Showing results: 1 - 12 of 12 items found.
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PLC-1 × 口口口 -
Hangzhou Huatai Optic Tech. Co., Ltd.
Huatai Planar Optical Waveguide Optical Splitter (PLC Splitter) is an integration waveguide optical power distribution device that based on quartz substrate, featured with small size, wide working wavelength range, high reliability and excellent uniformity of optical split, etc. It is especially suitable for connecting local unit with terminal unit in passive optical network (EPON, BPON, GPON, etc.) to achieve optical signal splitting. The main design divide optical signal in optical communication system into multi-way output. The component that we manufactured is with high stability to light source and temperature. And diversified packages can meet customers’ different requirements in application. According to the various requirements, our PLC splitter is with various types: bare fiber type, miniature type, fan-out type, module type, tray type, plug-in type , Blade package type, rack-mounted type, etc.
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PLC-2 × 口口口 -
Hangzhou Huatai Optic Tech. Co., Ltd.
Huatai Planar optical waveguide optical splitter (PLC Splitter) is an integration waveguide optical power distribution device that based on quartz substrate, featured with small size, wide working wavelength range, high reliability and excellent uniformity of optical split, etc. It is especially suitable for connecting local unit with terminal unit in passive optical network (EPON, BPON, GPON, etc.) to achieve optical signal splitting. The main design divide optical signal in optical communication system into multi-way output. The component that we manufactured is with high stability to light source and temperature. And diversified packages can meet customers’ different requirements in application. According to the various requirements, our PLC splitter is with various types: bare fiber type,miniature type, fan-out type,module type, tray type, plug-in type , Blade package type, rack-mounted type, etc.
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NED-LMD WG Series -
Gamma Scientific Inc.
Gamma Scientific is introducing the NED-LMD Waveguide Tester as the world’s first specialized near-eye display measurement system that mimics human visual perception for fast, accurate and repeatable characterization of next generation optical waveguide-based Augmented/Mixed Reality displays and display components (light engine, waveguide, etc.). This comprehensive offering features a ‘robotic eye’ to help device manufacturers predict how the human eye would perceive their AR/MR displays, quantifying end user experience mapping the entire display field of view.
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Nanonics Imaging Ltd.
NSOM Is the premier tool for imaging and manipulation of light on the nanoscale and is a critical instrument for understanding plasmonics, photonic waveguides, photovoltaic and photoconductivity studies. The optical openness of the NSOM system permits any illumination scenario while the Multiprobe NSOM head offers optical transport and dynamic study on the nanoscale for the first time. Offering a variety of options from entry level to low-temperature systems, the MultiView NSOM series has been the platform of choice for imaging on the nanoscale for nearly two decades.
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MPM-210HMPM-211, 212, 213, 215 -
Santec Corporation
Our MPM-210H is ideal for IL, WDL and PDL measurement of multi-port optical components including Dense Wavelength Division Multiplexing (DWDM), Arrayed Waveguide Gratings(AWG) , Wavelength Selective Switches (WSS) and more. When combined with our TSL-Series laser equipped with a power monitor output, the MPM-210H allows the user to complete real-time high precision IL measurements.
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MR30 (30KHz~100GHz) -
Hangzhou Huatai Optic Tech. Co., Ltd.
MR30 series microwave wideband optical receiver, adopts waveguide intergrated PIN photodetector. Within 40KHz~100GHz bandwidth, they are featured with excellent linearity, high responsibility and superior flatness of the RF response in both, power and phase. They provide an outstanding linearity fiber optical communication for analogue and digital wideband microwave application. MR30 series PIN photodetector products have unsurpassed high-power handing capability. In system application, they can pre-amplify the received optical power by EDFA, favorable responsibility, with high voltage out, avoiding the need for electrical amplification. They are suitable for testing and application in microwave opto-electronics and high speed lightwave area as well as 40Gb/s (OC-768, STM-256) high-speed communication system.
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Hilo Test
The user-friendly and clearly structured Windows interface allows intuitive operation. The remote software includes a standard library of custom test sequences easily in no time can be generated. A comprehensive report function creates the user's audit reports in accordance with the international and national standard IEC / EN 17025. The remote control is realized by means of Ethernet interface and galvanic isolating optical waveguide. Furthermore, our equipment can be connected by means of an instruction set of custom controls.
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MR22 (40KHz~18GHz) -
Hangzhou Huatai Optic Tech. Co., Ltd.
MR22 series microwave wideband optical receiver, adopts High linear PIN diode and limiting amplifier, within bandwidth of 40KHz~18GHz, they are featured with excellent linearity, high responsibility and superior flatness of the RF response in both, power and phase. They provide an outstanding linearity fiber optical communication for analogue wideband microwave application. Due to avoidance of using expensive coaxial cable or wave-guide, there will be no limitation in transmission distance, which improves the signal quality and reliability of the microwave communication. They can be widely applied in microwave communication system such as remote wireless, timing and reference signal distribution, telemetry, measurement and delay line etc as well as 10Gb/s and 18Gb/s high speed communication system.
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MR12 (40KHz~18GHz) -
Hangzhou Huatai Optic Tech. Co., Ltd.
MR12 series microwave wideband optical receiver, adopts high Sensitivity APD diode and limiting amplifier, within bandwidth of 40KHz~18GHz, they are featured with excellent linearity, high responsibility and superior flatness of the RF response in both, power and phase. They provide an outstanding linearity fiber optical communication for analogue wideband microwave application. Due to avoidance of using expensive coaxial cable or wave-guide, there will be no limitation in transmission distance, which improves the signal quality and reliability of the microwave communication. They can be widely applied in microwave communication system such as remote wireless, timing and reference signal distribution, telemetry, measurement and delay line etc as well as 10Gb/s high speed communication system.
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MR11 (40KHz~18GHz) -
Hangzhou Huatai Optic Tech. Co., Ltd.
MR11 series microwave wideband optical receiver, adopts high Sensitivity APD diode and Low Noise Preamplifier IC, within bandwidth of 40KHz~18GHz, they are featured with excellent linearity, high responsibility and superior flatness of the RF response in both, power and phase. They provide an outstanding linearity fiber optical communication for analogue wideband microwave application. Due to avoidance of using expensive coaxial cable or wave-guide, there will be no limitation in transmission distance, which improves the signal quality and reliability of the microwave communication. They can be widely applied in microwave communication system such as remote wireless, timing and reference signal distribution, telemetry, measurement and delay line etc as well as 10Gb/s high speed communication system.
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The Rotation Link SAS
In a radar, for instance, the integrated Rotary Joint connects the moving part of the radar with the pedestal, enabling uninterrupted transfer of multiple media. This transmission can be a combination of RF signals in waveguides or coax channels, or multiple other needed transfers like cooling media, fiber optical signals, electrical signals and air. The design of this Integrated Rotating System is conducted in cooperation with the customer, resulting in a tailor-made product with low losses, high peak performance and compact physical dimensions. EVERAXIS’s extensive experience guarantees a product that has one of the longest lifespans in the market.
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Torontech Group
Optical fiber consists of a core and a cladding layer, selected for total internal reflection due to the difference in the refractive index between the two. In practical fibers, the cladding is usually coated with a layer of acrylate polymer or polyimide. This coating protects the fiber from damage but does not contribute to its optical waveguide properties. Individual coated fibers then have a tough resin buffer layer and/or core tube(s) extruded around them to form the cable core. Several layers of protective sheathing, depending on the application, are added to form the cable. Rigid fiber assemblies sometimes put light-absorbing ("dark") glass between the fibers, to prevent light that leaks out of one fiber from entering another. This reduces cross-talk between the fibers, or reduces flare in fiber bundle imaging applications Optical fibers are very strong, but the strength is drastically reduced by unavoidable microscopic surface flaws inherent in the manufacturing process. The initial fiber strength, as well as its change with time, must be considered relative to the stress imposed on the fiber during handling, cabling, and installation for a given set of environmental conditions. There are three basic scenarios that can lead to strength degradation and failure by inducing flaw growth: dynamic fatigue, static fatigues, and zero-stress aging.
