Embodiments provide an electrical connector having the ability for a high circuit count. An example electrical connector includes a plurality of contact traces extending along a circumference of a tapered post, on a plurality of respective planes perpendicular to a post axis. The electrical connector also includes a tapered cup positioned over the tapered post, having a plurality of inward facing terminal contacts corresponding to the plurality of contact traces, wherein the terminal contacts are configured to maintain contact as the tapered cup rotates about the post axis.

An electrical contact and an electric component socket configured to be electrically connected to an electric component, wherein the electrical contact is capable of preventing a defect that a contacting portion of the electrical contact bites into a terminal of the electric component, leaving an indentation or giving rise to a state where burrs are liable to occur. An electrical contact has a contacting portion that comes in contact with a terminal of an electric component, the contacting portion includes a plurality of convex portions provided around a center in a tip portion of the contacting portion, the convex portions have flat portions on an outer circumferential side, and peak-shaped portions extending from the flat portions toward the center to come in contact with the terminal, and the contacting portion includes valley-shaped portions, each valley-shaped portion being formed between the respective convex portions in the plurality of convex portions.

A system for managing grid interaction with a solar power source includes an energy exchange server, a plurality of solar energy sources, a plurality of interconnect socket adapters, and a plurality of energy exchange controllers, each energy exchange controller coupling to one of the plurality of interconnect socket adapters and dictating energy consumption based on energy pricing data received from the energy exchange server. Each interconnect socket adapter electrically couples to the power grid, one or more energy sinks, and a solar energy source, and the energy exchange server receives a real-time energy consumption data set, a real-time energy production data set, a set of environmental parameters and a starting energy price, and generates a current aggregate electricity demand value as a function of the real-time energy consumption data set and the environmental parameters, a current aggregate electricity supply value as a function of the real-time energy production dataset and the environmental parameters, and a current energy price as a function of the starting energy price, the current aggregate electricity demand value, and the current aggregate electricity supply value.

A system for managing grid interaction with a wind power source includes an energy exchange server, a plurality of wind energy sources, a plurality of interconnect socket adapters, and a plurality of energy exchange controllers, each energy exchange controller coupling to one of the plurality of interconnect socket adapters and dictating energy consumption based on energy pricing data received from the energy exchange server. Each interconnect socket adapter electrically couples to the power grid, one or more energy sinks, and a wind energy source, and the energy exchange server receives a real-time energy consumption data set, a real-time energy production data set, a set of environmental parameters and a starting energy price, and generates a current aggregate electricity demand value as a function of the real-time energy consumption data set and the environmental parameters, a current aggregate electricity supply value as a function of the real-time energy production dataset and the environmental parameters, and a current energy price as a function of the starting energy price, the current aggregate electricity demand value, and the current aggregate electricity supply value.

Interconnection meter socket adapters are provided. An interconnection meter socket adapter comprises a housing enclosing a set of electrical connections. The interconnection meter socket adapter may be configured to be coupled to a standard distribution panel and a standard electric meter, thereby establishing connections between a distribution panel and a user such that electrical power may be delivered to the user while an electrical meter measures the power consumption of the user. A power regulation module is disposed between the interconnection meter socket adapter, and configured to selectively connect one or more energy sources or energy sinks.

Embodiments provide an electrical connector having the ability for a high circuit count. An example electrical connector includes a plurality of contact traces extending along a circumference of a tapered post, on a plurality of respective planes perpendicular to a post axis. The electrical connector also includes a tapered cup positioned over the tapered post, having a plurality of inward facing terminal contacts corresponding to the plurality of contact traces, wherein the terminal contacts are configured to maintain contact as the tapered cup rotates about the post axis.

Interconnection meter socket adapters are provided. An interconnection meter socket adapter comprises a housing enclosing a set of electrical connections. The interconnection meter socket adapter may be configured to be coupled to a standard distribution panel and a standard electric meter, thereby establishing connections between a distribution panel and a user such that electrical power may be delivered to the user while an electrical meter measures the power consumption of the user. A power regulation module is disposed between the interconnection meter socket adapter, and configured to selectively connect one or more energy sources or energy sinks.