Description

Atomfair FOCS-851 Fiber Optic Information & Optical Communication Experiment System

1. Product Overview

Atomfair FOCS-851 Fiber Optic Information & Optical Communication Experiment System is specially designed for professional teaching of fiber optics, fiber optic sensing and optical communication. The system features high integration, simple structure and convenient operation, supporting applications of 3 wavelengths (633nm, 650nm, 1550nm). It helps students master relevant basic principles and operations, improve practical ability, and is suitable for the needs of fiber optic communication and experimental technology related courses in physics teaching.

2. Core Features

• Covers multiple professional teaching scenarios with rich and comprehensive experimental content, directly addressing core knowledge points of fiber optics and optical communication;
• Integrates 3 commonly used wavelength light sources with integrated design of functional modules, easy observation of phenomena, suitable for classroom teaching and independent experiments;
• Uses optical fibers as core transmission and sensing devices, capable of sensing temperature and stress changes to help students deeply understand fiber optic sensing principles.

3. Main Experimental Content

• Demonstration experiment of basic knowledge of fiber optics;
• Experiment on coupling methods of optical fibers and light sources;
• Measurement experiment of numerical aperture (NA) of multimode optical fibers;
• Experiment on the nature and measurement of optical fiber transmission loss;
• Parameter measurement experiment of fiber optic beam splitters;
• Experiment on adjustable optical attenuators and their parameter measurement;
• Experiment on fiber optic isolators and their parameter measurement;
• Experiment on the principle of fiber optic pressure sensing;
• Experiment on the principle of fiber optic temperature sensing;
• Experiment on the principle of Mach-Zehnder fiber optic interference.

4. Core Knowledge Points

• Basic concepts of fiber optics, principles of fiber optic transmission and coupling;
• Physical significance and measurement principles of core parameters such as numerical aperture and transmission loss of multimode optical fibers;
• Working mechanisms and parameter characteristics of passive optical devices such as fiber optic beam splitters, optical attenuators and isolators;
• Basic principles and signal response mechanisms of fiber optic temperature and pressure sensing;
• Principles of Mach-Zehnder fiber optic interference and application logic of interference phenomena;
• Core application principles of optical fibers as transmission and sensing carriers in optical communication systems.

5. Specification Parameters (International Standard)

• Light source wavelength: Supports 633nm (>0.5mW), 650nm (0.4mW), 1550nm (1mW) with stable output, complying with teaching-level optical equipment standards;
• System integration: Integrated design of core functional modules, complying with international convenience specifications for teaching experimental systems;
• Measurement accuracy: Measurement errors of parameters such as numerical aperture and transmission loss meet the requirements of teaching experiments with good data repeatability;
• Safety standards: Equipment operation complies with international safety specifications for teaching optical instruments to ensure the safety of experimental operations.

6. Customization Services

Personalized solutions such as experimental content expansion and functional module upgrade can be customized according to the professional curriculum settings and key experimental teaching points of institutions.

Note

Since the complete configuration list is not clearly listed in the original text, the above information maximizes the presentation of core product value based on the existing description. The configuration can be further confirmed in combination with customization services and institutional needs.

If youe interested, have any questions, or have specific customization requirements, please feel free to contact us at inquiry@atomfair.com.