OZ-5000 Diode Laser Modules

OFDR Technology; Spatial Resolution 20 µm; Max. Device Length 20, 40 m; Center Wavelength 1546.69 nm; Wavelength Range 40 nm; Dynamic Range 15, 70 dB The Luna 6415 lightwave component analyzer is a fast and simple-to-use analyzer for passive optical components and modules, extending Luna’s industry-leading optical frequency domain reflectometry (OFDR) platform to manufacturing test and quality control applications. Unlike traditional passive component testers, Luna 6415 measures and analyzes the insertion loss (IL) and return loss (RL) distribution as well as length with a single instrument, working in either reflection or transmission. The Luna 6415 lightwave component analyzer utilizes optical frequency domain reflectometry (OFDR) technology to measure backscattered or transmitted light as a function of distance. The system features extremely high sensitivity, 20 μm spatial sampling resolution and very fast scanning for high test throughput, making it an ideal testing tool for photonic integrated circuits (PICs) and silicon photonics. By integrating both reflection and transmission measurements, Luna 6415 reduces the cost and complexity of test while increasing throughput and provides more complete test coverage of your component. The Luna 6415 lightwave component analyzer further simplifies your manufacturing test with an integrated tunable laser source , automated IL and RL calculations, self-calibration and very high scanning speeds for greater test throughput. Key Features: Return Loss (RL) and Insertion Loss (IL) Analysis Trace Distributed Return Loss (RL) Over Length of Optical Path – Easily Measure Waveguide Scattering Spectral Analysis of Return Loss (RL) and Insertion Loss (IL) Detect and Precisely Locate Reflective Events and Measure Path Length Speed, Resolution and Accuracy for Optimizing Production Test High Spatial Sampling Resolution: 20 μm Measurement Range: 20 m Scan/Acquisition Rate: 6 Hz Maximum Device Length: 20 m (Reflection), 40 m (Transmission) Wavelength Range: 40 nm Center Wavelength: 1546.69 nm Maximum Optical Power: 5 mW Dynamic Range: 70 dB (RL Measurement), 15, 70 dB (IL Measurement, Reflection / Transmission Mode) Return Loss Measurement Sensitivity: -135 dB Measurement Resolution: ±0.1 dB Applications: Spatial RL Testing; Automated Insertion Loss (IL) Test and Analysis; Skew Measurement With Sub-picosecond Resolution; PLCs, Waveguide Devices, AWGs, ROADMs, etc.; Couplers, Switches, Beamsplitters

Compact & Lightweight; Irradiance ≤1,200 mW/cm²; Wavelength 365, 385, 395, 405 nm; 4 Interchangeable Lenses; Passive Cooling The UFIBER™ series comprises precise and high-intensity UV LED spot-curing systems suitable for high-precision curing & bonding applications in a compact and versatile unit. In these intuitive systems, UWAVE combines the high performance and benefits of UV LED technology to deliver optimized & consistent light on a precise location. With irradiance levels reaching 1,200 mW/cm², UFIBER™ systems are perfect for in-lab tests and UV curing processes. For longer lifetime and more stable optical performances, a heat-sink body can be added onto the UFIBER™ body to improve thermal management. Four different lenses (window, large, medium & focus) can be mounted for different optical performances regarding power, spot size, etc. Theses lenses and LED heads can be used in any combination. Available wavelengths include 365 nm, 385 nm, 395 nm and 405 nm. Any other wavelength (UV-C, UV-B, Visible and IR) is available upon request, please contact AMS Technologies for further details. These combined features make UFIBER™ systems the perfect UV spotlight for quick and precise curing of adhesives, coatings and encapsulants. For powering and controlling the UFIBER™ systems, UWAVE provides different types of controllers for different requirements. The screen version of the UPOWER™ UV LED power supply & control unit can control up to six UFIBER™ heads simultaneously or independently. With its intuitive screen interface, it allows to choose mode, time and power parameters – including semi-automatic operation using a footswitch as well as fully automatic operation allowing smart communication with a PLC. The UFIBER™ LED has a much higher output power stability than other technologies and does not emit infrared radiation, thus heat-sensitive materials can be processed. UV LEDs are eco-friendly as they do not create ozone, do not contain mercury and only need a few watts to operate. Key Features: Powerful, Flexible & Compact Optical System With 4 Different Interchangeable Lenses: Window, Large, Medium & Focus Ideal for Low and High Production Volumes Thanks to an Easy Mechanical Integration Low Energy Consumption for High-quality Results Max. Irradiance: Up to 1,200 mW/cm² Wavelength: 365, 385, 395 or 405 nm Power Supply: Direct LED Control, 3 W Maximum Power Consumption Cooling System: Passive Air Cooling Body Material: Aluminium Alloy Dimensions: Diameter 12 mm; Length 60 mm (Window/Large/Medium Optics), 63 mm (Focus Optics), 92/95 mm Including Connector Weight: 15 g Applications: Manual and Automated High-precision UV Curing Processes; Curing of Optical Adhesives, Glues, Resins, Varnishes, etc.

655-1060 nm; Tuning Range 10-140 nm; Typ. Output Power (Extra Cavity) 15-80 mW; Forward Current 120-200 mA; Cavity Length 1000-2000 µmToptica eagleyard’s RWE series of gain chips are modified Fabry-Perot Laser Diodes with an excellent AR coated output facet. While not self-lasing, they are intended to be operated in external cavity setups (ECDL), such as in Littman or Littrow configuration. With external feedback they reveal narrow single frequency operation (a linewidth under 100 kHz is achievable) in combination with superior tuning capabilities over their entire gain width.Within the RWE series, 760 nm gain chips are closing the wavelength gap between popular solutions around 780 nm, while 740 nm gain chips are reaching out 730 nm and below. The popular RWE gain chips at 760/840/1060 nm are additionally available in a widely tunable version. An improved chip structure enables a wider gain and thus broader tunability over 100 nm covering more interesting wavelengths in ECDL setups.Key Features:Edge-emitting Laser Diode Tunable Fabry-Perot Laser for Use in an External Cavity Diode Laser (ECDL)Small Emitting RegionAR Coated Gain Chips (RWE)Broad Wavelength Range: 655 to 1060 nmBroad Tunability: 10-140 nm Tuning Range Line Width Down to Sub-100 kHz ex cavityTyp. Output Power (Extra Cavity): 15 mW to 80 mWForward Current: 120 mA to 200 mACavity Length: 1000 µm to 2000 µmBeam Divergence Parallel (Slow Axis) 10° (FWHM), Perpendicular (Fast Axis) 22° to 29° (FWHM)9 mm 3-Pin TO Package, Sealed SOT HousingMonitor Diode  Product Wavelength Typ. Output Power With Cavity Tuning Range Specifics RWE-0655-00505-2000-SOT02-0000 655 nm 20 mW 650-660 nm Tunable RWE-0670-00703-1000-SOT02-0000 670 nm 20 mW 665-675 nm Tunable RWE-0690-00703-1000-SOT02-0000 690 nm 15 mW 675-692 nm Tunable RWE-0740-02000-1500-SOT02-0000 740 nm 40 mW 723-742 nm Tunable RWE-0760-02010-1500-SOT12-0000  760 nm 80 mW 752-772 nm Tunable RWE-0790-03010-1500-SOT02-0000 790 nm 50 mW 760-795 nm Tunable RWE-0810-03010-1300-SOT02-0000 810 nm 70 mW 780-810 nm Tunable RWE-0840-06010-1500-SOT02-0000 840 nm 50 mW 810-860 nm Tunable RWE-0840-06515-1500-SOT02-0000 840 nm 50 mW 800-860 nm Widely Tunable RWE-0860-06010-1500-SOT02-0000 860 nm 80 mW 830-880 nm Tunable RWE-0920-04010-1500-SOT02-0000 920 nm 15 mW 880-930 nm Tunable RWE-0980-08020-1500-SOT02-0000 980 nm 50 mW 900-1000 nm Tunable RWE-1060-10020-1500-SOT02-0000 1060 nm 80 mW 980-1090 nm Tunable RWE-1060-10525-1500-SOT02-0000 1060 nm 80 mW 960-1100 nm Widely Tunable  Applications: Record and Excite Hyperfine Atomic Transitions in Superior Resolution; Reference Standards such as Atomic Clocks; Quantum Field Technologies; Precise Spectroscopic Handling of Various Atomic TransitionsDatasheet