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The most versatile, complete light source available with up to three singlemode wavelengths on a single port, or four wavelengths (two multimode and two singlemode) on two ports.
Applications
Link-loss characterization
Fiber identification
Key Features and Benefits
Can transmit with a wavelength-identification digital encrypted protocol so that any compatible unit can automatically use the proper calibration parameters
Autonomy of 120 hours
Instrument identification available in six languages
Highest output power in the industry
Three-year warranty and recommended calibration interval, for dramatically reduced cost of ownership
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Features :
* 8 channels of user-selectable laser source modules
* ±3pm wavelength stability with ±0.003dB power stability
* Customer specified WDM DFB sources covering S, C, and L-bands at up to 20mW per channel
* Internal synchronous modulation to 500kHz
* Fiber optic switch modules available
* GPIB/IEEE488 and RS-232 interfaces
The FOM-7900B is a high-performance fiber-optic test and development platform with eight channels supporting plug-in laser source and fiber optic switch modules. This system provides a cost-effective solution for WDM and CWDM test applications including EDFA, SOA, and fiber optic component characterization.
Front panel plug-in modules are offered at user-specified wavelengths from 1475-1625nm including service channels at 1310, 1480, 1510, and 1625nm. Each channel can be tuned over a 1.7nm range with 0.001nm resolution. These sources can be customized to meet special requirements including fiber optic connector type, PM alignment and fiber, and center wavelength on ITU grid points.
For higher density WDM system requirements, up to 25 additional FOM-7900B mainframes can be linked together for a total of 200 channels, all controlled from a single GPIB address.
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PerkinElmer’s new LED Fiber Optic Illuminator couples high intensity LED white light into fiber optic bundles for applications including medical endoscopy1, microscopy, and machine vision. It offers an energy-efficient, maintenance-free alternative to halogen and metal-halide fiber optic illuminators.
The LED source is comprised of high-power white LEDs, patent-pending optics to precisely couple light into fiber optics, heat sink and fan, linear light intensity control, and AC power supply. It has been designed to couple light into 3 -10 mm fiber.
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Fiberoptic Light Sources
This style lighting uses two parts: a light source to create the light and a light guide to carry it to the target. Light sources come in a variety of wattages and bulb styles depending upon the application.
The LSX50 uses a high intensity discharge metal-halide solarc lamp, which offers five times the light output per watt compared to halogen sources. This is the light source best suited for coupling fiber optic cables, as it efficiently launches light into small diamter fiber bundles. It has an ACMI adapter interface, light attenuator and power cord.
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SpectraGen 100 SLH light source
Internal halogen light source.
Compact design
Quick, easy and tool-less lamp change
Perfect color rendering
Operates with lamps between 35 W and 100 W
Fiber optics and power connection remain undisturbed during lamp replacement
Low noise fan assisted cooling
Suitable for dry locations only
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he KOHERAS SuperK™ has been the first commercial solution to provide scientists in diverse fields of research with a tool which was previously unavailable. Leading scientific institutions are working with this source and have given invaluable input for further development.
The KOHERAS SuperK™ is now available in four configurations:
SuperK™ Compact - 100 mW average output power from 500 to 2400 nm, typical fixed repetition rate 25kHz, pulse width 1 - 2 ns
SuperK™ Versa - > 1.5 Watt from 490 to 2400 nm, typical fixed repetition rate 40/80 MHz, master-source pulse width ~5 pS
SuperK™ Power - > 2.8 Watt from 460 to 2400 nm, typical fixed repetition rate 40/80 MHz, master-source pulse width ~5 pS
SuperK™ Extreme - > 4.5 Watt from 460 to 2400 nm, typical fixed repetition rate 40/80 MHz, master-source pulse width ~5 pS
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BaySpec’s MiniliteTM Series fiber-coupled Narrowband and Wideband Light Sources are designed to enhance Spectral Domain OCT, Medical Imaging, Fiber Optic Sensing, Analytical Spectroscopy, and Test & Measurement capabilities in the 800nm-1650 nm wavelength region. Devices benefit from low-cost field proven telecommunication components.
Key Features:
- Card-mount or Bench-top Models available
- Fiber optic coupled, wide spectral coverage
- 5V wall power plug-and-play
- Solid state light source, reliable operation in harsh environments
- Operates over wide 0 to +70◦C temperature range
- Operates in high +85% relative humidity environments
- Covers wavelength ranges from 800-1650 nm
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Lumitex Medical Devices creates, manufactures and distributes unique, cool devices for medical illumination. Our mission is to engineer light into sensitive applications that require light without heat or electricity, in user-friendly forms.
Our patented technologies are used to treat jaundice in infants, help surgeons better visualize deep surgical cavities, and provide ambient lighting in surgical equipment and suites.
Our engineering staff works closely with surgeons and medical companies to design the best solution for each lighting need. We apply a variety of unique light-delivery technologies that allow us to optimize trade-offs between flexibility, lighting characteristics and cost.
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The Luxtron I652 is a fiber optic temperature measurement system designed with two measurement channels and easy to read LED display. The I652 can easily be incorporated into an industrial control scheme through the RS-232 or Analog Output ports.
Benefits
Immune and Strong :
- Fluoroptic® fiber optic temperature sensors for the I652 are immune to EMI, RF, and microwave interference
- All three types of fiber optic sensors are Kevlar® strengthened sandwiched between chemically resistant PFA Teflon®.
Field Proven and Long Lasting :
- Thousands of Luxtron Fluoroptic fiber opitc temperature measurement systems installed worldwide
- Luxtron Fluoroptic fiber optic temperature sensors been continuously working in field equipment for over 25 years.
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GeoSil™ Pure Silica Core Optical Fibers are now available in single-mode or multimode designs for Distributed Temperature Sensing (DTS) and other geophysical well applications. The pure core design is critical to the performance of optical fibers deployed down oil or gas wells where conditions include temperatures that routinely exceed 250°C with high pressure and hydrogen gas. GeoSil fibers are coated with PYROCOAT® polyimide, a specialty coating that allows temperature performance to 300°C and imparts abrasion and chemical resistance plus a small form factor (155 µm diameter) to the sensing fiber in a DTS system. When conventional fibers with germanium-doped cores are exposed to hydrogen at high temperatures, permanent defects can occur. These defects can result in a rise in attenuation which significantly limits the lifetime of the fiber sensor. Optical fiber with a pure silica core is extremely resistant to this phenomenon and can perform far longer in the downhole environment limiting the expense associated with replacement of new sensors. These fibers are part of the GeoFibers™ family of products optimized for geophysical applications.
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Ther FOT-L and FOT-H are fiber optic temperature sensors perfectly suited for harsh environmental conditions such as in cryogenics, nuclear, microwave, and strong RF applications. They combine all the desired characteristics you would expect from the ideal sensor. These temperature sensors offer accuracy and reliability in extreme temperature and hostile environments.
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