488nm Polarization Insensitive Isolator (PSSI Series)
Description
Experience unparalleled optical performance with the Polarization Insensitive Isolator, a flagship product from our esteemed PSSI Series. Engineered to precision at a center wavelength of 488 nm, this isolator boasts cutting-edge technology and premium-grade materials to deliver superior optical isolation, minimal insertion loss, and exceptional power handling capabilities.
Whether integrated into high-powered laser systems, critical fiber optic communication setups, or advanced research laboratories, the PSSI Isolator ensures consistent and reliable operation across a myriad of optical applications.
488nm Polarization Insensitive Isolator (PSSI Series)
Specifications |
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|---|---|
| Type Of The Device: | Isolator |
| Operating Wavelength: | 488 nm |
| Max Power: | 0.05 W |
| Min Isolation: | 30 dB |
| Center Wavelength (λc): | 488 nm |
| Operating Wavelength Range: | λc ± 5 nm |
| Min. Isolation At 23℃, λc: | 30 dB |
| Max. Optical Power: | 50 mW |
Features
- Advanced Polarization Insensitive Design: Ensures consistent performance regardless of input polarization
- Centered at 488 nm Wavelength: Optimized for applications requiring precise optical isolation at this specific wavelength
- Low Insertion Loss: Typical insertion loss of just 1.5 dB, minimizing signal attenuation
- High Isolation: Provides a minimum isolation of 30 dB, effectively blocking unwanted signals
- High Optical Power Handling: Capable of handling optical power up to 50 mW, ensuring reliable operation in high-power environments
- Compatibility with Nufern 460-HP Fiber: Designed to work seamlessly with Nufern 460-HP Fiber for enhanced performance
- Wide Operating Temperature Range: Can operate within a temperature range of +25 to +45 ℃, suitable for various environmental conditions
Applications
- Laser Systems: Ideal for integrating into laser systems to prevent feedback and ensure stable performance
- Optical Instrumentation: Essential component for optical test and measurement setups, ensuring accurate signal detection
- Fiber Optic Communication Systems: Used to maintain signal integrity and minimize signal loss in fiber optic networks
- Research Laboratories: Valuable tool for optical experiments and research projects requiring precise isolation of optical signals
- Telecommunication Networks: Deployed in telecommunications infrastructure to enhance signal quality and reliability
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
The polarization insensitive isolator is designed to maintain consistent performance regardless of input polarization, ensuring reliable optical isolation in diverse optical environments.
The PSSI Isolator is optimized for a center wavelength of 488 nm, making it ideal for applications requiring precise isolation at this specific wavelength.
The typical insertion loss of the PSSI Isolator is just 1.5 dB, minimizing signal attenuation and preserving signal integrity and strength.
The PSSI Isolator achieves a minimum isolation of 30 dB at 23℃, effectively blocking unwanted signals and minimizing signal interference.
The PSSI Isolator is capable of handling optical power up to 50 mW, making it suitable for high-power optical systems and applications.
The PSSI Isolator is compatible with Nufern 460-HP Fiber, ensuring optimized performance and compatibility.
The PSSI Isolator is designed to operate within a wide temperature range of +25 to +45 ℃, allowing for reliable performance in various environmental conditions.
The available connector types for the PSSI Isolator include FC/UPC, FC/APC, SC/APC, SC/UPC, and None (N).
Yes, the fiber jacket type can be customized based on specific requirements, with options including 250μm Bare Fiber, 900μm Loose Tube, or Specify (S).
The PSSI Isolator is ideal for a wide range of applications, including laser systems, optical instrumentation, fiber optic communication systems, research laboratories, and telecommunication networks.