Optical Combiner
(2+1)×1 Polarization Maintaining Pump & Signal Combiner (GK-PMMPC Series)
description1
Applications
● PM Fiber Laser
● PM Fiber Amplifiers
Specifications
Parameter |
Unit |
Value |
Product Type |
- |
PM (2+1)×1 |
Pump Wavelength Range |
nm |
900 - 1000 |
Signal Wavelength Range |
nm |
1060, 1550 |
Fiber Type for Input (Pump Channel) |
- |
Nufern 105/125 (0.15 NA, or 0.22 NA) |
Fiber Type for Input (Signal Channel) |
- |
PM 980, PM 1550, PM-6/125 DC, or PM-8/125 DC |
Fiber Type for Output |
- |
PM-10/125 DC, or PM-20/125 DC |
Signal Channel Insertion Loss |
dB |
< 0.50 |
Min. Pump Efficiency |
% |
90 |
Max. Input Pump Power |
W |
2 × 5 2 × 30 |
Package Dimensions |
mm |
P1: 50 (L) × 5 (W) × 5 (H) P2: 70 (L) × 12 (W) × 8 (H) |
Operating Temperature |
℃ |
0 to + 65 |
Storage Temperature |
℃ |
- 40 to + 85 |
¹Mode number summation of all input fibers should be less than that of output fiber. | ||
Package Dimensions
product description
The (2+1)×1 Polarization Maintaining Pump & Signal Combiner (PMMPC Series) is an advanced optical component designed to efficiently combine two multimode pump diodes and one signal channel into a single polarization-maintaining fiber output. This cutting-edge device leverages a proprietary pull and package technique to ensure high coupling efficiency and exceptional signal transfer efficiency, making it an indispensable tool for high-performance photonics applications. The combiner supports a wide wavelength range, allowing for flexible integration into various fiber laser and amplifier systems.
With custom configuration options, the PMMPC Series is tailored to meet specific customer requirements, ensuring optimal performance in a variety of settings. Its compact design allows for easy incorporation into existing systems, while maintaining the polarization of the input signal for applications that demand high precision and stability. Whether used in fiber lasers, amplifiers, or advanced communication systems, the PMMPC Series delivers reliable and efficient performance, making it a valuable asset in the field of optical technology.