850nm High Power Polarization Maintaining Fiber Isolator (HPMI Series)
Description
Engineered for precision and optimized for performance, the High Power Polarization Maintaining Fiber Isolator (HPMI Series) represents the pinnacle of signal management technology. With its robust design and cutting-edge features, this isolator offers unparalleled capabilities in handling optical signals with utmost efficiency and reliability. Crafted to meet the demands of high-power applications, the HPMI Series ensures seamless signal transmission while maintaining polarization integrity, making it an indispensable component in advanced fiber laser systems, instrumentation setups, research laboratories, industrial optical systems, and telecommunication networks.
At the heart of the HPMI Series lies a commitment to excellence, evident in its low insertion loss, high isolation, and exceptional environmental stability. Built to withstand the rigors of demanding environments, this isolator delivers consistent performance even in the most challenging conditions. Whether deployed in research laboratories for photonics experiments or integrated into industrial optical systems for critical applications, the HPMI Series stands as a reliable and versatile solution for managing optical signals with precision and confidence.
850nm High Power Polarization Maintaining Fiber Isolator (HPMI Series)
Specifications |
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|---|---|
| Type Of The Device: | Isolator |
| Operating Wavelength: | 850 nm |
| Max Power: | 0.5 W |
| Min Isolation: | 22 dB |
| Operating Wavelength (λop): | 850 nm |
| Min. Isolation, λc, 23℃: | 22 dB |
| Min. Extinction Ratio: | 18 dB |
| Max. Optical Power (Continuous Wave): | 500 mW |
Features
- Advanced Signal Management: Achieve low insertion loss and high isolation for optimal signal integrity
- High Power Handling: Withstand up to 500 mW of continuous wave optical power, ensuring reliable operation in high-power applications
- Exceptional Reliability: Designed for long-term performance and stability, even in challenging environments
- Polarization Maintaining Design: Compatible with PM 850 Panda Fiber, ensuring polarization preservation for sensitive applications
- Versatile Integration: Available with various connector types and fiber jackets to suit diverse system requirements
- Precision Engineering: Built with precision and quality materials for consistent and reliable performance
Applications
- Fiber Laser Systems: Ideal for use in high-power fiber lasers, ensuring efficient signal transmission and isolation
- Instrumentation Setups: Essential for instrumentation requiring high optical performance and reliable signal management
- Research Laboratories: Trusted by research facilities for experiments in photonics, optical communication, and more
- Industrial Optical Systems: Essential component for stable and robust signal management in industrial optical systems
- Telecommunication Networks: Ensures signal integrity and polarization preservation in telecommunication networks
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How to order?
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Ships from:
China
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Sold by:
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On FindLight:
since 2024
Frequently Asked Questions
The HPMI Series Isolator operates at a wavelength of 850 nm.
The typical insertion loss at 23℃ is 1.3 dB, while the maximum insertion loss at the same temperature is 1.6 dB.
The HPMI Series Isolator offers a typical peak isolation of 22 dB.
The minimum isolation at 23℃ is 18 dB, and the minimum extinction ratio is 45 dB.
The HPMI Series Isolator can handle a maximum continuous wave optical power of 500 mW.
The HPMI Series Isolator is compatible with PM 850 Panda Fiber.
The operating temperature range is from +10 to +50℃, while the storage temperature range is from 0 to +60℃.
The available connector types include FC/UPC, FC/APC, SC/UPC, SC/APC, or None (N).
Yes, the HPMI Series Isolator can be configured to work with either the fast axis blocked (F) or both axes working (B).
The HPMI Series Isolator is commonly used in fiber laser systems, instrumentation setups, research laboratories, industrial optical systems, and telecommunication networks for efficient signal management and polarization preservation.