Fiber optic coupling, passive testing, fiber optic end face processing, fusion splicing training

MXY5008Fiber optic coupling and parameter testing of optical passive components

Fiber end face processing fusion welding training system

1、 Product Introduction

Fiber optic communication, as an emerging technology, has advantages such as large capacity, long relay distance, good confidentiality, immunity to electromagnetic interference, and copper material savings. In recent years, it has developed rapidly and has been widely applied in various fields such as military communication and civilian communication. It is an important symbol of the world's new technological revolution and the main means of transmitting various information in the future information society.The coupling of fiber optic lines is crucial for the transmission of optical power during the use of optical fibers. There are two main system problems involved: 1. How to couple optical power from multiple types of light sources into a specific optical fiber; 2. How to transmit optical power from one fiber and couple it into another fiber through a specific device. Passive optical devices are an important component of fiber optic communication equipment. It is an optical component,It is also a component in other fiber optic application fields.This experimental instrument focuses on introducing the relevant parameters and testing methods of commonly used optical passive devices.For this purpose, the company has developed this experimental system to enable students to understand and recognize itRelated parameters and characteristics of fiber optic coupling, parameters and testing methods of optical passive devices, etc，By building an experimental platform, students can gain a deeper understanding and develop their hands-on abilities in calibrating optical paths and other aspects,It is a good choice for school metalworking internship (engineering internship) and engineering testing.

IIExperimental Content

1. 650nm laser and fiber coupling experiment

2. 1550nm fiber laser and fiber coupling experiment

3. Coupling experiment between fibers of the same mode

4. Coupling experiment between different modes of optical fibers

5. Comparative experiment on coupling characteristics of light source, microscope objective and collimator

6. Fiber optic converter testing experiment

7. Fiber optic converter testing experiment

8. Fiber coupler testing experiment

9. Fiber Optic Isolator Characteristics Testing Experiment

10. Testing experiment of wavelength division multiplexer and demultiplexing device

11. Adjustable Fiber Optic Attenuator Test Experiment

12. Fiber optic mechanical optical switch characteristic testing experiment

13. Characteristics testing experiment of fiber optic polarization controller

14. Performance parameter testing experiment of fiber optic polarization beam splitter (PBS)

15. Cognitive and operational experiments on different types of optical fibers, cables, and optical devices

16. Principles and Practical Operation Experiment of Welding Machine

17. Fiber stripping, cleaning, cutting, and fiber optic splicing training operation experiment

18. Fiber Fusion Training Experiment in Manual Mode

19. Fiber Fusion Training Experiment in Custom Mode

20. Basic Operation Experiment of Fiber End Face Processing

21. Basic Operation Experiment of Fiber Optic Coupling Technology

22. Basic Operation Experiment of Fiber Optic Coupling Technology

23. Optical power consumption method for testing the quality of fiber fusion splicing

IIIObjective of the experiment

1Understand fiber optic connectors and their principles and types, conduct experimental operations to measure connector parameters;

2Master the processing technology of the flat end face of the fiber optic head.

3Master the coupling and debugging techniques between optical fibers, and understand the impact of lateral and longitudinal deviations of optical fibers on fiber coupling losses.

4Master the basic techniques of fiber optic fusion splicing.

5Familiar with fiber optic models and structures, master their assembly methods, usage environment, and protective measures, etc;