent an open circuit because light can cross it. But there are two mismatched impedance interfaces to cross, one on each side of the gap. The reflection coefficient will often be highly depend on the width of the gap, for example, a quarter wave length gap may cancel the two reflected waves.

http://en.wikipedia.org/wiki/Time_domain_reflectometer#Explanation
 

Related to Return loss of transmission line and optical fiber

1. What is return loss?

Return loss is a measure of the amount of power reflected back from a transmission line or optical fiber. It is expressed in decibels (dB) and is calculated by comparing the amount of power that is sent into the line or fiber with the amount of power that is reflected back. A higher return loss value indicates a lower amount of reflected power and therefore a more efficient transmission.

2. How is return loss measured?

Return loss is typically measured using specialized equipment such as a network analyzer or optical time domain reflectometer (OTDR). These devices send a known amount of power into the transmission line or fiber and then measure the amount of power that is reflected back. The difference between the two is then used to calculate the return loss value.

3. What causes return loss in transmission lines and optical fibers?

Return loss can be caused by a variety of factors such as impedance mismatches, signal distortion, or damage to the line or fiber. It can also be affected by the type and quality of the connectors used in the transmission system. In general, anything that disrupts the smooth flow of the signal can contribute to return loss.

4. Why is return loss important?

Return loss is an important metric in transmission systems because it directly affects the quality and efficiency of the signal. High return loss values can lead to signal degradation, which can result in errors, disruptions, and poor performance. By measuring return loss, engineers can identify and troubleshoot any issues in the transmission system in order to maintain optimal signal quality.

5. How can return loss be improved?

There are several ways to improve return loss in transmission lines and optical fibers. One common method is to use high-quality connectors and cables that are designed for low return loss. Another approach is to minimize signal distortion by using proper termination techniques and maintaining the correct impedance throughout the system. Regular maintenance and testing can also help identify and address any issues that may be causing high return loss values.

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