National Instruments Miscellaneous Hardware, Circuit Boards, and Parts Features Miscellaneous Parts Wide Range of Equipment This page is a list of National Instruments miscellaneous parts spanning all categories...
The UPA-FC adapts standard 0.25 in. diameter fiber chucks to 1 in. Optic Mounts. It is designed to fit into mirror mounts, lens mounts or any mount that can hold a 1 in. diameter optic. It secures the fiber chuck with a single set screw and has a reference mark for use with the degree scale on the..
The F-WDM-S11315-FCAPC Single Mode Wavelength Division Multiplexer uses fused fiber technology. This 1 x 2 WDM is used to separate or combine optical signals at the 1310 ±20 nm and 1550 ±20 nm operating wavelengths allowing for bidirectional communications on a single fiber. WDMs offer high isolati..
The F-WDM-S11315-FCUPC Single Mode Wavelength Division Multiplexer uses fused fiber technology. This 1 x 2 WDM is used to separate or combine optical signals at the 1310 ±20 nm and 1550 ±20 nm operating wavelengths allowing for bidirectional communications on a single fiber. WDMs offer high isolati..
The F-WDM-S19815-FCAPC Single Mode Wavelength Division Multiplexer uses fused fiber technology. This 1 x 2 WDM is used to separate or combine optical signals at the 980 ±10 nm and 1550 ±20 nm operating wavelengths allowing for bidirectional communications on a single fiber. WDMs offer high isolatio..
The F-WDM-S19815-FCUPC Single Mode Wavelength Division Multiplexer uses fused fiber technology. This 1 x 2 WDM is used to separate or combine optical signals at the 980 ±10 nm and 1550 ±20 nm operating wavelengths allowing for bidirectional communications on a single fiber. WDMs offer high isolatio..
The F-WDM-S98158-FCAPC Single Mode Wavelength Division Multiplexer uses fused fiber technology. This 1 x 2 WDM is used to separate or combine optical signals at the 980 ±10 nm and 1585 ±10 nm operating wavelengths allowing for bidirectional communications on a single fiber. WDMs offer high isolatio..
The 2107-FC Adjustable Gain and Bandwidth Balanced Fiber-Optic Receiver is an FC connectorized, 300 to 1070 nm photoreceiver with higher-gain and lower-bandwidth than our popular Model 20X1 laboratory photoreceivers. Ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry, this Silicon a..
The 2107-FC-M Adjustable Gain and Bandwidth Balanced Fiber-Optic Receiver is an FC connectorized, 300 to 1070 nm photoreceiver with higher-gain and lower-bandwidth than our popular Model 20X1 laboratory photoreceivers. Ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry, this Silicon..
The 2117-FC Adjustable Gain and Bandwidth Balanced Fiber-Optic Receiver is an FC connectorized, 900 to 1700 nm photoreceiver with higher-gain and lower-bandwidth than our popular Model 20X1 laboratory photoreceivers. Ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry, this InGaAs ad..
The 2117-FC-M Adjustable Gain and Bandwidth Balanced Fiber-Optic Receiver is an FC connectorized, 900 to 1700 nm photoreceiver with higher-gain and lower-bandwidth than our popular Model 20X1 laboratory photoreceivers. Ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry, this InGaAs ..
The F-H10-IR-FC Collimator is designed specifically for single-mode and polarization maintaining (PM) fiber applications in the 1000 to 1700 nm range, which need to generate a clean Gaussian Beam at any distance. It is designed for long distance projection applications such as free space communicati..