| Allicdata Part #: | PO51M-LJ-1.5(40)-ND |
| Manufacturer Part#: |
PO51M-LJ-1.5(40) |
| Price: | $ 13.83 |
| Product Category: | Uncategorized |
| Manufacturer: | Hirose Electric Co Ltd |
| Short Description: | CONN RF COAX CBL JACK L-SHAPE |
| More Detail: | N/A |
| DataSheet: |  PO51M-LJ-1.5(40) Datasheet/PDF |
| Quantity: | 1000 |
| 1 +: | $ 12.56850 |
Specifications
| Series: | * |
| Part Status: | Active |
Description
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PO51M-LJ-1.5(40) is a type of miscellaneous field and working principle, a special designed device specifically used for the connectivity between fiber optic connectors and optical fiber cables. Initially developed to provide quick assembly and convenient maintenance of optical fiber networks, this device is compact and able to connect most of the standard fibers in the market. PO51M-LJ-1.5(40) is based on two important technologies, mechanical splice technology and soldering technology.
Mechanical splicing technology is the most common technology used in PO51M-LJ-1.5(40). It utilizes two levers that dissect the ferrule and makes the fibers easier to be connected together. This process is easy to perform and requires no epoxy or expensive components. On the other hand, soldering technology uses a heat source to melt the ferrule. After cooling down, the ferrule will form a solid connection between it and the fiber. The soldering process is more durable than the mechanical process, but it requires more skills and experience as it affects the stability of the cable.
In addition to these two technologies, PO51M-LJ-1.5(40) has also been designed to use an additional mechanical technique called pre-fiber-optic (PFO). This process utilizes mechanical elements to pre-fabricate two copies of the tailored connector onto the specified fiber, helping to easily attach the two fibers together. Besides, this technique also allows the distance between the two connectors to be adjusted in order to increase accuracy.
The working principles of PO51M-LJ-1.5(40) are divided into two parts, which are the mechanical splice and the soldering technology. The mechanical splicing works by connecting two loose ends of ferrule with each other by using two levers. Once the two ferrules are coupled, it will form an optical connection that is reliable and stable. On the other hand, the soldering technology works by heating up the ferrule and then forming a strong connection between it and the fiber. This results in a dependable connection between the two fibers.
PO51M-LJ-1.5(40) has a wide range of applications, from networking and data transmissions to the communication industry. It has proved to be a reliable and cost-efficient solution for various fiber optic and telecommunications-related needs. In addition, it can also be used in optical sensing and instrumentation applications, providing reliable and accurate measurements. Furthermore, it also offers enhanced performance in various fields of medical imaging, industrial automation and military operations.
In conclusion, PO51M-LJ-1.5(40) is an advanced and reliable technology used for the connection and maintenance of fiber optical networks. With its ability to utilize both mechanical splicing and soldering technology, it is highly reliable and cost-efficient. Furthermore, its wide range of applications makes it an ideal choice for various fiber optic and telecommunications needs.
Mechanical splicing technology is the most common technology used in PO51M-LJ-1.5(40). It utilizes two levers that dissect the ferrule and makes the fibers easier to be connected together. This process is easy to perform and requires no epoxy or expensive components. On the other hand, soldering technology uses a heat source to melt the ferrule. After cooling down, the ferrule will form a solid connection between it and the fiber. The soldering process is more durable than the mechanical process, but it requires more skills and experience as it affects the stability of the cable.
In addition to these two technologies, PO51M-LJ-1.5(40) has also been designed to use an additional mechanical technique called pre-fiber-optic (PFO). This process utilizes mechanical elements to pre-fabricate two copies of the tailored connector onto the specified fiber, helping to easily attach the two fibers together. Besides, this technique also allows the distance between the two connectors to be adjusted in order to increase accuracy.
The working principles of PO51M-LJ-1.5(40) are divided into two parts, which are the mechanical splice and the soldering technology. The mechanical splicing works by connecting two loose ends of ferrule with each other by using two levers. Once the two ferrules are coupled, it will form an optical connection that is reliable and stable. On the other hand, the soldering technology works by heating up the ferrule and then forming a strong connection between it and the fiber. This results in a dependable connection between the two fibers.
PO51M-LJ-1.5(40) has a wide range of applications, from networking and data transmissions to the communication industry. It has proved to be a reliable and cost-efficient solution for various fiber optic and telecommunications-related needs. In addition, it can also be used in optical sensing and instrumentation applications, providing reliable and accurate measurements. Furthermore, it also offers enhanced performance in various fields of medical imaging, industrial automation and military operations.
In conclusion, PO51M-LJ-1.5(40) is an advanced and reliable technology used for the connection and maintenance of fiber optical networks. With its ability to utilize both mechanical splicing and soldering technology, it is highly reliable and cost-efficient. Furthermore, its wide range of applications makes it an ideal choice for various fiber optic and telecommunications needs.
The specific data is subject to PDF, and the above content is for reference
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