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MWDMG1315 Datasheet, PDF (1/2 Pages) OPLINK Communications Inc. – Micro-Optic WDM | |||
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Green 1310/1550 nm Micro-Optic WDM
MWDMG1315 Series
Product Description
Oplinkâs Micro-Optic Wavelength Division Multiplexer (MWDM) is based on
thin-film filter technology and patented athermal platform for optical device. The
MWDM1310/1550 is used to combine or separate 1310 and 1550 nm band sig-
nals. This device offers very flat and wide passband, low insertion loss, and high
isolation, which make it ideal for Optical Amplification Systems and WDM Net-
work applications. Oplink MWDM devices are Bellcore GR -1221 qualification
tested and complied with industry green initiatives such as Rohs and WEEE. All
Oplink products areepoxy-free in the optical path.
Performance Specificationns
MWDMG1315 Series
Min Typical Max Unit
Type 1315
Pass Channel Wavelength Range λ1
Type 1513
1260
1520
1360 nm
1600 nm
Reflection Channel Wavelength
Range λ2
Type 1315
Type 1513
1520
1260
1600 nm
1360 nm
Insertion Loss *
Pass Channel @ λ1
Reflect Channel @ λ2
0.6
0.6
dB
Isolation
Reflect Channel @ λ1
15
Pass Channel @ λ2
40
dB
Passband Ripple
0.30
dB
Directivity
50
dB
Return Loss
50
dB
Polarization Dependent Loss
0.1
dB
Polarization Mode Dispersion
0.2
ps
Maximum Power Handling
500
mW
Fiber Type
Corning SMF-28
Operating Temperature
0 to +70
°C
Storage Temperature
-40 to +85
°C
Package Dimensions **
250 μm Bare Fiber
900 μm Loose Tube
P1: (ø) 5.5±0.2 x (L) 34.0±1
P2: (ø) 5.5±0.2 x (L) 40.0±1
mm
Note:
* Values are referenced without connector loss.
** The maximum IL is under all states of polarization and within the full operating temperature and wave-
length ranges specified.
Features
ï² Environmental Green Plan
Compliance
ï² Wide Operating Wavelength Range
ï² Compasct Size
ï² High Channel Isolation
ï² Ultra Low PDL and PMD
ï² Highly Stable & Reliable
ï² Epoxy-free Optical Path
Applications
ï² Bi-directional WDM Systems
ï² Uni-directional WDM Systems
ï² System Monitoring
ï² Fiberoptic Instruments
ï² Transmistters & Fiber
ï² Laboratory R&D
S0027 - R04. (web) 20140113
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