TSMJ-3A-1550-9/125-0.25-7-2.5-14-2-AR SM Tapered and Lensed Fiber

PM Fiber; 1550 nm; 8/125 µm Fiber; FC/APC; 0.25 mm Jacket; 2.5 µm Spot Diameter; 14 µm Working Distance; 2 m Length; AR Coating; 7 mm Stripped Length

SM Fiber; 1550 nm; 9/125 µm Fiber; FC/APC; 0.25 mm Jacket; 5 µm Spot Diameter; 26 µm Working Distance; 2 m Length; AR Coating; 7 mm Stripped Length

Refractive Index 1.524; 1200 cps Viscosity at 25°C Norland Optical Adhesive 65 ("NOA65") is a clear, colorless, liquid ph2otopolymer that will cure when exposed to ultraviolet light. Since it is a one part system and 100% solids, it offers many advantages in bonding of optical materials where the bonding surface can be exposed to light. The use of NOA 65 eliminates premixing, drying and heat curing operations common to other optical adhesive systems. Curing time is remarkably fast, and is dependent upon the thickness applied and the amount of ultraviolet light energy available. The cured adhesive is very flexible and was designed to minimize strain. NOA 65 is especially suitable where the adhesive cross section would be relatively thick. NOA 65 has enough elasticity to keep strain to a minimum even when dissimilar materials with different coefficients of expansion are bonded together. Typical applications would be potting of lenses in metal mounts, bonding plastic to glass and cold blocking. Typical Properties of NOA 65 Solids 100% Elongation at Failure 80% Modulus of Elasticity (psi) 20,000 Tensile Strength (psi) 1,500 Hardness - Shore D 50 Temperature Range -15 to 60° C   Shelf life of the liquid is at least 6 months from the date of shipment if stored in a cool (5-22° C), dark place in the original container. If refrigerated, allow the adhesive to come to room temperature prior to use.

Fiber Type SM, MM, PM; 400 to 2000 nm; Focused Spot Size 2.0 to 6.5 µm; Working Distance 3 to 30 µm; Minimum Strip Distance 5 mm; Return Loss -20 dB Standard, -25 dB With AR Coating OZ Optics TSMJ/TMMJ/TPMJ series of tapered and lensed fibers offers a convenient way to improve coupling between optical fibers and waveguide devices, laser diodes or photo diodes. By laser shaping the fiber end, the light can be transformed to improve mode matching and coupling efficiency with the waveguide device, laser diode chip or photodiode chip. The manufacturing process allows for improved coupling to either circular or oval input spots (this must be specified in advance). OZ Optics tapered and lensed fibers are manufactured by laser shaping the endface to create the optimal light output/input for specific applications. This method provides the best coupling efficiencies and mode matching abilities in a taper. An alternative technique is to instead polish the end face of the fiber to a specific radius and taper angle, forming a lens. Oval spots can also be formed using the polishing technique, normally by shaping the fiber to form a chisel or wedge shape. Single mode (SM), multi mode (MM) or Panda type polarization maintaining (PM) fibers can be tapered. For multi mode fibers, only polished versions with a polish radius and taper angle can be produced. OZ Optics can also generate other polish profiles, such as wedge shapes, which are useful for coupling strip laser diodes into multimode fibers. In general, OZ Optics uses polarization maintaining fibers based on the PANDA fiber structure when building polarization maintaining (PM) components and patch cords. However, OZ Optics can construct devices using other PM fiber structures. OZ Optics also carries some alternative fiber types in stock, please contact AMS Technologies for availability. If necessary, OZ Optics is willing to use customer supplied fibers to build devices. Custom configurations can be designed if required. Tapered fibers can be incorporated into other OZ Optics assemblies including the HSMJ, HMMJ, HPMJ series of hermetically sealable patchcords with metal solder, the HGSMJ/HGMMJ/HGPMJ series of hermetically sealable patchcords with glass solder or the VGA series of V-Groove assemblies, thus aiding in the development of photonic devices that meet Telcordia requirements. Contact AMS Technologies for more information on your customized tapered fiber project. Key Features: Wide Wavelength Range: 400 to 2000 nm, Other Wavelengths on Demand Improved Coupling to and from Waveguides, Laser Diodes and Photodiodes Single Mode (SM), Multi Mode (MM) or Polarization Maintaining (PM) Fibers Anti Reflection (AR) Coated Endfaces Available Can be Made Based on Either Spot Size or Taper Shape Metalized Fiber Versions Available Hermetically Sealable Versions Available Other Custom Configurations Available Chisel and Wedged Shaped End Faces Available Applications: Active Component Pigtailing; DWDM Devices; Waveguide Packaging; MEMS Device Connections; Miniaturized Fiber Optic Components; Coupling to Circular or Elliptical Beam Outputs

Easy to Use; Irradiance ≤250/≤1000 mW/cm² (1 UCUBE™); Wavelength 275-465 nm (UCUBE™); Power Supply 100-240 VAC; Active Air Cooling With Fans, Water Cooling Optional The UV CHAMBER™ is an easy-to-use UV LED irradiation oven designed and manufactured by UWAVE and suitable for a wide range of applications like curing, bonding, photolithography or photoaging. Thanks to its ergonomic design, the UV CHAMBER™ gives full control over UV insolation processes and a great repeatability. Users can tune the time, the power of the illumination as well as the working distance. These combined features make the UV CHAMBER™ the ideal UV LED irradiation oven for semi-automatic UV curing processes or R&D lab work. Thanks to its design and the technology included, the UV CHAMBER™ provides homogeneous irradiance and an efficient UV curing for any position of the 300 mm x 300 mm tray. Multiple parameters can be easily selected and changed to fit your UV curing process such as the insolation time, the irradiance or the cured area: Time setting range from 1 s to 100 min with a 1 s resolution Power setting range from 20% to 99% with a 1% resolution Working distances from the emitting window of the UV LED curing lamp selectable with tray position: 35, 85, 135, 185 & 235 mm An intelligent security system between the lamp and the door avoids unwanted UV light exposure by cutting off the illumination if the door is open. Thanks to the security window, users can watch the interior of the UV CHAMBER™ during exposure without any risk. The UV CHAMBER™ is delivered with the UCUBE™ version that fits your optical power and homogeneity needs, or with another product on request. UCUBE™ UV LED flood curing lamps, suitable for the UV CHAMBER™, are optionally available with dispersive or collimated optics, air- or water-cooled, in two different power versions (25 LEDs, 250 mW/cm² or 100 LEDs, 1,000 mW/cm²) and with wavelengths of 275 nm, 305 nm, 365 nm, 385 nm, 395 nm, 405 nm and 465 nm. To meet actual concerns on contamination and spread of virus and bacteria, UWAVE has developed a UV-C version with the best 275 nm LED in the market. Equipped with this UCUBE™ model, the UV CHAMBER™ allows a quick & efficient disinfection process of objects and surfaces for targeted objects or R&D tests – ensuring a safe process thanks to its secured design. Any other wavelength (UV-C, UV-B, Visible and IR) is available upon request, please contact AMS Technologies for further details. The UV CHAMBER™ UV LED irradiation oven can be tailored depending on your needs: Number of light sources variable from 1 to 4 UCUBE™ systems for a larger insolated area Instead of UCUBE™, other UV LED flood curing systems such as the USPOT™ or UBAR™ can be installed Mechanical customization is available, e.g. holes for various measurement sensors (UV radiometer, temperature probe), nitrogen atmosphere adaptation, etc. Please contact AMS Technologies to discuss your customized UV LED curing oven, tailored to your requirements. Key Features: Easy to Use: Plug&Play Solution With Simplified Interface System Safe: Secured Chamber With an Efficient & Smart UV Protection for the Operator Homogeneity: >90% Variable Insolation Time, Irradiation Power and Working Distance Can Be Supplied With 1 to 4 UCUBE™ Systems or Other UV LED Flood Curing Systems such as USPOT™ or UBAR™ Max. Irradiance of UCUBE™ System: Up to 250/1,000 mW/cm² Wavelength of UCUBE™ System: 275, 305, 365, 385, 395, 405 or 465 nm Power Supply: 100 to 240 VAC, 400 W (Single UCUBE™ System) Cooling System: Active Air Cooling With Fans, Water Cooling Option Available (UCUBE™ System) Body Material: Aluminium Alloy Dimensions: 306 mm x 382 mm x 605 mm Interior Dimensions: 300 mm x 300 mm x 300 mm Weight: 18 kg (With Single UCUBE™ System) Applications: UV Curing and Bonding; UV Photolithography; UV Photoaging; Assembly of Components in the Opto-electronic Industry; UV Tests for Chemical Formulations