An idling stop control device includes an authenticator, a storage, a getting-off detector, and an engine restart permitter. The authenticator is installed in a vehicle, performs authentication via a wireless communication with a mobile device, and repeatedly performs, while the vehicle travels, an authentication operation at predetermined intervals. The storage stores result and time of authentication as the authentication history during travel. The engine restart permitter determines permission or prohibition of restart of the engine in accordance with the authentication history and getting-off information, permits restart of the engine when the authentication is successful and permits, in a case where the authentication fails, restart of the engine when a history of success of authentication has been stored in the storage during travel and the getting-off is not detected after the authentication has been successful.

Disclosed are a vehicle engine control apparatus and a vehicle engine control method. An engine of a vehicle is turned off after a predetermined time elapses when a user gets off the vehicle with a smart key after stopping the vehicle indoors (e.g., a garage or an underground parking lot) while the engine is in an ON state. The engine of the vehicle is maintained in the ON state when there is a user's request. Thus, the ON/OFF state of the engine of the vehicle is may be controlled depending on the user's situation.

A vehicle includes a controller programmed to activate a fuel savings feature upon satisfaction of transition conditions and inhibit the transition according to satisfaction of inhibit conditions. The controller is further programmed to accumulate data indicative of the inhibit conditions and a time associated with the conditions being satisfied over a drive cycle.

An ISG vehicle system may include an alternator supplying electric power of a vehicle and alternating engine power to electrical energy, a battery storing the electric power of the vehicle, an alternator supplying electric power of a vehicle and alternating engine power to electrical energy, a V2X controller receiving external infrastructure information and determining vehicle location, an ISG controller obtaining the external infrastructure information and the vehicle location through communication with the V2X controller and obtaining the status of the battery and charge amount information through communication with the battery sensor to determine operable time of ISG (Idle Stop and Go) function of the vehicle and whether the ISG function operates, and an engine controller receiving operation signal of the ISG function through communication with the ISG controller to determine whether the engine operates.

An apparatus of controlling starting of an engine may include a starter, an electronic clutch mounted between the engine and a transmission, a gear position detector, a clutch controller configured to control the electronic clutch, receive the gear stage position data from the gear position detector, and generate a gear stage status data, and a vehicle controller connected to the clutch controller through a vehicle communication network, and configured to receive start signal, determine whether the vehicle communication network and the clutch controller are normal, receive the gear position data from the gear position detector and the gear stage status data from the clutch controller when the vehicle communication network and the clutch controller are determined to be normal, and operate the starter to start the engine based on the gear stage status data and the gear position data.

A system is disclosed for incorporation into a refrigerated delivery vehicle, the system enabling efficient cooling of the refrigerated compartment of a vehicle to avoid unnecessary idling of the vehicle's engine.

A power tool is provided. The power tool includes an internal combustion engine and a wireless communications device coupled to the internal combustion engine. The internal combustion engine includes an ignition coil assembly and a flywheel. The wireless communications device is coupled adjacent to either the flywheel or to the ignition coil assembly. The wireless communications device receives power wirelessly from the internal combustion engine only when the internal combustion engine is operating.

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 method for managing the power supply of an electronic control unit during the engine starting phase of a motor vehicle, the electronic control unit including a microcontroller, wherein a command to start the engine indicating the start of the starting phase is detected; the frequency of operation of the microcontroller is reduced; this reduced frequency of operation of the microcontroller is maintained for as long as effective starting of the engine has not been acknowledged; and the frequency of operation of the microcontroller is re-established once effective starting of the engine has been acknowledged.

The present invention describes an apparatus an method for remotely activating and deactivating an intelligent automotive component and distributing one or more corresponding signal to an control apparatus. Further, the present invention comprises the steps of distributing an remote activation or deactivation request signal, determining the one or more battery(s) capacity levels, distributing an respective intelligent automotive components state signal and distributing an corresponding component state signal.