Fiber Optical Switch

MXN MEMS Optical Switch Features Proven MEMS durability and reliability Compact Form Factor TTL UART interface Qualified to Telcordia GR-1073-CORE and RoHS Applications Optical path selection As Automatic optical distribution rack M x N MEMS Optical Switch OXC M x N MEMS Optical switch is used in optical cross-connect, OXC application. It’s also called Matric Optical Switch. It allows channel selections between M input fibers and N output fibers. FIBERWDM’s MEMS Modular

Mini Bypass Mechanical Optical Switch Unmatched Low Cost, Mini Bypass Mechanical Optical Switch Low Optical Distortions High Isolation High Reliability Epoxy-Free Optical Path Mini Bypass Mechanical Optical Switch The Mini bypass fiber optic switch, including 2x2, 1x2, 1x1 optical switch, connects optical channels by directing or blocking an incoming optical signal into the output fiber. This is achieved using a patent pending optomechanical configuration and activated via an

1XN MEMS Optical Switch Features Proven MEMS durability and reliability Compact Form Factor Fast switching time Qualified to Telcordia GR-1073-CORE and RoHS Applications Opticalsignal switching androuting Optical network protection and restoration Optical path monitoring (Workingwith OTDR or OCM) Instrumentation resource sharing 1xN MEMS Optical Switch 1xN MEMS optical switchis based on micro-electro-mechanical system technology. It allows channel selection between one input

4x4 Mechanical Optical Switch Unmatched Low Cost, Mini Bypass Mechanical Optical Switch Low Optical Distortions High Isolation High Reliability Epoxy-Free Optical Path 4x4 Mechanical Optical Switch The 4x4 Mechanical Fiber Optical switch connects optical channels by directing or blocking an incoming optical signal into the output fiber. This is achieved using a patent pending opto-mechanical configuration and activated via an electrical control signal. A latching version

1x4 Mechanical Optical Switch Unmatched Low Cost, Mini Bypass Mechanical Optical Switch Low Optical Distortions High Isolation High Reliability Epoxy-Free Optical Path 1x4 Mechanical Optical Switch The Series 1x4 Mechanical Fiber Optical switch connects optical channels by directing or blocking an incoming optical signal into the output fiber. This is achieved using a patent pending opto-mechanical configuration and activated via an electrical control signal. A latching

1x8 Mechanical Optical Switch Unmatched Low Cost, Mini Bypass Mechanical Optical Switch Low Optical Distortions High Isolation High Reliability Epoxy-Free Optical Path 1x8 Mechanical Optical Switch The Series 1x8 fiber optic switch connects optical channels by redirecting an in- coming optical signal into a selected output fiber. This is achieved by using a patent pending op to-mechanical configuration activated via an electrical control signal. Latching operation preserves

1xN Mechanical Optical Switch up to 1x64 Mechanical Optical Switch Unmatched Low Cost Low Optical Distortions High Isolation High Reliability Epoxy-Free Optical Path /1 X N Mechanical Optical Switch 1 x N(up to 1 x 64) multichannel optical switch is based on step motor drives designed, and it is widely used in OADM, OXC, system monitoring, and so on. Based on the special optical design, it features excellent optical characteristics with fast switch time, low insertion loss,

1 X N Multipath Channel Switch Device Optical transmission system LAN light source/detector auto exchange and optical sensor monitoring system Optic fiber, Optical passive components, Optical network and cable testing 1 x N Multipath Channel Switch Device Product Overview Multipath Channel Switch Device (1 x N switch) is used for selecting and controlling optic path. It has an important role in optical communication and applies to multipoint monitoring of optical transmission

MEMS Variable Optical Attenuator VOA Product Features Low insertion loss Low polarization dependent Compact size Available in both normally open and normally closed states Excellent reliability Product Application Power Management Receiver protective Channel Balance Instrumentation MEMS Variable Optical Attenuator (Mems VOAs) Mirror MEMS attenuators (MEMS VOAs) are based on a micro-electro-mechanical system (MEMS) technology. The MEMS attenuators design achieves highly

Dual 2x2 Bypass Mechanical Optical Switch Unmatched Low Cost, Dual 2x2 Bypass Mechanical Optical Switch Low Optical Distortions High Isolation High Reliability Epoxy-Free Optical Path Dual 2x2 Bypass Mechanical Optical Switch The Dual 2x2 Bypass Mechanical Fiber Optical switch connects optical channels by directing or blocking an incoming optical signal into the output fiber. This is achieved using a patent pending opto-mechanical configuration and activated via an electrical