TPMJ-3A-1550-8/125-0.25-7-5-26-2 PM Tapered and Lensed Fiber

Non-latching; 1x2, 2x2, 1x4, 1x8; Fiber Type SM, MM; 1240 to 1650 nm; Insertion Loss 1.0 to 2.0 dB; Crosstalk 50 dB; Switching Time 1 ms Sercalo Microtechnology’s BS series are all optical switch solutions for demanding applications in fiber optic instrumentation or communication. The benchtop instrument can switch up to two input fibers to any of up to eight output fibers, independently of data format, wavelength or optical power. The BS series optical switches are available either for single mode (SM) or multi mode (MM) fibers. The optical connections are set by a MEMS based switch network, where micromachined silicon mirrors redirect light to the selected ports. The use of MEMS technology offers solid state reliability together with long term stability and robustness for stable operation. The switch is controlled over an USB connection which also acts as power supply. BS series switches are built using Sercalo Microtechnology’s Telcordia-qualified MEMS technology, which achieves superior reliability and repeatability when compared to traditional mechanical solutions. The switches are fully bi-directional and transparent to the full wavelength range of the installed fiber. When several input fibers are required, the switch architecture can be either blocking or non-blocking. In the blocking architecture when one input is set, the other inputs can only be set to a limited number of “free” ports. In the non-blocking architecture there is no such limitation. Any of the input ports can go to any of the free output ports. But the complexity of the non-blocking architecture is much higher. Key Features: Reliable Low Insertion Loss: Superior Repeatability Single Mode (SM) or Multi Mode (MM) Fibers CE Compliant Applications: Fiber Optic Telecom and Datacom; Fiber Optic Test and Measurement

SM Fiber; 1064 nm; 6/125 µm Fiber; FC/APC; 0.25 mm Jacket; 2 µm Spot Diameter; 10 µm Working Distance; 2 m Length; 5 mm Stripped Length

The PZ1-PM1-E-155B is a high-speed fiber stretcher designed by Optiphase, integrating advanced piezoelectric technology within a compact and enclosed form factor. This model is particularly engineered for precise optical interferometric measurement and sensing applications, operating seamlessly at a wavelength of 1550.0 nm. It features bare leads, ensuring versatile connectivity while maintaining its structural integrity with an enclosed enclosure type. The stretcher employs a Bowtie polarization-maintaining (PM) fiber, which is renowned for its superior performance in maintaining polarization state under various conditions. The intrinsic design of the PZ1-PM1-E-155B allows it to deliver unparalleled performance in applications demanding high precision and stability. The PZ1 series represents Optiphase’s commitment to high-speed and cost-effective fiber stretching solutions. Each model within this family, including the PZ1-PM1-E-155B, benefits from Optiphase’s unique multi-layer winding approach, enhancing modulation functions without compromising the operational frequency. These stretchers are compatible with standard electronics such as signal generators and op-amps, making them highly flexible and adaptable for various research and industrial uses. The product line supports a range of fiber types, including SM, PM, and RC fibers, each catering to specific application needs with configurations that do not require proprietary drivers, thereby simplifying integration into existing systems. Key Features High-speed performance ensures quick response times crucial for dynamic optical systems, significantly enhancing operational efficiency. The use of Bowtie polarization-maintaining fiber optimizes the device for applications requiring strict control over polarization states, thus improving measurement accuracy. Compact and enclosed design facilitates easy integration into confined spaces without sacrificing functionality or access. The bare lead connector type offers flexibility in connectivity options, supporting easy setup and maintenance within complex systems. Engineered to operate efficiently across a wide operational wavelength range, specifically optimized at 1550.0 nm for superior functionality. Compatibility with general-purpose electronics reduces the need for specialized equipment, lowering overall system costs and complexity. The high performance-to-cost ratio makes the PZ1-PM1-E-155B an economically viable solution for high-precision optical applications. Applications Ideal for open loop demodulation processes where real-time data transmission and reception are critical, ensuring minimal signal distortion. Used in sensor simulation environments to replicate real-world conditions with high fidelity, aiding in better product development and testing. Supports variable optical delay applications, allowing for precise control over light path lengths to enhance signal processing capabilities. Effective in general-purpose fiber interferometry, offering robust performance for a wide range of scientific and industrial measurements. Utilized in large angle modulation of interferometric phases, providing flexibility and accuracy in optical phase measurement systems. Suitable for integration into optical communication systems, ensuring high-speed data transmission with minimal loss. Beneficial in research settings for experimental setups requiring stable and reliable fiber stretching capabilities. What's Next? As optical technologies continue to evolve, the demand for high-precision instruments like the PZ1-PM1-E-155B is expected to rise. With its cutting-edge design and functionality, this fiber stretcher positions itself as a pivotal component in the future of optical measurement and sensor technology. Researchers and industrial users can leverage its advanced features to enhance their systems' capabilities, paving the way for new innovations in the field. For those looking to integrate the PZ1-PM1-E-155B into their projects, AMS Technologies offers comprehensive support and solutions tailored to your specific requirements. As a leading provider of technical services and systems solutions, AMS Technologies ensures that every purchase is backed by expert guidance and support, ensuring seamless integration and optimal performance of your optical systems.