Fiber Coupling Fiber Collimator 50dB 80N High Power Collimator

The fiber collimator converts scattered light into a collimated beam through precise coupling between the lens and the fiber. Its core lies in the precise alignment of the lens and the fiber end face (tilt angle<0.5 °), combined with an 8 ° tilt angle (APC type) polishing process, which can effectively suppress end face reflection and achieve a return loss of ≥ 50dB. For example, in scenarios such as laser radar and optical communication testing, this design can ensure that the beam maintains a low divergence angle (typical value 0.01 °) during long-distance transmission, reduce optical path offset, and improve system debugging efficiency. Its high stability and low insertion loss (≤ 0.3dB) characteristics make it a key tool for high-precision debugging of optical systems.

In an optical microscope system, a fiber collimator converts the light source into a collimated beam, ensuring optical path stability and imaging clarity. For example, in high-precision imaging devices such as fluorescence microscopes and confocal microscopes, this design can reduce optical path offset and improve image resolution. Its high return loss characteristic can also reduce reflected light interference, ensure signal integrity, and is suitable for microscopic observation in fields such as biomedical and materials science.

High precision fiber collimators can achieve low insertion loss (≤ 0.3dB) and high transmittance (>90%) by optimizing the coupling process between the lens and the fiber (such as aberration reduction design for non spherical lenses). For example, in high-resolution optical testing such as spectral analysis and optical communication testing, this design can simultaneously process multiple signals, avoid wavelength cross interference, and ensure the accuracy of test results. Its high stability and anti vibration performance (mechanical stability up to 0.01mrad) make it an ideal choice for high-precision optical testing.

The adjustable focal length fiber collimator achieves flexible adjustment of focal length through the fine adjustment function of the lens component, meeting the needs of different application scenarios. For example, in scenarios such as laser processing and optical communication testing, this design can quickly adapt to different working distances, improving operational convenience. Its compact size (outer diameter 0.9mm/2.0mm) and high stability make it suitable for applications with limited space, such as aerospace and portable medical devices.