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The Fiber Optic pH Sensor system consists of a fiber optic probe designed to hold immobilized colorimetric indicator dye materials, plus a light source, spectrometer and OOISensors Software. You can supply your own indicator material, or select from our line of transparent or reflective films. Calibration involves recording spectra in high and low pH samples, and in at least one pH standard such as a NIST-traceable buffer.
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Optex FA Fiber Sensor BRF series
· 4 models: Standard, High Speed, Mark Detection and Moisture Detection.
· Unique "Moisture Sensing Type" BIF-W series senses the presence of water and moisture in a product.
· High Speed type (50 micro sec) and Green
LED type for Mark Sensing.
- Cross talk prevention, IP66 protection
- 10 turn potentiometer for easy and fine adjustment
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Optex FA Digital Fiber sensor D2RF series
- Digital display for easy setup and easy monitoring
- Two independent output with
- High speed 60 micro second response.
- Cross talk prevention up to 4 units
- APC Function (Auto Power Control):
The APC function ensures precise sensing even when there are changes in the temperature or environmental conditions.
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The MTI-2100 Fotonic Sensor is a high-resoulution fiber optic based vibration/displacement sensor with extremely high frequency response. The system offers a bandwidth up to 500 kHz and resolution to 0.01 microinch (2.5 Angstrom).
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Light barriers for optical fiber adaption
FL 70 R-..D
Informative display
The FL 70 R-..D is the high-end sensor for fibre optics with a 4 digit display.It is characterised by simple settings and many additional functions, e.g. fine adjustment of the switch point, inversion of the switch output, adjustment of accuracy and speed, window programming, time functions and tamperproof protection. The display is always clearly visible thanks to a 180° rotatable screen.
FL 70 RA-..D
Analogue output
The FL 70 RA-..D has an analogue output, which is of particular advantage for complex applications such as the connection of a socalled cross-section transformer. This enables e.g. checks with regard to object size and automatic edge control.
FL 70 R
The FL 70 R version operates without a display and is a cheap alternative for standard applications. An easy teach-in function is common to all of the sensor versions. Teach-in is carried out at the touch of a key and external teach-in is possible via a teach cable. The keys can also be locked.
Product advantages
» High user comfort – Teach-in
» High level of accuracy
» High switching frequency
» No mutual interference thanks to automatic communication
» Mode of operation selectable (types R-..D and RA-..D)
» Assembly on DIN rails
» Robust IP 64 protection system
» Top quality price/performance ratio
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Fiber Optic sensors, photo lens eliminated amplifier combined with fiber optic cable, are ideal where small objects detection and quick response time is required. Moreover, the high flexibility of the optic cable allows easy installation fitting almost anywhere. Autonics fiber optic sensing amplifiers and cables of real compact body offer sophisticated part detection, quick response time and generous sensing range.
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Dual digital display unit and the highest powered amplifier on the market. Monitor 2 features with one unit.
Over 80 sensor heads are available for the FS-V20 with applications in a wide range of industries.
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FX-100 - top price-performance ratio powered by technological innovation
New possibilities with digital fibre sensors. SUNX has developed a new top price fibre sensor. The quick set mode allows inexperienced operators to use the sensor quickly. For experienced operators, the setting and PRO mode are still available. Other features, such as the ECO mode, copy and GETA function, enhance its practicality in the workplace. A total product range of 12 types will be available for all customers’ requirements.
Characteristics:
One 4-digit green, one 4-digit red LCD display
Copy settings via wiring as with DP-100
3-step setting hierarchy, from basic to advanced
External input for external adjustment
No need to connect amplifiers in case interference prevention is requested
Direct installation possible without bracket or DIN rail
Commercially available connector simplifies procurement
Key-lock function
Teaching, light-ON / dark-ON setting
Threshold values can automatically adjust to changes in incident light
Intensity of emitted light can be reduced automatically to ensure stable sensing
Accessories:
Various cable lengths: 1, 2, 3, 5m
End plates
Protection cover
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MICRONOR optical products are based 100% on fiber optics. We make use of light in an innovative and elegant way to fulfill complex sensing requirements. These new sensors show themselves to be particularly advantageous and reliable under extremely tough and difficult environmental conditions. Areas of application such as in deep-drilling sites, wind generators, railway rolling stock, nuclear plants, aircraft braking systems and steelworks are where these products come into their own.
We offer two encoder versions and the appropriate analysis appliance:
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General description :
Panasonic Electric Works Corporation of America is proud to introduce the brand new FX-100 Series from SUNX. Its ultra-slim design features a 9mm width and integrated mounting holes for installation in any application. The four chemical, visible red LED used for the emitter ensures long life operation and high-powered sensing.
This sensor incorporates a dual digital display for simple setup, along with automatic push-button teaching and external input capabilities. Advanced functions including threshold tracking, timers, LED attenuation, and interference prevention allow the FX-100 to compete with fiber optic units that are twice its price.
The connection options for the FX-100 series consist of an industry standard M8 quick disconnect along with an option that utilizes the same quick connect cable found in the SUNX DP-100 and PM series.
With list pricing starting at $75, the FX-100 series is primed to become the gold standard in fiber optic sensors.
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Referenos: AF CLARYS 2, 3, 4
Sensing distance with plastic fibre or glass fibre: see "Plaslic Optical Fibres' or "Glass Optcal Rbres
High resolution up to 5100th mm
2, 3, 4 channels + logical output AND/OR
Modeb: output P, output N
Optional: Analogical output
Smpfe feactvin: 1 or 2 thresholds
Timer OWOFF delay: 0 to 10s
Dimensions: 99x45x325 mm
Resolution 5/100th mm with 2000 points
Applications:
Level controls: high and bw
High precision detection of movement
Presence cdetection, up to 4 units simultaneously
Up to 4 beams barrier
Mark detection
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Plastic fiber optic cabel with outside diameters of 1 mm and 2.2 mm can be connected to this sensor. The easy to use Teach-In function allows for fine sensor adjustment, so that even transparent objects can be reliably recognized in barrier mode operation. Scanning width is automatically adapted to each individual application via external Teach-In. The devices can be easily mounted to standard DIN rails.
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SPECTRO-3 Series - Color Sensors "True Color"
Human vision and recognition - but a thousand times faster
With the SPECTRO-3 series there now is a family of color sensors that has been specifically designed for "true-color" detection ("human color reception") and high switching frequency. The sensors can be operated both in AC and in DC mode, with integrated or external light source. With the included SPECTRO3-Scope software illumination can also be turned off with a simple mouse-click, which then also allows the color and brightness inspection of self-luminous objects such as LEDs, automobile tail lights, halogen lamps, or fluorescent lamps. Up to 31 colors can be provided through the 5 digital outputs, the maximum switching frequency is 30 kHz.
Apart from a super-bright white-light source, a high-performance UV light source also is available, which allows a color and brightness differentiation of fluorescent colors without any problems. Different optical frontends make it possible to implement operating distances of almost 0 mm up to 500 mm, with detection areas of Ø 0.5 mm to approx. Ø 100 mm. The use of an optical fibre version allows applications in Ex areas.
In combination with a reflected-light optical fiber and a neutral-absorber attachment unit the SPECTRO-3-FIO (version for use with fiber optics) makes it possible to perform a color inspection of different self-luminous objects.
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These electronic devices, photoelectric sensors or photocells, use the light emission principle combined with the electronic and are made up
of an emitter or luminous source, the light rays of which are detected by a receiver. The variation in luminous signal, obtained when interrupting this ray, is converted into an electrical signal and is measured and used by
an electrical circuit. The light used is either infrared or red. By making use of this light various type of photoelectric sensors can be made. The AECO photoelectric sensors available in the FOTOSTAR range are the FT18M - FT18 -FTQ series in direct reflection, with reflector with polarized light and emitter-receiver versions. Due to their flexibility regarding the various
standard programmable versions these products offer the possibility of stocking reduction and are easily interchangeable with most of the units available on the market. They are used in the field of automation to check for the presence, counting, position control, etc., and they
are compatible with most logic programmers.
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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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Composite cables
Axon' design and manufacture composite cables specially designed to meet customer requirements irrespective of the application.
They are able to resist the most demanding electrical, mechanical and environmental requirements.
Advantages
Dependent on the application
- Flexibility
- Flexlife, resistance to torsion
- Resistance to fuel, heat and solvents
- EMI protection
Resistance to sterilisation (medical application)
Construction
- Flat or round construction integrating flat or round wires, coaxial cables, tubes, shielded cables, ...
- Hybrid electrical, electro-optical cables
Composite cables insulated with fluorinated materials, heavy metal free materials, halogen free materials, PTFE, celloflon®, vitax™, PEEK, silicone and other materials suited for your applications
Applications
- Electromechanics
- Engines
- Machines
- Robots
- Medical imaging
- Endoscopy
- Radars
- Missiles
- Electronic systems
- Satellite cabling
- Research, ...
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MARINE AND UNDERWATER APPLICATIONS
LAPP MULLER works with ships and underwater building repairs companies (welding, cutting, etc…), offshore oceanographic institutes, research centers, manufacturer of underwater acoustic instrumentation and engineering companies, ect… on the design and manufacture of composite electrical or optical cables.
-DIVING UMBILICALS
(power, signal, video, hydrolic )
Diving bells, narguiles
-SUB MARINE UMBILICALS
(electrical, optical, hydraulic and mechanical functions )
Submarine works, offshore working and research
-FLOATING CABLES
ROV Tethers, sonar supply
- ARMOURED CABLES
ROV Main Lift Cable, Tow Cable, Submarine antennas
-INSTRUMENTATION CABLES
Seismic and oceanographicals
-INBOARD CABLES
Power and control cables for naval defence and maritime industry
-HIGH TENACITY FIBER CABLES
Stay mast antennas, mooring line for baskets, for buoys
-TERMINATIONS
Design, Realization and Fitting of stainless, titanium or other special alloy terminations.
- CONNECTORS MOUNTING
These companies trust us :
DCN, IFREMER, THALES UNDERWATER SYSTEMS, ECA,, COMEX, SINGLE BUOY MOORINGS...
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Cabelte produced the first optical cable (multimode) in Portugal, in 1983. The cable was supplied to “Instituto para Desenvolvimento das Comunicações (IDC)” for the trial connection between “IDC” and “Inesc -Instituto de Engenharia de Sistemas e Computadores”.
The first cables produced for commercialization, called “light guide cables”, were made of 50/125 multimode fibers, tight structure, and had 4 to 6 fibers, regular customers were the former “CTT/TLP”, today “PT Comunicações”.
The big increase occurred in the production of optical fibre cables at Cabelte takes place at the beginning of the 90s, with the construction of a new plant and with the introduction of “loose” technology.
Since then, optical fiber has become more and more important and today is one of the most important telecommunication channels, due to the characteristics of the fiber itself, particularly its low attenuation associated with an almost infinite bandwidth (single mode fibers), and to the development occurred in the optical transmission systems.
Today, optical fiber cables are part of all communication “backbones” in metropolitan and regional networks. The presence of “triple pay” services, interactive games, high definition television, telemedicine, among others, requiring a high bandwidth in the access network, foresee the gradual replacement of copper by fiber optics up to the subscriber.
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