Fiberoptics
Field of optic fiber application.
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Product
High-Speed, Fiber-Optic Reference Transmitters
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Thorlabs' Reference Transmitters are designed for high-speed fiber optic test and measurement applications. They are fully-integrated and user-configurable solutions based on proven lithium niobate (LiNbO3) modulator technology driven by high-fidelity RF amplifiers.
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Product
Contacting Tip Fiber-Optic Probes
Fiber-optic Probe
Our Fiber-optic Probes with Contacting Tips are designed to achieve a more refined intensity measurement. The intensity response of a Sensor is influenced by several factors, including brightness and size of the LED under test, the aperture of the Fiber-optic Probe that is being used to test the LED, and the distance between the LED and the Fiber-optic Probe tip.
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Product
Optical Power Meter
TM103N
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TM103N Mini-Designed Optical Power Meter is a self-developed test instrument , which is widely used for installation, operation and maintenance of fiberoptic network. And it can test six calibrated wavelength optical power within the range of 800~1700nm.
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Product
S2 Spectra Sensors
ULP-S2 WBI/V
LED Sensor
The ULP S2 Spectra Sensor tests for LED intensity, and for any color in the visual spectrum, plus white. The S2 Spectra Sensor is well-suited for the test of “boundary” color LEDs, as it can unambiguously and repeatedly distinguish between not only adjacent visual colors such as green and yellow, but it can determine different hues of the same color such as yellow and amber, regardless of LED intensity. Implemented in a unique and customizable 2-Part solution, the S2 Spectra Sensor is assembled with your choice of Fiber-Optic Probe, including for the test of densely-spaced LEDs, bright LEDs, dim or misaligned LEDs, right-angle LEDs, and more, including the popular “Trident” Fiber-Optic Probes to sequentially test 3 LEDs with a single Sensor.Operating temperature range: 0oC to 70oCPower consumption: Operates between +5 and 28 volts D.C., at 6mA max. Less than 4.75 volts is not recommendedVoltage protection: Withstands up to +40 volts, & reverse polarity to -18 voltsOutput Pins: 4 gold-plated standard wire-wrap pins (0.025 in. sq.)Output Loads: ‘Int.’& ‘Color’- 2Kohms min., 100pF max.Sensor Size: 0.560 in. dia x 1.38 in. long.Typical response time: Typical response time: <10mS capture time; <100mS overall response timefor color and intensity simultaneouslyFiber-Optic Probes: Can be paired with any Universal LightProbe Fiber-Optic Probe
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Product
T7 Fiber-Optic Cable Assembly for GPIB-140, 10 m
182805-010
Cable Assembly
2-Pin Male to 2-Pin Male, Core/Clad 62.5/125 um, 850 nm Wavelength Fiber-Optic Cable for GPIB-140A Extender - The GPIB T7 Cable, sometimes referred to as GPIB Cable, connects your system to high-speed GPIB-140A extender devices. You can use the GPIB T7 Cable with a GPIB extender to increase the cable length of your system up to 1 km without comprising the integrity of your GPIB system or requiring any application modifications. The GPIB T7 Cable is offered in different lengths.
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Product
GPS over Fiber
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*High Dynamic Range GPS to Fiberoptic Transmitter and Fiberoptic to GPS Receiver*Compact NEMA rated outdoor Fiber Transmitter provides +5VDC Bias for GPS Antenna LNA*Rack mounted Fiber Receiver provides 8 RF outputs and integrated monitoring and alarming*Cost effective solutions for distribution of GPS signal over long distance
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Product
Laboratory Centrifuges
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Centrifuge systems are designed for the development, test, evaluation and calibration of accelerometers and a variety of inertial devices. Centrifuges provide a cost-effective solution for simulating high-"G" environments in the laboratory. They support testing of devices such as MEMS-based Inertial Measurement Units (IMUs), low-cost quartz or silicon sensors, Ring Laser Gyros (RLGs), Fiber-Optic Gyros (FOGs), fuzes and crash sensors.
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Product
Fiber Optic Sensor Systems
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Fraunhofer Institute for Telecommunications
Fiber-optic and photonic measuring systems open up innovative measuring and control technology concepts for a wide variety of applications. They play a major role in optimizing energy efficiency and are important technological innovation drivers for new and future-oriented markets.In the Department of Fiber Optic Sensor Systems of the Fraunhofer Heinrich Hertz Institute, the focus of application-oriented research is on the development of a new generation of photonic sensors. These are characterized by extreme miniaturization, high network and communication capability as well as extremely low power consumption or even a self-sufficient power supply.In the Department of Fiber Optic Sensor Systems at the Fraunhofer Heinrich Hertz Institute is focused applied research on the development of a new generation of photonic sensors. These are characterized by extreme miniaturization, high network and communication skills as well as an extremely low power consumption, or even a self-sufficient energy supply.
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Product
Fiber-Optic Measurement Technology
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Fiber-optic sensors enable measurements in environments where electrical sensors reach their limits. Unlike electrical measurement methods, the purely optical measurement method is completely insensitive to environmental influences.
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Product
Remote Receiver
10780F
Receiver
The Keysight 10780F Remote Receiver with fiber-optic pickup provides maximum layout flexibility for Keysight laser interferometer positioning systems. Remote pickup capabilities allow mounting of the heat-dissipating receiver electronics away from measurement areas, resulting in high measurement stability, accuracy, and repeatability.
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Product
Fast Speed Models (PCI Cameras)
xiB 64
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High-speed interface with a bandwidth of 64 Gbit / sec. CMOSIS sensor: CMV12000. Luxima sensors: LUX13HS, LUX19HS, LUX160. Gpixel sensors: GMAX0505, GMAX3265. Resolution from 1 Mpix to 65 Mpix. Speeds from 333 Fps to 3500+ Fps. Suitable for OEM customization and Embedded vision systems. Distances up to 300m over fiber-optic cable. Compact housing: 60 x 70 x 55 mm
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Product
GPIB T8 Cable, 2-Pin Male to 2-Pin Male; Core/Clad 62.5/125 um; 1,300 nm Wavelength Fiber-Optic Cable for GPIB-140A/2 Extender
183164-100
GPIB Cable
2-Pin Male to 2-Pin Male; Core/Clad 62.5/125 um; 1,300 nm Wavelength Fiber-Optic Cable for GPIB-140A/2 Extender - The GPIB T8 Cable, sometimes referred to as GPIB Cable, connects your system to high-speed GPIB-140A extender devices. You can use the GPIB T8 Cable with a pair of GPIB extenders to increase the cable length of your system up to 2 km without comprising the integrity of your GPIB system or requiring any application modifications. The GPIB T8 Cable is offered in different lengths.
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Product
Multimode Fiber-Optic Transceivers
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Schweitzer Engineering Laboratories, Inc.
Multimode fiber-optic transceivers convert EIA-232 or EIA-485 serial ports to multimode fiber-optic ports.
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Product
Fiber-Optic Probes
Fiber-optic Probe
Designed with an unparalleled optical quality finish, Optomistic Products has developed a wide array of Fiber-optic Probes to accommodate your specific LED test requirement and mechanical constraints.
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Product
GPIB T8 Cable, 2-Pin Male to 2-Pin Male; Core/Clad 62.5/125 um; 1,300 nm Wavelength Fiber-Optic Cable for GPIB-140A/2 Extender
183164-02K
GPIB Cable
2-Pin Male to 2-Pin Male; Core/Clad 62.5/125 um; 1,300 nm Wavelength Fiber-Optic Cable for GPIB-140A/2 Extender - The GPIB T8 Cable, sometimes referred to as GPIB Cable, connects your system to high-speed GPIB-140A extender devices. You can use the GPIB T8 Cable with a pair of GPIB extenders to increase the cable length of your system up to 2 km without comprising the integrity of your GPIB system or requiring any application modifications. The GPIB T8 Cable is offered in different lengths.
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Product
Fiber-Optic Transmission
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Fiber optic transmission systems all use data links that work similar to the diagram shown above. Each fiber link consists of a transmitter on one end of a fiber and a receiver on the other end. Most systems operate by transmitting in one direction on one fiber and in the reverse direction on another fiber for full duplex operation. It's possible to transmit both directions on one fiber but it requires couplers to do so and fiber is less expensive than couplers. A FTTH passive optical network (PON) is one of the only systems using bidirectional transmission over a single fiber because its network architecture is based around couplers already.
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Product
PXI Optical Switch
Optical Switch
The PXI Optical Switch is available in many different switching configurations for customized optical switching. It offers both single-mode and multimode fiber options that can support switching of very small wavelength signals. The switch provides either SC/PC, FC/PC, SC/APC, or FC/APC fiber-optic connectors. You can use the PXI Optical Switch for repeatable, low-loss switching.
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Product
LED Test
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Universal LightProbe Penta sensors are Optomistic Products' most popular LED test sensor, relied upon for their versatility in accommodating most LED test applications for color and intensity. The Penta Sensor provides analog voltage outputs, and features built-in color binning, eliminating the need to convert LED wavelength to visual color in the ATE software, and saving valuable processing time. For use with any of the Universal LightProbe Fiber-Optic Probes.
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Product
One-Channel Variable Optical Attenuator
N7761A
Optical Attenuator
The N7761A attenuator is an extension to Keysight's high density N77xx-family that establishes a new standard in space-saving fiberoptic instrumentation.
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Product
Multifunction Platform
OSICS
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The OSICS multifunction modular platform offers the highest flexibility and largest choice of plug-ins required in fiber-optic component and system testing, particularly for DWDM system evaluations.
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Product
GPIB T8 Cable, 2-Pin Male to 2-Pin Male; Core/Clad 62.5/125 um; 1,300 nm Wavelength Fiber-Optic Cable for GPIB-140A/2 Extender
183164-01K
GPIB Cable
2-Pin Male to 2-Pin Male; Core/Clad 62.5/125 um; 1,300 nm Wavelength Fiber-Optic Cable for GPIB-140A/2 Extender - The GPIB T8 Cable, sometimes referred to as GPIB Cable, connects your system to high-speed GPIB-140A extender devices. You can use the GPIB T8 Cable with a pair of GPIB extenders to increase the cable length of your system up to 2 km without comprising the integrity of your GPIB system or requiring any application modifications. The GPIB T8 Cable is offered in different lengths.
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Product
Photonics
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Precision fiberoptic and free-space interfaces provide high-speed, low-jitter and low noise signal conversion, and transport of analog and digital signals.
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Product
Inertia lnavigation for Civil Engineering
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Exail's Attitude and Heading Reference Systems (AHRS) and Inertial Navigation Systems (INS), incorporate Fiber-Optic Gyroscopes for reliable performance in civil engineering. Suited for tunneling, mining, construction, railway, and mobile mapping, these systems excel in challenging environments like GNSS-denied areas, ensuring undisturbed navigation, accurate georeferencing, and precise pointing amid obstacles such as buildings, trees, tunnels, and mines.
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Product
FOCL Reference Signal Modem
VCH-607
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FOCL reference signal modem VCH-607 is designed to receive and transmit electrical signals with a nominal frequency of 100 MHz through a fiber-optic system and generate electrical signals with a nominal frequency of 5 and 10 MHz, coherent with the input signal. Reception and transmission through the FOCL is provided using a pair of modems: one is configured as a Transmitter and is installed at the end of the FOCL where the signal source is located, the second is configured as a Receiver and is installed at the opposite end of the FOCL.
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Product
VME Bus Repeater
VME-5532L
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Easily link your VMEbus systems via fiber-optic cable, with total electrical isolation, no EMI generation and high-noise immunity.
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Product
CATV Multi-ports Output High Power Full Function Optical Amplifier Module
HHOA-F5000
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Hangzhou Huatai Optic Tech. Co., Ltd.
Huatai HHOA-F5000 series is a kind of multi-port output, high power, full-function optical amplifier module and is suitable for CATV with low noise. Its total output power is 27~40dBm (0.5W~10W) optional and its optical output port can reach to 64 pieces at most. The module has standard RS232 interface, adopts high reliable and low power consumption design as well as adopts APC, AGC control mode. The product has two series: The output power of Huatai HHOA-F5000 high power optical amplifier module can be chosen in the range of 27dBm~40dBm. According to different output power, Huatai HHOA-F5000 adopts two latest technical solutions. One is to use single mode high power 980nm pump laser with cooling and EDF, multi-pump synthesis technique. The other is to use multi-mode high power 980nm pump laser without cooling and double-clad Er-Yb doped fiber-optic technology. It provide a whole set of high reliability, low cost, low noise and low power consumption solutions for the application of high power, multi-port output amplifier. It can be widely used in CATV head-end or FTTx distribution network.
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Product
WDM Optical Network
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In fiber-optic communications, wavelength-division multiplexing is a technology which multiplexes a number of optical carrier signals onto a single optical fiber by using different wavelengths of laser light.
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Product
PXI-8368, MXI-Express Interface with Connector for Fiber Cable, PXI Remote Control Module
783934-01
Remote Control Interface
MXI-Express Interface with Connector for Fiber Cable, PXI Remote Control Module—The PXI‑8368 allows you to control PXI and CompactPCI systems from your PC using a fully transparent MXI‑Express link. It is installed in a PXI chassis and uses a PCI Express‑to‑PCI bridge to interface with an installed PCI‑8366 through a copper, x1 MXI‑Express cable. The fiber-optic cabling of the PXI‑8368 provides electrical isolation between the PC and PXI chassis, as well as cabling up to 200 m per link.
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Product
TDR Composite Cure Monitoring
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Material Sensing & Instrumentation
MSI Time-Domain-Reflectometry (TDR) Composite Cure Monitoring [1-4] provides a new approach to cure monitoring of advanced polymer composites. Using a high-speed pulse and inexpensive microwave sensor, our TDR system follows rotation of a polar resin molecule, providing real-time information on viscosity and percent cure. Operating in the microwave frequency range, TDR Cure Monitoring provides an alternative between high-frequency fiber-optic methods and low-frequency dielectric methods, combining optical-style precision and miniaturization with electrode-based simplicity and robustness.
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Product
Chassis Remote Control Cable
Chassis
The Chassis Remote Control Cable connects the PXI Remote Control Module to a variety of host interfaces on desktop PCs, rack-mount controllers, laptops, or other PXI or PXI Express systems.PXI Remote Control Modules support either copper cabling or fiber-optic cabling, and some models support both. Copper cables offer higher data throughput capability but are generally shorter (1 meter to 10 meters), while fiber-optic cables are available in much longer options (100 meters or more) but may have lower data throughput capability.
