What Is Working Of Signal Fire AI Fiber Splicer?
Fiber optic networks are important for high-speed communications structure, for providing fast internet, television, and voice services with high speed. Although, the combination of fiber optic cables is a delicate and specialized task that needs particular equipment. The Signal Fire AI series, specifically the signal fire ai-9 in Pakistan, offers a reliable, AI-powered option for fiber optic splicing. Thus, this solution makes the method faster, precise, and user-friendly. This blog will provide a complete guide about the working of signal fire AI splicing machines. Also, X500 Active in Pakistan has gained popularity due to its fast connectivity and portable design.
What is Signal fire AI fiber splicing?
The Signal Fire AI-9 series is a fiber optic fusion splicer that uses AI for better efficiency in fiber positioning and splicing. Hence, the device utilizes core alignment technology, which is necessary for exact placement of fiber cores during splicing. Moreover, Core alignment, supported by six motors, helps in reducing signal loss, and makes it perfect for high-speed fiber optic networks.
Significant aspects of the Signal Fire AI Fiber Splicer:
The Signal Fire AI model uses the latest technology and makes it ideal among standard fusion splicer machines. The followings are some significant aspects:
AI-Powered Core Alignment Technology:
The technology used in Signal Fire’s AI splicer machine is AI-powered core alignment that places the fiber cores accurately before splicing. Thus, The AI-9 model utilizes six high-precision motors to handle fiber placement accurately. Core alignment is more suitable than cladding alignment and is important for decreasing the loss of signals especially in single-mode fibers. The splicer automatically scans the fiber core’s placement, adjustments and alignments for giving a clear splice every time.
Quick Splicing and Heating Times:
Speed is necessary for technicians that have field work. So, the AI-9 model has a splicing time of about 5 seconds and a heating time of around 15 seconds. Therefore, quad-core processors enable them to deliver an instant cycle which speeds up working and splicing instructions. Moreover, the processor makes the splicer perfect for required environments such as FTTH (Fiber to the Home) installations and long-distance network cables.
High Magnification for accuracy:
The high magnification capacity of the AI-9 model helps the technicians to see the fiber positioning during alignment. This high level of magnification, shown on a big 5-inch color screen, provides a high level of precision and adjustment necessary for the fusion procedure.
Combined Power Meter and Visual Fault Locator:
The default Optical Power Meter (OPM) and Visual Fault Locator (VFL) are crucial for delivering signal strength and indicating faults. However, the OPM computes low levels within fibers to evaluate signal strength and quality, while the VFL determines failures or faults in the fiber. These aspects are ideal for maintenance, and help the technicians to validate their splices instantly.
Mobile App incorporation and Data Management:
By using mobile app connections, technicians can handle the AI-9 through Bluetooth, can modify settings and save splicing records to their smartphone or cloud storage. So, this aspect not only facilitates data management but also provides remote troubleshooting and configuration. Hence, there is not any requirement for cyclic manual input and saving time.
What is the working of Signal Fire AI Fiber Splicer?
Fiber Preparation:
The technician starts by splitting the fibers by cutting them to an equal length with a flat, even end face. Therefore, exact fiber preparation is crucial to lessen splice loss, as uneven or dirty fiber ends result in poor alignment and weak connections.
Fiber incorporation and Core Alignment:
The all set fiber ends are then positioned into the splicer’s fiber holders, which are designed to hold all types of fibers. These splicer fibers are single-mode (SM), multi-mode (MM), and non-zero dispersion-shifted fibers (NZDS). The AI system in the Signal Fire splicer automatically scans fiber types and begins the core alignment procedure. Six motors adjust the fiber cores to micrometer precision, by employing actual estimation to correct any divergence.
Fusion and Splicing:
After adjustment, the fusion splicer creates an electric arc to melt the fiber ends, joining them into a single, constant strand. However, this fusion procedure takes only 5 seconds and undergoes an average splice loss of 0.025 dB for single-mode fibers. So, it is ideal for long-distance applications. The splicer constantly aligns the arc temperature and length of time to give optimal splicing on the basis of fiber type and ecological conditions.
Heat Shrinking for Protection:
After the fusion of fibers, they are enclosed in heat-shrink tubing to shield the splice from ecological factors and physical damage. Therefore, the AI-9’s heating unit rapidly uses the protective tube, for completing the method in around 15 seconds. This quick heating time helps the technicians to perform jobs quickly and proficiently in field conditions.
Authentication and Troubleshooting:
By using the secured spliced fibers, the technician can utilize the combined OPM to compute signal loss across the splice. If any issues are detected, the VFL helps locate exact points of fault, providing visual confirmation of the splice quality.
Advantages of Signal Fire AI Splicers:
The Signal Fire AI-9 has multiple benefits over typical splicing equipment. So, it is ideal for network installations and maintenance teams:
- Flexibility and Durability: The structure of AI-9 has been made according to its usage in fieldwork. Thus, it has a powerful, rubber casing that shields against dust and water. Hence, its compressed size and default high-capacity battery, which can tackle around 240 splices on full charging. So, it is suitable for outdoor environments.
- Adaptability across Fiber Types: Signal Fire’s splicers have higher compatibility due to the huge range of different types of fibers. So, they can easily control various network setups without the requirement of extra equipment.
- User-Friendly Design: It is user-friendly as the TFT screen gives an apparent view of fiber alignment, and the app connectivity option simplifies data logging and management. So, these features make it the best option for technicians at different skill levels.
Closing words:
The Signal Fire AI-9 fiber splicer is the latest, AI-enabled tool made to simplify fiber optic network installation and maintenance effectively. Anyhow, the working of signal fire AI-9 helps the technicians to work speedily when they are outside for field work. The advanced technology with strong infrastructure is reliable for making high-speed connections.
FAQs:
Why is signal fire AI-9 suitable for field work?
The infrastructure of signal fire AI-9 is made to tackle diverse types of fibers like SM, MM and NZDS. So, it is compatible for every type of network setup.
What is X500 Active for network connections?
X500 Active is a portable device used for the installation of fiber-optic network installation specifically for FTtX.