Fiberoptics
Field of optic fiber application.
-
-
Product
Fiberoptics
401/402LZ
-
Antenna Technology Communications, Inc.
The 401/402LZ is a outdoor/indoor mounted fiber optic transmitter for RF signals in the satellite L-Band or wider frequency range. It accepts a single RF input on coaxial cable and provides a single output for optical transmission. Up to four 401/402LZ’s may be installed in the ATCi Link4i chassis.
-
Product
Managed Ethernet Switch with L2/L3 Layer Support and Fiber Optic Option
ES2
-
Ethernet Switch module, ES2 provides up to 16 10/100/1000 Base-T 1 Gb ethernet ports. Additionally, there is one 10/100/1000 Base-T maintenance port interface, one RS-232 maintenance/console port interface, and a Fiber-Optic channel with four 10 Gb ports. It also provides numerous L2 and L3 networking, quality of service (QoS) and security features available as described below.
-
Product
High Speed Fiber-Optic Detectors
-
High speed fiber-optic detectors use special photodiodes with high speed electronic circuits to convert fast pulses in optical fibers to electrical signals for measurement. Unlike our optical receivers, these photodetectors do not include a transimpedance amplifier.
-
Product
Wide-Aperture Fiber-Optic Probes
Fiber-optic Probe
Wide-aperture Fiber-optic Probes and Very Wide-aperture Fiber-optic Probes are used to test dim or misaligned LEDs.
-
Product
Single-Mode Fiber-Optic Transceivers
-
Schweitzer Engineering Laboratories, Inc.
Single-mode fiber-optic transceivers convert EIA-232 serial ports to single-mode fiber-optic ports.
-
Product
Trident Fiber-Optic Probes
Fiber-optic Probe
Our most popular and cost-efficient option for the test of multiple LEDs — testing three LEDs with a single Sensor. This method of testing LEDs scales up, so that testing 3, 30, 300 — or any number of LEDs — is far more cost-efficient than other methods. This is our most popular Fiber-optic Probe and can be combined with any of our Universal LightProbe Sensors.
-
Product
PXIe, 1-Channel, SMF28 Fiber, 1x4 PXI Optical Switch
786598-01
Optical Switch
PXIe, 1-Channel, SMF28 Fiber, 1x4 PXI Optical Switch - The CohSol SwitchPXIe-1003-1 is a PXI Express, 1x4 multiplexing switching module that supports optical switching at wavelengths from 1,260 nm to 1,630 nm using single-mode fiber. The switch provides either SC/PC, FC/PC, SC/APC, … or FC/APC fiber-optic connectors. You can use the CohSol SwitchPXIe-1003-1 for repeatable, low-loss switching.
-
Product
Optical Power Meter
TM103N
-
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.
-
Product
S2 Penta Sensors
ULP-S2 PCI/V
LED Sensor
Optomistic Products’ best-selling Sensor, the ULP S2 Penta Sensor, is relied upon for its versatility in accommodating most LED color and intensity test applications. Implemented in a unique and customizable 2-Part solution, the S2 Penta 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 Loads: ‘Int.’& ‘Color’- 2Kohms min., 100pF max.Output Pins: 4 gold-plated standard wire-wrap pins (0.025 in. sq.)Sensor Size: 0.560 in. dia x 1.38 in. longTypical response times: Typical response time: <10mS capture time; <100mS overall responsetime for color and intensity simultaneouslyFiber-Optic Probes: Can be paired with any Universal LightProbe Fiber-Optic Probe
-
Product
Fiber Optic Temperature Sensor with the EasyDisk
The TPT-62
-
The TPT-62 fiber-optic temperature probe family employs industry standard 62.5µm core OM1 fiber optic for highly improved optical, mechanical, and reliability properties over legacy 200 µm core (1st generation) fiber optic sensors. The EasyDisk sensor tip assembly ensures IEC60076-2 (Annex E) compliant installation and enables quick insertion of the probes into the spacers within the windings of transformers.
-
Product
WDM Optical Network
-
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.
-
Product
Universal LightProbe Sensor Six-Pack
S6P
-
The Universal LightProbe Sensor Six-Pack provides a compact and efficient way to install six Universal LightProbe Sensors in a single space-saving unit. The convenient installation provides two standard circuit board header connectors, enabling the use of standard ribbon cable connections for the Universal LightProbe Sensors’ output. A single power and a single ground wire is all that is needed to connect as many as six Sensors. The Sensor Six-Pack will accommodate any combination of the pre-programmed Universal LightProbe Sensor models, which can then be paired with a wide variety of Fiber-optic Probes to customize for a specific test. For example, the Penta Sensor can be combined with “Trident” Fiber-optic Probes to test 18 LEDs.
-
Product
DI-1000L-Pro
-
The DI-1000L-PRO combines the all-digital wide-view DI-1000L microscope with our ConnectorView™ Plus v2 Pass/Fail software for fast objective analysis of fiberoptic connector endfaces. Powered by it’s direct USB2.0 connection to your PC, the DI-1000L-Pro can provide you with automatically centered Analysis Reports and Summary Reports in Excel or text.
-
Product
Audio Fiber Tracer
CFT-810
-
Motorized Polarization Controller. In addition to its basic function of adjusting polarization states in multi channels, it also provides convenient ‘save and recall’ functions. As a Scanning PC, it provides very powerful ‘auto scan’ modes with variable scanning speeds. Polarization states can be manipulated by either manual adjustment or remote control (GPIB, RS-232) using two quarter-wave plates in each channel of the PC1600. Additionally, the auto scan mode of FIBERPRO’s Motorized Polarization Controller has been upgraded in LPC, and it shows another auto scan mode of four quarter-waveplates with higher polarization extinction ratio when connecting two channels at a high speed. PC1600 is an essential tool to complete fiber-optic, multi-channel measurement systems such as WDM/DWDM as well as R&D (i.e. PMD experiments), and manufacturing.
-
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.
-
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
-
Product
S2 Unicolor Sensors
ULP-S2 SCI/V
LED Sensor
The Universal LightProbe S2 Unicolor Sensor is designed for the intensity test of any single one of the five main LED colors (blue, green, yellow, orange, and red) plus white and Infrared (700nm to 1,000nm). Implemented in a unique and customizable 2-Part solution, the S2 Unicolor 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 voltsSignal Output Loads: 20 mA max. Non-inductive.Output Pins: 3 gold-plated standard wire-wrap pins (0.025 in. sq.)Sensor Size: 0.560 in. dia x 1.38 in. longOperating Temperature Range: 0hC to 70hCTypical response times:<10mS capture time; 65mS overall response time; intensity output of correct color only.Fiber-Optic Probes: Can utilize any Universal LightProbe Fiber-Optic Probe
-
Product
FOCL Reference Signal Modem
VCH-607
-
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.
-
Product
S2 Penta High-Sensitivity Sensors
ULP S2 PCI/V HS
LED Sensor
The Universal LightProbe S2 Penta High Sensitivity Sensor features the same popular built-in color binning as the regular S2 Penta Sensor, and is designed test extremely dim LEDs, providing an analog output for intensity, ranging from 0 to 4 volts, corresponding to the LED’s luminous intensity in millicandelas. Implemented in a unique and customizable 2-Part solution, the S2 Penta High Sensitivity 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.)Sensor Size: 0.560 in. dia x 1.38 in. longTypical response times: <1.2s color & intensity outputs simultaneously (the brighter the LED, the shorter theresponse time)Fiber-Optic Probes: Wide Aperture Fiber-Optic Probe recommended
-
Product
Fiberoptic Repeaters
-
*Cost effective task specific Fiber Optic Solutions for Satellite Radio and GPS over Fiber*End to end solutions complete with RF to Optical and Optical to RF component*Flexible powering options including DC over hybrid cable, local 48 VDC and AC*Utilizes industry standard fiber cables and connectors
-
Product
S2 Blinx Digital Sensors
ULP-S2 BLINX
LED Sensor
The Universal LightProbe S2 Blinx Digital is designed for the simple ON/OFF test of any color blinking or steady-state LED, for fast results with a digital output. The Universal LightProbe S2 Blinx Digital Sensors check the ON/OFF status of any color LED, whether stable or blinking/pulsed, up to a rate of 15 Hz, and provide a Logic “1” output (5 volts) only if the LED is “ON” and a Logic “0” if the LED is “OFF.”Operating temperature range: 0oC to 70oCPower consumption: Operates from +5, 12, 24 or 28 volts D.C., at 6mA max.Voltage protection: Withstands up to +40 volts, & reverse polarity to -18 voltsSignal Output Load: 20mA max. (Source/Sink). Non-inductiveOutput Pins: 3 gold-plated standard wire-wrap pins (0.025 in. sq.)Sensor Size: 0.560 in. dia x 1.38 in. longOperating Temperature Range: 0hC to 70hCTypical response times: <66mS, shorter for brighter LEDsFiber-Optic Probes: Wide Aperture Fiber-Optic Probe recomended
-
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.
-
Product
PIN-TIA
-
The fiber-optic coaxial PIN-TIA receiver module is designed for SONET/SDH fiber-optical communicationnetworks, using reliable InGaAs PIN photodiode (PD) highly integrated with low noise transimpedence amplifier(TIA) to convert a long wavelength input optical signal into a differential (or single) output. It is a highly reliablemodule with excellent performance.
-
Product
Type T7 Fiber-Optic Cable for GPIB-140, 20 m
182805-020
Fiber-Optic Cable
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.
-
Product
T7 Fiber-Optic Cable Assembly for GPIB-140, 1000 m
182805-01K
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.
-
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.
-
Product
High-Speed, Fiber-Optic Reference Transmitters
-
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.
-
Product
Fiber Optic Sensor Systems
-
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.
-
Product
Fiber-Optic Transmission
-
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.
