1064 nm Fiber to Free Space High Power Isolator (FSHI Series)
Description
The 1064 nm Fiber to Free Space High Power Isolator (FSHI Series) is a cutting-edge optical device designed to meet the rigorous demands of high-power fiber laser and amplifier applications. This isolator is engineered with state-of-the-art technology to provide outstanding performance, reliability, and flexibility in various operational environments. Key features of the FSHI Series include low insertion loss, high isolation, and high return loss, which are essential for maintaining signal integrity and preventing unwanted feedback in high-power optical systems.
With its ability to handle high average and peak optical powers, the FSHI Series isolator is ideal for use in fiber amplifiers, fiber lasers, and other high-power optical systems. The isolator effectively minimizes back reflections and other sources of interference, ensuring stable and efficient operation of the entire system. Its high isolation ensures that reverse signals do not interfere with the laser source, thereby protecting sensitive components and extending the lifespan of the system.
The FSHI Series is designed with excellent environmental stability, making it suitable for a wide range of industrial, medical, and research applications. It can operate reliably in varying temperature conditions, ensuring consistent performance over time. The isolator is available with various customization options, including different fiber types, handling powers, and package sizes, allowing it to be tailored to specific application requirements.
This isolator features advanced fiber technology, utilizing Nufern LMA-GDF-20/130-M fiber for input and free space output, which optimizes performance for high-power operations. The precision beam control capabilities ensure minimal M² degradation and high beam roundness, which are critical for applications requiring precise beam quality.
The robust design and high reliability of the FSHI Series make it a valuable component in optical communication systems, test and measurement equipment, industrial processing, medical equipment, and scientific research. Its customizable features and superior performance characteristics make it a versatile and essential tool for enhancing the performance and reliability of high-power optical systems.
1064 nm Fiber to Free Space High Power Isolator (FSHI Series)
Specifications |
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|---|---|
| Type Of The Device: | Isolator |
| Operating Wavelength: | 1064 nm |
| Max Power: | 20 W |
| Min Isolation: | 28 dB |
| Center Wavelength (λc): | 1064 or specified nm |
| Typ. Peak Isolation: | 35 dB |
| Min. Isolation At 23 ℃, λc All Polarization States: | 28 dB |
| Max. Average Optical Power: | 20 W |
| Max. Peak Power For Ns Pulse: | 10 kW |
| Fiber Type (Input Port): | Nufern LMA-GDF-20/130-M, NA: 0.08/0.46 |
| Fiber Type (Output Port): | Free Space |
Features
- Low Insertion Loss: Ensures minimal signal attenuation, leading to higher system efficiency and performance
- High Isolation: Provides superior protection against back reflections, crucial for maintaining the stability of laser and amplifier systems. High Power Handling: Capable of managing high average and peak optical powers, making it suitable for high-power applications
- High Return Loss: Reflects minimal power back into the system, reducing potential signal degradation and interference. Excellent Environmental Stability: Designed to operate reliably in a wide range of environmental conditions, ensuring consistent performance
- High Reliability: Built to deliver long-term, dependable operation with minimal maintenance requirements. Customizable Options: Available with different fiber types, power handling capacities, and package sizes to meet specific application requirements
- Advanced Fiber Technology: Utilizes Nufern LMA-GDF-20/130-M fiber for input and free space output, optimizing performance for high-power operations.
- Precision Beam Control: Maintains beam quality with minimal M² degradation and high beam roundness, essential for precision applications
Applications
- Fiber Amplifiers: Enhances amplifier performance by preventing back reflections, ensuring stable and efficient operation
- Fiber Lasers: Provides reliable isolation for fiber laser outputs, protecting the system from feedback and enhancing laser performance
- Optical Communication Systems: Ensures high-quality signal transmission in high-power optical networks by minimizing feedback and interference
- Test and Measurement Equipment: Delivers precise and stable performance for a variety of high-power optical testing scenarios
- Industrial Processing: Suitable for high-power laser applications in manufacturing and material processing, where consistent and reliable operation is critical
- Medical Equipment: Ensures reliable and safe operation in high-power medical laser systems, contributing to the accuracy and efficacy of medical procedures
- Scientific Research: Supports advanced research applications requiring high-power laser isolation, providing stable and reliable operation for experimental setups
For pricing, technical or any other questions please contact the supplier
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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
A high power isolator is designed to prevent back reflections and feedback in fiber optic systems, particularly in high-power applications such as fiber amplifiers and fiber lasers. It ensures signal integrity, stability, and performance by isolating the optical signal from unwanted reflections.
What makes the 1064 nm Fiber to Free Space High Power Isolator suitable for high-power applications?
The 1064 nm Fiber to Free Space High Power Isolator offers low insertion loss, high isolation, and high power handling capabilities, making it ideal for high-power fiber laser and amplifier systems. It effectively manages high average and peak optical powers while maintaining signal integrity and stability.
The isolator minimizes polarization-dependent loss (PDL) and maintains beam quality through precision beam control and utilization of advanced fiber technology. It ensures minimal M² degradation and high beam roundness, essential for high-power laser applications.
The isolator is designed to operate reliably in varying temperature conditions, with an operating temperature range of +10 to +50°C and a storage temperature range of 0 to +60°C. It also offers high reliability and durability in harsh environmental conditions.
You can specify your requirements, including wavelength, handling power, fiber jacket, fiber length, fiber type, and power type, using the ordering information provided. Alternatively, you can contact our sales team to discuss your specific needs and customization options.