PM 1064nm High-Power Optical Isolator
This PM 1064nm High-Power Isolator provides high isolation, low insertion loss, and excellent return loss for demanding optical systems. Designed for operation at 1064nm, it is optimized for slow-axis operation with fast-axis cutoff, ensuring reliable polarization maintenance and high extinction ratio under high-power conditions.
Ideal for MOPA fiber lasers, fiber amplifiers, CATV links, and optical test systems, the isolator is available in both single-stage and dual-stage configurations to meet different isolation requirements. Its compact and robust design guarantees stable performance across a wide operating temperature range. Custom configurations including fiber type, connector style, and fiber length are available to meet specific system integration needs.
Description
Features & Applications
| Features | Applications |
| High Isolation | CATV Fiberoptic Links |
| Low Insertion Loss | Fiberoptic Amplifiers |
| High Return Loss | Fiberoptic Systems Testing |
| Low Polarization Sensitivity | Fiberoptic LAN Systems |
| MOPA Fiber Laser |
Performance Specifications
| Parameter | Single | Dual |
| Operating Wavelength (nm) | 1064±5 | |
| Typical Isolation (dB) | 35 | 50 |
| Minimum Isolation (dB) | 27 | 45 |
| Typical Insertion Loss (dB) | 1.8 | 3.8 |
| Maximum Insertion Loss (dB) | 3 | 5.5 |
| Return Loss (In/Out) (dB) | 45 | 45 |
| Polarization Dependent Loss (dB) | 0.15 | 0.15 |
| Min. Extinction Ratio at 23℃ (PM Fiber Type) | 20 | 20 |
| Fiber Type | PM980/PM1060 | |
| Working Axis | Slow axis operation and fast axis cutoff | |
| Fiber Length (min) | 1M each end | |
| Maximum Power Handling (W) | 2 | |
| Operating Temperature (℃) | -20~+75 | |
| Storage Temperature (℃) | -40~+85 | |
| Package Dimension (mm) | 33*17*11.5 | 60*17*11.5 |
Ordering Information
| Product | Wavelength | Fiber Type | Connector | Fiber Length |
| Single stage | 1=1064nm | 1=Bare fiber | FC/PC | 0=0.5m |
| suppository | 2=900umLoose tube | FC/APC | 1=1m | |
| 3=PM1060 | SC/PC | 2=2m | ||
| SC/APC | ect. | |||
| ect. |
