Coupler Splitter
Multimode Fiber Filter Coupler (GK-MMFC Series) 1310-1550nm
description1
Specifications
Parameter |
Unit |
Value |
Center Wavelength |
nm |
1310, 1550 |
Operating Wavelength Range |
nm |
± 40 |
Configuration |
- |
1 x 2 2 x 2 |
Max. Excess Loss |
dB |
0.7 1.0 |
Max. Uniformity |
dB |
0.6 0.8 |
Tap Ratio |
% |
5 ± 1.0, 50, or specifiied |
Min. Return Loss |
dB |
35 |
Max. Optical Power (Continuous Wave) |
mW |
300 |
Fiber Type |
- |
Multimode Fiber,62.5/125,50/125,105/125 µm |
Max. Tensile Load |
N |
5 |
Operating Temperature |
℃ |
- 5 to + 70 |
Storage Temperature |
℃ |
- 40 to + 85 |
|
¹IL is 0.3 dB higher for each connector added. ²Above specifications are measured at low order modes. | ||
Package Dimensions
product description
The MMFC series, which stands for Multimode Fiber Collimator series, is a type of fiber optic component designed to work with multimode fibers. These collimators are engineered to provide efficient light coupling into and out of the fiber while maintaining high performance across a broad range of wavelengths. Here's a summary of their key features and applications:
Very Low Excess Loss: The MMFC series is designed to minimize the additional loss of light that occurs when the light is coupled into or out of the fiber. This ensures efficient transmission and maximizes the use of the available light power.
Broad Operating Band: These collimators have a wide range of wavelengths over which they can operate effectively. This broad bandwidth makes them suitable for a variety of applications where different wavelengths may be used, such as in fiber sensors or multiple wavelength communication systems.
High Stability and Reliability: The MMFC series is built to maintain consistent performance over time and under different operating conditions. This high level of reliability is crucial for applications where the fiber optic system needs to operate continuously without failure.
The MMFC series is a versatile and essential component in the world of multimode fiber optics, offering efficient, stable, and reliable performance across a broad range of applications. Their robust design and performance characteristics are critical for ensuring the efficiency and reliability of fiber optic systems.