980-1060-1310-1480-1550 nm Polarization Maintaining Patchcord
Description
The Polarization Maintaining (PM) Patchcord series by GKER Photonics Co., Ltd is engineered to deliver exceptional environmental stability, high return loss, and low insertion loss, making it the ideal choice for critical applications. Designed for PM amplifiers, fiber lasers, and test instrumentation, these patchcords ensure precise polarization alignment, which is crucial for maintaining signal integrity in demanding optical systems.
The patchcords are available with a variety of connector types and wavelengths, including 980 nm, 1060 nm, 1310 nm, 1480 nm, and 1550 nm, allowing for versatility in a wide range of applications. The high extinction ratio further enhances their performance, particularly in polarization-sensitive environments.
With a robust design that supports continuous optical power of up to 300 mW and excellent temperature tolerance, the GK-PMP Series is built to perform reliably in diverse operating conditions. These patchcords are available in customizable fiber lengths and jacket types to suit specific requirements, ensuring optimal compatibility with your optical systems.
980-1060-1310-1480-1550 nm Polarization Maintaining Patchcord
Specifications |
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Connector Type: | UPC APC - |
Wavelength: | 980¹, 1060¹, 1310, 1480, 1550 nm |
Typ. Insertion Loss: | 0.3 0.4 dB |
Max. Insertion Loss: | 0.5² dB |
Min. Return Loss: | 50 60 dB |
Min. Extinction Ratio: | 23 dB |
Max. Optical Power (Continuous Wave): | 300 mW |
Fiber Length Tolerance: | ± 10, or specified % |
Operating Temperature: | - 5 to + 70 ℃ |
Storage Temperature: | - 40 to + 85 ℃ |
Features
- High Return Loss: Ensures excellent signal reflection with a minimum return loss of 50 dB (UPC) and 60 dB (APC)
- Low Insertion Loss: Provides efficient signal transmission with a typical insertion loss of 0.3 dB
- High Extinction Ratio: Maintains polarization integrity with a minimum extinction ratio of 23 dB
- Excellent Environmental Stability: Designed to operate reliably across a temperature range of -5°C to +70°C
- Versatile Compatibility: Available with multiple connector types and wavelengths for various applications
- High Optical Power Handling: Capable of managing continuous optical power up to 300 mW
Applications
- PM Amplifiers: Enhances performance in polarization-maintaining amplifiers by ensuring stable signal integrity
- Fiber Lasers: Ideal for fiber lasers requiring consistent polarization alignment for optimal output
- Test Instrumentation: Ensures precise measurements in testing environments, thanks to low insertion loss and high return loss
- Optical Communication Systems: Supports efficient data transmission in systems requiring high return loss and low insertion loss
- High-Precision Optical Systems: Essential for applications demanding high extinction ratio and excellent environmental stability
For pricing, technical or any other questions please contact the supplier
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- No markups, no fees
- Direct contact with supplier
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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 patchcord supports wavelengths of 980 nm, 1060 nm, 1310 nm, 1480 nm, and 1550 nm.
The typical insertion loss is 0.3 dB, while the maximum insertion loss is 0.5 dB.
The minimum return loss is 50 dB for UPC connectors and 60 dB for APC connectors.
The patchcord provides a minimum extinction ratio of 23 dB, ensuring polarization integrity.
The patchcord is available with UPC and APC connector types, including options for FC, SC, and LC connectors.
The patchcord can handle continuous optical power up to 300 mW, making it suitable for demanding applications.
It is designed to operate reliably across a temperature range of -5°C to +70°C, with storage capabilities ranging from -40°C to +85°C.
The patchcord uses PM Panda Fiber, ensuring high performance and stability in polarization-maintaining applications.
Yes, the fiber length can be specified according to customer requirements, with a standard tolerance of ±10%.
The patchcord is ideal for PM amplifiers, fiber lasers, test instrumentation, and other high-precision optical systems requiring stable polarization management.