Showing 1–16 of 86 results
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The Series 1×8 fiber optic switch connects optical channels by redirecting an in- coming optical signal into a selected output fiber. This is achieved by using a patent pending op to-mechanical configuration activated via an electrical control signal. Latching operation preserves the selected optical path after the drive signal has been removed. The switch has integrated electrical position sensors, and the new material based advanced design significantly reduces moving part position sensitivity, offering unprecedented high stability as well as an unmatched low cost. Electronic driver is available for this series of switches.
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This single fiber collimator is designed for 100G applications, offering low insertion loss and high return loss across the C-band (C15 to C61). It features an epoxy-free optical path, low polarization-dependent loss, and high stability for demanding optical systems.
Ideal for use in isolators, circulators, WDM, and high-speed signal processing, the collimator is available with various lens types, working distances, and connector options to support flexible integration in telecommunication and sensing networks.
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This optical isolator provides reliable protection for laser diodes and optical systems by minimizing back reflections. Available in both single and double stage configurations for 1060nm and 1480nm wavelengths, it offers high isolation, low insertion loss, and excellent return loss. The epoxy-free optical path ensures high power handling and long-term stability.
Ideal for CATV systems, fiber amplifiers, telecommunications, and test applications, the isolator is compatible with Hi1060 and SMF-28 fibers and supports various connector types and fiber lengths for flexible integration.
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This single-stage single-mode optical isolator for 1064 nm provides high isolation and low insertion loss, ensuring reliable protection for laser sources against back reflections. Designed with low polarization-dependent loss and high return loss, it offers stable performance in a compact package.
Ideal for high-power laser systems, fiber amplifiers, and precision optical instrumentation, the isolator maintains consistent operation across specified temperature ranges. Custom configurations including fiber type, connector options, and fiber length are available to meet specific integration requirements.
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This 16-fiber collimator provides low insertion loss and high return loss in a compact, multi-fiber design. It features an epoxy-free optical path, low polarization-dependent loss, and stable performance across a wide wavelength range.
Ideal for use in isolators, circulators, WDM systems, and optical sensing applications, the collimator is available with various lens types, working distances, and connector options to support flexible integration.
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This 16-fiber pigtail offers a compact and reliable solution for high-density optical connection needs. It features low insertion loss, high return loss, and excellent stability, with an epoxy-free optical path to ensure long-term performance.
Designed for a wide range of applications including WDM systems, optical switches, signal processing, and optical sensing, this pigtail supports wavelengths from 850nm to 1650nm and is compatible with standard single-mode fibers. Available with various connector types and fiber lengths, it provides flexible and efficient integration for telecommunication and industrial use.
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Coarse wavelength division multiplexer (CWDM Mux/Demux) utilizes thin film coating technology and proprietary design of non-flux metal bonding micro optics packaging. It provides low insertion loss, high channel isolation, wide pass band, low temperature sensitivity and epoxy free optical path.
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This 17-Channel 150GHz Athermal AWG module provides reliable wavelength division multiplexing for O-band applications. It features low insertion loss, high channel isolation, and excellent thermal stability without requiring external power for temperature control.
Designed for WDM networks, telecommunications, and access networks, the module operates across 17 ITU-grid channels with precise wavelength accuracy. Its compact, robust design ensures consistent performance in varied environmental conditions. Custom configurations including package type, connector style, and channel plan are available to meet specific system requirements.
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The 1×1 Mechanical optical switch is connected to the optical path by connecting or blocking the optical signal, the product is controlling by electrical signal to switch the optical path.
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The 1×2 FSW OSW 850nm is a compact and cost-effective 1×2 fiber optic switch designed for reliable optical signal routing and network protection at 850nm wavelength. Featuring low insertion loss (0.5 dB typical), high channel isolation, and an epoxy-free optical path, it ensures high stability and long-term performance. This latching or non-latching switch supports multimode fiber applications and is widely used in optical network protection/restoration, signal routing, configurable optical add/drop, and transmitter/receiver protection. With a power supply option of 3.0V or 5.0V, operating temperature range of -20°C to +75°C, and multiple connector and fiber length options, it offers flexible integration for various optical test and communication systems.
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The 1×2 Magneto-Optical Switch is a high-performance optical switching device designed for the 1520~1580 nm wavelength range, delivering low insertion loss (≤1.0 dB), high isolation (≥40 dB), and fast switching speed (<200 µs). It features excellent stability and reliability, with epoxy-free optical path design and options for both latching and non-latching operation. With compact dimensions of 28.6×7.6×8.5 mm and low power consumption, it is easy to integrate into various optical systems. This switch is an ideal solution for high-speed protection, system monitoring, test and measurement, fiber sensing, and network protection applications, providing precise and durable optical path control.
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1×2 Mechanical Optical Switch is used to turn on, turn off and switch optical signal. The 1×2 Mechanical Optical Switch is based on Advanced Optoelectronic Integrated Technology. With the development of optical communication, Optical Switch device is the key to a new generation of all-optical network in near future.
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1×4 Opto-Mechanical Bi-directional Fiber Optic Switch connects optical channels by redirecting 1 incoming optical signals into 4 output fibers. The new material based advanced design significantly reduces moving part position sensitivity, offering unprecedentedhighstabilityas wellas unmatchedlowcost.
Application
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This 25-fiber collimator offers a high-density solution for efficient optical beam collimation with low insertion loss and excellent return loss. It features an epoxy-free optical path, low polarization-dependent loss, and reliable performance across multiple wavelengths.
Ideal for use in isolators, circulators, WDM systems, and optical sensing applications, the collimator supports various lens types, working distances, and connector options to meet diverse system requirements.
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The 25 Fiber Pigtail is a high-performance, compact fiber optic component designed for low insertion loss, wide pass band, and minimal polarization-dependent loss. It ensures high stability and reliability with an epoxy-free optical path, making it suitable for demanding environments. This pigtail supports various wavelengths, including 1310nm and 1550nm, and is available in P and A grades to meet different performance requirements. It is widely used in isolators, circulators, WDM systems, optical sensing, VR applications, and fiber optic slip rings, offering flexible configuration options in fiber type, connector, and length.
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2×2 Mechanical Optical Switch is not affected by the polarization and wavelength. It supports all wavelength at 850nm and 1260nm~1650nm, and It provides high reliability, low insertion loss, fast switching speed and bi-directional performance. They are widely used for multiplex OADM, cross connectors OXC, system testing and protection.
