Condition: New
Product Overview: ARRIS’s OP95F1S series Single-channel DWDM Optical Filters have been designed with low insertion and polarization dependent losses. These three-port filters are used to add (or drop) a single DWDM narrowcast wavelength to (or from) a set of DWDM optical wavelengths. The filters are available in two versions of packaging for outdoor use, one version ruggedized for easy handling and the second version, though not ruggedized, being smaller and easier to fit in a splice enclosure. Both versions are designed for use in an outdoor environment within a temperature range of –40° to +85°C.
Features:
Low insertion loss
• Operating temperature range –40°C to +85°C
• Selection of supported narrowcast channels on standard
100 GHz DWDM ITU Grid
• High channel isolation to minimize crosstalk
• Telcordia GR-1209 and GR-1221 qualified, providing excellent environmental and mechanical stability
• Variety of options for module package size, fiber jacket and connector types
• Epoxy-free on optical path
See MoreCondition: New
Product Overview: ARRIS’s OP95F1S series Single-channel DWDM Optical Filters have been designed with low insertion and polarization dependent losses. These three-port filters are used to add (or drop) a single DWDM narrowcast wavelength to (or from) a set of DWDM optical wavelengths. The filters are available in two versions of packaging for outdoor use, one version ruggedized for easy handling and the second version, though not ruggedized, being smaller and easier to fit in a splice enclosure. Both versions are designed for use in an outdoor environment within a temperature range of –40° to +85°C.
Features:
Low insertion loss
• Operating temperature range –40°C to +85°C
• Selection of supported narrowcast channels on standard
100 GHz DWDM ITU Grid
• High channel isolation to minimize crosstalk
• Telcordia GR-1209 and GR-1221 qualified, providing excellent environmental and mechanical stability
• Variety of options for module package size, fiber jacket and connector types
• Epoxy-free on optical path