Relationship between single-wavelength input optical power and single-wavelength output optical power

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Single-wavelength output optical power = OA gain + Single-wavelength input optical power

Other related questions:
Method used to convert between the optical power of multiplexed wavelengths and optical power of single wavelengths of an OA board
The relationship between the optical power of multiplexed wavelengths and optical power of single wavelengths of an OA board is as follows: Optical power of multiplexed-wavelength signals = Optical power of single-wavelength signals + 10lgN where N is the number of wavelengths for multiplexed-wavelength signals.

Conversion relationship between the multiplexed-wavelength optical power and single-wavelength optical power on an OA
The relationship is as follows: Multiplexed-wavelength optical power (dBm) = Single-wavelength optical power (dBm) + 10lgN (N: quantity of multiplexed wavelengths)

Nominal single-wavelength input optical power of the TN12OBU1 board in a 40-wavelength system
The nominal single-wavelength input optical power of the TN12OBU1 board in a 40-wavelength system is as follows: �?0 dBm for TN12OBU101 �?9 dBm for TN12OBU103 �?7 dBm for TN12OBU104

Nominal single-wavelength incident optical power of an 80-wavelength system
The nominal single-wavelength incident optical power is 1 dBm for an 80-wavelength system.

Single-wavelength input optical power range and nominal single-wavelength optical power of the OBU101 board on the OSN 6800
The single-wavelength optical power range is �?2 dBm to �?0 dBm, and the nominal single-wavelength optical power is �?0 dBm. The receive optical power depends on the number of added wavelengths.

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