Ethernet Over Coax (EoC) technology utilizes existing coaxial cables by converting them into high-speed internet connectivity channels. This conversion process involves modulating Ethernet signals onto the coaxial cables, allowing for data transmission at faster speeds than traditional Ethernet connections.
The advantages of using EoC over traditional Ethernet or Wi-Fi connections include higher data transfer speeds, greater reliability, and improved security. EoC technology also offers better coverage and signal strength compared to Wi-Fi, making it a preferred choice for environments where a stable and fast internet connection is crucial.
THE MOST IMPORTANT UTILITY™ Dojo Networks provides THE MOST IMPORTANT UTILITY™ service: Reliable high-speed internet access. Internet service is touched by your residents more than their lights, hot water, or heat/AC. MDU owners and property managers agree that residents place a high priority on high-speed internet service and according to a survey by Entrata, a “basic technology package” that includes internet access tops the list of amenities for which residents are willing to pay a premium.
Posted by on 2023-05-19
Multi Dwelling Unit (MDU) Property Owners have been besieged over the past 30 years by cable and telecom companies offering to provide television and high-speed internet services through contracts that vary from simple Right of Entry (ROE) to complicated Installation & Service Agreements. Today, the complexity of these contracts continues to be great, and property owners should use caution and seek professional advice before signing any new or renewal agreements.
Posted by on 2023-05-03
Touched by your residents more than their lights or hot water, the Internet has become a required utility, and managed WiFi is the perfect way to deliver the utility to your tenants. Tenants believe that the Internet should just work—no questions asked, no matter where they are in your building or on your property. You want happy tenants, and you recognize the competitive advantage and potential income that managed WiFi offers. You also know that installing managed WiFi can require a substantial capital investment, so you need to do it right the first time, with a vendor you can trust and rely on. But how do you find the best vendor? What should you require, and what questions should you ask?
Posted by on 2023-04-27
Do you know what you are putting your residents through? by Joe Geroux I have been in the telecommunications Industry for over 30 years! Recently my sister moved from Naples, FL to Nashville, TN and trying to help my big sister get set up in her new apartment was one task I took on as her little brother!
Posted by on 2023-01-19
EoC can support multiple devices simultaneously on the same coaxial network. By utilizing splitters and filters, EoC systems can distribute internet connectivity to various devices within a residential or commercial setting without compromising speed or performance.
EoC technology handles interference and signal degradation on coaxial cables through advanced signal processing techniques and error correction mechanisms. By actively monitoring and adjusting the signal quality, EoC systems ensure a consistent and reliable internet connection even in the presence of external disturbances.
The typical data transfer speeds achievable with Ethernet Over Coax technology can range from 100 Mbps to 1 Gbps, depending on the specific EoC system and network configuration. These speeds make EoC a suitable option for high-bandwidth applications such as streaming, online gaming, and video conferencing.
Implementing EoC in a residential or commercial setting may require specific hardware components such as EoC adapters, splitters, and filters. Additionally, the distance between the devices and the EoC network may impact the overall performance and speed of the internet connection. It is essential to consider these factors when setting up an EoC network.
MDU Internet Infrastructure Used Currently For Commercial Applications in 2024
In terms of cost-effectiveness and reliability, EoC technology offers a competitive advantage over other broadband technologies. The initial investment in EoC equipment may be higher than traditional Ethernet or Wi-Fi setups, but the long-term benefits of faster speeds, better coverage, and improved security make EoC a cost-effective solution for businesses and households looking for a robust internet connection.
MDU broadband solutions, also known as multi-dwelling unit broadband solutions, differ from single-family residential deployments in several key ways. MDU broadband solutions are specifically designed to meet the unique needs of apartment buildings, condominiums, and other multi-unit residential complexes. These solutions often involve the installation of fiber-optic networks, Ethernet connections, and wireless access points to provide high-speed internet access to multiple units within the same building. In contrast, single-family residential deployments typically involve the installation of a single internet connection for a standalone house. MDU broadband solutions may also include features such as centralized management systems, bulk billing options, and shared amenities to accommodate the needs of multiple residents living in close proximity. Additionally, MDU broadband solutions often require specialized equipment and installation techniques to ensure reliable connectivity in a densely populated environment.
ONTs in MDU fiber optic installations are typically deployed and managed using a centralized approach, where a main distribution frame (MDF) is utilized to connect multiple ONTs within the building. The ONTs are installed in each individual unit or apartment, with fiber optic cables running from the MDF to each ONT location. Once installed, the ONTs can be managed remotely through a network management system, allowing for easy monitoring and troubleshooting of the network. This centralized management approach ensures efficient deployment and maintenance of the ONTs in MDU fiber optic installations.
Traffic engineering mechanisms are commonly applied in MDU internet networks to optimize network performance and ensure efficient data transmission. These mechanisms include Quality of Service (QoS) protocols, such as DiffServ and MPLS, which prioritize certain types of traffic based on their importance or sensitivity to delays. Bandwidth management tools, like traffic shaping and traffic policing, help regulate the flow of data to prevent congestion and ensure fair distribution of resources among users. Additionally, network monitoring and analysis tools are used to identify bottlenecks and optimize routing paths for improved performance. By implementing these traffic engineering mechanisms, MDU internet networks can deliver a reliable and high-quality service to their residents.
When considering the choice between EPON and GPON for MDU internet infrastructure, several factors come into play. These factors include the size of the MDU, the bandwidth requirements of the residents, the cost of deployment, the scalability of the network, and the availability of fiber optic infrastructure in the area. EPON, or Ethernet Passive Optical Network, may be preferred for smaller MDUs with lower bandwidth demands due to its cost-effectiveness and simplicity. On the other hand, GPON, or Gigabit Passive Optical Network, is better suited for larger MDUs with higher bandwidth needs as it offers higher data rates and greater scalability. Additionally, the existing fiber optic infrastructure in the area may also influence the choice between EPON and GPON, as leveraging existing infrastructure can help reduce deployment costs and simplify network management. Ultimately, the decision between EPON and GPON for MDU internet infrastructure will depend on a careful consideration of these various factors to determine the most suitable solution for the specific needs of the MDU.