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general data actual range Sb (FSE 200C1002) 160 mm
sensing distance Tw (FUE 200C1003) 45 mm
light source pulsed red LED
light indicator LED yellow
alignment / soiled lens indicator flashing light indicator
adjustment Pot 270°
wave length 660 nm
suppression of reciprocal influence yes
electrical data response time / release time < 1 ms
voltage supply range +Vs 10 ... 30 VDC
current consumption max. 30 mA
current consumption typ. 20 mA
voltage drop Vd < 1,8 VDC
output function light / dark operate
output current < 100 mA
short circuit protection yes
reverse polarity protection yes
mechanical data width / diameter 10,4 mm
height / length 27 mm
depth 14 mm
type rectangular
housing material plastic (ASA)
ambient conditions operating temperature -25 ... +55 °C
protection class IP 40
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Features
... fibre-optic cables
High-quality glass fibre-optic cables with silicon-, metal- or PU-coating
Resistant to high temperature (from -40°C to +180°C)
High resolution
Large scanning or sensing ranges
Flexible probes
Lateral light outlet
Silicone-metal sleeve for high mechanical loads and high protection class
Auxiliary optics can be used
Fibre layout rectangular, coaxial, statically mixed
... fibre-optic amplifiers
Robust die-cast zinc casing
Application as diffuse reflective sensor or through beam sensor
Scanning ranges up to 200 mm, sensing ranges up to 1800 mm
Sensitivity, scanning range and sensing range adjustment via multi-turn potentiometer or teach function
High operating frequency
High ambient light immunity due to pulsed emitted light
Green light variety for glass detection
Output function switchable or antivalent
Devices with timer function using time module
Short circuit and incorrect connection protection
Customer-specific versions
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general data version fast version
actual range Sb (FSE 200C1002) 140 mm
sensing distance Tw (FUE 200C1003) 40 mm
light source pulsed red LED
light indicator LED green
alignment / soiled lens indicator LED green, flashing
output indicator LED yellow
adjustment Teach-in
wave length 660 nm
electrical data response time / release time < 0,05 ms
voltage supply range +Vs 10 ... 30 VDC
current consumption max. 45 mA
current consumption typ. 40 mA
voltage drop Vd < 1,8 VDC
output function light / dark operate switchable
output circuit PNP
output current < 100 mA
short circuit protection yes
reverse polarity protection yes
mechanical data width / diameter 12 mm
height / length 33,2 mm
depth 60 mm
type rectangular
housing material PBT / PC
connection types connector M8, 4 pin
ambient conditions operating temperature -25 ... +55 °C
protection class IP 65
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Special features
Easy, intuitive adjustment
Bright 2x 4 digit display
Version with M8-connector
Integrated lock functions
Version with external teach-in and integrated teach-in feedback
The newest Series 67 line of fiber optic sensors is attracting much attention thanks to its simple, intuitive operator interface. Simply pressing the teach-in key twice allows two different objects or contrasts to be "learned" by the sensor. The bright, 2x4 digit display simultaneously shows the taught switching point as well as the relative receiving light level. Just like a potentiometer, the switching point can be changed at any time by using the +/- key. Two different security features protect the sensor against unintentional manipulation during ongoing operation: One is a complete lock, while the other option only allows access to the teach-in and manual switching point adjustment, while locking out all other adjustments such as light/dark operation, timer functions or the operating mode with defined response time. The new fiber optic sensor also boasts a wide variety of application possibilities. With a response time of only 50 microseconds it is among the fastest fiber optic sensors available on the market and therefore lends itself to high-speed processes. The integrated 12-bit A/D converter provides high resolution even in large ranges up to 4 m.
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Fiber-optic collimator lenses are made from high index glass to ensure low aberration. A solid spacer is used between the fiber and the lens to ensure a compact and robust collimator package.
Standard collimators are optimized for telecom applications, but can be adjusted to other wavelengths/applications. Optical Fiber These collimators are plano-convex spherical lenses to collimate light from singlemode fibers. The angled flat side of these lenses assures low back reflection when put in contact with an optical fiber. The curved side, due to high refractive index material, provides remarkable imaging capabilities. Those can be used for fiber-optic switches, DWDMs, fiber-optic attenuators, optical isolators and other applications. Optical Fiber Aspheric These aspheric collimators are similar to the spherical version to collimate light from optical fibers, except than the curved side is an aspheric surface optimized to improve collimation.
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Used in X-ray diffraction, in order to obtain a low divergence and polychromatic beam
An associated filter (depending on wavelength) could limit the energy band of the spectrum of emission; then Kbeta radiation could be largely decreased. Up to now, different types of collimation are available.
If the collimator is directly linked to the source, the primary beam is poly chromatic. Associated with a graphite monochromator first or a parabolic mirror (without filters), the band width in energy becomes much more defined.
The mechanical holder allows to change collimator size without any beam adjustment.
Inner diameters vary from 0,3mm to 3,2mm.
Usually, point source is required for the used of collimators optics. They are mainly used for texture or stress measurements.
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LightPath's new IsoBeam Fusion™ Fiber Collimators combine a high power optical isolator in line with a Fusion™ Fiber collimator. The 1064nm high power isolator features very low insertion loss, high isolation, high power handling, minimal return loss and excellent reliability and environmental stability.
Standard configurations are available for 0.5mm and 1.0mm beam diameters. LightPath also has the capability to produce custom designs to your specifications with different beam diameters, fiber types, higher power handling capability, and other options.
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CLA, CLB, and CLD series collimators are high-performance fiber optic devices employing high quality aspheric lenses to achieve low wave-front distortion, low divergence, and diffraction limited beam quality. These collimators are not only ideal for targeting at long distances but also good for pair coupling at long working distances. CLC series collimators are spherical lens-based low-cost devices suitable for multimode applications. Beam size can be as large as 12 mm.
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MDE9183
Fibre Collimator Aligner
The MDE9183 is configured for the alignment of fibre collimators. It utilises the accurate MDE185 two axis pitch and yaw stage in combination with Elliot Gold™ Series flexure stages giving accurate 5-axis control.
Includes model MDE154 clamp set.
Features
-Slotted design for easy insertion and removal of fibre
-Full 360° rotation
-Integral stepper motor drive
-Resolution <0.01° single step
-Maximum speed 18°/s (20s for 360°)
-Fibre held in variable-force V-groove clamps
-Standard V-groove for 125/250µm fitted. (Custom sizes available.)
-V-block preset on axis with less than 1µm concentricity error
-Stepper drive controllers available with LabVIEW drivers for auto rotation alignment
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Electron multipliers (EMT) are used for the detection and measurement of electrons, charged particles such as ions, VUV radiation and soft X-rays. Hamamatsu electron multipliers have high gain and low noise, making them suitable for the detection of very small or low energy particles. An EMT has CuBeO dynodes for producing gain via secondary emission. The dynodes are connected by a built-in voltage divider (1M ohm per stage) and are supplied in an evacuated glass bulb. The first dynode can be replaced by a photocathode of CsI or KBr for use in VUV photometry. Microchannel Plates (MCP) can also be used as electron multipliers. EMTs are used in applications such as mass spectroscopy, field ion microscopy, electron or VUV spectroscopy, Auger spectroscopy, AES and ESCA.
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The Manlight High Power Amplifier for CATV and FTTx applications
offers a cost effective solution in bringing the bandwidth closer to the end users. With a unique design based on Manlights in-house pump combiner and optical know-how, the high power amplifiers are optimized to offer high power and low noise figure with proven reliability and quality. The output power can be distributed
between 1 to 16 output ports.
The use of efficient and reliable uncooled pump diodes allows the Manlight amplifiers to reach high output powers with low overall power consumption. The control electronics featuring alarms, automatic
shutdown, and RS-232 communication interface is driven by a 5 / 24 VDC power supply.
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BaySpec's IntelliGain® and IntelliSense® Erbium-doped Fiber Amplifiers (EDFA) are designed and manufactured in the U.S.A. to meet stringent Telcordia GR-1312 requirements for reliability and performance.
A compete line of EDFA gain modules are available, designed to meet various amplification requirements for single-channel, narrowband, and DWDM transmission in metro, long-haul and ultra long-haul networks.
Features:
- Output power from 10 to 26 dBm
- Fast transient response
- Gain flatness
- Very low noise figure
- Variable gain
- Mid-stage access
- Selection of industry standard packages
- Ultra low power consumption
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With 59 Gratings-related patents, OFS is a leader in the creation and production of fiber Bragg gratings. We offer a full array of FBG types, such as Stablizer gratings, High Reflector Gratings, Wide Band gratings, Long Period gratings, and Fiber Arrays. We’ve developed capabilities for write-through coatings, where the acrylate does not need to be stripped from the fiber in order to write a grating, and we’ve recently developed the ability to write gratings in high-temperature fibers coated with our proprietary high-temperature PYROCOAT™ polyimide.
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The rapid increase in the demand for greater transmission capacity, DWDM has emerged as the key transmission technique. There is continuous pressure to increase the number of DWDM channels and this in turn calls for improved performance from the passive multiplexing components.
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Fiber collimator arrays consist of lens arrays and fiber arrays, resulting in polished optical fibers inserted and glued together into an angled silicon V-groove.
Collimators come assembled for a specific wavelength range, number of fibers and fiber type. A new optical design and assembly technique provide perfect collimation of optical fibers while an angled ferrule/lens interface reduces back-reflection.
Exceptional beam quality, high transmission, low insertion loss
Pointing accuracy ¡Ü 0.05 degrees
Back reflection from collimator alone ¡Ü -55 dB
Package dimensions
Fiber collimator arrays may be used in collimation of light in DWDMs, fiberoptic switches, attenuators, optical isolators etc.
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ATTENUATORS
Pasternack's Attenuators are used in a wide variety of applications to satisfy requirements where a reduction in power is needed. Attenuators are often used to extend the dynamic range, reduce signal levels and match circuits. They are available with number of connector options including 2.9mm, 7/16, 7mm, BNC, Type F, Type N, SMA, and TNC.
For bench mount testing applications, also see our lines of Continuously Variable, Rotary, Programmable, Push-Button, and Toggle Attenuators.
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Amphenol Fiber Optic Products attenuator product line
consists of fixed and variable optical attenuators. An
attenuator, by definition, is a device which precisely reduces
an optical signal from point-to-point. The loss can be
achieved through various technologies such as absorption,
scattering, interference (thin film) filter, or air-gap. Amphenol
has successfully developed three varieties of attenuators
using select technologies to provide the best products in the
market place.
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Product Highlights:
* Attenuator - Fiber Optic
* Fiber Optic Attenuator Type = Broadband Bandpass
* Attenuation = 10.0 dB
* Attenuator Style = Build Out
* Operating Wavelength = 1260 - 1360 nm, 1430 - 1625 nm
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Amphenol Fiber Optic Products offers over 15 years
experience in the manufacturing of fiber optic couplers
through the fused biconic taper technology (FBT) and is
licensed by British Telecom for this fabrication technique.
An optical coupler is a passive device that precisely
distributes light signals between two fibers over a broadband
operating window. Each device offers a bi-directional
performance allowing for either power splitting or signal
combining. Amphenol’s couplers are manufactured using a
precision computer-controlled manufacturing process capable
of producing large volumes and tight unit-to-unit uniformity.
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Measures cumulative link return loss and individual component reflectance to reveal potential ORL problems before they seriously affect your system.
Applications
Optical Return Loss (ORL) measurement
Key Features and Benefits
Fast-stabilizing, thermoelectrically cooled laser and a low-drift photodetector to ensure consistent measurements year after year
Measurement range of 0 to -70 dB
Testing at 1310, 1550 and 1625 nm for detecting potential problems at other transmission wavelengths
Quick and easy to operate
Rugged, field-ready and stores up to 300 readings
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Manlight proposes a wide variety of Erbium (1,5µm) or Ytterbium (1µm) doped fiber amplifiers either using PM or non PM fiber.
Available in OEM module of different sizes depending on the power (with power up to 35dBm at 1,5µm and up to 43dBm at 1µm) as such as in benchtop 3U 1/2 19" (up to 40dBm at 1,5µm) or 3U 19" (up to 43dBm at 1µm), you will necessary find the product that you need for your application.
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Main Features & Applications:
- 1529-1563 nm Bandwidth
- Fast Transient Gain Control Up to 12 dB
- Up to 12dB Mid-Stage Loss budget
- Compact Package
- Variable Gain
- Excellent Flatness APC, AGC, ACC modes
- For: Long-Haul and Ultra Long-Haul Applications
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The EFA-series of benchtop EDFAs are repackagedversions of the high-performance optical amplifiers found in MPB's repeaterless-link telecom equipment. These wall-plug units include preamplifiers with high gain and near-quantum-limited noise figure, as well as power amplifier models with saturated output powers up to 23 dBm.
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Multiplexers 4 to 16 synchronous or asynchronous lines RS232 on optical fibres. Presentation in rack 19 " Interfaces RS232 Taken subD 9 pins, optical fibre ST or SMA. Range 2.6km minimum on a fibre 50/125. Adaptable and modifiable easily with a particular need.
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The FAC 1000/2000 is a multiplexer oriented to multi-point communication with several devices using fiber optic. It provides one or two inputs and multiple outputs.
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A variety of casings can be offered for piezosystem jena switches. Depending on customer requirements, plug-in casings are available as well as screw slot casings and special custom size rack mount casings.
The casing not only protects the mounted fiber, it’s also the basis for easy integration of this part into your existing system.
Optical Interface
All fiber switches come standard with 1m output optical fibers and assembled connectors per customer request. Also, switches with plug in connectors (bulk head) are available. In this case, the customer can select his socket type. In each case, the customer is free to select an additional outside cable length according to his requirements.
PC connection
The switches can be controlled by TTL signal (for type 1x1 up to 1x2 channel configurations) and BCD Code (via parallel port) for 1x3 up to 1x81 channel configurations. Controlling Demo-Software comes with every switch.
Power Supply
The operating voltage for the switch configuration 1x1 and 1x2 is 7-12 V DC or 7-9 V AC. The multiplexer with a channel configuration of 1x3 up to 1x81 needs 5V DC.
piezosystem jena offers wall power supply modules for each switch as an option.
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FIBER OPTIC COMPONENTS
Pasternack supplies a complete line of Fiber Optic Adapters and Attenuators for RF & Microwave applications. Our Components category includes Fiber Optic Adapters and Fiber Optic Attenuators.
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Fiber optics signal processing 
