Abstract: Methods, apparatus, media and signals for controlling power drawn from an energy converter to supply a load, where the energy converter is operable to convert energy from a physical source into electrical energy. Power drawn from the energy converter is changed when a supply voltage of the energy converter meets a criterion. The criterion and the change in the amount of power drawn from the energy converter are dependent upon a present amount of power supplied to the load. The methods, apparatus, media and signals described herein may provide improvements to DC to AC maximum power point tracking in an energy conversion system such as a photovoltaic power generation system.
Abstract: Methods, apparatus, media and signals for controlling power drawn from an energy converter to supply a load, where the energy converter is operable to convert energy from a physical source into electrical energy. Power drawn from the energy converter is changed when a supply voltage of the energy converter meets a criterion. The criterion and the change in the amount of power drawn from the energy converter are dependent upon a present amount of power supplied to the load. The methods, apparatus, media and signals described herein may provide improvements to DC to AC maximum power point tracking in an energy conversion system such as a photovoltaic power generation system.
Abstract: An AC power supply (10) can be connected in parallel with similar supplies to drive loads (16). Each of the AC power supplies (10) incorporates a discrete controller functioning based on parameters sensed locally and without reference to any of the other supplies.
Abstract: An electrical connector apparatus includes an electrically insulating base, and a conductor extending through the base. The conductor may include a first electrical terminal located on a first side of the base and a second electrical terminal located on a second side of the base. The apparatus further includes at least three spaced apart guides on the first side of the base, all of the spaced apart guides being adjacent the first electrical terminal and being operable to guide a wire terminated to the first electrical terminal to extend in any direction between two adjacent guides. A cover may be applied to the electrical connector, the cover including a housing including joined rigid wall portions configured to extend about a perimeter and over a top of an electrical terminal, at least one of the wall portions having a conductor opening.
Abstract: A method and apparatus for reducing switching losses in a leg of a switching circuit during commutation of current between first and second complementary switching elements thereof is disclosed. The method involves impeding changes in current flow between a load current node and a first supply conductor through a first path comprised of a first saturable inductor and the first switching element, while impeding changes in current flow between the load current node and a second supply conductor through a second path comprised of a second saturable inductor and the second switching element.
Abstract: A method and apparatus for reducing switching losses in a leg of a switching circuit during commutation of current between first and second complementary switching elements thereof is disclosed. The method involves impeding changes in current flow between a load current node and a first supply conductor through a first path comprised of a first saturable inductor and the first switching element, while impeding changes in current flow between the load current node and a second supply conductor through a second path comprised of a second saturable inductor and the second switching element.