Phoenix Photonics miniature optical fiber shutter operates over the full C, L and S bands. It uses All-Fiber Evanescent Field technology to provide excellent optical isolation in the ‘Off’ condition while allowing minimal impact on signal quality for the ‘On’ state. Since the technology is non-invasive, i.e. the signal path is not interrupted, low insertion loss, low PDL and near zero Back Reflection are assured.

A step change in the driver current will change the in-line optical attenuation between 0.3 dB and >40dB.

EVANESCENT FIELD TECHNOLOGY

Phoenix utilizes evanescent field technology to produce low loss, high performance, non-invasive components. Shutters are produced by replacing the cladding in the locally processed region of the fiber with a material with a refractive index, which can be modified thermally. By applying a current the device switches between guiding and non-guiding conditions, which means no absorbers are required, facilitating high power operation.

SWITCHING CHARACTERISTICS:
The evanescent field shutter requires a bias current to reach the switching region dependent on the environmental temperature. Switch-on (closed to open) is slowest at minimum temperature, whilst switch-off (open to closed) is slowest at maximum temperature. Times specified above are to open the shutter from 0mA to minimum attenuation and to close the shutter from minimum insertion loss to maximum attenuation under worst-case conditions. Actual switching times can be much faster as illustrated below.

Phoenix Photonics miniature multimode optical fiber shutter is designed to meet the optical circuit protection needs of multimode fiber LAN and sensor systems. It uses All-Fiber Evanescent Field technology to provide excellent optical isolation in the ‘Off’ condition while allowing minimal impact on signal quality for the ‘On’ state. Since the technology is non-invasive, i.e. the signal path is not interrupted, near zero Back Reflections are assured. Simple to operate the device provides a low cost, small footprint shutter option in 800nm and 1300nm systems.

EVANESCENT FIELD TECHNOLOGY

Phoenix utilizes evanescent field technology to produce low loss, high performance, non-invasive components. Shutters are produced by replacing the cladding in the locally processed region of the fiber with a material with a refractive index, which can be modified thermally. By applying a current the device switches between guiding and non-guiding conditions, which means no absorbers are required, facilitating high power operation.

SWITCHING CHARACTERISTICS:
The evanescent field shutter requires a bias current to reach the switching region dependent on the environmental temperature. Switch-on (closed to open) is slowest at minimum temperature, whilst switch-off (open to closed) is slowest at maximum temperature. Times specified above are to open the shutter from 0mA to minimum attenuation and to close the shutter from minimum insertion loss to maximum attenuation under worst-case conditions. Actual switching times can be much faster.