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AFW Technologies, a photonics technology provider specializing in fiber optic components, optical interconnect devices, signal conditioning modules, and precision photonic systems for research, telecommunications, and industrial applications. The company focuses on enabling stable light transmission, polarization control, optical power management, and time delay manipulation across single-mode and polarization maintaining fiber platforms for high performance optical system integration. Its portfolio includes fiber optic circulators, isolators, splitters, attenuators, delay lines, and coupling components designed for low loss operation, high isolation, and reliable system stability. AFW Technologies solutions are widely used in optical communication networks, fiber sensing systems, laser protection, CATV distribution, signal conditioning, and advanced photonic research applications.
CIR-PM-13-L-5-2 - Polarization Maintaining Fiber Optic Circulator
The CIR-PM-13-L-5-2 is a polarization maintaining fiber optic circulator that operates at 1310 nm. It is designed to provide high isolation and low insertion loss for controlled directional signal routing in fiber optic systems while maintaining stable polarization performance. The device supports PANDA polarization maintaining fiber for consistent polarization integrity and is configured for reliable signal transmission in single wavelength operation. It incorporates high return loss and low cross talk characteristics to enhance signal quality and reduce unwanted reflections in optical networks. The circulator is supplied with FC/APC connector compatibility and 900 µm loose tube fiber construction in a compact package format for integration into fiber optic assemblies. It is ideal for optical communication systems, fiber sensing, laser systems, and polarization sensitive photonic applications.
ISO-64-L-1-0-3W - Fiber Optic Isolator for Optical Amplifier Applications
The ISO-64-L-1-0-3W is a high power polarization insensitive fiber optic isolator designed for operation at 1064 nm. It provides low insertion loss and high isolation performance to suppress back reflections in laser systems, ensuring stable and reliable optical signal propagation. The device supports Hi1060 fiber compatibility with a loose tube jacket configuration and is designed for high power continuous wave handling up to 3 W. It incorporates polarization insensitive isolation architecture for stable performance in varying polarization conditions and is optimized for fiber laser and amplifier integration. The isolator is available in a fiber pigtail format without connectors, enabling flexible integration into custom optical setups and systems. It is ideal for fiber lasers, optical amplifiers, laser systems protection, and high power photonics applications.
SMTC-0204-15-A-L-0.5-1 - Fiber Optic Coupler for CATV Systems
The SMTC-0204-15-A-L-0.5-1 is a fiber optic coupler that operates at 1550 nm with a ±20 nm bandwidth. It provides a 2 x 4 optical splitting configuration designed for stable signal distribution in single-mode fiber systems. The device is built for low loss and high uniformity performance to ensure reliable optical signal routing across multiple outputs. It uses SMF28e fiber for consistent transmission characteristics and supports FC/UPC connector integration for standard optical interfacing. The module is supplied in a compact package format for easy integration into fiber optic assemblies. It is ideal for CATV systems, fiber optic communication networks, LAN distribution systems, and general optical signal splitting applications.
FOA-SCA-2 - Fiber Optic Attenuator for Optical Network Testing Applications
The FOA-SCA-2 is a fiber optic attenuator that operates at 1310 nm and 1550 nm wavelengths. It provides controlled reduction of optical signal power in single mode fiber links using SC/APC male to female connector configuration. The device is designed to ensure stable attenuation performance for maintaining proper signal levels in optical transmission systems while minimizing reflection and maintaining link quality. It supports fixed attenuation behavior for consistent optical power adjustment in fiber optic networks. The attenuator is supplied in a compact SC interface module format for easy integration into standard fiber systems. It is ideal for fiber optic communication systems, signal conditioning, optical network testing, and receiver power management applications.
SM1-22-B-5KM-1RU - Optical Delay Line for Time Delay Applications
The SM1-22-B-5KM-1RU is a optic delay line module that operates over the standard singlemode fiber wavelength range of 1260 nm to 1650 nm. It provides controlled optical signal delay using SMF28e+ fiber configured for long distance propagation in a compact rack mounted system. The device is designed to ensure stable time delay performance with low insertion loss for accurate signal timing and phase control in optical systems. It supports standard FC/APC connector interfaces for reliable optical coupling and integration into fiber networks. The delay line is supplied in a 1RU rack enclosure format with configurable fiber spool integration for system level deployment. It is ideal for optical network testing, time delay applications, fiber sensing systems, and photonic signal processing applications.
With its portfolio of fiber optic circulators, isolators, couplers, attenuators, delay lines, and precision interconnect modules, AFW Technologies enables stable optical signal routing, polarization control, power management, and controlled time delay across singlemode and polarization maintaining fiber systems. By combining low loss performance, high isolation, precise attenuation control, and reliable fiber integration, the company delivers consistent operation, improved signal integrity, and efficient system-level integration for advanced photonic setups. AFW Technologies’ focus on fiber optic component engineering, transmission stability, and application-driven design makes it a trusted solution provider for optical communications, laser systems, CATV networks, sensing systems, signal conditioning, and scientific research applications.
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