When you consider population growth, economic development, and all of the new technologies requiring electricity, it is really amazing that the electrical power generation, transmission and distribution system has survived for decades with limited intelligence. But the emergence of independent power producers, green power sources and new regulatory regimes is making it imperative to make the grid "smarter."

When power inflows and outflows don’t match, voltage fluctuations occur on the grid. Excess demand lowers voltages, eventually to problematic levels. Power storage can address part of the problem by temporarily boosting power supplied to the grid, but storage is both technically challenging and very expensive. A better approach is to match power flowing into and out of the grid based on real-time information and control systems. The grid receives power from a variety of conventional and green power sources. The grid then distributes this power to industrial, commercial and residential consumers. Power flowing into the grid must be matched with power outflows as closely as possible on a real-time continuous basis.

These real-time information and systems necessarily rely on wired and wireless communication networks, and the de facto standard for these networks is Ethernet. Various Ethernet protocols and attendant hardware including switches, routers and connectors form the power grid communication backbone.

The full white paper "Ethernet Enables the Smart Grid" will examine how the electric landscape has changed and how Ethernet-based SCADA systems can make the grid "smarter". To access, click here.

Download the white paper "The Case for Specifying Industrial Ethernet Cable for Harsh Environments"