A fiber optic splicing machine is a device used to join two fiber optic cables together by melting, or fusing, their ends together. This creates a permanent, low-loss connection that is essential for high-speed data transmission in telecommunications and internet networks.
Fiber optic splicing machines come in a variety of types and sizes, ranging from handheld units that can be used in the field to large, automated machines that are used in manufacturing and large-scale projects.
To use a fiber optic splicing machine, the fibers are first stripped of their protective coating and carefully cleaved to create a clean, flat end face. The fibers are then placed in the splicing machine and aligned using built-in alignment tools. Once the fibers are properly aligned, the splicing machine applies heat or pressure to fuse the fibers together.
Fiber optic splicing machines are highly precise and require careful handling to ensure a successful splice. They are typically used by trained technicians in telecommunications and internet service provider (ISP) companies, as well as in research and development labs.
Types of Fusion Splicing Machines
There are several types of active fiber optic fusion splicing machines available on the market, including:
Core alignment fusion splicers: These use a camera to align the cores of the fibers, resulting in a low-loss splice. Core alignment fusion splicers are typically more expensive than other types of active splicers, but they offer the highest precision and lowest loss.
Cladding alignment fusion splicers: These use a camera to align the cladding of the fibers, resulting in a lower-loss splice than mechanical splicers. Cladding alignment fusion splicers are typically less expensive than core alignment splicers, but they are not as precise.
Fixed v-groove fusion splicers: These use a fixed v-groove to align the fibers and are typically less expensive than other types of active splicers. Fixed v-groove fusion splicers are not as precise as core or cladding alignment splicers, but they offer a faster splicing time.
A ribbon fiber splicing machine is a type of fusion splicer that is specifically designed to splice ribbon fiber optic cables. Ribbon fiber cables are made up of multiple fibers that are grouped together and encased in a single protective coating, rather than being individually coated like standard single-fiber cables.
Automatic Adaptive Core Fusion Splicer T-57
The Sumitomo Electric T-57 Automatic Adaptive Core Fusion Splicer is a high-end, fully automated fusion splicer that is designed to minimize the amount of manual labor required. It is capable of splicing both single-fiber and ribbon fiber optic cables and features a built-in video microscope for precise fiber alignment.
The T-57 uses an active fusion splicing method, utilizing an electric arc to heat and fuse the fibers together. It also has a built-in heater that can be used to shrink protective sleeves or splice protectors onto the splice.
The T-57 has a user-friendly interface and a large, color touchscreen display that allows the operator to easily access all of the splicer's functions. It also has a variety of built-in safety features, including overcurrent and overvoltage protection, to ensure the operator's safety during use.
The T-57 is suitable for use in a variety of applications, including telecommunications, internet service provider (ISP) networks, and research and development labs. It is typically used by trained technicians who are experienced in fiber optic splicing.
High Definition Core Aligning Fusion Splicer Type-72C+
The Sumitomo Electric Type 72-C+ Fusion Splicer is a high-end, core alignment fusion splicer that is designed for splicing single-fiber and ribbon fiber optic cables. It uses a camera to align the cores of the fibers, resulting in a low-loss splice.
The Type 72-C+ has a user-friendly interface and a large, color touchscreen display that allows the operator to easily access all of the splicer's functions. It also has a variety of built-in safety features, including overcurrent and overvoltage protection, to ensure the operator's safety during use.
The Type 72-C+ is capable of splicing both standard single-mode and polarization-maintaining fibers, and it has a built-in dual heater that can be used to shrink protective sleeves or splice protectors onto the splice simultaneously. It is suitable for use in a variety of applications, including telecommunications, internet service provider (ISP) networks, and research and development labs.
The Type 72-C+ is typically used by trained technicians who are experienced in fiber optic splicing. It is known for its high precision and low loss, making it ideal for use in mission-critical applications where reliability and performance are critical.
Active Clad Alignment Fusion Splicer T-400S
The Sumitomo Electric T-400S Fusion Splicer is a high-end, active fusion splicer that is designed for splicing single-fiber and ribbon fiber optic cables. It uses an electric arc to heat and fuse the fibers together, resulting in a low-loss splice.
The T-400S has a user-friendly interface and a large, color touchscreen display that allows the operator to easily access all of the splicer's functions. It also has a variety of built-in safety features, including overcurrent and overvoltage protection, to ensure the operator's safety during use.
The T-400S is capable of splicing both standard single-mode and polarization-maintaining fibers, and it has a built-in heater that can be used to shrink protective sleeves or splice protectors onto the splice. It is suitable for use in a variety of applications, including telecommunications, internet service provider (ISP) networks, and research and development labs.
The T-400S is typically used by trained technicians who are experienced in fiber optic splicing. It is known for its high precision and low loss, making it ideal for use in mission-critical applications where reliability and performance are critical.
It is important to note that the T-400S is an active fusion splicer, which means it uses an electric arc to heat and fuse the fibers together. It is a clad aligning fusion splicer, which uses a camera to align the cladding of the fibers. Clad aligning fusion splicers are typically less expensive than core alignment splicers, but they are not as precise.
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