Cost reduction for commercial projects
In the traditional way, FTTx network construction takes the administrative area as the network construction granularity, and the scope is large.
Whether it is urban or rural, commercial area, residential area or industrial area, regardless of the existing network coverage in the region and the competition in the broadband market, the construction is carried out on an indiscriminate scale.
This extensive method brings risks to the development of users after the network is delivered. Very large, new users can develop quickly in some regions, while the return on investment in some regions may not be expected.
Through refined business planning, the granularity of network construction is refined to communities or communities, and analysis is carried out one by one to identify high-value areas for priority construction, generate returns as soon as possible, roll out investment, and gradually drive network construction in low- and medium-value areas.
According to the progress of regional economic development, the FTTx network will be built in a planned and phased manner. Which areas are high value?
In principle, the density and number of potential users, the number of existing network pipeline and pole resources that can be used, and the scores of all regions based on these two dimensions, the top ranked users have more access users, and the region can benefit more old resources, ensuring that The average single-line cost of network construction is low.
Both fiber and copper cable have applications, each with advantages and disadvantages. There is no “right” or “wrong” response based on the application when choosing btween the two.
They are, in fact, mutually beneficial in many ways. Before selecting whether copper or fiber cable is best for your application, consider the following benefits of fiber cable.
Program planning to reduce costs
According to different geographical and geological conditions, different levels of safety and reliability, etc., many technical solutions for network construction have been developed, but the implementation costs are very different. By balancing network construction requirements, construction specifications and costs, cost reduction is achieved.
Under normal circumstances, multiple light splitting can reduce the amount of trunk optical cables; fully utilize the old and reduce civil construction;
For new construction, overhead is preferred to reduce pipeline schemes; for pipeline construction, micro-grooved and micro-pipes are preferred to reduce large-scale excavation for traditional pipeline construction;
Overhead construction reduces traditional hanging wire solutions, giving priority to self-supporting optical cables such as figure 8 and ADSS; for laying cables in pipes, air blowing is preferred to reduce manual cable laying; construction technology reduces complex fiber extraction operations; Reduce traditional installation and complex fiber fusion operations. In the project, implementing these successful practices according to local conditions will help reduce the overall network cost.
Network design to reduce costs
Optical fiber network design includes routing design, optical device capacity design, optical fiber core and device port allocation; design methods include manual CAD drawings and GIS automatic planning tools.
Due to CAD drawings, in addition to manual drawing, which is time-consuming, labor-intensive, and experienced, there is still no ideal spatial data analysis solution, which brings great difficulties to subsequent data docking and reuse. Therefore, GIS automatic planning tools are used as much as possible. High accuracy, good cost control, and fast design output.
There are many mature automatic design tools in the industry to realize the shortest path planning of optical fiber routing, improve the port utilization of optical components, and reduce redundant material configuration. In the process of network design, it is necessary to reasonably plan the length distribution of the fiber optic cable and the entry section of the feeder and distribution section, and the feeder and distribution section should be short.
Although it can reduce the initial investment of the project, it will bring great difficulties to the later development of users; the optical cables of each user’s home segment are scattered and independently laid, which is time-consuming, chaotic, and difficult to maintain, resulting in a high overall cost.
On-site survey to reduce costs
The site survey includes the geographic/traffic environment of the target construction area, the existing pipelines, whether the pole resources are available, whether there is enough space for the pipe holes, and the load-bearing status of the poles;
For new sites, etc., survey engineers can provide paperless feedback of survey data, photos and videos through the APP, avoiding the traditional manual sorting of massive information and outputting survey reports;
In addition, non-technical factors have a greater impact on the acquisition of the right of way, so try to be responsible for the customer or subcontract to a local professional team to control the overall cost.
How do you choose the right fiber optic drop cable?
Optical fiber cable has acquired significant traction in communication networks, and a dizzying number of suppliers are competing to produce and distribute fiber optic cables.
When it comes to optical fiber, it’s best to start with a reputable seller and then think about the selection criteria.
To help you out, you can check out this website for an in-depth guide.
What are the guidelines for installing a fiber optic drop cable?
To properly install fiber optic cables, it’s essential to follow a few rules.
You can go to this website to read 101 guidelines for fiber optic cable installation.
What’s the difference between fiber and copper cable?
Copper has metal strands that carry electrical pulses. On the other hand, fiber optics uses flexible glass threads to convey light pulses.
This difference frequently translates to the fiber being the best choice for a new or updated network, making the higher up-front cost worthwhile.
Unlike traditional optical fibers, cylindrical waveguides, flat fiber optic cables are ribbon-like planar samples, allowing for extended, totally flexible substrates.
The desire for more bandwidth from customers will continue to fuel the development of FTTH and its major components, such as drop cable. In FTTH, selecting the appropriate drop cable and drop cable termination technology is as critical as selecting the appropriate network design.
Fiber optic cable offers both benefits and drawbacks. Optical fiber, on the other hand, will eventually replace copper. They’re becoming increasingly common and widely utilized in today’s network.
Although the fiber optic drop cable is newer than broadband Internet or copper connections, it quickly became the preferred investment for businesses needing dependable high-speed Internet.