FiberTEC II Fiber-coupled Diode Laser Modules
Product number:
SW10948
Manufacturer:
Blue Sky Research
Product information "FiberTEC II Fiber-coupled Diode Laser Modules"
405-980 nm; Max. Optical Output Power 40-12 mW; Beam Diameter 0.75-4 mm; Power Stability <0.5%; Fiber Type SM, MM, PM
Blue Sky Research’s FiberTec II™ series of high-performance, fiber-coupled diode laser modules incorporates highly integrated, sophisticated electronics for laser drive, protection, modulation and feedback functions. It has been optimized to meet the demanding performance requirements of applications that include medical, life sciences and automated instrumentation.
This ultra-compact stand-alone assembly is RoHS compliant and can be ordered with a variety of collimation optics which allow easy integration into your system. A wide variety of wavelength and power options are available including the FiberTec II SLED series covering the visible to near-infrared wavelengths and FiberTec II laser diode modules which include 405, 488, 532 and 635 nm wavelength products.
The FiberTec II lasers utilize several distinct technical approaches compared to other laser diode modules. Blue Sky Research’s patented micro lens approach optimizes the efficiency of coupling power into the fiber, allowing to drive the lasers less hard than competitors, which results in more stable power output over time and temperature. This means that with a FiberTecII product you’ll never have to re-align your fiber, as proven by Blue Sky Research with hundreds of thousands of hours of real time test data and extreme environmental test.
In the FiberTec II series, the thermoelectric cooler (TEC) stabilizes laser power output and lasing wavelength over varying operational temperatures. Power stability is better than 0.5% over any 1-hour period. Our highly integrated electronic control is entirely contained within the laser module and no separate control box required. The lasers require DC power for operation.
Output options include polarization maintaining (PM) fiber (typical extinction ratio of 100:1) and single mode or multi mode fiber. Termination options include fiber connectorization or collimation optics with diameters ranging from 0.8 to 3.3 mm.
For the FiberTEC II series of fiber-coupled diode laser modules the dedicated power supply CLPS is available as an accessory. This device provides up to 2.5 A of current for laser diode and TEC and allows the operation of the FiberTEC II series from standard power sockets with 100 to 240 VAC.
Key Features:
- Ultra Compact Fiber Coupled Diode Laser Modules
- Fiber Options: Single Mode, Multi Mode, Polarization Maintaining
- Integrated Micro-Optic Beam Shaping for High Efficiency & Stability
- Fully Integrated Laser Driver, Protection and Control Electronics
- Diffraction Limited Performance
- Solid State Reliability
- Stable, Low-noise Power Output: <0.5% RMS 20 Hz to 2 MHz
- Wavelengths: 405 to 980 nm, Including Violet, Blue, Green, Red, NIR
- Laser Diode Power: 40 to 120 mW (Depending on Wavelength)
- Power Stability (1 h): <0.5%
- Beam Size: 0.75 to 4 mm
- Beam Pointing Stability <10 µrad/C
- Sharp Edge Modulation to 100 kHz for Most Wavelengths
- Package Size: Dia. 11 mm, Length 17.5, 25 mm
Applications: Analytical Instruments; Biomedical & Medical; Flow Cytometry; Confocal Microscopy; Defense & Homeland Security; Particle Analysis; Inspection & Metrology
Manufacturer "Blue Sky Research"
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Output Power
Operational Mode
Package
Specifics
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Manufacturer:
CHROMALASE II Laser Diode Modules
375 to 785 nm; 18 to 120 mW; Beam Size 0.8 to 1.3 mm Circular, 1x2 to 4x1 mm Elliptical
Blue Sky Research’s CHROMALASE II™ series of high-performance laser diode modules has been optimized to meet the demanding performance requirements of medical, life sciences and automated instrumentation. These laser diode modules incorporate highly integrated sophisticated electronics for laser drive and protection, modulation and feedback functions. The CHROMALASE II ultra-compact stand-alone assembly is RoHs compliant and can be ordered with a variety of collimation optics which allows easy integration into your system. A wide variety of wavelength and power options are available including the very popular 405, 488, 532 and 635 nm products. Blue Sky Research’s CHROMALASE II design incorporates standardized control and alarm firmware, protection circuitry and low-noise operation into a compact, stand-alone assembly. Everything you need to operate this laser from a simple 12 VDC supply is integrated in the laser module. The CHROMALASE II laser diode modules are temperature stabilized with a thermoelectric cooler (TEC), and the integrated controller includes laser driver, output power stabilization, adjustable power level control, modulation capability, reverse and over voltage protection and ESD-fast transient suppression circuitry. Each semiconductor laser diode system can be ordered with or without Blue Sky Research’s patented “µLens” or micro-optic beam correction optics. Systems with µLens will have near perfect Gaussian and circular beam shapes and corrected laser diode wave front distortions. Laser systems without the micro-optic beam correction have all the advantages of Blue Sky Research’s small, highly integrated packaging while retaining the standard elliptical shape (typical 3:1 aspect ratio) of semiconductor lasers. For the CHROMALASE II series of fiber-coupled diode laser modules the dedicated power supply CLPS is available as an accessory. This device provides up to 2.5 A of current for laser diode and TEC and allows the operation of the CHROMALASE II series from standard power sockets with 100 to 240 VAC. Key Features:
Diffraction Limited Optical Performance
Wavelength Range: 375 to 785 nm
Variable Laser Diode Power: 18 to 120 mW (Depending on Wavelength)
Power Stability (2 h): <0.5%
Configurable Launch Optics Simplify OEM Integration
Circular (0.8 to 1.3 mm) or Elliptical (1x2 to 4x1 mm) Output Beams
Integrated Drive and Power Electronics
Electrical Power Consumption: <12 W
Optical Noise (RMS): <0.5%
Beam Alignment Accuracy: <5 mrad
Beam Pointing Stability <10 µrad/°C
Solid State Reliability
Applications: Analytical Instruments; Biomedical & Medical; Flow Cytometry; Confocal Microscopy; Ophthalmology; Defense & Homeland Security
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CLPS Diode Laser Power Supplies
For CHROMALASE II and FiberTec II Lasers; Output Current LD 2.5 A; Output Current TEC 2.0 A; Supply Voltage 100 to 240 VAC
With its CLPS series, Fibotec Fiberoptics provides dedicated power supplies for Blue Sky Research’s CHROMALASE II™ and FiberTec II™ series of diode laser modules. The users can configure the power supply with an optional DB9-cable for the operation of FiberTec II lasers at their own PCB. The CLPS series of diode laser power supplies allows the operation of the CHROMALASE II and FiberTec II series from standard power sockets with 100 to 240 VAC and frequencies from 50 to 60 Hz. With dimensions of 170 x 103 x 56 mm, the CLPS series provides up to 2.5 A of current for laser diode and TEC. Operation of the laser (12, 5 or 6.5 VDC dependent on CHROMALASE II, respectively FiberTEC II version) is possible with a current of up to 2.5 A. The TEC current (3.3 V) – if needed by the laser – is limited to 2.0 A, and the sum of currents cannot exceed 2.5 A. The BNC-modulation input gives access to the modulation option of CHROMALASE II and FiberTEC II lasers. Key Features:
Allows Operation of CHROMALASE II and FiberTec II Lasers From Standard Power Sockets
Supply Voltage: 100 to 240 VAC, 50 to 60 Hz
Laser Diode Current up to 2.5 A
TEC Current up to 2.0 A
Laser Diode Voltage 5, 6.5, 12 V
BNC Modulation Input
Size: 170 x 103 x 56 mm
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Small Form Factor: Hermetically Sealed 10-pin Mini-Butterfly Package
Pin-out Compatibility With 14-pin Butterfly Package
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RTS125+ Fiber Optic Distributed Strain and Temperature Measurement Systems
8 Channels; 16,384 Sensors; Total Sensing Length 104 m; Spatial Resolution 1.6 mm; Temperature Measurement Range -270 to +1,200 °C
Sensuron’s RTS125+ series of fully ruggedized, compact fiber optic sensing system delivers reliable measurements in today’s most demanding environments. Distributed sensing capabilities make it possible to measure different parameters using a single system. This simplifies the collection and monitoring of diverse measurements. Its compact size, robust enclosure and increased efficiency make it an appealing choice for demanding installations with stringent limitations on physical space and power consumption. By combining data from multiple fibers, the technology can provide 3D visualization of shape and strain.RTS125+ can simultaneously measure strain, temperature, deflection, 3D shape positioning and more—making vast amounts of data available in real time. In today’s world, success is increasingly predicated on the ability of an organization to obtain and interpret large quantities of data. The RTS125+ allows engineers across industries to gather the data they want, not just the data they can get.The RTS125+ hardware sensing system is about the size of a loaf of bread. Weighing just 13 pounds, the system is ideal for use in numerous applications where weight and power consumption are key factors. The RTS125+ processes information at rates up to 100 times per second, representing a 20-fold improvement over existing technologies. The sensing system can derive key measurements in addition to strain and temperature, including 3D shape, deflection, pressure, strength, stiffness (bending and torsion), liquid level, and operational load. The RTS125+ offers unprecedented levels of data intensity – each 13 m hair-like optical fiber provides up to 2,000 data points with adjustable spatial resolution.
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Ruggedized
Eight Simultaneously Monitored Fibers with Over 2,000 Equally Spaced Sensors per Fiber
Aggregate Sensing Length of 104 m
Software Selectable Spatial Eesolution Down to 1.6 mm
Real-time, High-resolution Distributed Strain and Temperature Measurements
Up to 100 Hz Acquisition Rate
Structural Deflection and 3D Shape Sensing Capability
Immune to EMI/RFI and Radiation for Reliable Operation in Demanding Environments
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Shaped Fiber Tip Assemblies
Fiber Type All Silica, Step Index MM, Hard Clad; Single Fiber; Wavelength 190 to 1250 nm; Sheathing Acrylate, Polyimide, Nylon, Tefzel, Gold, Aluminium; Termination 905 SMA, FC/PC, ST/PC, Cleaved Ends, Polished Ends, Round 2.5mm Ferrule, FD-80 High Power, 905 High Power, Custom
Shaped fiber tip assemblies provide optimum control over beam delivery and/or increased efficiency of light collection. Fiberguide offers standard configurations like angles, ball, radiused, conical, chisel or diffuser tips, as well as custom designed shaped tip fibers assemblies for precise beam control. A shaped tip on the end of an optical fiber allows for a wide variety of different outputs and inputs; they are most commonly in the medical field as laser scalpels, to remove plaque buildup in arteries, to close varicose veins and to couple diodes into multi mode optical fibers. Shaped tips are also used to provide diffused outputs and as radial emitters, perpendicular to the face of the fiber. The shaped tips are bare or encapsulated in a glass tube, to prevent fluids and other materials from impacting the shape of the light output from the fiber. Fiberguide designs and manufactures shaped glass to manipulate the light inside fibers. Fiberguide offers shaped tips for a broad range of multi mode fibers, including step index MM fiber series like AFS/AFM/AFH/SFS/SFM/SFH all silica optical fibers, AFSH/SFSH hard polymer coat fibers, APC/SPC polymer clad fibers, APCH/SPCH hard clad fibers, AFR/SFR Uniclad™ high power fibers or Solarguide™ solarization resistant fibers, but also AGI/ASI anhydrous graded index fibers. For high temperature applications, some fiber types can be aluminium or gold coated on request.
Additionally, all fiber types can be equipped on demand with Fiberguide’s patented RARe Motheye anti-reflective technology that enhances fiber transmission performance and significantly increases the damage threshold for your application over a large wavelength range. Fiberguide’s experienced engineering team, industry leading fiber processing techniques, and proprietary design software can help enable any custom solution. Get in touch with AMS Technologies’ fiber optic team and discuss the requirements of your solution! Key Features:
Assembly Type: Single Fiber Assemblies
Fiber Types: All Silica, Step Index Multi Mode, Hard Clad
Buffer Types: Acrylate, Polyimide, Nylon, Tefzel, Gold, Aluminium
Core Sizes: 50 to 1000 μm
Numerical Aperture (NA): 0.12 to 0.37
Wavelengths: 190 to 1250 (High OH), 300 to 2400 nm (Low OH )
Second End Connector Types: 905 SMA, FC/PC, ST/PC, Cleaved Ends, Polished Ends, Round 2.5mm Ferrule, FD-80 High Power, 905 High Power, Custom
Certifications: ISO 9001:2015, ISO 13485:2016
Applications: Medical Lasers; Surgical Illumination; Diode Coupling; Optical Sensing; Laser Delivery for Material Processing; Communications/Pigtailing
Product number:
SW10694
Manufacturer:
3D SCOPE-V2 Interferometers for Single-Fiber Connectors
Designed for Production Environment; Manual or Autofocus; Field of View 0.7 x 0.5 mm; Measurement Speed 0.5 s; Output USB 2.0; Connector Type LC, SC, SMA
Data-Pixel’s 3D SCOPE-V2 series of interferometers for single-fiber connectors have been specifically designed for use in a production environment. These interferometers are robust, compact and easy to use tools that bring speed and precision to operators. 3D SCOPE-V2 interferometers are available in two versions with manual focus or autofocus.
The 3D Scope-V2 interferometers support Data-Pixel’s BLINK software platform (included). Non-compressed, real-time and high-quality images are transferred from the hardware to the software via a USB 2.0 link in addition to the automation and control commands.
3D SCOPE-V2 interferometers are compatible with Data-Pixel’s SUPERVISOR software, a MES style software which is in charge of the execution, management and monitoring of the production in an assembly workshop for fiber optic connectors. Its role is to supervise machines and help operators with complete traceability of the manufacturing information.
The 3D SCOPE-V2 interferometers are fully compliant with industry standards.
Key Features:
Measurement of PC and APC Connectors, Ferrules and Bare Fibers
Lightning Speed Measurement Cycle (0.5 s)
PASS/FAIL Result Visual Feedback Via Front Panel Start-button LED Color
Integrated PC/APC Tilt Stage, no APEX Re-calibration Required
True Phase-shifting Interferometers
Vibration Insensitive
Autofocus Option
Compliance with Industry Standards for Interferometer Measurements
Intuitive BLINK Software With Data-base Connectivity
Measurement Report in HTML Format
Compatible With Desktop PC, Laptop, Tablet PC
Applications: Measuring End-face Geometry of Single-Fiber Connectors
Product number:
SW10887
Manufacturer: