Manufactured with a metal ion doped fiber these attenuators can handle over 1w of high power light exposure for an extended period of time.
Fiber optic attenuator multimode.
They control the attenuation by increasing the air gap distance between the two connectors which decreases the coupling efficiency.
Multimode variable attenuator 50µm or 62 5µm fiber core 2 meters return loss.
Lc fiber optic attenuators.
A primary application is determining optical receiver sensitivity by measuring the ber vs.
High power light source durability.
Although fiber optic attenuators are normally used in singlemode circuits because this is where the stronger lasers are used for distance transmission we also have multimode attenuators available upon special order in 50 125 and 62 5 125 fiber sizes.
Fibertronics offers a wide range of fiber optic attenuators.
Available for use in single mode 9 125 multimode 50 125 and multimode 62 5 125 applications.
Fiber optic attenuators for reducing power of optical signals for fiber optic communication systems in lc fc st sc connections.
Fs fixed and variable optical attenuators with leading attenuating fibers make sure consistent and stable fiber attenuation 0 60db in wdm transmission all the time.
Single mode and multimode fiber optic attenuators javascript seems to be disabled in your browser.
Attenuation levels available from zero db to 25db with standard and premium tolerances plus custom configurations.
These attenuators control the attenuation by increasing the air gap distance between the two connectors which decreases the coupling efficiency.
Our male to female buildout optical attenuation pads are available in all fiber modes with lc lc apc sc sc apc fc fc apc and st types.
Thorlabs multimode variable fiber optic attenuators voas allow one to attenuate an optical signal easily by plugging multimode fibers or components directly into the attenuator.
Thorlabs multimode fixed fiber optic attenuators allow one to attenuate an optical signal easily by plugging multimode fibers or components directly into the attenuator.