Fiber Cable Assemblies 135 Items

Fluke Networks fiber optic launch cord 160 m for LC/LC connections, singlemode 9 µm, ensures precise power testing and reliable network device connectivity.

Fluke Networks fiber optic launch cable delivers reliable 62.5 µm multimode performance with 105m length, SC to LC connectors, ideal for network testing.

Fluke Networks fiber cable for fast, secure data transmission—344.49 ft SC to ST multimode ideal for OptiFiber Pro OTDR and DTX-1800 OTDR devices.

Fluke singlemode launch cord enables accurate fiber testing with SC to LC connections. Ideal for use with OptiFiber Pro analyzers.

Fluke Networks launch cable delivers high-performance SC/SC singlemode fiber connectivity—ideal for long-distance OTDR testing and network reliability.

Clark Wire SMPTE Fiber Camera Cable: 250' bend-insensitive, extra-flexible, high-performance cable for remote, ENG, and studio use. Built for durability and reliability.

Canopy OTDR Launch Lead: Reliable single fibre lead with dust pouch for efficient optical testing. Compact, durable, and ready for your next job!

Allen-Bradley 43GR-TIS10SS delivers glass fiber optic sensing connectivity for small-aperture photoelectric sensor systems, with a stainless steel conduit and M6 x 0.75 threaded TI sensing tip.

The INNO Instrument OLL-1000-652D-SC-APC is a 1000 m single-mode OTDR launch fiber reel designed for dead-zone elimination in fiber optic testing. The assembly uses G.652D single-mode fiber and SC/APC connectors to support accurate reflectance and insertion-loss measurement when testing optical links with an OTDR.

The INNO Instrument OLL-1000-652D-SC-UPC OTDR Launch Fiber Reel provides a 1000 meter G.652D singlemode fiber lead designed for OTDR testing. Featuring SC-UPC connectors, the launch fiber enables accurate measurement of near-end and far-end events.

INNO Instrument OLL-500-652D-SC-APC OTDR launch fiber cable provides a 500 m singlemode buffer between an OTDR and the fiber under test. Using G.652D 9/125 µm fiber with SC/APC connectors on both ends, it supports near-end connector characterization and reveal events that may be obscured during OTDR trace acquisition.

INNO Instrument OLL-500-652D-SC-UPC OTDR launch fiber reel provides a 500 m singlemode fiber link used with optical time domain reflectometers to stabilize launch conditions and support evaluation of fiber connections during installation, verification, and troubleshooting.

INNO Instrument FL-500-SC-APC is a 500 m singlemode OTDR launch fiber reel with SC/APC connectors designed to support fiber optic link testing. The launch fiber provides a buffer distance that allows Optical Time Domain Reflectometers to measure near-end connections and reflectance with improved visibility.

The INNO Instrument FL-500-SC-UPC is a 500-meter single-mode fiber optic OTDR launch cable designed for accurate fiber link testing. Built with 9/125 µm OS2 fiber and SC-UPC connectors on both ends, it creates the necessary launch distance to measure insertion loss and reflectance at the first connection point.

The INNO Instrument FL-300-SC-APC is a 300 m Singlemode launch fiber reel designed for Optical Time Domain Reflectometer (OTDR) testing. It provides a controlled fiber length between the OTDR and the link under test, enabling measurement of the first connector in a fiber span. The reel format protects the fiber during storage and field deployment.

The INNO Instrument 300-meter Fiber Optic Launch Reel is a  singlemode reference fiber used with optical time domain reflectometers (OTDR) to eliminate near-end dead zones during fiber testing. The reel integrates singlemode fiber with SC/UPC connectors on both ends that enables accurate measurement of connector loss and reflectance.

The INNO Instrument FL-100-SC-APC Singlemode OTDR Launch Fiber Reel is a 100 m fiber launch cable designed for optical time domain reflectometer testing. It provides a controlled fiber segment that allows OTDR measurements to stabilize before the first connection in a fiber link.

The INNO Instrument FL-100-SC-UPC is a 100 m singlemode OTDR launch fiber reel designed for fiber optic testing and link characterization. Featuring SC/UPC connectors on both ends, this launch cable acts as a pulse suppressor and delay line that enables Optical Time-Domain Reflectometers (OTDR) to measure insertion loss.

The Banner BT23S is a bifurcated, diffuse-mode glass fiber optic cable with a 3.2 mm bundle diameter and stainless steel monocoil sheathing. Designed for harsh industrial environments, it supports reliable sensing in high-temperature and electrically noisy applications.

The Banner BA1.53SMTA is a high-temperature diffuse-mode bifurcated glass fiber optic cable with stainless steel monocoil sheathing. It features a tight right-angle side-view sensing tip, 36-inch fiber length, and 2.3 mm bundle diameter for reflective sensing applications.

Allen-Bradley 43GR-TBB25SL is a glass fiber optic cable for diffuse sensing applications. It features a bifurcated configuration, threaded axial brass tip, stainless steel flexible conduit sheathing, and a custom 36 in cable length for industrial sensing use.

Banner Engineering IAT210S glass fiber optic sensor cable with diffuse-reflective sensing. Features a right-angle brass sensing end, stainless steel monocoil sheathing, 3.2 mm glass fiber core, and 4.572 m length. Designed for use with a separate fiber optic amplifier.

Allen-Bradley 43GR-TMC25SL is a glass fiber optic cable designed for use with large aperture photoelectric sensors. It features a diffuse (bifurcated) sensing configuration, a TM right-angle threaded sensing tip, stainless steel flexible conduit sheathing, and a standard 36-inch length.

Allen-Bradley 43GR-TIS10SS is a 36-inch bifurcated glass fiber optic cable for diffuse sensing applications. It features a stainless steel flexible conduit, right-angle M6 threaded tip, and is designed for use with small-aperture photoelectric sensors in industrial environments.

ABB C99-94501 delivers a high-temp fiber optic cable assembly for reliable FlameScanner monitoring, ensuring clear optical performance for industrial burner systems.