Flyin Opticres Co.,Ltd

awg,aawg,Athermal AWG,Thermal AWG,fwdm, Manufacturer and Supplier - China(CN)

Flyin 80ch 50G Athermal AWG(80ch 50G AAWG)

Flyin 80ch 50G Athermal AWG(80ch 50G AAWG)

Business Information

  • Min. Order : 1 pcs
  • Certificate : CE,FCC,,,,,,RoHS,
  • FOB Port : shenzhen
  • Made In : China(CN)
  • Supply Capability : 20000 pcs/ per month
  • Delivery Time : depends
Favorites

Product Features

This document presents the generic specification for the 80-channel 50GHz Athermal AWG MUX/DEMUX Rackmount supplied for use in DWDM system.

Athermal AWG(AAWG) have equivalent performance to standard Thermal AWG(TAWG) but require no electrical power for stabilization. They can be used as direct replacements for Thin Film Filters(Filter type DWDM module) for cases where no power is available, also suitable for outdoor applications over -30 to +70 degree in access networks. Flyin’s Athermal AWG(AAWG) provide excellent optical performance, high reliability, ease of fiber handling and power saving solution in a compact package. Different input and output fibers, such as SM fibers, MM fibers and PM fiber can be selected to meet different applications. We can just offer 19” 1U rackmount package for 50G AWG products.

The planar DWDM components(Thermal/Athermal AWG) from Flyin Optronics are fully qualified according to Telcordia reliability assurance requirements for fiber optic and opto-electronic components (GR-1221-CORE/UNC, Generic Reliability Assurance Requirements for Fiber Optic Branching Components, and Telcordia TR-NWT-000468, Reliability Assurance Practices for Opto-electronic Devices).

 Optical Specification (Gaussian Athermal AWG )

Parameters

Condition

Specs

Units

Min

Typ

Max

Number of Channels

 

2*40

 

Number Channel Spacing

50GHz

50

GHz

Cha. Center Wavelength

ITU frequency.

C -band

nm

Clear Channel Passband

 

±6.25

GHz

Wavelength Stability

Maximum range of the wavelength error  of all channels and temperatures in average polarization.

±0.05

nm

-1 dB Channel Bandwidth

Clear channel bandwidth defined by passband shape. For each channel

0.20

 

 

nm

-3 dB Channel Bandwidth

Clear channel bandwidth defined by passband shape. For each channel

0.30

 

 

nm

Optical Insertion Loss at ITU grid

Defined as the minimum transmission at ITU wavelength for all channels. For each channel, at all temperatures and polarizations.

 

6.0

7.0

dB

Adjacent Channel Isolation

Insertion loss difference from the mean transmission at the ITU grid wavelength to the

highest power, all polarizations, within the ITU band of the adjacent channels.

25

 

 

dB

Non-Adjacent, Channel Isolation

Insertion loss difference from the mean transmission at the ITU grid wavelength to the

highest power, all polarizations, within the ITU band of the nonadjacent channels.

29

 

 

dB

Total Channel Isolation

Total cumulative insertion loss difference from the mean transmission at the ITU grid wavelength to the highest power, all polarizations, within the ITU band of all other channels, including adjacent channels.

22

 

 

dB

Insertion Loss Uniformity

Maximum range of the insertion loss variation within ITU across all channels, polarizations and temperatures.

 

 

2.0

dB

Directivity(Mux Only)

Ratio of reflected power out of any channel(other than channel n)to power in from the input channel n

40

 

 

dB

Insertion Loss Ripple

Any maxima and any minima of optical loss across ITU band, excluding boundary points, for each channel at each port

 

 

1.5

dB

Optical Return loss

Input & output ports

40

 

 

dB

PDL/Polarization Dependent Loss in Clear Channel Band

Worst-case value measured in ITU band

 

0.3

0.5

dB

Polarization Mode Dispersion

 

 

 

0.5

ps

Maximum Optical Power

 

 

 

23

dBm

MUX/DEMUX input/ output

Monitoring range

 

-35

 

+23

dBm

IL Represents the worst case over a +/-0.1nm window around the ITU wavelength.

PDL was measured on average polarization over a +/- 0.1nm window around the ITU wavelength.

 

Ordering Information

AWG

X

XX

X

XXX

X

X

X

XX

 

Band

Number of Channels

Spacing

1st Channel

Filter Shape

Package

Fiber Length

In/Out Connector

C=C-Band

L=L-Band

D=C+L-Band

X=Customize

16=16-CH

32=32-CH

40=40-CH

48=48-CH

80=80-CH

XX=Special

1=100G

2=200G

5=50G

X=Special

C60=C60

H59=H59

C59=C59

H58=H58

XXX=special

G=Gaussian

B=Broad Gaussiar

F=Flat Top

M=Module

R=Rack

X=Special

1=0.5m

2=1m

3=1.5m

4=2m

5=2.5m

6=3m

S=Specify

0=None

1=FC/APC

2=FC/PC

3=SC/APC

4=SC/PC

5=LC/APC

6=LC/PC

7=ST/UPC

S=Specify

Product Specifications

This document presents the generic specification for the 80-channel 50GHz Athermal AWG MUX/DEMUX Rackmount supplied for use in DWDM system.

Athermal AWG(AAWG) have equivalent performance to standard Thermal AWG(TAWG) but require no electrical power for stabilization. They can be used as direct replacements for Thin Film Filters(Filter type DWDM module) for cases where no power is available, also suitable for outdoor applications over -30 to +70 degree in access networks. Flyin’s Athermal AWG(AAWG) provide excellent optical performance, high reliability, ease of fiber handling and power saving solution in a compact package. Different input and output fibers, such as SM fibers, MM fibers and PM fiber can be selected to meet different applications. We can just offer 19” 1U rackmount package for 50G AWG products.

The planar DWDM components(Thermal/Athermal AWG) from Flyin Optronics are fully qualified according to Telcordia reliability assurance requirements for fiber optic and opto-electronic components (GR-1221-CORE/UNC, Generic Reliability Assurance Requirements for Fiber Optic Branching Components, and Telcordia TR-NWT-000468, Reliability Assurance Practices for Opto-electronic Devices).

Send messages to the supplier!

Please leave your comments here!

No data.

Other Related Products

Rank This Company

Please leave your comments here!