CARA MENYAMBUNG KABEL FIBER OPTIC DENGAN MEKANIKAL SPLICING!
Summary
TLDRThis video tutorial demonstrates the process of splicing fiber optic cables, covering everything from preparation to testing. It starts with stripping the outer jacket and cleaning the fibers, followed by fusion splicing to join the cable segments. The video also addresses how to handle cable damage, including troubleshooting techniques for broken cables, and emphasizes the importance of using protective sleeves and proper cable tension. Additionally, testing methods ensure the splice is secure and functional. This guide is essential for technicians working on fiber optic networks, providing clear, hands-on instructions for successful cable splicing and repair.
Takeaways
- 😀 The video demonstrates the process of connecting fiber optic cables using tools explained in a previous video.
- 😀 The connection method used is called 'fusion splicing', which is commonly used in fiber optic networks.
- 😀 The video provides detailed instructions for preparing fiber optic cables before splicing, including stripping the outer and inner layers of the cable.
- 😀 The importance of using the correct tools, such as fiber strippers and splice protectors, is emphasized to ensure a proper connection.
- 😀 Two types of fiber optic cables are discussed: one for the main connection (blue) and one as a backup (orange).
- 😀 The fusion splicing process involves using a special tool to join two optical fibers together, and it requires precise measurements and handling.
- 😀 After splicing, the fibers are heated with a heat shrink tube to secure the splice and protect the fiber ends.
- 😀 The video also covers how to test the fiber optic cable after splicing using tools like an optical power meter.
- 😀 The importance of securing the fiber optic cables properly after splicing is discussed, including using cable ties and protective tubing.
- 😀 Finally, the video highlights the process of reconnecting and securing fiber optic cables in the field, even when cables are damaged (e.g., due to a tree falling or animal interference).
Q & A
What is the main focus of this video tutorial?
-The video tutorial focuses on explaining the process of fiber optic cable splicing, including both standard installation and the repair of broken cables using specific techniques like the 'Vitell The Spot' method and the 'forty-four' method.
What tools are required for fiber optic cable splicing as mentioned in the video?
-The necessary tools include a Vitell The Spot fusion splicer, cable strippers, heat shrink tubing, scissors, cleaning tissue, and an optical power meter for testing the spliced connection.
How does the 'Vitell The Spot' fusion splicing method work?
-The 'Vitell The Spot' method involves fusing two fiber optic cables by aligning their internal fibers using the fusion splicer, then securing the joint with heat shrink tubing for protection.
Why is cleaning important before splicing the fiber optic cable?
-Cleaning the fiber optic cables before splicing is essential to remove any debris or contaminants that could affect the quality of the splice and the performance of the connection.
What is the purpose of using heat shrink tubing during the splicing process?
-Heat shrink tubing is used to protect the splice by providing insulation, preventing damage, and ensuring the long-term durability of the fiber optic connection.
What are the two color-coded fiber cables in the video, and why are they used?
-The two color-coded fibers in the cable are blue (primary) and orange (backup). The blue cable is used for the main connection, while the orange one serves as a backup in case the blue cable is damaged.
How do you repair a broken fiber optic cable using the 'forty-four' method?
-The 'forty-four' method involves isolating the broken sections of the cable, stripping the protective layers, and then carefully splicing the fiber optic wires back together using a fusion splicer, followed by securing the splice with heat shrink tubing.
What should be done after completing the fiber optic cable splice to ensure its stability?
-After the splice is completed, it is important to use an optical power meter to test the connection's functionality. Additionally, the splice should be secured with proper protection, such as heat shrink tubing, and the cable should be re-tensioned if necessary.
How can you check if the fiber optic splice is successful?
-The splice can be checked by using an optical power meter or other testing equipment to verify that the signal is successfully transmitted through the spliced fiber and meets the required standards for performance.
What is the significance of using a cable tie and extra protection after splicing?
-A cable tie and additional protection ensure that the spliced fiber optic cable is securely fastened and protected from mechanical stress, preventing future damage to the splice and maintaining the integrity of the cable.
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