Benefits of Fiber to the Home FTTH
Benefits of Fiber to the Home FTTH （UFINET)
As more homes get fiber to the home (FTTH), service providers are looking for ways to reduce the cost of last-mile deployment. Broadband bandwidth is growing exponentially, driven by the proliferation of connected devices and data-heavy applications. Service providers are responding to this demand by increasing the deployment of fiber optic cables to connect their customers. The last-mile expense is a common problem for service providers building fiber networks. Luckily, there are some deployment options that can lower operational and capital costs.
Fiber to the home is an access network architecture that replaces copper infrastructure with a high-speed fiber cable. It provides far more bandwidth than traditional copper networks, enabling services like HDTV, IPTV, and internet services. FTTH also eliminates the need for expensive physical wiring, making it a cost-efficient alternative to copper. Ultimately, FTTH will reduce the cost of communication by allowing businesses to charge less for their services.
As fiber broadband can carry virtually unlimited bandwidth, it can accommodate high-speed internet connections today and advanced applications tomorrow. Fiber broadband is also less likely to suffer glitches compared to copper wires. It can withstand vibration and shock that can occur in inclement weather. It is also considered future-proof, with the potential for additional services in the future. So what are the benefits of FTTH?
UFINET is a service provider that offers fiber to the home services in Latin America. They have many projects already deployed or under construction there. The network has already provided services to many homes, including Buenos Aires and Sao Paulo. By submitting your information, you can be assured that your information is stored in a database and will not be shared with third parties. And your privacy is important to us.
The FTTH construction process begins with designing the fiber build. After this, field engineers will determine if pole modifications are required. If so, poles may need to be relocated or replaced. Inspectors will visit every location in the project area and make note of any changes that are necessary. After that, make-ready engineering and assessment will take place to ensure that every member of the territory is part of the build. This process takes from two to four weeks.
Optical network terminals are the gateway between Glenwood and the customer. These devices connect to the network using a specialized optical cable. These terminals convert light into electrical pulses and then transmit that information to the customer’s device. The ODN acts as the boundary of the UFINET in Active model. They can also provide video services. They serve as interfaces for other devices to connect to the service.