OPLINK AAWG

Athermal Arrayed-Waveguide Grating
Multiplexer/Demultiplexer
AAWG Series
Product Description
Athermal Arrayed-Waveguide Grating (AAWG) have equivalent performance to thermal AWGs but no any electrical power needed for operation.
AAWG is more simple than thermal AWG.
Oplink’s planar lightwave circuits are well suited for demanding telecom applications in long-haul and metro transmission systems. The AAWG provide
extremely excellent optical performance, high reliability, ease of fiber handling and power saving solution in a compact package.
Performance Specificationns
AAWG Parameters
Min.
Channel Spacing
Unit
GHz
32, 40 or 44
Channel Passband
± 12.5
GHz
4.5
5.5
dB
≤ 40CH
0.9
1.2
dB
> 44CH
1.2
1.5
dB
 Pure Passive
0.35
0.5
dB
 MSA package
[2]
Uniformity
Max.
100
Number of Channels
Insertion Loss
Typical
Ripple
1dB Bandwidth
[3]
50
3dB Bandwidth
[3]
75
Polarization Dependent Loss
0.5
GHz
 Low insertion loss /PDL
GHz
 Extremely low crosstalk
dB
Adjacent Channel Crosstalk
25
dB
Non-adjacent Channel Crosstalk
35
dB
Total Crosstalk
22
dB
Return Loss
45
dB
Directivity
50
dB
Chromatic Dispersion
PMD
[4]
- 20
+ 20
ps/nm
0.5
ps
300
mW
[4]
Maximum Power Handling
Fiber Type
Features
 Telcordia GR-1209/1221 qualified
Applications
ROADM
FOADM
xGPON
WDM-PON
G. 652D
Without Fan-out
C : 900µm loose tube
B : 12-Core ribbon fiber
With Fan-out
C : 900µm loose tube
B : 12-Core fibbon fiber
A : 900µm loose tube
Fiber Jacket
Fiber Length
Refer ordering information
Connector Type
Refer ordering information
Operating Temperature
- 5 to +70
°C
Storage Temperature
-40 to +85
°C
Notes:
[1] All the parameters are excluding connectors. IL of connectors is 0.2dB/pair for PC/UPC/SPC types and 0.4dB
per pair for APC types.
[2] The maximum IL is under all states of polarization and
within the full operating temperature and wavelength
ranges specified.
[3] Measured from minimum loss to 1dB and 3dB down
respectively.
[4] Over ITU band
S0312 - R03. (web) 20121218
Athermal Arrayed-Waveguide Grating
Multiplexer/Demultiplexer
AAWG Series
Channel Spectrum Table
Typical Flat-Top 40-Channel Spectrum
Mechanical Drawing / Package Dimensions (dimension in mm)
120.0
110.0
15.0(MAX)
70.0
60.0
(30.0)
(17.5)
5.0
4-Ø3.2
gh
throu
.X:
.XX:
ANGLES:
±0.2
±0.10
±0.5°
4.5
10.5
5.0
TOL'S:
*The mechanical tolerance should be ±0.2mm on all package dimensions unless otherwise specified.
Oplink Communications, Inc
Athermal Arrayed-Waveguide Grating
Multiplexer/Demultiplexer
AAWG Series
46335 Landing Pkwy Fremont, CA 94538 Tel: (510) 933-7200 Fax: (510) 933-7300 Email: [email protected] • www.oplink.com
Definition of Fiber Length B and C (without fan-out)
Definition of Fiber Length A, B and C (with fan-out)
Ordering Information
Oplink can provide a remarkable range of customized optical solutions. For detail, please contact Oplink’s OEM
design team or account manager for your requirements and ordering information (510) 933-7200.
AAWG1
Number of Channels
32ch = 32
40ch = 40
44ch = 44
.
.
.
.
****
Largest ITU
Channel
Number
AAWG Type
(C)Fiber Length*
Connector Type
Flat-Top = F
0.5 meter = H
1.0 meter = 1
1.5 meter = 5
None = 1
FC/PC = 2
FC/SPC = 3
FC/APC = 4
SC/PC = 5
SC/SPC = 6
SC/APC = 7
ST = 8
LC/UPC = 9
MU = A
LC/APC = B
MTP(female) = C***
MTP(male) = D***
(B)Fiber Length*
0.5 meter = H
1.0 meter = 1
1.5 meter = 5
(A)Fiber Length*
0 meter = 0 (without fan-out)**
0.5 meter = H
1.0 meter = 1
1.5 meter = 5
* The tolerance of fiber length is +/-0.1m.
** Only MTP Connectors are available if the length of fiber A is 0 (without fan-out). Please choose 1 or C or D for the last digit of Oplink Part Number.
*** When MTP option was available, it must be LC/UPC option for fiber C.
****For other number of channels, please contact Oplink’s sales department for further information.
For example, AAWG140C60F1119 represents one 100G 40-ch (192.10~196.00THz) Flat-Top type and with 1.0+/-0.1m fiber length on fiber C, 1.0+/-0.1m fiber
length on fiber B, 1.0+/-0.1m fiber length on fiber A , all with LC/UPC connectors.
S0312 - R03. (web) 20121218
Product Lines:  Mux/Demux  Switching/Routing  Coupling/Splitting  Monitoring/Conditioning  Amplification  Interconnect  Transmission  HFC/RoF Subsystem