MSA C-band DWDM EDFA Module


Amonics now packages one of its most popular product lines, C-band DWDM Erbium-doped Fiber Amplifiers (EDFAs), into standard MSA size. The same reliable, stable and durable EDFAs are thus readily available for system integration of a wider range of applications.

The devices provides the usual alarms and status indicators, with an integrated RS232 computer interface for easy control, diagnostic functions and data acquisition. This MSA series will be expanded to cover EDFAs of different specifications in our product range in order to meet the growing demands.

Specifications

AEDFA-C-DWDM-M
Saturation Output Power +10 dBm +14 dBm +16 dBm
Wavelength Range 1529 nm to 1563 nm 1529 nm to 1563 nm 1529 nm to 1563 nm
Gain 18 dB, 13 dB, 9 dB 22 dB, 17 dB, 13 dB 24 dB, 19 dB, 15 dB
Input Power -8 dBm, -3 dBm, +1 dBm -8 dBm, -3 dBm, +1 dBm -8 dBm, -3 dBm, +1 dBm
Noise Figure Typ. 5.0 dB Typ. 5.3 dB Typ. 5.5 dB
Gain flatness (peak to peak) Typ. 1.0 dB, Max. 2.0 dB Typ. 1.0 dB, Max. 2.0 dB Typ. 1.0 dB, Max. 2.0 dB
Input Isolation Min. 30 dB Min. 30 dB Min. 30 dB
Output Isolation Min. 30 dB Min. 30 dB Min. 30 dB
Polarization Dependent Gain Typ. 0.3 dB, Max. 0.5 dB Typ. 0.3 dB, Max. 0.5 dB Typ. 0.3 dB, Max. 0.5 dB
Control Mode ACC, APC, AGC ACC, APC, AGC ACC, APC, AGC
Other output power models are available upon request

General Parameters

unit value
Operation Temperature °C 0 to 40
Storage Temperature °C -10 to 70
Power Supply VDC 5.0 ± 0.1
Dimensions mm 70(W) x 90(D) x 15(H)
Optical Power Monitoring Input and output power
Electrical Connection 2.00mm (2x15) 30 pin IDC connector
Protection Pump laser (TEC) overheat
Optical Connector FC/APC, FC/UPC, SC/APC, SC/UPC
Optical Fiber Min. 0.5m long SMF-28

Options

Gain Flattening Filtering
APC or AGC Control Model
Output Power Monitoring

Ordering Information

Product Code
AEDFA-C-DWDM-aa-M-bb
aa : Saturated output power in dBm
M : M for MSA module case
bb : FA for FC/APC, FC for FC/UPC, SA for SC/APC, SC for SC/UPC


Key Features

Standard MSA size
High stability
High gain
Low noise figure






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