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MWDMGCSU00011H Datasheet, PDF (1/2 Pages) OPLINK Communications Inc. – C Band Supervisory Channel Micro-Optic WDM
Green C Band Supervisory Channel (1500-
1520 nm) Micro-Optic WDM
MWDMGCSU Series
Product Description
Oplink’s Micro-Optic Wavelength Division Multiplexer (MWDM) is based on
thin-film filter technology and patented athermal platform for optical device.
MWDM-SU is used to add or drop supervisory channels. is device offers very
flat and wide passband, low insertion loss, and high isolation, which make it ide-
al for high-power Optical Amplification Systems and DWDM Network appli-
cations. Oplink MWDM devices are Bellcore GR-1221 qualification tested and
complied with industry green initiatives such as Rohs and WEEE. All Oplink
products are epoxy-free in the optical path.
Performance Specificationns
MWDMGCSU Series
Pass Channel Wavelength Range λ1
Reflection Channel Wavelength Range λ2
Insertion Loss *
Pass Channel @ λ1
Reflect Channel @ λ2
Isolation
Reflect Channel @ λ1
Pass Channel @ λ2
Passband Ripple
Directivity
Return Loss
Polarization Dependent Loss
Polarization Mode Dispersion
Maximum Power Handling
Fiber Type
Operating Temperature
Storage Temperature
Package Dimensions ** 250 μm bare ber
900 μm loose tube
Min
Typical Max
1500
1520
1530
1563
0.8
0.6
12
30
0.3
50
50
0.1
0.05
500
Corning SMF-28
0 to +70
-40 to +85
P1: (ø) 5.5 x (L) 34.0
P2: (ø) 5.5 x (L) 40.0
Unit
nm
nm
dB
dB
dB
dB
dB
dB
ps
mW
°C
°C
mm
Note:
* Values are referenced without connector loss.
** The mechanical tolerance should be +/-0.2 mm on all package dimensions unless otherwise custom speci-
fied.
*** The maximum IL is under all states of polarization and within the full operating temperature and
wavelength ranges specified.
Features
 Environmental Green Plan
Compliance
 Wide Operating Wavelength Range
 Low Insertion Loss
 High Channel Isolation
 Ultra Flat Wide Passband
 Highly Stable & Reliable
 Epoxy-free Optical Path
Applications
 Fiberoptic Amplifiers
 System Monitoring
 Fiberoptic Instruments
 Laboratory R&D
R03.20081118