DACAS-Digital Analysis Core Alignment Systems With 6 Motors
Number of Fiber | Single |
---|---|
Applicable Fibers | SM(ITU-T G.652 & G.651 & G.655) |
Compatible Fiber/Cable | 0.25–3.0mm/Indoor Cable |
Cleaved Length | Diameter: 0.125–1 mm / Cleave Length: 5–16 mm |
Diameter | Cladding: 80–150 µm; Coating: 100–3000 µm |
Splicing Mode | Pre-set 41 splicing modes, max 100 modes |
Heating Mode | Pre-set 5 heating modes (20/30/40/50/60mm), max. 1.00 modes |
Typical Splice Loss | SM: 0.02dB dB; MM: 0.01 dB; DS: 0.04dB dB; NZDS: 0.04 dB; G.657: 0.02 dB |
Return Loss | 60dB |
Lighting | 3 White LEDs |
Splicing Time | Quick mode: 6s |
Estimated Splice Loss | Available / Accuracy: < 0.1 dB |
Heating Sleeve Length | 20 - 60 mm |
Heating Time | Quick heating time: 13s; typical heating time: 30s |
Results Storage | 20,000 latest records & 200 images |
Storage Condition | 0 – 95% relative humidity, -40°C |
Display | 900 bi-directional view, 5.0" Color high-resolution Resolution Display |
Electrode Life | 5000 arcs |
Optical fiber accessories and fusion splicing machines are essential components in the field of fiber optic communication and network infrastructure. Let's explore each of them in more detail:
Connectors and Adapters: These are used to terminate and connect optical fibers. Common connector types include SC, LC, ST, and MTP/MPO. Adapters are used to join connectors of different types.
Patch Cables and Pigtails: Patch cables are short lengths of fiber with connectors on both ends, while pigtails have a connector on one end and bare fiber on the other. They are used for connecting devices to the network.
Splice Trays and Enclosures: These provide protection and organization for fiber splices. Splice trays hold fusion or mechanical splices securely in place.
Cable Management: Includes cable ties, racks, and enclosures to organize and secure fiber optic cables in a neat and efficient manner.
Fusion Splicing: Fusion splicing is a technique used to join two optical fibers by melting or fusing them together. This process ensures low insertion loss and high mechanical strength at the splice point.
Fusion Splicing Machine (Splicer): This machine is used for precisely aligning and fusing optical fibers. There are two main types of fusion splicers: single-fiber splicers and ribbon splicers for multi-fiber cables.
Alignment Methods: Fusion splicing machines use different alignment methods, such as core alignment and cladding alignment, to achieve optimal splice performance.
Cleaving Tools: Proper cleaving of the fiber ends is crucial for successful fusion splicing. Cleaving tools are used to create a flat and smooth surface for the fusion process.
Splice Protection: After fusion splicing, the exposed splice point needs protection. Heat-shrink sleeves or mechanical splice protectors are commonly used to provide protection against environmental factors.
Having high-quality accessories and fusion splicing equipment is essential for building reliable and efficient fiber optic networks. Proper installation and maintenance using these tools ensure optimal performance and longevity of the optical fiber infrastructure.
The Tumtec V9+ is a specific model of fusion splicer manufactured by Tumtec, a company specializing in fiber optic fusion splicing technology. Here are some key features and specifications of the Tumtec V9+ fusion splicer:
High Precision Fusion Splicing: The Tumtec V9+ is designed for high precision fusion splicing of optical fibers, ensuring low splice loss and high splice quality.
It utilizes advanced fusion splicing technology to achieve consistent and reliable splices.
Core Alignment Technology: The V9+ model likely utilizes core alignment technology, which aligns the cores of the optical fibers for optimal splicing performance.
Core alignment ensures accurate alignment of the fiber cores, resulting in low splice loss and high splice strength.
Fast Splicing and Heating: The Tumtec V9+ is capable of fast splicing and heating, allowing for efficient fusion splicing in various environments.
It is equipped with fast splicing and heating modes to expedite the splicing process while maintaining quality.
User-Friendly Interface: The fusion splicer is designed with a user-friendly interface, featuring an intuitive touchscreen display for easy operation.
It may have built-in software for managing splice data, performing splice quality evaluations, and configuring splicing parameters.
Durability and Portability: The Tumtec V9+ is likely built to withstand harsh environments and rugged conditions, making it suitable for field use.
It may feature a compact and lightweight design for portability and ease of transport.
Battery Operation: It may be equipped with a rechargeable battery for cordless operation, allowing users to perform splicing tasks in locations where power sources are limited or unavailable.
Splice Protection and Management:
The fusion splicer likely includes features for splice protection, such as splice sleeves or splice trays, to ensure the longevity and reliability of spliced fibers.
It may offer options for managing splice data, such as storing splice records and generating splice reports.
Overall, the Tumtec V9+ fusion splicer is designed to provide high-performance fusion splicing capabilities with user-friendly operation, making it suitable for various applications in fiber optic network installation, maintenance, and repair.
Youtube Link: https://www.youtube.com/watch?v=-xETd-liPb8
Hear some related Tumtec Fusion Splicer links below:
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