1064 nm Polarization Insensitive Circulator
Description
The GKER 1064 nm Polarization Insensitive Optical Circulator (GK-FCIR Series) is a state-of-the-art optical device designed for high-precision lightwave applications. This circulator efficiently manages the direction of optical signals, channeling light from Port 1 to Port 2, and subsequently from Port 2 to Port 3. With its advanced design, the circulator minimizes signal loss and maximizes isolation, ensuring optimal performance in complex optical networks.
One of the standout features of the GK-FCIR Series is its low Polarization Dependent Loss (PDL) and Polarization Mode Dispersion (PMD). These attributes make it ideal for systems where signal integrity is paramount, such as high-speed data transmission and sensitive optical sensing. The circulator also boasts a high isolation rating, which significantly reduces the risk of signal interference between ports, thereby enhancing overall system reliability.
This device is built to withstand a wide range of environmental conditions, with excellent stability across varying temperatures. Its ability to handle high optical power levels, up to 300 mW continuous wave, makes it suitable for demanding applications in both industrial and research environments.
The GK-FCIR Series circulator is versatile and customizable, with options for different fiber types, connector types, and fiber lengths, making it adaptable to specific project requirements. Its compact form factor and robust construction ensure easy integration into existing systems, providing a reliable solution for enhancing optical network performance. Whether used in fiber optic communications, sensors, or other advanced optical systems, the GKER 1064 nm Polarization Insensitive Optical Circulator delivers exceptional results with unmatched precision.
1064 nm Polarization Insensitive Circulator
Specifications |
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|---|---|
| Type Of The Device: | Circulator |
| Operating Wavelength: | 1064 nm |
| Max Power: | 300 W |
| Min Isolation: | 20 dB |
| Center Wavelength (λc): | 1064 nm |
| Operating Wavelength Range: | λc ± 5 nm |
| Typ. Insertion Loss, 23 ℃: | 2 dB |
| Max. Insertion Loss, 23 ℃: | 2.2 dB |
| Min. Isolation,λc23 ℃all Polarizationstates: | 20 dB |
| Min. Crosstalk: | 45 dB |
| Min. Return Loss: | 50 dB |
| Max. Polarization Dependent Loss, 23 ℃: | 0.2 dB |
| Max. Polarization Mode Dispersion: | 0.1 ps |
| Max. Optical Power (Continuous Wave): | 300 mW |
| Max. Tensile Load: | 5 N |
| Operating Temperature: | 0 to + 30 ℃ |
| Storage Temperature: | - 40 to +85 ℃ |
| Fiber Type: | HI 1060 Fiber - |
Features
- High Isolation: Ensures minimal signal interference between ports
- Low Insertion Loss: Reduces power loss, maximizing signal strength
- Low Polarization Dependent Loss (PDL): Maintains signal integrity regardless of polarization changes
- Low Polarization Mode Dispersion (PMD): Supports high-speed data transmission with minimal dispersion
- Excellent Environmental Stability: Reliable performance under varying environmental conditions
Applications
- Fiber Optic Communications: Enhances signal routing efficiency in communication systems
- Fiber Optic Sensors: Ideal for precise signal processing in sensing applications
- Optical Networks: Supports high-performance networking with minimal signal loss and high isolation
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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
It routes incoming optical signals from Port 1 to Port 2, and from Port 2 to Port 3, with high precision.
It features low Polarization Dependent Loss (PDL) and Polarization Mode Dispersion (PMD), ensuring signal integrity regardless of polarization state.
The circulator offers low insertion loss (2 dB typical), high isolation (20 dB minimum), and high return loss (50 dB minimum).
Yes, it supports up to 300 mW of continuous wave optical power.
It is compatible with HI 1060 fiber.
The circulator operates efficiently between 0°C and +30°C.
Yes, it has a storage temperature range of -40°C to +85°C, making it suitable for various environmental conditions.
Various options are available, including different connector types, fiber jackets, and fiber lengths.
It is ideal for fiber optic communications, sensors, and other advanced optical systems.
Low insertion loss ensures minimal signal attenuation, while high isolation reduces interference between ports, improving overall system performance.