The continuous transition from analog to digital comes with the crucial and dire need for reliable transmission of video signals in the current and future coexistence. Numerous legacy installations have however, been using coaxial cables to handle images from cameras to recording or both. Nevertheless, coaxial transmitters pose its own inherent limitations, including signal degradation, restricted transmission distance and interference. In order to meet these needs, fiber optic is the way out. This article thus appreciates the benefits of fibre optic cable installation and performance, especially in Vancouver, BC.
To begin with, it is important to note that fiber optics is not a new innovation. The system dates back in 1980 in Chicago where the first link was installed. However, by the year 1980, commercial and long distance links were in use, with the fiber optic data links especially for RS-232 being available. From then, the system of communication has become rampant and dominant in the communication infrastructure.
You then choose a fiber optic that is specified to work over the range of your application. Be sure to note the type of fiber among other components, including connectors required for this product. It is important to put in mind the range of the link since it affects the type of transceivers and fiber needed. On one hand, the short links makes use of LED sources and multi-mode fiber. On the other hand, the longer links use single-mode and laser fibers.
Select a fibre optic cable type that is appropriate for the application. This can be done by evaluating the working environment of the optic connector plant. For instance, whether office environments, factory floors, outdoors or above ceilings. This is particularly important since each application puts certain requirements on the cable design and should be discussed with the manufacturers.
The wide spread of this form of transmission and communication system is credited to the wide range of advantages it offers. For instance, the optic offers an unrivaled degree of security. The system can be easily tapped or jammed and is immune to interference. This is why it is widely employed in perimeter alarms, cameras among other critical systems in government, military utility and civilian applications.
Select connectors of termination type and style that is appropriate for the application. The connectors have numerous termination methods, some using splicing, with trade-offs in functioning while others use adhesives and polishing. Ensure to discuss them with installers and manufacturers before embarking on the choice.
Install the cable plant. Before embarking on the plant installation, conduct a complete design. Establish criteria for the install by basing on the communications paths required. Also, determine the number of fibres needed of what types and add extras for growth and repairs. Plot connection route and ascertain connector lengths and mark splice and termination points.
Install the communications equipment, test their operation and document the fibre optic network. After the plant is tested for end-to-end optical loss and evidenced good, install the fiber optic communications gadget and test its operation. Accurately and completely document the installation for upgrading and troubleshooting. The documentation should identify all components, types of connectors, paths, section lengths, splice locations and terminations.
To begin with, it is important to note that fiber optics is not a new innovation. The system dates back in 1980 in Chicago where the first link was installed. However, by the year 1980, commercial and long distance links were in use, with the fiber optic data links especially for RS-232 being available. From then, the system of communication has become rampant and dominant in the communication infrastructure.
You then choose a fiber optic that is specified to work over the range of your application. Be sure to note the type of fiber among other components, including connectors required for this product. It is important to put in mind the range of the link since it affects the type of transceivers and fiber needed. On one hand, the short links makes use of LED sources and multi-mode fiber. On the other hand, the longer links use single-mode and laser fibers.
Select a fibre optic cable type that is appropriate for the application. This can be done by evaluating the working environment of the optic connector plant. For instance, whether office environments, factory floors, outdoors or above ceilings. This is particularly important since each application puts certain requirements on the cable design and should be discussed with the manufacturers.
The wide spread of this form of transmission and communication system is credited to the wide range of advantages it offers. For instance, the optic offers an unrivaled degree of security. The system can be easily tapped or jammed and is immune to interference. This is why it is widely employed in perimeter alarms, cameras among other critical systems in government, military utility and civilian applications.
Select connectors of termination type and style that is appropriate for the application. The connectors have numerous termination methods, some using splicing, with trade-offs in functioning while others use adhesives and polishing. Ensure to discuss them with installers and manufacturers before embarking on the choice.
Install the cable plant. Before embarking on the plant installation, conduct a complete design. Establish criteria for the install by basing on the communications paths required. Also, determine the number of fibres needed of what types and add extras for growth and repairs. Plot connection route and ascertain connector lengths and mark splice and termination points.
Install the communications equipment, test their operation and document the fibre optic network. After the plant is tested for end-to-end optical loss and evidenced good, install the fiber optic communications gadget and test its operation. Accurately and completely document the installation for upgrading and troubleshooting. The documentation should identify all components, types of connectors, paths, section lengths, splice locations and terminations.
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