PZ1-PM4-APC-E-155P Other Fiber Components

The PZ1-PM1-APC-E-131B by the manufacturer is an innovative high-speed fiber stretcher designed for advanced optical interferometric applications. This exceptional product features FC/APC connectors and operates at a wavelength of 1310.0 nm, providing unparalleled precision and reliability. The enclosed design ensures the protection of internal components, allowing for seamless integration into various systems. Utilizing a PZ1 stretcher type and PM fiber with a Bowtie structure, this model delivers superior performance in terms of modulation and sensitivity. The PZ1 series of fiber stretchers, renowned for their high-speed capabilities, includes models with different fiber types such as SM, PM, and RC. These devices are essential for optical interferometric measurement and sensing systems, enabling functionalities like open-loop demodulation, sensor simulation, and variable optical delay. The unique multi-layer winding technique enhances modulation functions while maintaining a high operational frequency. Available with multiple termination options, these stretchers offer flexibility and ease of use without requiring proprietary drivers. Key Features The PZ1-PM1-APC-E-131B features FC/APC connectors, ensuring optimal signal integrity and minimal insertion loss, which is crucial for high-precision applications. Operating at a wavelength of 1310.0 nm, this fiber stretcher is suitable for a wide range of optical applications, providing versatility and adaptability. The enclosed design protects the sensitive components from environmental factors, enhancing the longevity and reliability of the device. Utilizing the Bowtie structure in PM fibers, the device minimizes polarization mode dispersion, resulting in clearer signal transmission. The PZ1 series’ ability to operate with general-purpose electronics reduces setup costs and simplifies integration into existing systems. High-speed operation paired with a compact form factor allows for easy installation even in limited space environments. The unique multi-layer winding approach enhances modulation capabilities, delivering unmatched performance in its class. Applications Ideal for optical interferometric measurement systems, providing precise control over interference patterns for accurate data acquisition. Used in sensor simulation, it facilitates the testing and calibration of optical sensors in various industrial applications. The variable optical delay function is critical in telecommunications, allowing for precise timing adjustments in signal processing. Suitable for general-purpose fiber interferometry, supporting a range of experimental setups in research laboratories. Employed in large angle modulation of interferometric phase, crucial for advanced photonics research and development. Provides open-loop demodulation capabilities, enhancing the performance of optical systems in dynamic environments. Perfect for educational settings, offering a practical tool for teaching and demonstrating optical principles and technologies. What’s Next? The PZ1-PM1-APC-E-131B sets a new standard in high-speed fiber stretching technology, making it an indispensable tool for researchers and industrial users seeking precision and reliability. Its advanced features and robust construction ensure that it meets the demands of modern optical applications. With a focus on quality and performance, this model promises to enhance your optical systems significantly. AMS Technologies, a trusted solution provider, offers comprehensive support and guidance for integrating the PZ1 series into your projects. Their expertise in optics and photonics ensures that you receive the best advice and service, helping you optimize the performance of your optical systems with the latest advancements in fiber stretching technology.

Introducing the PZ1-PM1-APC-E-131P by Optiphase, a high-speed fiber stretcher designed to meet the demanding needs of optical interferometric measurement and sensing systems. This product is crafted with precision, integrating a 1-layer PM Panda fiber structure that ensures optimal performance in various applications. With FC/APC connectors, it offers superior alignment precision, reducing back reflection and ensuring consistent signal integrity. The PZ1's enclosed design protects the internal components, enhancing durability and reliability in challenging environments. Operating at a wavelength of 1310.0 nm, this stretcher is tailored for applications requiring exacting standards in modulation and phase control.The PZ1 series represents Optiphase's dedication to innovation in fiber technology. As the high-speed member of our fiber stretcher family, the PZ1 employs a unique multi-layer winding approach that enhances modulation functions while maintaining high operational frequencies. Available in SM, PM, or RC fiber types, the PZ1 is versatile, offering multiple termination choices to suit specific user requirements. Its compact form factor and ability to be driven with general-purpose electronics make it a cost-effective solution for a wide range of optical applications.Key FeaturesThe PZ1-PM1-APC-E-131P features FC/APC connectors which provide excellent alignment and minimize signal loss, ensuring high-quality connections in optical systems.Designed for high-speed operations, the PZ1 offers a low profile and small footprint, making it ideal for integration into compact and space-constrained environments.Its enclosed design provides robust protection against environmental variables, thereby extending the lifespan of the device and maintaining consistent performance.The use of Panda PM fiber ensures a high polarization extinction ratio, critical for applications demanding precise polarization control.With a wavelength operation centered at 1310.0 nm, this fiber stretcher is optimized for applications requiring narrowband operation and high sensitivity.The PZ1 is capable of being driven by standard laboratory electronics, eliminating the need for specialized drivers and simplifying operational setup.Optiphase's expertise in fiber optics guarantees a high performance-to-cost ratio, making the PZ1 a competitive choice in the market.ApplicationsIdeal for open loop demodulation, the PZ1-PM1-APC-E-131P can be employed in systems where phase stability and accuracy are paramount.Its high-speed capabilities make it suitable for sensor simulation, providing realistic testing environments for various sensor technologies.The stretcher serves as a reliable component in variable optical delay lines, crucial for synchronizing signals in complex optical networks.General-purpose fiber interferometry applications benefit from the PZ1’s precise modulation characteristics and robust design.Large angle modulation of interferometric phase is achievable with the PZ1, expanding its utility in advanced optical research and development.Compatible with a wide range of optical measurement systems, the PZ1 enhances the fidelity of data acquisition through its precise modulation control.The PZ1’s design supports integration into educational and research laboratories, facilitating innovative experiments in photonics and fiber optics.What's Next?The PZ1-PM1-APC-E-131P is not just a product; it is part of a broader commitment to providing cutting-edge solutions in the field of fiber optics. As researchers and industrial users continue to push the boundaries of optical technology, Optiphase remains at the forefront, offering products that empower innovation and discovery. Explore the possibilities with the PZ1 series and elevate your optical systems to new heights.For comprehensive support and customized solutions, AMS Technologies stands as a trusted partner. With expertise in photonics and beyond, AMS Technologies provides the necessary tools and guidance to integrate the PZ1 into your systems effectively. Reach out today to discover how we can assist in optimizing your optical applications.

The PZ1-PM1-APC-E-1550B by Optiphase is a high-speed fiber stretcher specifically designed to meet the demanding requirements of advanced optical interferometric measurement and sensing systems. Utilizing piezoelectric technology, this product features FC/APC connectors, ensuring optimal performance in applications requiring precise alignment and minimal back reflection. Operating at a wavelength of 1550.0 nm, the fiber stretcher employs a sophisticated 'Bowtie' polarization-maintaining (PM) fiber structure, which ensures exceptional stability and precision during modulation processes. As part of the renowned PZ1 series, the PZ1-PM1-APC-E-1550B stands out with its enclosed design, offering robust protection against environmental factors that may affect performance. The PZ1 family of fiber stretchers is acclaimed for its versatile application range, from open-loop demodulation and sensor simulation to variable optical delay and general-purpose fiber interferometry. With a compact form factor and high speed, the PZ1 series embodies innovation with its unique multi-layer winding design, enhancing modulation function while maintaining high operational frequency. Key Features The PZ1-PM1-APC-E-1550B features a high-speed operation capability, making it ideal for dynamic applications where rapid response is critical. It offers a cost-effective solution without compromising on quality or performance, providing excellent value for budget-conscious projects. The compact and low-profile design allows for easy integration into existing systems, reducing the need for additional space or complex modifications. With its Bowtie PM fiber, the device ensures a high polarization extinction ratio, crucial for maintaining signal integrity in demanding environments. The enclosed construction protects the internal components, enhancing durability and extending the product's lifespan even in harsh settings. Multiple termination options, including FC/APC connectors, allow for flexible configurations tailored to specific application needs. Compatible with standard laboratory equipment, the PZ1 can be driven by common signal generators and op-amps, eliminating the need for proprietary drivers. Applications Open-loop demodulation: Ideal for applications requiring precise phase control and stabilization in optical systems. Sensor simulation: Provides an accurate representation of sensor behavior under various conditions, facilitating testing and development. Variable optical delay: Enables precise timing adjustments in optical networks, essential for synchronization and data processing. General-purpose fiber interferometry: Supports a wide range of interferometric techniques, enhancing measurement accuracy and reliability. Large angle modulation: Suitable for applications demanding significant phase shifts without sacrificing signal fidelity. Interferometric phase modulation: Offers fine control over phase variations, crucial for advanced optical research and development. Optical path displacement: Ensures accurate path length adjustments, vital for maintaining coherence in complex optical setups. What's Next? The PZ1-PM1-APC-E-1550B represents the pinnacle of Optiphase's dedication to advancing fiber optic technology. As industries continue to push the boundaries of optical measurement and sensing, this fiber stretcher is uniquely positioned to meet the evolving demands of researchers and industrial users alike. Its high-speed performance, combined with a robust design and flexible integration options, makes it an ideal choice for cutting-edge projects across various sectors. AMS Technologies stands as a leading solution provider in the realm of advanced optical systems. By partnering with Optiphase, AMS Technologies ensures that customers receive not only top-tier products like the PZ1-PM1-APC-E-1550B but also unparalleled support and expertise in deploying these solutions effectively. Take the next step in optimizing your optical system by exploring the capabilities of the PZ1 series today.

Introducing the PZ1-PM1-APC-E-155P, an advanced fiber stretcher equipped with cutting-edge FC/APC connectors and designed specifically for high-speed operations at a wavelength of 1550.0 nm. This meticulously engineered device is enclosed in a robust casing, ensuring durability and consistent performance across a variety of demanding environments. The PZ1-PM1-APC-E-155P utilizes the highly efficient Panda PM fiber structure, offering exceptional polarization maintenance and minimal optical loss, making it an ideal choice for precision applications in optical interferometry and sensing systems. The PZ1 series, a hallmark of Optiphase's innovation in fiber stretching technology, exemplifies versatility and superior performance. Designed to meet the rigorous demands of modern optical systems, the PZ1 family includes a range of models tailored for SM, PM, and RC fiber types. Each variant offers unique benefits such as high-speed modulation, compact design, and the ability to operate without proprietary drivers, allowing seamless integration into existing systems. The PZ1 series stands out for its cost-effectiveness and ease of use, positioning it as a leader in the market for fiber stretchers. Key Features High-speed operation with a modulation constant optimized for precision tasks, ensuring reliable performance at 1550.0 nm. Enclosed design with FC/APC connectors for enhanced durability and reduced signal loss, providing long-term reliability in harsh conditions. Panda PM fiber structure delivers exceptional polarization maintenance, crucial for maintaining signal integrity in complex systems. Compact and lightweight, the device integrates easily into space-constrained setups without compromising on functionality. Operates efficiently with common laboratory equipment, negating the need for specialized drivers and simplifying the setup process. Multiple termination options available, offering flexibility and convenience in deployment across various systems. Manufactured in the USA, ensuring high-quality standards and support for industrial applications worldwide. Applications Ideal for open loop demodulation in optical interferometric measurement systems, providing precise phase control and modulation. Essential for sensor simulation applications where accurate and repeatable fiber stretching is required. Facilitates variable optical delay setups, allowing for dynamic adjustments in signal processing systems. Supports general-purpose fiber interferometry tasks, enhancing the capabilities of research and development projects. Enables large-angle modulation of interferometric phase, expanding the possibilities for advanced optical experiments. Useful in maintaining high polarization extinction ratios in demanding optical networks and communication systems. Suitable for integration into laboratory and industrial environments, offering reliable performance in critical operations. What's Next? The PZ1-PM1-APC-E-155P represents the pinnacle of Optiphase's commitment to advancing fiber stretching technology. Its innovative design and robust feature set make it an indispensable tool for researchers and industrial users seeking precision and reliability. With its ability to seamlessly integrate into diverse applications, the PZ1 series continues to set new standards in the field of fiber optics. AMS Technologies, a prominent solution provider, offers comprehensive support and distribution for the PZ1 series. Their expertise ensures that customers receive not only a product but a complete solution tailored to their specific needs. Partnering with AMS Technologies guarantees access to top-tier technical assistance and service, further enhancing the value of the PZ1 family. Discover the future of fiber stretching with the PZ1-PM1-APC-E-155P. Contact AMS Technologies today to explore how this exceptional device can elevate your optical systems to new heights of performance and efficiency.

The PZ1-PM1-APC-E-850B, crafted by Optiphase, stands out as a high-performance fiber stretcher designed for precision in optical interferometric applications. Encapsulated in a robust enclosure, this model is equipped with FC/APC connectors and operates at a wavelength of 850.0 nm. It employs the sophisticated Bowtie polarization-maintaining (PM) fiber structure, ensuring exceptional phase modulation capabilities. This unit is part of the PZ1 series, renowned for its high-speed operation and adaptability in demanding environments. The PZ1 stretchers are engineered to provide a high performance-to-cost ratio, making them a preferred choice among industrial and research users who require reliable and efficient fiber stretching solutions. The PZ1 family of fiber stretchers, including the PZ1-PM1-APC-E-850B, is distinguished by its high-speed operation and compact form factor. These stretchers incorporate a unique multi-layer winding technique, enhancing modulation efficiency while maintaining high operational frequency. Designed to be driven by general-purpose electronics, they eliminate the need for proprietary drivers, thus offering significant convenience and flexibility. Optiphase's expertise in all-fiber interferometers has culminated in this series, which covers a wide range of applications from open loop demodulation and sensor simulation to variable optical delay and large-angle modulation of interferometric phase. The PZ1 series is versatile, offering models with various fiber types including SM, PM, and RC, each tailored for specific applications and requirements. Key Features The PZ1-PM1-APC-E-850B features a Bowtie PM fiber structure that provides superior polarization control, crucial for maintaining signal integrity in complex applications. With FC/APC connectors and an enclosed design, this model is engineered for high reliability and ease of integration into existing systems. Operating at an optimal wavelength of 850.0 nm, it ensures compatibility with a wide range of optical systems and applications. The stretcher's high-speed operation is facilitated by a sophisticated piezoelectric element, delivering precise fiber stretching capabilities. Designed for use with general-purpose electronics, it requires no proprietary drivers, significantly reducing setup complexity and cost. The compact and low-profile form factor allows for easy installation in constrained spaces, making it ideal for both laboratory and field applications. Optiphase's advanced multi-layer winding approach enhances modulation efficiency, ensuring robust performance across various operational scenarios. Applications Ideal for open loop demodulation, offering precise phase shift control essential for accurate signal processing in optical systems. Used in sensor simulation, providing reliable and repeatable fiber stretching for testing and development of optical sensors. Facilitates variable optical delay, critical for timing adjustments and synchronization in complex optical networks. Enables large-angle modulation of interferometric phase, enhancing the capability of interferometry-based measurement systems. Suitable for general-purpose fiber interferometry, delivering high precision and stability required in experimental setups. Supports a range of optical sensing applications, benefiting from its high-speed and low-cost operation. Widely used in research environments where precision and reliability in fiber modulation are paramount. What's Next? As optical technologies continue to evolve, the demand for high-performance fiber stretchers like the PZ1-PM1-APC-E-850B is set to grow. Researchers and industry professionals seeking advanced interferometric solutions will find this product line indispensable for their projects. With Optiphase's commitment to innovation and quality, the PZ1 series remains at the forefront of fiber stretching technology, offering unparalleled performance and adaptability. AMS Technologies is your trusted partner in delivering cutting-edge optical solutions. With a comprehensive portfolio of products and expert support services, AMS Technologies ensures you have the right tools and guidance to meet your optical technology needs. Explore our range of solutions today and discover how we can empower your research and development endeavors.

The PZ1-PM1-APC-E-850P is an exemplary product from the innovative suite of fiber stretchers offered by Optiphase. This high-speed fiber stretcher is designed with precision and technical excellence, tailored specifically to meet the needs of advanced optical interferometric systems. Encapsulated within a robust enclosure, this model is equipped with FC/APC connectors and operates at a wavelength of 850.0 nm, offering unparalleled performance in its category. Engineered with Panda polarization-maintaining (PM) fiber, the PZ1-PM1-APC-E-850P showcases a unique single-layer design that ensures a high polarization extinction ratio, which is crucial for reducing modulation constants while maintaining signal integrity. The advanced piezoelectric technology embedded in this device allows it to operate efficiently across a broad range of applications including sensor simulation, open-loop demodulation, and variable optical delay. The compact form factor and low profile make it an optimal choice for integration into confined spaces without compromising on performance or reliability. Key Features Designed for high-speed operation, the PZ1-PM1-APC-E-850P offers swift response times essential for dynamic optical applications. The use of Panda PM fiber enhances polarization maintenance, making it ideal for applications requiring stable polarization states. Enclosed design with FC/APC connectors ensures environmental protection and superior connection stability. Capable of operating seamlessly with general-purpose electronics, thus eliminating the need for proprietary drivers and reducing overall system costs. Compact and lightweight, facilitating easy installation and integration into existing systems with minimal spatial constraints. Wide operational wavelength range ensures adaptability across various optical communication and measurement systems. High-performance modulation functions enable precise control over optical phase changes. Applications Ideal for optical interferometry, providing accurate phase modulation for intricate measurement tasks. Suited for sensor simulation in research environments, allowing for the testing and calibration of sensor systems. Effective in open-loop demodulation processes where phase accuracy is critical to system performance. Used in variable optical delay lines to manage timing in complex optical networks. Essential in large angle modulation applications, offering reliable and repeatable performance. Supports general-purpose fiber interferometry, enhancing the capability of both commercial and custom optical setups. Beneficial in laboratory settings for experimental setups requiring precise optical path adjustments. What's Next? The PZ1-PM1-APC-E-850P stands as a testament to Optiphase's commitment to advancing optical technology. Its integration-friendly design and high-speed capabilities make it a leading choice for professionals seeking cutting-edge solutions in fiber optics. As industries continue to evolve, the demand for reliable and efficient fiber stretching solutions will grow, and the PZ1-PM1-APC-E-850P is poised to lead this transformation. AMS Technologies serves as a premier solution provider, offering a comprehensive portfolio of products and services in the realm of optical technology. With a focus on delivering exceptional value and support, AMS Technologies ensures that customers receive the most advanced and effective solutions tailored to their specific needs. Explore the possibilities with the PZ1-PM1-APC-E-850P and discover how it can elevate your optical systems to new heights.

The PZ1-PM1-APC-E-980B is a sophisticated high-speed fiber stretcher designed by Optiphase, a division of Halliburton specializing in optical interferometric systems. This product features an advanced piezoelectric element enclosed within a compact package, designed to operate efficiently at the specified wavelength of 980.0 nm. Users will appreciate the incorporation of FC/APC connectors, which ensure superior signal fidelity and minimal optical loss. The device employs a Bowtie structured polarization-maintaining (PM) fiber, which is integral to maintaining high polarization extinction ratios, crucial for demanding applications in precision optics.The PZ1 series represents a pinnacle in fiber stretching technology, offering a unique multi-layer winding approach that enhances modulation functions while maintaining excellent operational frequencies. This family of products includes models equipped with Single Mode (SM), PM, and Reduced Cladding (RC) fiber types, catering to a broad spectrum of optical measurement and sensing applications. Notably, PZ1 fiber stretchers offer a high performance-to-cost ratio, unrivaled by competitors, and their compact form factor allows integration into confined spaces with ease.Key FeaturesThe PZ1-PM1-APC-E-980B utilizes a Bowtie PM fiber structure, ensuring remarkable stability and performance in polarization-sensitive applications.With its FC/APC connectors, users experience reduced insertion loss and back reflections, crucial for maintaining high-quality signal transmission.The enclosed design of the stretcher protects the internal components, enhancing durability and reliability over prolonged use.Capable of being driven by standard laboratory electronics, this device reduces the need for proprietary equipment, thereby cutting down on additional expenses.The stretcher operates efficiently across a wide range of voltages with minimal linearity error, ensuring precise control over modulation characteristics.Its compact dimensions allow for seamless integration into existing systems without requiring significant modifications or additional space.Manufactured within the United States, this product guarantees high standards of quality and compliance with rigorous industry benchmarks.ApplicationsIdeal for optical interferometry, the PZ1-PM1-APC-E-980B provides precise modulation for enhanced measurement accuracy.It is extensively used in sensor simulation, delivering reliable performance for testing and calibration purposes.Suitable for optical delay lines, this fiber stretcher offers adjustable time delay settings critical for synchronization tasks.The unit supports large angle modulation of interferometric phase, essential for advanced research experiments.Open loop demodulation processes benefit from the high-speed capabilities of the PZ1, ensuring rapid response times.In general-purpose interferometry, the device’s robust design and operational flexibility make it an invaluable component.Its use in various industrial applications highlights its adaptability and effectiveness in challenging operational environments.What's Next?The PZ1-PM1-APC-E-980B stands as a testament to Optiphase's commitment to innovation and excellence in optical technology. As industries continue to evolve, the demand for high-precision, adaptable, and cost-effective solutions remains paramount. This fiber stretcher not only meets these demands but surpasses them, setting new standards in performance and reliability.AMS Technologies, as a leading solution provider, offers comprehensive support and expertise to help integrate the PZ1 series into your operations seamlessly. By choosing AMS Technologies, you gain access to a wealth of knowledge, ensuring that your investment in cutting-edge optical technology reaps maximum returns. Partner with AMS Technologies to explore the full potential of the PZ1-PM1-APC-E-980B and elevate your research and industrial applications to new heights.For further information or to make a purchase, contact our team today and take the first step towards enhancing your optical systems with the PZ1 series.