A programmable or configurable non-contact solid state switch device and method are provided for emulating a high reliability switch. The switch device senses position information related to a switch and is calibrated using a learning operation to learn position information of mechanical features of the switch and to map the positions of these features. Electrical outputs or functions are assigned to the mapped positions and stored such that the switch device generates the outputs when their corresponding positions are sensed. A switch device is uniquely configured to the mechanical system in which it operates.

A power system with an electric rotating machine providing an operation of power generation and power running, a switching circuit providing electricity for each phase, by switching a plurality switching elements ON/OFF by the electric rotating machine, a battery section connected to the switching circuit, and switches on electrical pathway, between the switching circuit and the battery section. A power shutoff section to shutoff an electrical pathway when an overcurrent flows in, at least one of the electric rotating machine and the switching circuit. Power control devices are provided with an overcurrent determination which determines that an overcurrent has occurred, based on results of, a first determination that determines a current flow has increased to a predetermined over current threshold, and a second determination that determines that current flow has decreased thereafter, and a switch control that switches the switches open based on a determined result of the overcurrent determination.

A multiple wired input/output device provides generated battery or regulated voltage outputs with adjustable turn-on and turn-off timing with sequence priority to engine running status. Separate aftermarket audio components, or a combination of aftermarket audio and non-audio related components are activated and deactivated in appropriate order for a variety of installation applications. One or more switched battery voltage inputs override the sequence priority of generated battery or regulated voltage output(s) in relation to engine running status, order or duration.

A starter switch (2) comprises a housing (3) extending along an axis (X) that delimits at least one interior space (4), at least one coil (5) housed in said interior space (4), at least one fixed core (10) passed through by a shaft (6) that is movable in translation along the direction of the axis (X) and at least one cavity (12) comprising an electrical connection area, said cavity being separated from the interior space (4) by the fixed core (10). The starter (1) switch (2) comprises at least one sealing device (22) providing a seal between the interior space (4) of the starter (1) switch (2) and the cavity (12) comprising the connection area.

The invention relates to a switching device (10) of a starting device for an engine, comprising: —two terminals (11, 12) of a supply electrical circuit of a motor; a solenoid device (13) having an axis (14) and comprising: —a solenoid coil (16) wound around said axis (14); —a plunger (17) which is partially housed in the solenoid coil (16) and which includes a core (18) and a contact plate (21); wherein, when electric current passes through the solenoid coil (16), the plunger (17) is caused to move axially from an inactive position to an active position, thereby moving a pinion gear of the motor into engagement with a ring gear of the engine, in which active position the contact plate (21) is in contact with the terminals (11,12) for closing the motor supply circuit; —a relay (30) having an axis and comprising: —a relay coil (36); —a movable member (31) which, when electric current passes through the relay coil (36), is caused to move from an open position in which electric current cannot pass through the solenoid coil (16), to a closed position in which electric current is made to pass through the solenoid coil (16); the solenoid device (13) and the relay (30) having one and the same axis (14).

An engine start control device that is capable of winding back a crankshaft more quickly at the time of an idling stop includes a swingback controller for performing a swingback control process for reversing a crankshaft when an engine is started by operating a starter switch, a windback reverse controller for performing a windback control process for reversing the crankshaft immediately after the engine is stopped by the idling stop control process, and a motor brake controller for performing a motor brake control process for braking the crankshaft reversed by the windback control process by rotating the crankshaft in the normal direction after the windback control process performed by the windback reverse controller. The value of a motor current supplied at the time the crankshaft is reversed by the windback reverse controller is set as a value equal to or larger than the value of a motor current supplied at the time the crankshaft is reversed by the swingback controller.

A control device includes an engine, a starter motor configured to perform engine start, a direct-current-to-direct-current converter, a battery coupled to the starter motor with the direct-current-to-direct-current interposed therebetween, and a controller. The controller is configured to execute control of switching between first and second traveling modes. The direct-current-to-direct-current converter is configured to supply an electric power of the battery to the starter motor, and to lower an output voltage to be supplied thereto. The controller is configured to execute output limit control of lowering the output voltage to lower the output current, in a case where an output current of the direct-current-to-direct-current converter becomes equal to or higher than a threshold. The controller is configured to initiate boost permitting control when initiating the engine start in association with switching from the second to first traveling mode. The boost permitting control makes the threshold higher than a usual threshold.

Methods and systems for starting an aircraft propulsion engine are described herein. Operation of the engine is controlled by an engine controller having a first channel and a second channel. An engine start request is received on the second channel while the first channel is inactive. It is determined which one of the first channel and the second channel was used to conduct a last successful engine start. Responsive to determining that the last successful engine start was conducted on the second channel, a predetermined time period is waited to elapse and for the first channel to reinitialize before commanding, via the first channel, an engine start based on the engine start request.

A solenoid drive may include a ferromagnetic housing having a coil receiving chamber axially limited by opposing face side walls, a cylindrical coil arrangement having at least one electric coil, the coil arrangement being arranged in the chamber and coaxially surrounding a cylindrical coil interior space, a ferromagnetic plunger stop having a central region projecting axially in the interior space, a ferromagnetic plunger arranged at the housing opposing the plunger stop, and a ferromagnetic bypass device extending in a circumferential direction and arranged coaxially with respect to the coil arrangement and radially within the coil. The plunger may project axially into the coil interior space and may be adjustable axially bi-directionally relative to the housing between active and distal positions, which are proximal and distal, respectively, with respect to the central region. The bypass device may be spaced apart axially from the face side walls. In the passive position, the plunger may project axially into the bypass device such that an axial overlap between the plunger and the bypass device may be defined.

A power relay device is provided that relays power from a power source and supplies the power to an electric component. The power relay device includes a main device body, a terminal cover, and a holding unit. The main device body includes a power source terminal electrically connected to the power source and a load terminal electrically connected to the electric component. The terminal cover includes a connection terminal electrically connectable to a connected subject that is one of the power source terminal and the load terminal. The holding unit selectively sets a temporary holding state in which the connection terminal is electrically disconnected from the connected subject or a final holding state in which the connection terminal is electrically connected to the connected subject.