Copper to Fiber: The media converter of this type transforms the electrical pulses used in copper data networks to light pulses in data networks with fiber optics.Copper to copper media converters enable you to extend the transmission distance, as well as optimize the value of your existing network by reusing it. During the interfacing, they may pass the packets between different networks or they may even repeat the signals. Copper to copper media converters serves as an interface between different network standards. They work as standard converters or extenders. This is where copper to copper media converters can help. Enterprises are always finding ways to re-use their installed legacy cables for workgroups or key systems. They also help in connecting different Ethernet standards, workgroups, and distant workstations. Copper to Copper: All modern network solutions are designed to support copper cabling and various Ethernet standards.These converters also feature automatic link restoration that enables quick network restoration. They are equipped with features like auto-MDI/MDIX, auto-negotiation, and an active link pass through. Standalone media converters can meet diverse networking requirements. They can be used to connect a remote workstation or an access point that is wireless. Standalone Media Converters: The media converters are used to meet the cabling need of non-IT applications.Slide-in media converter cards draw power from the chassis and they feature egress and ingress ports to meet the needs of the network. Slide-in Media Converter Cards: These slide-in media converter cards are named so because they are slid into the chassis to ensure flexibility.These media converters support high-density conversion in areas, where flexibility is required to mix and match different types of cables and networks. Chassis-based media converters are used for these applications. Some applications like data converters, LAN wiring closets, and switching rooms use many cables, which are terminated at various places to ensure network connectivity. This has brought various changes in the cabling. Chassis: Enterprise networking has transformed over the years.These media converters are also ideal for applications with a compact footprint. These are simple conversion devices that help create a connection between copper and fiber cabling. This is where mini media converters can be used. Mini Media Converters: Many times, network managers find it difficult to add network services to non-IT applications like security cameras or in applications where the cabling may not be present.CE 2 is the latest standard of CE connectors. CE media converters are used to extend network connections or bridge different network types. They are mainly used to extend Ethernet to provide Wide Area Network (WAN) connectivity. Carrier Ethernet Media Converters: These media converters are popularly referred by their abbreviation CE media converters.These media converters also enable users to optimize the value of their existing network and are suited for industrial applications utilizing fiber cables and driven by EMI noise challenges. Hardened media converters enable users to connect different types of cables and media, typically copper to fiber in outdoor environments. This construction protects it from temperatures, dust, swigs, and moisture. Hardened Media Converters: The networking equipment to be used in climate-controlled equipment features a hard enclosure that is rated to an ingress protection (IP) scale.They are available in both standard and mini sizes. These connectors allow businesses to optimize the value of their existing networks by extending their distance, or extending the distance between two similar devices, or extending the life of non-fiber based equipment. They are used to connect different types of cables or media.
Enterprise Media Converters: As the name suggests, these media converters are widely used in enterprise network cabling applications.PoE media converters eliminate the need for additional cables and are widely used in security cameras, IP phones, and wireless access points. By doing so, they power the end devices connected to them and also optimize the utility of the Ethernet standard.