Total Power Accepted by Fiber Solution

STEP 0: Pre-Calculation Summary
Formula Used
Total Power Accepted by Fiber = Incident Power*(1-(8*Axial Displacement)/(3*pi*Radius of Core))
Pto = Po*(1-(8*dax)/(3*pi*rcore))
This formula uses 1 Constants, 4 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Variables Used
Total Power Accepted by Fiber - (Measured in Watt) - Total Power Accepted by Fiber refers to the amount of optical power that successfully travels from the emitting fiber to the receiving fiber.
Incident Power - (Measured in Watt) - Incident Power w.r.t optics is the amount of optical power (light energy) incident on the photodetector.
Axial Displacement - (Measured in Meter) - Axial Displacement represents the axial misalignment between the two fibers. It’s the distance by which one fiber is offset from the other along the axis of the fiber.
Radius of Core - (Measured in Meter) - Radius of Core is the length measured from the center of the core to the core-cladding interface.
STEP 1: Convert Input(s) to Base Unit
Incident Power: 1.75 Microwatt --> 1.75E-06 Watt (Check conversion ​here)
Axial Displacement: 2.02 Micrometer --> 2.02E-06 Meter (Check conversion ​here)
Radius of Core: 13 Micrometer --> 1.3E-05 Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Pto = Po*(1-(8*dax)/(3*pi*rcore)) --> 1.75E-06*(1-(8*2.02E-06)/(3*pi*1.3E-05))
Evaluating ... ...
Pto = 1.51918452355698E-06
STEP 3: Convert Result to Output's Unit
1.51918452355698E-06 Watt -->1.51918452355698 Microwatt (Check conversion ​here)
FINAL ANSWER
1.51918452355698 1.519185 Microwatt <-- Total Power Accepted by Fiber
(Calculation completed in 00.020 seconds)

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Created by Vaidehi Singh
Prabhat Engineering College (P.E.C.), Uttar Pradesh
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Optical Detectors Calculators

Incident Photon Rate
​ LaTeX ​ Go Incident Photon Rate = Incident Optical Power/([hP]*Frequency Of Light Wave)
Long Wavelength Cutoff Point
​ LaTeX ​ Go Wavelength Cutoff Point = [hP]*[c]/Bandgap Energy
Quantum Efficiency of Photodetector
​ LaTeX ​ Go Quantum Efficiency = Number of Electrons/Number of Incident Photons
Electron Rate in Detector
​ LaTeX ​ Go Electron Rate = Quantum Efficiency*Incident Photon Rate

Total Power Accepted by Fiber Formula

​LaTeX ​Go
Total Power Accepted by Fiber = Incident Power*(1-(8*Axial Displacement)/(3*pi*Radius of Core))
Pto = Po*(1-(8*dax)/(3*pi*rcore))

What is the significance of Total Power Accepted by Fiber?

The total power accepted by the receiving fiber is a crucial parameter in optical communication systems. It signifies the amount of light power that successfully makes it from the emitting (sending) fiber into the receiving fiber. The higher the total power, the more efficient the energy transfer between the two fibers, which can lead to better signal quality and longer transmission distances. Conversely, if total power is low, it means a significant amount of light power is lost due to factors like misalignment or separation, which can degrade the signal quality and limit the communication range.

How to Calculate Total Power Accepted by Fiber?

Total Power Accepted by Fiber calculator uses Total Power Accepted by Fiber = Incident Power*(1-(8*Axial Displacement)/(3*pi*Radius of Core)) to calculate the Total Power Accepted by Fiber, Total Power Accepted by Fiber refers to the amount of optical power that successfully travels from the emitting fiber (the fiber sending the light) to the receiving fiber (the fiber receiving the light). This power is influenced by factors such as the alignment of the fibers and the gap between them. If there is a misalignment or a gap, some of the light may not enter the receiving fiber, resulting in a loss of power. Total Power Accepted by Fiber is denoted by Pto symbol.

How to calculate Total Power Accepted by Fiber using this online calculator? To use this online calculator for Total Power Accepted by Fiber, enter Incident Power (Po), Axial Displacement (dax) & Radius of Core (rcore) and hit the calculate button. Here is how the Total Power Accepted by Fiber calculation can be explained with given input values -> 1.5E-6 = 1.75E-06*(1-(8*2.02E-06)/(3*pi*1.3E-05)).

FAQ

What is Total Power Accepted by Fiber?
Total Power Accepted by Fiber refers to the amount of optical power that successfully travels from the emitting fiber (the fiber sending the light) to the receiving fiber (the fiber receiving the light). This power is influenced by factors such as the alignment of the fibers and the gap between them. If there is a misalignment or a gap, some of the light may not enter the receiving fiber, resulting in a loss of power and is represented as Pto = Po*(1-(8*dax)/(3*pi*rcore)) or Total Power Accepted by Fiber = Incident Power*(1-(8*Axial Displacement)/(3*pi*Radius of Core)). Incident Power w.r.t optics is the amount of optical power (light energy) incident on the photodetector, Axial Displacement represents the axial misalignment between the two fibers. It’s the distance by which one fiber is offset from the other along the axis of the fiber & Radius of Core is the length measured from the center of the core to the core-cladding interface.
How to calculate Total Power Accepted by Fiber?
Total Power Accepted by Fiber refers to the amount of optical power that successfully travels from the emitting fiber (the fiber sending the light) to the receiving fiber (the fiber receiving the light). This power is influenced by factors such as the alignment of the fibers and the gap between them. If there is a misalignment or a gap, some of the light may not enter the receiving fiber, resulting in a loss of power is calculated using Total Power Accepted by Fiber = Incident Power*(1-(8*Axial Displacement)/(3*pi*Radius of Core)). To calculate Total Power Accepted by Fiber, you need Incident Power (Po), Axial Displacement (dax) & Radius of Core (rcore). With our tool, you need to enter the respective value for Incident Power, Axial Displacement & Radius of Core and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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