OCI-460 ID1040-XS-T LEDs

Adhesive;Optical Waveguide;Acrylate;5g

SMD Surface-Mount Device;SWIR;1060 nm;1500 mA

THT Through-Hole Technology;SWIR;1040 nm;100 mA

Interchangeable Fixtures for Connectors, Waveguides, Bare Fibers, Other; Film Size 4 Inch Diameter; Capacity up to 8 Components; Connector Apex Offset <50 µm; Connector Radius of Curvature 5-25 mm; Connector Protrusion/Undercut: 50--120 nm KrellTech’s NOVA™ automated polishing system provides maximum flexibility for optical surface processing and supports a variety of polishing applications from connectors to waveguides, and bare fibers to custom components. NOVA™ is scalable for R&D projects, high-volume production and the rigors of harsh environments and field installation. NOVA™ workholders feature KrellTech’s patented independent suspension at each connector position for controlled pressure and uniform contact. Combined with NOVA’s Microfeed™ fixture advancement, connector “airpolishing” and epoxy removal can be performed directly in the machine. Each position is optically aligned for optimal polish geometry using KrellTech’s patented process and calibration mechanism. Connector types can also be mixed and matched in a single fixture. NOVA’s versatility provides the ability to support the polishing of many photonic components. A quick change-out of workholder fixtures provides processing capability for waveguides, optical chips, PLCs, lenses and fiber arrays. Workholders utilize a unique holding mechanism that can secure a wide range of component dimensions. The polishing angle is adjustable and custom fixtures can be fabricated for specialized applications. Bare fiber can be polished at variable angles using specialized workholders and adapters. A variety of fiber types from standard single mode (SM) to polarization maintaining (PM) and sapphire to PCF can be processed into wedge and chisel tip shapes. A quick swap-out of adapters allow the polishing of fiber diameters from 80 um to >3 mm. NOVA™ features an intuitive user interface for creating polishing programs. All parameters including cycle time, pressure and speed settings are easily inputted for all component types and desired surface geometries. A unique “manual mode” allows the adjustment of polishing parameters in real-time during NOVA™ operation. This feature streamlines process development efforts and facilitates easy and quick program creation and refinement. A new NOVA™ operation software kit is available that upgrades NOVA™ polishers with the enhanced microfeed feature. This polishing routine provides greater programming flexibility for advancing components to the polishing surface at slower and more controllable rates. While version 1 NOVA™ software was limited to 10 pre-programmed microfeed rates, with the slowest being 100 µm/s, version 2 software allows to customize rates as slow as 5 µm/min. This yields precise removal of material stock and continual component advancement. The enhanced microfeed is ideal for larger optical surfaces, delicate bare fibers, and connector air polishing. V2 also provides the ability to create "pop-up" window prompts in between each polishing step, very useful as reminder to technicians to clean fibers, inspect polishing lengths, confirm geometry, etc. before initiating the next process step. New folder management allows programs to be organized according to connector types, fiber diameters, component, etc. Bare Fiber Coning and Chisel Option The optional Orbit™ bare fiber coning and chisel system enhances NOVA™'s bare fiber processing with conical and chisel tip shaping. Unique fiber tip geometries can be formed for lensing, sensing and light guiding applications. The fiber rotation module can be mounted on standard NOVA™ variable angle and waveguide workholders. Fiber "spin" speed is user adjustable and can be set for continual rotation or the unique "360 auto-reverse" motion that prevent fiber twisting and torquing. All variables are entered and selected via a touchscreen on the Orbit™ controller. When combined with NOVA™ Auto-Angle Workholders, Orbit™ precisely positions the polishing fixture at the designed angle on a repeatable basis. Inspection Options Optional video inspection systems monitor the polishing process and inspect the polished surface directly in NOVA™.  NOVA™'s Profile Videoscope allows the real-time monitoring of component polishing. This videoscope aids with bare fiber/component positioning and confirms process completion. Teamed with measurement software, this system verifies the endface geometry of a broad range of photonics components. Teamed with measurement software, this system verifies the endface geometry of fibers, waveguides and arrays. NOVA™'s Surface Videoscope allows the in-line inspection of polished surfaces while the component is still loaded in the polisher. This minimizes material handling and streamlines photonic production compared to the traditional process of transferring components to off-line inspection stations. Polishing and specification compliance can be determined in a single workcell. Key Features: Precision Optical Polishing Wireless Tablet Control With Microfeed™ Telcordia Compliant Interchangeable Fixtures for Waveguides, Bare Fibers and More Air Polishing Machine Polishing Pressure: Programmable & Automated, Linear Displacement With Micron Positioning Control Polishing Speed and Cycling Time: Program Selectable Polishing Motion: Random Orbital Polishing Routines: Programmable (Step by Step Prompts), Microfeed™ Controlled Advancement, Manual Mode With Full Process Control Film Size: 4 Inch Diameter Connector Support: All Industry Standard Connectors, MIL-spec Termini and Ferrules, UPC & APC Geometries Connector Capacity: Up to 8 Components – Selections Can Be Mixed & Matched in Same Workholder Fixture Connector Apex Offset: <50 µm Maximum, <15 µm Typical Connector Radius of Curvature: 10 to 25 mm (2.5 mm Ferrules), 7 to 20 mm (1.25 mm Ferrules), 5 to 12 mm (APC Ferrules) Connector Protrusion/Undercut: 50 nm to -120 nm Connector Back Reflection: <-60 dB (UPC), <-65 dB (APC) Connector Insertion Loss: <0.25 dB Typical Connector Process Time: Approximately 15 s/Connector Waveguide Component Support: Waveguides, Planar Lightwave Circuits, Optical Chips, Fiber Arrays Waveguide Component Dimension Range: Width 5 to 30 mm, Thickness 0.5 to 5 mm, Length >5 mm Waveguide Angle Repeatability: ±0.3° (X/Y Axis Along Edge) Waveguide Adjustable Polish Angle Range: 0° (Flat) to 45° Fiber Type Range: Single Mode (SM), Multi Mode (MM), Polarization Maintaining (PM), Plastic, PCF, Chalcogenide, Sapphire, Specialty Fibers Fiber Diameter: 80 µm to >3 mm Fiber Angle Range: 0° (Flat) to 50° Fiber Angle Repeatability: ±0.5° Typical Equipment Footprint & Weight: 305 x 305 mm, 11.3 kg Applications: Automated Optical Polishing of Connectors, Waveguides, Bare Fibers and More; Research and Development Projects; High-volume Production; Harsh Environments and Field Installation

1300 nm; Spectral Width 80 nm; Optical Power 4-250 µW; Optical Rise/Fall Time 4 ns; Package 14-pin DIL, TO56 OSI LaserDiode‘s LDT Series of 1300 nm edge-emitting LEDs (light-emitting diodes) feature stable power and spectral characteristics over temperature. These LEDs are typically used in data or analog transmission systems where the launch power requirements are too great for an SLED component and where a laser is not suitable. LDT Series LEDs are available with 14-pin DIL package and single mode (SM) or multi mode (MM) fiber pigtail as well as with TO53 package sealed by a window or aspheric lens cap. Versions with the LDT Series 1300 nm edge-emitting LED in a hermetic, stable, RoHS compliant 14-pin dual-in-line package (DIP) feature the MOCVD-grown InGaAsP devices aligned to either a single mode (SM) or multi mode (MM) optical fiber. Two versions of the 14-pin DIP package are offered: The standard package with a long-horn flange (cooler package) is configured either with or without a thermistor and a Peltier-effect thermoelectric cooler (TEC). A second uncooled, low-profile package without a flange is also available for applications where space is limited and temperature control is not required. In addition to the 14-pin DIL versions, three models are available in a 3-pin, RoHS compliant TO 56 package. Sealed by a window cap, the LDT 125-TO56WR device features a minimum optical output power of 125 µW, while the LDT 300-TO56WR device emits a minimum optical power of 250 µW. The LDT 125-TO56LR device is packaged in a 3-pin TO56 with aspheric lens cap and emits a minimum optical output power of 60 µW into a 62.5 µm fiber. Key Features: Center Wavelength: 1300 nm Typical Spectral Width: 80 nm Typical Optical Power: 4 µw to 250 µW Excellent Thermal Stability Versions with 14-pin DIL or TO56 Package Available Hermetic 14-pin DIL Package Versions With Single Mode (SM) or Multi Mode (MM) Pigtail Hermetic 14-PIN DIL Packages With Thermoelectric Cooler (TEC) Option High Reliability Coupling (14-PIN DIL Package) TO56 Package Versions with Window or Aspheric Lens Cap Emitting Area: 6 x 2 mm (TO56 Package) Forward Voltage: 2 V (TO56 Package) Maximum Forward Current: 150 mA (14-PIN DIL Package) Optical Rise / Fall Time: 4 ns Military Screening Available Operating Temperature Range: -40 °C to +85 °C Applications: Data or Analog Transmission Systems With Launch Power Requirements Too High for SLED and Laser Not Suitable; Fiber Optic Modems; TFOCA Systems

SM Fiber; 1550 nm; 9/125 µm Fiber; FC/APC; 0.25 mm Jacket; 2.5 µm Spot Diameter; 14 µm Working Distance; 2 m Length; 70 mm Stripped Length