Optical Add/Drop Multiplexer
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An OADM is a device used in wavelength-division multiplexing systems for multiplexing and routing different channels of light into or out of a single mode fiber (SMF). This is a type of optical node, which is generally used for the construction of optical telecommunications networks.
"Add" and "drop" here refer to the capability of the device to add one or more new wavelength channels to an existing multi-wavelength WDM signal, and/or to drop (remove) one or more channels, passing those signals to another network path. An OADM may be considered to be a specific type of optical cross-connect.
 Optical Add/Drop Multiplexers 50 GHz OADM (1x2)
Optical Add/Drop Multiplexers 50 GHz OADM (2x2)
Optical Add/Drop Multiplexers 50 GHz OADM (3x3)
Optical Add/Drop Multiplexers 100 GHz OADM (1x2)
Optical Add/Drop Multiplexers 100 GHz OADM (2x2)
Optical Add/Drop Multiplexers 100 GHz OADM (3x3)
Optical Add/Drop Multiplexers 200 GHz OADM (1x2)
Optical Add/Drop Multiplexers 200 GHz OADM (2x2)
Optical Add/Drop Multiplexers 200 GHz OADM (3x3)
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8 Channel DWDM Module
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4 & 8 Channel CWDM Module
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Pump / Signal WDM
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Applications: Broadband telecommunication systems, DWDM multiplexing, CATV systems
Features: 50GHz, 100GHz, 200GHz ITU channel spacing are available; Low insertion loss and PDL; High channel isolation; High stability and reliability without temperature control; Optical path epoxy free. [... more] |
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Applications: Optical networks, Telecommunication systems, CATV systems.
Features: Low insertion loss and PDL; High channel isolation; High stability and reliability without temperature control; Optical path epoxy free. [... more] |
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Applications: EDFA, Fiber lasers.
Features: Low insertion loss; Wide pass band; Compact size; Excellent environmental and mechanical stability. [... more] |
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1310/1550 WDM
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High Isolation 1310/1550 WDM
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1310+1490/1550nm Filtered WDM
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Applications: WDM Systems, CATV Systems.
Features: Low insertion loss; Wide operating wavelength range; High isolation over bandwidth; Compact size; Excellent environmental and mechanical stability. [... more] |
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Applications: WDM systems, CATV system, Fiber-To-The-Home (FTTH), FSAN.
Features: No epoxy in the optical path; Low insertion loss; Wide operating wavelength range; High isolation over bandwidth; Compact size; Excellent environmental and mechanical stability. [... more] |
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The filter WDM is a bi-directional component optimized for a variety of applications including optical network units and optical line terminals. [... more] |
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Hi Isolation 1310+1490/1550nm Filtered WDM
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C Band and L Band WDM
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C Band Red/Blue Pass WDM
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| The filter WDM is a bi-directional component optimized for a variety of applications including optical network units and optical line terminals. [... more] |
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The C Band/L band filter WDM is a micro optics device based on environmentally stable Thin Film Filters technology. It is used to combine or separate C band wavelength signals and L band wavelength signals in DWDM systems. The components are characterized with wide pass band, low insertion loss, high return loss excellent environmental stability and high power handling capability. [... more] |
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The C Band Red/Blue Filter WDM used to separate or combine Red band wavelength signals and Blue band wavelength signals in C band range in DWDM systems. It is a micro optics device based on environmentally stable Thin Film Filters technology. The components are characterized with wide pass band, low insertion loss, high return loss, excellent environmental stability and high power handling capability. [... more] |
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L Band Red/Blue Pass WDM
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L Band Supervisory Channel WDM
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Polarization Insensitive Isolator (Single Stage)
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Applications: DWDM system, Optical fiber amplifier, Fiber optic instrument.
Features: Low insertion loss and PDL, high channel isolation, high stability and relability without temperature control, and Optical path epoxy free. [... more] |
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Applications: DWDM system, Optical fiber amplifier, Fiber optic instrument.
Features: Low insertion loss and PDL, high channel isolation, high stability and relability without temperature control, and Optical path epoxy free. [... more] |
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The device guides optical light in one direction and eliminates back reflection and back scattering in the reverse direction. It is ideal for suppressing back reflection in fiber lasers and other high performance laser based fiber optics systems.
Applications: Telecommunications, EDFA, Fiber-optic LAN systems, Fiber-optic testing systems, Sensors. [... more] |
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Polarization Insensitive Isolator (Dual Stage)
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Faraday Rotator Mirrors
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Tap/Isolator Hybrid
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The device guides optical light in one direction and eliminates back reflection and back scattering in the reverse direction. It is ideal for suppressing back reflection in fiber lasers and other high performance laser based fiber optics systems. .
Applications: Telecommunications, EDFA, Fiber-optic LAN systems, Fiber-optic testing systems, Sensors. [... more] |
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Faraday Rotator Mirror is a fiber optic polarization rotation mirror designed for fiber optic networks and measurement applications. [... more] |
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Applications: EDFA, Telecommunication systems, CATV systems, Fiber Optic instruments, Systems monitoring and sensors.
Features: Ultra-low insertion loss and PDL, high channel isolation, Broad operating wavelength range, compact, rugged, and environmentally stable package. [... more] |
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WDM/Isolator Hybrid
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Gain Flattening Filter
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Gain Flattening Filter and Isolator Hybrid
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Applications: EDFA, Telecommunication systems, CATV systems, Fiber Lasers.
Features: Ultra-low insertion loss and PDL, high channel isolation, Broad operating wavelength range, Compact, rugged, and environmentally stable package. [... more] |
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The Gain Flattening Filters provide in line compensation of the spectral gain profile of EDFAs. This device is used in high-power applications in DWDM systems. [... more] |
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Applications: Fiber optic amplifiers.
Features: Low insertion loss, wide operating wavelength range, low error function, excellent environmental and machanical stability[... more] |
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3-ports Polarization Insensitive Circulator
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Applications: WDM and DWDM systems, Fiber optic instruments, transmitters and fiber lasers, dispersion compensation.
Features: Low insertion loss, high isolation, Ultra low PDL and PMD, high stability and reliability, optical path epoxy free, wideoperating wavelength and temperature range. [... more] |
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