A power supply control apparatus includes: a first system configured to supply electric power of a first power supply to a first load; a second system configured to supply electric power of a second power supply to a second load; an inter-system switch provided in a connection path that connects the first system to the second system, and capable of connecting the first system to the second system and disconnecting the first system from the second system; a primary ground fault detection unit configured to cut off the inter-system switch when a ground fault of the first system or the second system is detected by the primary ground fault detection unit; a secondary ground fault detection unit as defined herein; and a mask processing unit as defined herein.

It is intended to achieve excellent supply of power to connection destination equipment. Electronic equipment includes a receptacle having a plurality of electric terminal sets. The electric terminal sets each include a first electric terminal for power, a second electric terminal for detection, and a third electric terminal for grounding. A configuration of an interface cable connected to the receptacle is identified on the basis of signals acquired from the second electric terminals of the plurality of electric terminal sets. Power is supplied to external equipment through the first electric terminals of some or all of the plurality of electric terminal sets in accordance with the identified cable configuration.

It is intended to achieve excellent supply of power to connection destination equipment. Electronic equipment includes a receptacle having a plurality of electric terminal sets. The electric terminal sets each include a first electric terminal for power, a second electric terminal for detection, and a third electric terminal for grounding. A configuration of an interface cable connected to the receptacle is identified on the basis of signals acquired from the second electric terminals of the plurality of electric terminal sets. Power is supplied to external equipment through the first electric terminals of some or all of the plurality of electric terminal sets in accordance with the identified cable configuration.

A switch arrangement for providing alternative distribution paths in a system for distributing electrical power in a vehicle including electrical power supplies and electrical loads. The switch arrangement includes a first switch adapted to be connected to a first electrical element, a second switch adapted to be connected to the first electrical element and a second electrical element, and a third switch adapted to be connected to the electrical element and a third electrical element. Each of the first, second, and third switches is independently controllable, and selective operation of each of the first, second, and third switches to its open or closed state interconnects at least two of the first, second, and third electrical elements to establish one of multiple alternative distribution paths to connect one of the power supplies and one of the loads or to connect two of the power supplies.

A power supply system includes a plurality of power conversion devices connected in parallel with each other, a load state detector to detect an operating state of a load connected to the DC system, and a command generator to generate a distribution voltage command Vref Each of the power conversion devices includes a DC voltage controller to generate an output power command Pdc_ref based on a voltage of the DC system and the distribution voltage command Vref, and an AC/DC converter to convert AC power received from the main power source based on the output power command Pdc_ref and output the converted power to the DC system. The command generator generates the distribution voltage command Vref such that loss of the load connected to the DC system is reduced, based on a detection result of the load state detector.

An electric power converter is electrically connected to an electric storage device. The electric power converter is configured to refer to, according to voltage measured by the electric power converter, a reference function as output target for the electric storage device, the reference function having drooping characteristic and representing a control target function. The reference function has a constant-input-output region over a predetermined voltage range. The reference function is updated based on battery status of the electric storage device.

An electric power converter is electrically connected to an electric storage device. The electric power converter is configured to refer to, according to voltage measured by the electric power converter, a reference function as output target for the electric storage device, the reference function having drooping characteristic and representing a control target function. The reference function has a constant-input-output region over a predetermined voltage range. The reference function is updated based on battery status of the electric storage device.

A system is provided which comprises a power converter circuit, a plurality of DC-DC converter circuits, and a controller. The power converter circuit is configured to convert an AC voltage to a DC voltage. The DC-DC converter circuits are configured to convert the DC voltage output from the power converter circuit into respective regulated DC voltages. The controller is configured to control and program operations of the DC-DC converter circuits.

A DC voltage distribution arrangement and method of controlling a DC voltage distribution system, the DC voltage distribution system including a DC voltage bus, a fuel cell electrically connected to the DC voltage bus, an energy storage and an energy storage converter, wherein the input of the energy storage converter is connected to the energy storage and the output of the energy storage converter is connected to the DC bus. The method comprises providing a DC voltage reference for the energy storage converter, the energy storage converter controlling the voltage of the DC voltage bus by providing power from the energy storage or to the energy storage, detecting power flow of the energy storage converter, and changing the DC voltage reference on the basis of the detected power flow to change the power taken from the fuel cell.

A power supply device is mountable to a vehicle and includes: a high-voltage battery; a low-voltage battery of which an output voltage is lower than that of the high-voltage battery, and which can be charged by output power from the high-voltage battery; and a control unit configured to perform charging/discharging control for the high-voltage battery and the low-voltage battery. The control unit performs feeding control for causing the high-voltage battery to supply power to a predetermined on-vehicle device while consumed power is higher than a predetermined value in a state in which a main switch of the vehicle is not on.