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

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

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; 7 mm Stripped Length

1310 nm; 0.50 mrad; 3.34 mm; Lens EFL 18.4 mm; Lens NA 0.15; FC/PC; M11x0.5-6g ThreadThe Zemax file of the precision molded aspheric lens built into this collimator can be downloaded here: file. Do you need a customised collimator? Click here to contact us. All products supplied by GH Optics are RoHS compliant and meet the requirements of the current EU RoHS Directive 2011/65/EU. The RoHS certificate can be provided on request.

Main Body;POP311

SM Fiber; 1550 nm; 9/125 µm Fiber; FC/APC; 0.25 mm Jacket; 2 µm Spot Diameter; 12 µm Working Distance; 2 m Length; AR Coating; 7 mm Stripped Length

Cleaning Tools for Optics;NEOCLEAN;Pen;Single-core; Video;MU; ODC

 The AMS-127-1.0-0.8 is a high-efficiency thermoelectric cooler (TEC) designed for precise thermal regulation in industrial, medical, and scientific applications. With a Qmax of 56W, this compact Peltier module provides stable and reliable temperature control for semiconductors, laser systems, medical equipment, and industrial electronics.Manufactured with high-quality Al₂O₃ ceramic materials, this 30x30 mm TEC module features a maximum temperature differential (dTmax) of 69K, making it ideal for applications requiring high-performance thermal management. Its flat and durable design ensures optimal heat dissipation and reliable integration into complex cooling systems.Key FeaturesHigh Cooling Efficiency – Qmax of 56W ensures effective heat transfer, supporting demanding cooling applications.Optimized Electrical Performance – Operates at Umax 15.7V and Imax 5.8A, ensuring stable and energy-efficient cooling.Wide Temperature Differential – With a dTmax of 69K, this TEC provides precise thermal control even in extreme conditions.Compact and Durable Build – 30x30 mm rectangular design with a 3.1 mm height, allowing for easy integration into space-limited applications.High-Quality Ceramic Construction – Made with Al₂O₃ ceramic, ensuring high thermal conductivity and mechanical stability.Low Electrical Resistance for Maximum Efficiency – With Rac 2.05Ω, this TEC minimizes power loss while maintaining consistent cooling performance.Reliable Lead Wires with Solder Tabs – Features 22 AWG wires carefully sealed around solder tabs, ensuring secure electrical connections and ROHS compliance for environmental safety.ApplicationsSemiconductor Cooling – Provides efficient thermal management for chips, sensors, and microprocessors, preventing overheating and ensuring optimal performance.Medical and Laboratory Devices – Supports temperature stability in diagnostic instruments, cryogenic research, and precision laser equipment.Laser and Optoelectronic Systems – Ensures efficient cooling for high-power laser diodes, optical sensors, and photonic devices.Industrial Electronics and Instrumentation – Maintains stable temperatures in automation systems, precision instruments, and electronic testing equipment.Aerospace and Automotive Thermal Management – Provides high-reliability cooling solutions for specialized applications in aerospace and automotive industries.What’s Next?The AMS-127-1.0-0.8 Thermoelectric Cooler is a cutting-edge solution for professionals requiring high-performance, energy-efficient, and reliable temperature control. Its advanced Peltier technology and compact, durable design make it an optimal choice for demanding thermal applications.For technical consultation, product availability, or customized cooling solutions, reach out to a thermal management specialist to integrate this TEC into your next project.

Fiber Type Single Mode, Multi Mode, Polarization Maintaining (PM/PZ); Number of Fibers ≤128 (V-Grooves), ≤4096 (2D Arrays); Fiber Cladding Outer Ø 125 µm (V-Grooves), 125 to 220 µm (2D Arrays); Connector Options SMA, FC, ST, SC, LC, MTP, etc.Fiberguide produces extremely tight tolerance one-dimensional (V-Grooves) and two-dimensional arrays using the supplier’s patented manufacturing techniques. These arrays range from a few fibers to thousands of fibers depending on the application. Optical Arrays are used in optical switching and in sensing applications where spatial optical data is necessary, such as DNA sequencing, astronomy and nuclear research. 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. Key Features: Fiber Type: Single Mode, Multi Mode Array End: Precision Machined Housings, Silica V-Grooves or Custom Silicon Wafers Connector Options: SMA, FC, ST, SC, LC, MTP, etc. Packaging: Design and Production of Custom Array Housings and Sheathing Arrangements Available to Protect the Fiber Depending on the Application Standard Temperature Range: -40 to + 100 °C Applications: Fiber Optic Switch; Signal Processing; Astronomical Analysis; Military Mapping; DNA Micro-array Technology; Optical Tomography