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Terminology
- Power level
- The power level from optics is measured in microwatts but converted to dBm for ease of reading by humans
- dB is on a logarithmic scale
- The higher the dBm the stronger your receive level (the brighter your receive level)
- The lower the dBm the weaker your receive level
Estimates
- Ballpark estimates:
- 0.25dB loss 25dB loss per kilometer for 1550nm
- 0.5 dB loss per kilometer for 1310nm
- 0.3 dB loss per connector
Tools & Resources
- DOM
See our knowledge base page Optical: Digital Optical Monitoring (DOM)
Command line tools to see reported RX and TX light levels of and optic inserted in a router or switch and current levels
- Vendor Docs
You should also be able to search your optical vendor's documents to find the rx and tx thresholds for each model optic
RECEIVE MIN. -23.00dBm
RECEIVE MAX. (RECEIVER OVERLOAD) -8.00dBm
TRANSMIT MIN. 0.00dBm
TRANSMIT MAX. 5.00dBm
POWERBUDGET (DB) 23 dB
- OTDR
See Optical: OTDR - Optical Time-Domain Reflectometer (OTDR)
An OTDR is always preferred to accurately determine your path's loss
The calculations performed on this page are intended to help when you don't have an OTDR test to rely on
- Power meter
Tool used to report the current light levels (dBm) being received
- Pads/Attenuators
Used to attenuate the light power level to be within the threshold of an optic
Always pad optics on the the rx ports of your optics (one pad on the rx port of the hub interface, one pad on the rx port of the cpe interface)
Example image:
Calculating Loss
- Record the TX power of your optic
- Either by using DOM or a power meter
- Subtract the OTDR results (loss in dB)
- If you don't have OTDR test results, subtract the estimated loss based on the distance
- Subtract the connector loss (number of patches)
- Results
- Is the result within your optic's receive min -> max?
- If it's above the max RX add the appropriate pad
- If it's below the max RX you might need a different optic or
- Is the result within your optic's receive min -> max?
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