Entries |
Document | Title | Date |
20080210187 | ENGINE START CONTROLLER - An engine start controller having a starter motor that is driven by battery to start engine, an activation switch that sends to the starter motor a START command for starting the engine, an activation circuit that connects the starter motor to the battery to supply a drive current, and an engine start control unit that issues an OPERATE command for operating the activation circuit when receiving the START command from the activation switch, and supplies the drive current to the starter motor. The controller is provided with a bypass circuit that directly sends to the activation circuit the START command that has been sent from the activation switch. | 09-04-2008 |
20080216787 | Method for starting an internal combustion engine - To achieve a reliable and exhaust-optimized combustion starting already from the beginning of a combustion phase in the startup of an internal combustion engine, the internal combustion engine is brought to a target speed by an electric motor in a drag phase, the target speed being higher than the previously known starting speed. The target speed corresponds approximately to an idling speed assigned to the internal combustion engine, for example. After exceeding the starting speed, first a mixture enrichment is determined, taking into account a prevailing state of a wall film here in particular. Only after reaching the target speed is the fuel metered and does the combustion take place in the combustion phase. The fuel is metered here in particular on the basis of the mixture enrichment determined after exceeding the starting speed. | 09-11-2008 |
20080264374 | Fail-safe starter control system - A starter control system for a combustion engine is disclosed. The starter control system may have a first starter and a second starter each coupled to independently initiate cranking of the combustion engine, and a sensor to generate a first signal indicative of an operational condition. The starter control system may further include a controller communicatively coupled to the first and second starters and the sensor. The controller may be configured to determine a status of the first starter and a status of the second starter based on the first signal, and command one of the first and second starters to crank the combustion engine to an ignition speed based the status of the first starter and the status of the second starter in response to a request to start the engine. | 10-30-2008 |
20080302324 | Engine start detection in a hybrid electric vehicle - A method for detecting sustained combustion in the engine of a hybrid electric powertrain that includes a starter/generator driveably connected to the engine, a transmission for driving a load, and an input clutch for opening and closing a drive connection between the electric machine and the transmission, includes the steps of using the starter/generator to produce torque and crank the engine, preparing the engine to produce combustion, producing torque capacity across the input clutch while slipping the clutch, and continuing use of the starter/generator until a sum of the crankshaft torque applied by the starter/generator and the crankshaft torque applied by the transmission is less than some torque threshold for a predetermined period length. | 12-11-2008 |
20090020091 | STARTING DEVICE FOR INTERNAL COMBUSTION ENGINES IN MOTOR VEHICLES - The invention relates to a starter device ( | 01-22-2009 |
20090020092 | ENGINE STARTING DEVICE - An engine starting device including: a battery capacity monitoring portion that estimates a remaining capacity of a battery; a start time starter driving portion that supplies a driving current from the battery to a starter generator for causing cranking of the engine when a start mode of the engine is a normal start mode; and a display portion that displays that the cranking for starting the engine is to be performed by a manual starter when the estimated remaining capacity of the battery is insufficient, wherein the driving of the starter generator is prohibited and the start mode of the engine is switched to the manual start mode when the estimated remaining capacity of the battery is insufficient. | 01-22-2009 |
20090050092 | Engine Start Device - An engine start device includes a generator, a battery charged by the generator, a starter, an electric double layer capacitor and a DC/DC converter. The electric double layer capacitor is connected between the starter and the battery. The DC/DC converter has an input terminal connected to the battery and the electric double layer capacitor. The DC/DC converter has an output terminal connected to the starter and the electric double layer capacitor. According to voltage of the battery, internal DC resistance of the battery or internal DC resistance of the electric double layer capacitor, the DC/DC converter effects control of charge voltage of the electric double layer capacitor so as to stabilize voltage applied to a starter motor and stabilize the engine start. | 02-26-2009 |
20090056661 | VEHICLE STARTING ASSIST SYSTEM - An engine starting assist system. A battery is selectably coupled to an ultracapacitor with a contactor. In addition, a controller is configured to perform at least one of: monitor the condition of the battery, monitor the condition of the ultracapacitor, control the flow of energy between the battery and the ultracapacitor by selective actuation of the contactor, receive a start input control. The controller issues a start output control to a starter solenoid of the engine, such that energy stored in the ultracapacitor may be used to at least one of charge the battery and provide cranking current to a starter of the engine in conjunction with the battery. | 03-05-2009 |
20090101098 | CELO METHOD FOR VEHICLE - A CELO method is carried out when cooling water of an engine is not sufficiently warmed upon the startup of a vehicle in the winter. A CELO is carried out in various modes according to negligence levels a vehicle, wherein the negligence levels are divided into a total negligence level, a partial negligence level and a care level according to inside and outside air temperatures. The CELO is carried out for the total or partial negligence levels but not for the care level. For the total or partial negligence levels, the CELO is operated according to various times. The CELO operation time can be adjusted according to the vehicle speed in addition to the negligence levels of a vehicle. The CELO can thus be appropriately carried out according to vehicle conditions and passenger demands without a cooling water temperature sensor. | 04-23-2009 |
20090183706 | ENGINE START CONTROL APPARATUS AND ENGINE START CONTROL METHOD - When cranking is started, a control unit of an ECU determines an advance amount by which an intake valve closing timing is advanced from a fully retarded position toward a bottom dead center, and transmits the determined advance amount to a variable valve timing mechanism. After cranking is started, the control unit determines that there is an abnormality in the variable valve timing mechanism, when the advance amount is larger than 0, and when an actual intake valve closing timing, determined using an intake cam angle from a cam angle sensor and a crank angle from a crank angle sensor, is not advanced from the fully retarded position. When it is determined that there is an abnormality in the variable valve timing mechanism, the control unit outputs a control signal to an inverter to increase an output torque of a motor, which is a driving source for cranking. | 07-23-2009 |
20090188459 | PROCESS AND SYSTEM FOR STARTING A DIRECT-INJECTING INTERNAL-COMBUSTION ENGINE AS WELL AS MOTOR VEHICLE - A process for starting a direct-injecting internal-combustion engine is disclosed. The process includes triggering a separate drive for adjusting the camshaft for causing an angular position change between the crankshaft and the camshaft until the separate drive rotates the crankshaft such that a working medium is compressed by a piston in a cylinder of the internal-combustion engine. The position of the pistons of the internal-combustion engine is determined by using position determining devices to identify the cylinder of the internal-combustion engine in which the working medium is compressed. Fuel is injected into the cylinder in which the working medium is compressed when the cylinder is in a proximity of an upper dead center to start the internal-combustion engine. | 07-30-2009 |
20090217897 | Motor vehicle energy management having a supplementary starter diagnostic function - A diagnostic device for the starter of a combustion engine is provided. The electrical system of a motor vehicle includes a battery in whose connecting line a battery disconnect switch is provided, and the electrical system of the motor vehicle is monitored by a vehicle electrical system state detection device which includes starter diagnostic functionality. | 09-03-2009 |
20090308341 | Method for Detecting a Tow Start Operation of an Internal Combustion Engine - A method is provided for detecting a tow start operation of an internal combustion engine in a motor vehicle. In this case, a signal representing the activity and/or inactivity of a starter unit of the internal combustion engine is detected. A tow start operation of the internal combustion engine is determined when, following detection of a successful start-up process of the internal combustion engine, the signal representing the activity and/or inactivity of the starter unit has not displayed any activity of the starter unit since the beginning of the start-up process of the internal combustion engine. | 12-17-2009 |
20100012068 | Prioritizing Use Of Engine Cold Start Aids To mitigate Effect Of Weakened Battery Bank - A motor vehicle has an electric power supply that includes a battery bank ( | 01-21-2010 |
20100018489 | ENGINE STARTING DEVICE - An engine starting device for controlling an engine start of a vehicle by driving a starter relay of the vehicle with a battery of the vehicle as a power supply has a control processing unit and a step-up circuit for stepping up the output of the battery and outputting a drive voltage for driving the control processing unit and the starter relay. The control processing unit has a function of performing an engine start control of applying the drive voltage to the starter relay to activate the starter relay in time of the engine start at which an engine starting condition is satisfied The control processing unit performs a control function on the step-up circuit to activate the step-up circuit so that the drive voltage does not become lower than a minimum operation voltage of the starter relay in a predetermined period necessary to start the engine in time of the engine start, and activate the step-up circuit so that the drive voltage does not become lower than a first voltage value higher than a minimum operation voltage of the control processing unit and lower than the minimum operation voltage of the starter relay when not in the predetermined period. | 01-28-2010 |
20100024756 | Method for controlling the start-up phase of a motor vehicle - The invention relates to a method for controlling the start-up phase of a motor vehicle driven by an internal combustion engine ( | 02-04-2010 |
20100031910 | Method for controlling the start-up phase of a motor vehicle - The invention relates to a method for controlling the start-up phase of a motor vehicle driven by an internal combustion engine ( | 02-11-2010 |
20100101522 | METHOD FOR POSITIONING A CRANKSHAFT OF A SHUT-DOWN INTERNAL COMBUSTION ENGINE OF A MOTOR VEHICLE - The invention relates to a method for positioning a crankshaft of a turned-off internal combustion engine of a motor vehicle, wherein the crankshaft is rotated into a desired target position for the subsequent start of the internal combustion engine by means of an electric starter motor having a free wheel. The invention provides that at least one characteristic curve and/or characteristic value of a correlation between a covered rotational distance of the crankshaft and a position of the angle of rotation is determined at a standardized pulsed current duration of the starter motor for a defined operating case, that the current position of the angle of rotation of the crankshaft is determined, and that at least one estimated pulsed current duration is applied to the electric starter motor as a function of the determined position of the angle of rotation of the crankshaft and the target position and the characteristic curve/characteristic values. The invention further relates to a device for carrying out the method according to one or more of the preceding claims, comprising at least one electric starter motor having a free wheel, and a controller actuating the starter motor, and a sensor for detecting the current position of the angle of rotation of a crankshaft of an internal combustion engine. | 04-29-2010 |
20100108009 | Method and Device for the Optimized Starting of an Internal Combustion Engine - A method and a device are for the optimized starting of an internal combustion engine using a starter, which is connected to a capacitor store, the capacitor store being connected via a DC/DC converter to a vehicle electrical system of a vehicle, and the vehicle electrical system including an energy store for supplying electrical energy having a nominal voltage, and the starter consuming a starting energy for starting the internal combustion engine, which is a function of a temperature of the internal combustion engine, the temperature of the internal combustion engine being measured by at least one temperature sensor and the capacitor store being charged to a setpoint voltage with the aid of a battery via another DC/DC converter, which connects the battery in parallel to the capacitor store parallel to a switch, the setpoint voltage being set by a control unit such that the electrical energy stored in the capacitor store charged to the setpoint voltage is greater than the starting energy ascertained on the basis of the measured temperature. | 05-06-2010 |
20100116235 | Engine startup control device for vehicle - An engine start-up control device for a vehicle is provided with a structure which prevents the occurrence of an uncomfortable shock arising from amplified engine load torque fluctuation caused by resonance, when an output of a first motor generator starting up an engine by driving the same is limited. With a second motor generator having reactive torque restricting the rotation of a transfer member, the first motor generator rotatably drives a sun gear to crank the engine for start-up thereof. When this takes place, if the output of the first motor generator is limited, torque reference reactive-force control is executed to control reactive torque of the second motor generator in accordance with a predetermined torque whereby when the engine load torque exceeds a predetermined value, a rotation speed variation of the transfer member is permitted against reactive torque such that the rotation speed variation of the transfer member allows engine load torque to escape for thereby precluding engine load torque fluctuation to be amplified due to resonance. | 05-13-2010 |
20100126454 | STARTER MECHANISM HAVING A MULTI-STAGE PLUNGER RELAY - A plunger relay includes a movable actuating element on which a first solenoid actuator is acting in force-transmitting manner. The plunger relay has at least one second solenoid actuator, which is acting on the same movable actuating element in force-transmitting manner, and whose magnetic force is able to be set independently of the magnetic force of the first solenoid actuator. | 05-27-2010 |
20100132647 | METHOD AND DEVICE FOR STARTING AN INTERNAL COMBUSTION ENGINE - In a method, a device, a computer program and a computer program product for operating an internal combustion engine having a starter: a first threshold value and a second threshold value are specified; a first variable and a second variable are determined, which characterize the operating state of the internal combustion engine; the first variable is compared to the specified first threshold value and the second variable is compared to the specified second threshold value; and the starter starting, or not starting, the internal combustion engine as a function of the comparison result. | 06-03-2010 |
20100175656 | METHOD FOR MONITORING AN ENGINE STARTING SYSTEM AND ENGINE INCLUDING STARTING SYSTEM MONITOR - In a method of monitoring an engine starting system in an engine, the engine starting system includes a charging system, a battery, a starter, a flywheel, and a controller. The controller and monitors can monitor components and systems associated with starting of an engine, such as engine or cranking speed, power cylinder unit compression, injection timing, and proper fuel delivery to predict and/or diagnose problems. For example, a charging system voltage is monitored and the charging system voltage is compared with predetermined charging system voltage values. Voltage of the battery is monitored and battery voltage is compared with predetermined battery voltage values. A signal to an operator is provided if one or more of the charging system voltage and the battery voltage are outside of predetermined ranges for the one or more of the charging system voltage and the battery voltage. | 07-15-2010 |
20100186703 | STARTER FOR INTERNAL COMBUSTION ENGINES HAVING A LOAD ALLEVIATION SWITCH - The invention relates to a starter for starting of an internal combustion engine, comprising a starter relay ( | 07-29-2010 |
20100186704 | DIESEL ENGINE START-UP ASSISTING DEVICE - A diesel engine start-up assisting device includes a plurality of first-and-second switching elements | 07-29-2010 |
20100229814 | POWER UNIT FOR VEHICLE - A vehicle power unit including a speed reducing gear train including a starter driven gear, a starting one-way clutch interposed between the starter driven gear and a crankshaft. The speed reducing gear train and the starting one-way clutch are provided between a starter motor and the crankshaft. A transmission includes gear trains for a plurality of gear speeds wherein the gear trains are provided between a main shaft and a counter shaft. A hybrid type configuration is possible wherein the starter motor produces power for driving the vehicle and to impart a drive assisting force. The starter motor can be changed over between a normal rotational operation and a reverse rotational operation. A power transmission idle gear is interposed between the starter driven gear and a power transmitting gear through a running one-way clutch for permitting power transmission to the side of the main shaft. | 09-16-2010 |
20100251984 | METHOD AND APPARATUS FOR STARTING AN INTERNAL COMBUSTION ENGINE - A method and apparatus for starting an internal combustion engine is disclosed. A motor is mechanically coupled to the engine, the engine having at least one moveable element mounted in a chamber, the moveable element being operable to cause a changing compression condition within the chamber and being mechanically coupled to a shaft for generating mechanical power. The method involves causing the motor to supply a positioning torque to the engine to move the at least one moveable element into a starting position, The method also involves causing the motor to supply a starting torque to the engine when the at least one moveable element is in the starting position to cause the moveable element to accelerate from the starting position under low compression conditions to generate sufficient momentum to overcome a peak compression condition in the chamber, thereby reducing the starting torque required to start the engine. | 10-07-2010 |
20100282199 | DEVICE HAVING A FIRST GEARING PART FOR MESHING WITH A SECOND GEARING PART, IN PARTICULAR A STARTING DEVICE HAVING A PINION FOR MESHING WITH A RING GEAR OF AN INTERNAL COMBUSTION ENGINE, AND METHOD OF OPERATING SUCH A DEVICE - A device having a first gearing part for meshing with a second gearing part, in particular a starter device having a pinion for meshing with a ring gear of an internal combustion engine, in which at least one arrangement is provided whereby a motion state of the first gearing part and a motion state of the second gearing part are ascertainable. A method for operating a device having a first gearing part for meshing with a second gearing part, in particular a starter device having a pinion for meshing with a ring gear of an internal combustion engine, in which at least one arrangement is provided whereby a motion state of the first gearing part and a motion state of the first gearing part and a motion state of the second gearing part are ascertained. | 11-11-2010 |
20100282200 | SYSTEM FOR STARTING INTERNAL COMBUSTION ENGINE - In an engine starting system, when a first solenoid is energized at a first timing in response to any one of a turning on of a starter switch and an occurrence of an engine restart request, a solenoid actuator shifts a pinion to a ring gear to be engaged with the ring gear. When a second solenoid is energized, a solenoid switch member energizes a motor. A determiner determines a second timing of energization of the second solenoid after the first timing so that a first delay time from the first timing to the second timing when the first timing is responsive to the turning on of the starter switch is different from a second delay time from the first timing to the second timing when the first timing is responsive to the occurrence of the engine restart request. | 11-11-2010 |
20100307440 | Engine for an Air Hybrid Vehicle - An engine for use in an air hybrid vehicle comprises at least one cylinder having a piston ( | 12-09-2010 |
20110017164 | VEHICLE HYBRIDIZATION SYSTEM - A vehicle control system is programmed to stop the vehicle's internal combustion engine upon certain conditions including the vehicle being stopped and engine temperature having reached a minimum operating level. On vehicles equipped with air brakes and having an engine driven air compressor, engine restarts are provided by an air pressure supported hydraulic motor once triggered by operator actions such as releasing the brake and/or depressing the vehicle's accelerator indicative of the driver's intention to move the vehicle. | 01-27-2011 |
20110088646 | COMBUSTION STATE DETECTION DEVICE FOR INTERNAL COMBUSTION ENGINE - A combustion state detection device for an internal combustion engine includes: an ignition control unit that controls activation of a primary winding for ignition; a comparison value setting unit that sets a comparison value with respect to an ion signal; and a combustion state discrimination unit that determines the occurrence of misfire depending on the magnitude of the ion signal with respect to the comparison value; wherein the ignition control unit, after generating a spark, reactivates the primary winding at least one time during one combustion stroke so that an induction voltage similar to that generated in the secondary winding at around a time when the primary winding begins to be activated for the purpose of starting combustion is generated in the secondary winding. | 04-21-2011 |
20110114049 | FOUR STROKE SINGLE CYLINDER COMBUSTION ENGINE STARTING SYSTEM - A four stroke single cylinder combustion engine starting system with an electrical machine is operable as both a generator and a motor. The starting system has a single cylinder four stroke combustion engine. A piston of the engine is coupled to a shaft of the electrical machine. The starting system also has a motor driver having outputs coupled to the electrical machine. A controller is coupled to the driver and an ignition switch is coupled to the controller. In response to the controller receiving an ignition signal from the ignition switch, the driver controls the electrical machine to operate as a motor so that the electrical machine rotates in a reverse direction to move the piston in a reverse stroke cycle. After the piston reverses to a power stroke position of the reverse stroke cycle the driver controls electrical machine to rotate in a forward direction to move the piston in a forward stroke cycle to attempt to ignite the combustion engine. | 05-19-2011 |
20110120405 | ENGINE CONTROL DEVICE - A ring gear is connected to a crank shaft of an engine. A pinion is placed to face to the ring gear. When the engine is started, an ECU performs cranking of the engine under a state where the ring gear and the pinion are in mesh. The ECU releases the mesh state of the ring gear and the pinion after completion of the cranking of the engine. In particular, the ECU performs dispersion control to increase a degree of dispersion of a mesh portion of the ring gear which is meshed with the pinion when the rotation of the ring gear is stopped according to the engine stop. The dispersion control prevents the mesh portion of the ring gear and the mesh portion of the pinion from progressing abrasion and avoiding defect. | 05-26-2011 |
20110132307 | METHOD FOR STARTING AN ENGINE - A method for improving starting of an engine that may be repeatedly stopped and started is presented. In one embodiment, the method disengages a starter in response to a first predicted combustion in a cylinder of the engine. The method may reduce one-way clutch degradation of a starter. Further, the method may reduce current consumption during engine starting. | 06-09-2011 |
20110139108 | CONTROL OF A PRE-SPUN STARTER - A method is provided for controlling a starting system for an engine of a motor vehicle. The motor vehicle includes a pre-spun starter for selective meshing with and starting of the engine, and a controller for controlling the starting of the engine. The method includes sensing of a rotational speed of the pre-spun starter, and sensing of a rotational speed of the engine. The method additionally includes regulating the rotational speed of the pre-spun starter to substantially synchronize the rotational speed of the pre-spun starter with the rotational speed of the engine. Furthermore, the method includes engaging the pre-spun starter gear with the engine, and applying torque by the pre-spun starter to the engine, such that the engine is started. | 06-16-2011 |
20110146609 | AUTOMATIC STARTING DEVICE FOR ENGINE - An automatic starting device for the engine, which quietly and quickly restarts the engine when a re-acceleration request is made by a driver, is provided. In a case where it is judged that a vehicle is decelerating and fuel injection is currently stopped, when it is then judged that a brake pedal is released and an engine rpm is smaller than an engine rpm which allows recovery from a fuel-supply stop state, the controller disengages a lock-up clutch. Upon detection of reverse rotation of the engine based on a detection signal of the crank-angle sensor, the controller controls a pinion gear to be pushed out by a lever of a starter to be meshed with a ring gear. After the ring gear is rotated by a predetermined angle, the controller rotary-drives a motor of the starter to restart the engine. | 06-23-2011 |
20110155085 | ENGINE CONTROL APPARATUS AND ENGINE CONTROL METHOD - An engine control apparatus is provided that controls an engine which is restarted using an AC motor. The engine control apparatus comprises an engine rotational direction determining section, a restart command determining section and an engine restart prohibiting section. The engine rotational direction determining section is configured to determine a rotational direction of the engine. The restart command determining section is configured to determine if a restart command occurred while a rotational speed of the engine is decreasing due to an idle stop command. The engine restart prohibiting section is configured to selectively prohibit the engine from being restarted by the AC motor in response to the restart command upon determining the engine is rotating backward. | 06-30-2011 |
20110168117 | CONTROL SYSTEM AND METHOD FOR PREVENTING ENGINE STALLS - A control system for an engine including a starter may include a speed determination module that determines a first rotational speed of the engine during a run period contiguously following a period of starting the engine using the starter, and a speed control module that, when the first rotational speed falls below a predetermined speed greater than zero during the run period, selectively activates the starter to increase the first rotational speed. The speed control module may selectively activate the starter by selectively adjusting, based on the first rotational speed, a second rotational speed of a motor drive of the starter that supplies torque for cranking the engine and subsequently selectively engaging one of the motor drive and a first rotational member of the starter rotationally driven by the motor drive with a second rotational member of the engine. A related method is also provided. | 07-14-2011 |
20110232596 | METHOD FOR STARTING AN ENGINE - A method for improving starting of an engine that may be repeatedly stopped and started is presented. In one embodiment, the method disengages a starter in response to a first predicted combustion in a cylinder of the engine. The method may reduce one-way clutch degradation of a starter. Further, the method may reduce current consumption during engine starting. | 09-29-2011 |
20120024252 | SYSTEM AND METHOD FOR STARTING AN ENGINE USING LOW ELECTRIC POWER - A method and a system are provided for starting an engine that is employed for propulsion of a vehicle. The method includes determining that an engine start via a starter is desired, wherein the starter is powered by an energy storage device. The method also includes determining a state of charge of the energy storage device. The method additionally includes commanding the starter to crank the engine at a first predetermined speed, if the energy storage device is at or above a predetermined state of charge and supplying fuel to the engine for a first predetermined number of fueling events. Furthermore, the method includes commanding the starter to crank the engine at a second predetermined speed that is lower than the first predetermined speed and supplying fuel to the engine for a second predetermined number of fueling events, if the energy storage device is below the predetermined state of charge. | 02-02-2012 |
20120103291 | ENGINE CONTROL DEVICE FOR WORKING VEHICLE - An engine control device for a working vehicle in which a start switch starting an engine and a starter relay supplying electric current to a starting motor for assisting the starting of the engine in connection with the start switch are connected to a controller, the controller supplies the starter relay with electricity by the operation of the start switch, and drives the engine along with the driving of the starting motor, wherein the engine control device includes a check mechanism of the starting motor which stops the supply of electricity to the starter relay depending on an electricity supplying time of the starter relay. | 05-03-2012 |
20120138005 | ENGINE THROTTLE CONTROL WITH BRAKE BOOSTER - Methods and systems are provided for reducing variability in air-fuel control due to variations in brake booster vacuum levels at an engine start. A throttle position is adjusted during an engine start based on the vacuum availability in the brake booster to control a rate of intake aircharge flow. By allowing aircharge to enter the intake manifold at a more consistent rate, air-fuel control is improved and exhaust emissions are reduced. | 06-07-2012 |
20120186551 | Device for Starting an Internal Combustion Engine - A device for starting an internal combustion engine has a meshing module which is provided for meshing a drive pinion, a starter motor, a switching module via which a starter current is suppliable to the starter motor, and a control unit which is provided for energizing the meshing module and the switching module. | 07-26-2012 |
20120192826 | STARTER CONTROL SYSTEMS AND METHODS FOR ENGINE ROCKBACK - A system for a vehicle, includes a rockback detection module and a starter disabling module. The rockback detection module receives a crankshaft position signal from a bi-directional crankshaft sensor and selectively indicates that a crankshaft of an engine is rotating in a first direction based on the crankshaft position signal. The engine rotates in a second direction that is opposite to the first direction when the engine is running. The starter disabling module disables current to a starter motor when the crankshaft is rotating in the first direction. | 08-02-2012 |
20120199089 | PUSH BUTTON STARTING SYSTEM FOR OUTDOOR POWER EQUIPMENT - A starting system for outdoor power equipment that has a controller and a start button to control the activation of an internal combustion engine. The starting system includes a controller that receives a start signal from a start button. The controller monitors for the presence of an enable device in an enable device receptacle and, upon activation of the start button and the presence of the enable device in the enable device receptacle, the controller provides electric power to the electric load of the power equipment. When the start button is depressed for longer than a minimum engagement period, the controller initiates operation of the engine. If the start button is pressed for less than the minimum engagement period, the controller activates the electric load for an auxiliary period without starting the engine. During engine operation, if the start button is depressed, the controller terminates operation of the engine. | 08-09-2012 |
20120204826 | METHOD FOR MESHING A STARTING PINION OF A STARTER DEVICE WITH A TOOTHED RING OF AN INTERNAL COMBUSTION ENGINE - In a method for meshing a starting pinion of a starter device with a toothed ring of an internal combustion engine, during the engagement process, characteristic vibrations are measured in the internal combustion engine, wherein in the event of a vibration parameter lying outside an admissible value range, the actuation of the starting pinion is varied. | 08-16-2012 |
20120216768 | STARTER CONTROL APPARATUS - An ECU for controlling a starter includes a transistor in addition to transistors, which turn on relays provided for a pinion gear and a motor of the starter, respectively. The transistor is provided in a current path, which connects a line of a battery voltage and a junction between upstream side ends of coils of the relays. The ECU operates the starter by turning on the three transistors, which turn on the relays. It further detects abnormality based on voltages of terminals. | 08-30-2012 |
20120216769 | METHOD AND DEVICE FOR CONTROLLING A STOP-START PROGRAM - A starter is supplied with current for a certain current feed duration during meshing of a starter pinion of the starter with a coasting internal combustion engine. The current feed is shut down after reaching the certain current feed duration and an induced voltage is measured. The measured induced voltage is compared with a reference voltage and the current feed duration for a subsequent current feed is set as a function of the comparison result. | 08-30-2012 |
20120247413 | Engine Starting System - A starting system for an internal combustion engine of a vehicle includes a second motor configured to drive a second load, a first motor configured to selectively drive either the engine or a first load, and a controller configured to control the first and second motors such that when the first motor drives the engine the second motor is stopped, and when the first motor drives the first load the second motor is controlled to drive the second load. Preferably, the second load is a cooling fan of a cooling system for the engine and the first load is a water pump of the cooling system. | 10-04-2012 |
20120260878 | ENGINE STARTING DEVICE - A ring gear to be coupled to a crankshaft of an engine; a starter motor for starting the engine; a pinion gear for transmitting rotation of the starter motor to the ring gear; pinion-gear meshing-engagement unit for moving the pinion gear to achieve meshing engagement with the ring gear; rpm-difference acquiring unit for acquiring an rpm difference between the pinion gear and the ring gear; and restart control unit for allowing the pinion gear to be moved by the pinion-gear meshing-engagement unit when the rpm difference between the pinion gear and the ring gear, which is acquired by the rpm-difference acquiring unit, becomes smaller than a threshold value are provided. The restart control unit includes threshold-value setting unit, and the threshold value corresponding to a characteristic to be input to the threshold-value setting unit is preset. | 10-18-2012 |
20120291739 | START CONTROL APPARATUS FOR ENGINE GENERATOR - In a start control apparatus for an engine generator having a booster adapted to boost an output of a battery, there is provided an engine starter adapted to supply the boosted battery output to an output winding as a motor current to start the engine, and it is configured to determine whether a position of the piston is before a top dead center (TDC) when the motor current is to be supplied to the winding, and the motor current is increased by an increment when the piston position of the engine is determined to be before the TDC. | 11-22-2012 |
20120298062 | METHOD FOR CONTROLLING A MICRO-HYBRID SYSTEM - A method of controlling a vehicle associated micro-hybrid system. The system includes a reversible rotary electrical machine that is connected to a thermal engine of a motor vehicle. The method includes: controlling a step of pre-fluxing of a rotor of the reversible rotary electrical machine when a control module receives an instruction to start the thermal. engine via the reversible rotary electrical machine; measuring a speed of the rotor of the reversible rotary electrical machine; and, demanding stoppage of the pre-fluxing step when the speed of the rotor is greater than or equal to a predetermined speed threshold value. The method avoids the generation of overvoltages in an electrical distribution network formed by an onboard network of the vehicle and by an energy storage unit of the micro-hybrid system. | 11-29-2012 |
20120318227 | IN-VEHICLE ENGINE START CONTROL APPARATUS - An in-vehicle engine start control apparatus stops a fuel injection instruction after rotationally driving a DC electric motor preliminarily by issuing a rotational driving instruction when an automatic stop condition is satisfied, and subsequently restarts the in-vehicle engine by issuing a push control instruction to a pinion gear immediately before a circumferential speed of a ring gear decelerating by inertia is synchronized with a circumferential speed of the pinion gear rotationally driven preliminarily to rotate and by issuing the rotational driving instruction and the fuel injection instruction again because a restart request is already issued or is issued with a delay when the push driving is completed. | 12-20-2012 |
20130000585 | STARTER SUPPLY NETWORK - A starter supply network having a first energy source for the primary energy supply of a starter motor, the first energy source being coupled to a network terminal of the starter supply network; a second energy source; and a coupler, which is configured to couple the second energy source to the network terminal as a function of a starter motor current delivered by the first energy source, in order to counteract a reduction in the starter motor current. | 01-03-2013 |
20130104828 | ENGINE STARTING DEVICE AND VEHICLE INCORPORATING THE SAME | 05-02-2013 |
20130104829 | ENGINE START CONTROL DEVICE | 05-02-2013 |
20130118431 | STARTER CONTROL DEVICE, STARTER CONTROL METHOD, AND ENGINE STARTING DEVICE - A starter includes a pinion gear, an actuator for moving the pinion gear to a position where the pinion gear is engaged with a ring gear in a driven state, and a motor for rotating the pinion gear. An ECU includes a rotation mode in which the motor is driven before the actuator is driven and an engagement mode in which the actuator is driven before the motor is driven. In the engagement mode, the actuator is driven after lapse of a predetermined first time period since a decision to start an engine was made, and the motor is driven after lapse of a second time period longer than the first time period since the decision to start the engine was made. In the rotation mode, the motor is driven after lapse of the second time period since a decision to start the engine was made. | 05-16-2013 |
20130125850 | STARTER MOTOR CONTROL WITH PRE-SPIN - A control circuit receives a starting signal from a powertrain control module of a vehicle and delays the coupling of the main starting current from the battery to the starting motor until a reduced current in an alternative flow path is provided to the starter motor, initiating its motion. In a preferred, the pre-start sequence is controlled by a microprocessor which provides a control signal to a solid state switch coupled by a conductor providing current limiting resistance between the battery supply and the starter motor for a predetermined period of time. Subsequent to the pre-spin period, the control circuit provides a signal to a different solid state switch which activates the starter solenoid, in turn, coupling the battery to the starter motor and engaging the pinion gear with the ring gear. | 05-23-2013 |
20130133604 | STARTER SYSTEM - Some embodiments of the invention provide a starter system including a starter, capable of being in communication with an electronic control unit. The starter can include a motor coupled to a circuit and a pinion including a plunger, and a plurality of solenoid assemblies that includes a plurality of biasing members. The plurality of solenoid assemblies can include at least one solenoid winding capable of moving the plunger to move the pinion, and at least one solenoid assembly capable of controlling current flow to the motor. Some embodiments include a first switch coupled to the circuit. In some embodiments, the first switch is capable of being activated by the plunger to cause current to flow, or to prevent current flowing to at least a portion of the circuit. | 05-30-2013 |
20130133605 | STARTER SYSTEM - Some embodiments of the invention provide a starter system including a starter, capable of being in communication with an electronic control unit. The starter can include a motor coupled to a circuit and a pinion including a plunger, and a plurality of solenoid assemblies including a plurality of biasing members. The plurality of solenoid assemblies can include at least one solenoid winding capable of moving the plunger, and at least one solenoid assembly capable of holding the plunger, and at least one solenoid assembly capable of controlling current flow to the motor. Some embodiments include a first switch coupled to the circuit that is capable of being activated by the plunger to control current flowing to at least a portion of the circuit. Some embodiments include at least two power isolation switches capable of controlling a current flow within the circuit. | 05-30-2013 |
20130139775 | Device and Method for Controlling Starter, and Vehicle - A starter includes a pinion gear that can be engaged with a ring gear coupled to a crankshaft of an engine, an actuator to move the pinion gear to a position where the pinion gear is engaged with the ring gear in a driven state, and a motor to rotate the pinion gear. When the engine is started in response to a driver's start intention, any mode of an engagement mode in which the actuator causes the pinion gear to engage with the ring gear before the motor is driven and a rotation mode in which the motor is driven before the actuator is driven is selected. When the engine is started not in response to a driver's start intention, the engagement mode is selected. | 06-06-2013 |
20130139776 | METHODS AND SYSTEMS FOR ASSISTED DIRECT START CONTROL - Method and systems are provided for controlling a vehicle system including an engine that is selectively deactivated during engine idle-stop conditions. One example method comprises, adjusting a brake torque applied to a deactivated rotating engine after an engine restart request, the brake torque applied to slow the engine to at least a predetermined threshold speed without stopping the engine, and engaging a starter to the still rotating engine to increase the engine speed and restart the engine. | 06-06-2013 |
20130174801 | VEHICULAR STARTER SOLENOID - Described embodiments include an aftermarket solenoid for a starting system of a vehicle. The solenoid includes a relay. The solenoid also includes an insulating cap with first and second control terminals, and first and second starter circuit terminals protruding through the cap. A control voltage between the first and second control terminals determines the resistance between the first and second starter circuit terminals, essentially creating a short between the starter circuit terminals in response to energizing the relay. Each of the terminals may he a threaded stud. The cap, the first control terminal, the second control terminal, the first starter circuit terminal, and the second starter circuit terminals are arranged so that the solenoid is pluggable into an original manufacturer wiring harness of the vehicle, avoiding the need for makeshift adjustments and modifications of various connections and/or of the original wiring harness of the vehicle. | 07-11-2013 |
20130206093 | CHOKE OVERRIDE FOR AN ENGINE - A choke system for an internal combustion engine includes a carburetor having a choke valve disposed in a passage; a cooling fan providing a variable air flow; an air vane moveable in response to the variable air flow; an air vane linkage coupling the air vane to the choke valve, the air vane linkage operating the choke valve by the movement of the air vane; a manually operated choke control; an override linkage coupling the choke control to the choke valve; and a thermally responsive member configured to engage the override linkage to retain the choke in a partially open position above a threshold temperature. The choke control may be moved to a first position in which the choke control overrides the thermally responsive member and the air vane linkage to maintain the choke valve in a closed position. | 08-15-2013 |
20130213336 | SUPPLEMENTARY ENERGY STARTING SYSTEM INCORPORATING A TIMING CIRCUIT - An engine cranking system and a method of cranking an engine are provided. The engine cranking system comprises an engine, cranking motor, and capacitor. The engine cranking system further comprises an electrical path interconnecting the cranking motor or a battery to the capacitor. The engine cranking system further comprises a control circuit coupled to the capacitor. The control circuit comprises a timer operative to track temporal information. The control circuit is operative to apply a control voltage that varies in response to the tracked temporal information. The control circuit further comprises a relay included in the electrical path. The relay is operative to switch, in response to the control voltage, between an open-circuit condition, in which the relay interrupts the electrical path, and a closed-circuit condition. | 08-22-2013 |
20130233268 | ENGINE STARTING APPARATUS - An engine starting apparatus is provided with: a target torque setting device for setting a sum of a cranking base torque for cranking an engine and a vibration controlling torque for suppressing vibration of a power transmission system due to resonance of a damper, as a target torque to be outputted by a motor in cranking the engine; and a motor controlling device for controlling the motor to output the set target torque. The target torque setting device has a base torque controlling device for setting the cranking base torque to a first torque value if the number of revolutions of the engine is less than or equal to predetermined number of revolutions of the engine and for controlling the cranking base torque. | 09-12-2013 |
20130239921 | ENGINE START ASSIST SYSTEM - An arrangement and a method are provided for improving performance of a start assist system for an internal combustion engine of a vehicle comprising: a start/stop system, a primary source of electrical energy, a secondary source of electrical energy, an electrical starter motor, an engine control unit, and additional vehicle electrical loads. A start controller is arranged such that the starter motor and engine control unit are operable with power supplied from the primary source of electrical energy at an initial cold starting attempt. If reset of the engine control unit occurs during the first cold starting attempt, the start controller is arranged such that the starter motor is operable with power supplied from the primary source of electrical energy and the engine control unit is operable with power supplied from the secondary source of electrical energy for an additional cold starting attempt. | 09-19-2013 |
20130247857 | ENGINE START CONTROL SYSTEM - When an ECM activates as powered from a generator, a decision unit determines occurrence of instantaneous interruption and reactivation of the ECM, if engine speed detected by an engine speed sensor immediately after activation of the ECM is found to be not smaller than a predetermined number of rotation Y. When occurrence of the instantaneous interruption and reactivation is actually determined, the ECM terminates operation of the engine. On the other hand, if occurrence of the instantaneous interruption and reactivation is not determined, the ECM detects, using a maximum value detection unit, a maximum value of pressure in the intake pipe detected by a pressure sensor, within a predetermined range of crank angle after activation of the ECM, stores the maximum value into a memory for later use as the atmospheric pressure, and uses it for control of fuel injection by an injector. | 09-26-2013 |
20130269644 | START CONTROL SYSTEM AND VEHICLE - In a start control system for a vehicle, a memory stores a first setting value used to control a clutch to attain a start standby state and a second setting value used to control the clutch to attain a start preparation position. A clutch controller controls the clutch to attain a start standby state based on the first setting value upon determining that the vehicle has proceeded to a start standby period and controls the clutch to attain a start preparation state, in which the distance between the clutch disks is smaller than that in the start standby state, based on the second setting value upon determining the vehicle has proceeded to a start preparation period. The clutch controller controls the clutch such that the distance between the clutch disks is smaller than that in the start preparation state and carries out control such that an engine speed approaches an engine target speed. | 10-17-2013 |
20130319360 | SYSTEM FOR CRANKING INTERNAL COMBUSTION ENGINE BY ENGAGEMENT OF PINION WITH RING GEAR - In a system, an engine restating module is capable of executing an engine restart task to crank an automatically stopped engine if an engine restart condition is met. The engine restart task includes energization of a mechanism to thereby shift a pinion to be engaged with a ring gear, and energization of a motor to rotate the pinion. A deenergizing module is capable of deenergizing the motor if an interrupting request that interrupts restart of the automatically stopped engine is generated during execution of the engine restart task. A maintaining module is capable of maintaining energization of the mechanism to engage the pinion with the ring gear even if the interrupting request that interrupts restart of the automatically stopped engine is generated during execution of the engine restart task. | 12-05-2013 |
20130319361 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - An object of the present invention is to be able to execute motor assist only when it is necessary at a time of starting an engine, and drive a motor efficiently. An engine | 12-05-2013 |
20130333655 | METHOD OF COLD STARTING AN INTERNAL COMBUSTION ENGINE IN HYBRID APPLICATIONS - A method to start operation of an internal combustion engine of a hybrid powertrain includes initiating rotation of a crankshaft of the engine with at least one electric machine in accordance with a first ramping profile until a first predetermined speed is achieved in response to an engine start event during a cold start condition. Engine speed is monitored and the engine is fired while controlling the engine speed to maintain the first predetermined speed with the at least one electric machine. The first ramping profile is adjusted at a rate corresponding to an estimated rate at which the engine speed is increasing during the engine firing. When at least one predetermined combustion quality parameter is achieved, the engine speed is controlled in accordance with a second ramping profile until a second predetermined speed is achieved based on controlling combustion parameters of the engine. | 12-19-2013 |
20140000541 | CONTROL DEVICE AND CONTROL METHOD FOR STARTER, AND VEHICLE | 01-02-2014 |
20140000542 | WORK APPARATUS HAVING A BRAKING ARRANGEMENT | 01-02-2014 |
20140014054 | Engine Starting Strategy to Avoid Resonant Frequency - A machine comprising an engine operable at various engine speeds including a resonant frequency engine speed. The machine comprises a hybrid motor operatively connected to the engine, the hybrid motor being adapted to apply power to the engine. An electronic control module is configured to control the hybrid motor to apply power to the engine until at least a time when the engine speed exceeds the resonant frequency engine speed. | 01-16-2014 |
20140014055 | Engine Starting Strategy to Avoid Resonant Frequency - A machine comprising a clutch, an engine operable at a resonant frequency engine speed, and a hybrid motor. The hybrid motor is connected to the engine through the clutch. The hybrid motor applies power to the engine when the clutch is engaged, and does not apply power to the engine when the clutch is disengaged. The hybrid motor is operable at a predetermined hybrid motor speed. An ignition switch starts the hybrid motor. An electronic control module disengages the clutch until the hybrid motor speed exceeds the predetermined hybrid motor speed, and engages the clutch after the hybrid motor speed exceeds the predetermined hybrid motor speed. | 01-16-2014 |
20140041613 | ENGINE START SYSTEM MINIMIZING MECHANICAL IMPACT OR NOISE - An engine start system which may be employed in automotive idle stop systems. To start an engine, the system brings a pinion gear into engagement with a ring gear coupled to the engine and turns on an electric motor to rotate the ring gear through the pinion gear to crank the engine. When it is requested to start the engine during deceleration of the engine before stop thereof, the system thrusts the pinion into engagement with the ring gear and then turns on the motor to rotate the pinion gear, in other words, delays the activation of the motor until after the pinion gear has engaged the ring gear. This minimizes mechanical impact or noise arising from the engagement of the pinion gear with the ring gear and improves the reliability in engagement with the ring gear during the deceleration of the engine and durability of the system. | 02-13-2014 |
20140130762 | SYSTEM FOR STARTING POWER SYSTEMS WITH MULTIPLE GENERATOR UNITS - A control system and strategy for starting power systems having a plurality of power modules. For example, a multi-engine generator set switcher locomotive has three power modules each of which have an engine associated therewith. Upon receiving a command from the locomotive indicating to the engine control module to start at least one power module, i.e., engine, the control strategy determines whether to start the engine with an air or electric start. The control strategy starts only a single engine at a time, thereby avoiding overloading the airflow capacity of the compressed air source or the electric power capacity of the electric source. The control strategy also implements a command to start ever engine with an air starter, if possible, to preserve the electric starter motor and the electric power capacity of the electric source. | 05-15-2014 |
20140144403 | ENGINE START DETERMINING APPARATUS - An apparatus includes a dynamo-electric machine driving an engine, and a calculator calculating an increment in a crank angular acceleration of the engine every certain period from a base time after the driving of the engine by the dynamo-electric machine. The apparatus further includes a determiner determining that the engine has started by the dynamo-electric machine on a condition that the increment calculated by the calculator exceeds a standard value. | 05-29-2014 |
20140299088 | PUSH BUTTON STARTING SYSTEM FOR OUTDOOR POWER EQUIPMENT - A starting system for outdoor power equipment that has a controller and a start button to control the activation of an internal combustion engine. The starting system includes a controller that receives a start signal from a start button. The controller monitors for the presence of an enable device in an enable device receptacle and, upon activation of the start button and the presence of the enable device in the enable device receptacle, the controller provides electric power to the electric load of the power equipment. When the start button is depressed for longer than a minimum engagement period, the controller initiates operation of the engine. If the start button is pressed for less than the minimum engagement period, the controller activates the electric load for an auxiliary period without starting the engine. During engine operation, if the start button is depressed, the controller terminates operation of the engine. | 10-09-2014 |
20140345554 | ELECTROMAGNETIC SWITCH FOR THE STARTER OF A HEAT ENGINE, COMPRISING AT LEAST TWO MOVABLE CONTACTS - An electromagnetic switch for the starter of a heat engine, including a first terminal (B | 11-27-2014 |
20140345555 | PUSH BUTTON STARTING SYSTEM MODULE FOR OUTDOOR POWER EQUIPMENT - A self-contained starting module for outdoor power equipment that has control circuit and a start button. The starting module includes internal control circuit that can be either microprocessor based or analog. The control circuit receives a start signal from a start button of the starting module. The control circuit monitors for the presence of an enable device and, upon activation of the start button and the presence of the enable device, provides electric power to the electric load of the power equipment. When the start button is depressed for longer than a minimum engagement period, the control circuit initiates operation of the engine. If the start button is pressed for less than the minimum engagement period, the control circuit activates the electric load for an auxiliary period without starting the engine. During engine operation, if the start button is depressed, the operation of the engine is terminated. | 11-27-2014 |
20140366829 | STARTER PROTECTOR HAVING DELAY CIRCUIT, DELAY CIRCUIT THEREOF AND MOBILE VEHICLE - A delay circuit is coupled to an electromagnetic coil and includes a power input end coupled to a first end of the electromagnetic coil, a first switch module coupled to the power input end, a second switch module coupled to a second end of the electromagnetic coil, a first timing module coupled to the power input end and the first switch module, and a second timing module coupled to the power input end and the second switch module. The second switch module turns on when the power input end supplies power. The first timing module is configured to count time when the power input end supplies power and turns on the first switch module after a first predetermined time. The second timing module is configured to count time after the first switch module turns on and turns on the second switch module after a second predetermined time. | 12-18-2014 |
20140366830 | ENGINE-POWERED TOOL - An engine-powered tool | 12-18-2014 |
20140373801 | MULTI-CONTACTOR DEVICE, IN PARTICULAR FOR CONTROLLING AN ELECTRIC STARTER - A starter for an internal combustion engine, comprising: an electric motor; a drive assembly including a pinion movable between a free position and a meshed position, wherein the pinion is rotatably linked to the electric motor and the internal combustion engine; an electric switching device including a main actuator capable, when engaged, of moving and holding a plunger, in position, the plunger being linked with the movement of the pinion between the free position and the meshed position, by means of a lever; a means connected to the plunger, which is capable of establishing electrical power contact between the electric motor and a power source when the pinion is in the meshed position; and including an auxiliary actuator capable, when engaged, of opening the power contact and a means for separately controlling the main actuator and the auxiliary actuator. | 12-25-2014 |
20150075474 | VEHICLE CONTROL DEVICE - A vehicle control device includes an engine, a starter for starting the engine, a transmission for transmitting power of the engine to a driving wheel, an oil pump for supplying hydraulic pressure to the transmission according to the power of the engine, an accumulator for accumulating the hydraulic pressure ejected from the oil pump, and an electromagnetic on-off valve for controlling the hydraulic pressure accumulated in the accumulator. When the engine is restarted after the engine has stopped, an ECU of the vehicle control device opens the electromagnetic on-off valve at the time a line pressure has become equal to or higher than a predetermined hydraulic pressure after the start of the starter, and supplies the hydraulic pressure accumulated in the accumulator to respective portions of the transmission. | 03-19-2015 |
20150292466 | CONTROL DEVICE - The invention, while reducing noise, suppresses a load increase in a processor and a delay in drive control. An engine control unit includes a processor, a driving circuit including a switching element to drive a load such as a fuel injector and an ignition device, and a communication circuit that transmits control signals from the processor to the driving circuit via serial communication. The control signals each include a command frame for controlling the driving circuit and a data frame for driving the load. If a predetermined bits in each of the data frames received from the processor at predetermined time intervals are determined to be the same twice in succession, the engine control unit changes a state of a driving signal ‘Drive’ for driving the load and thereby changes an operating state of the switching element. | 10-15-2015 |
20150354523 | ENGINE STARTING APPARATUS WITH INRUSH CURRENT REDUCER - An engine starting apparatus is provided which is equipped with a starter, an inrush current reducer, and a starter mode switch. The inrush current reducer works to reduce an inrush current flowing through an electric motor installed in the starter when the electric motor is energized. The starter mode switch works to change a starter characteristic that is an output characteristic of the starter continuously or selectively at least between a low-torque/high-speed mode and a high-torque/low-speed mode. The starter mode switch places the starter in the high-torque/low-speed mode at least at a time when a piston of the engine is passing a top dead center, and the engine friction has been just maximized for the first time after the starter is actuated to crank the engine. This shortens a period of time required to start up the engine without sacrificing beneficial effects offered by the inrush current reducer. | 12-10-2015 |
20160010613 | INTERNAL COMBUSTION ENGINE START-STOP CONTROLS | 01-14-2016 |
20160016467 | STARTING MECHANISM FOR A MOTOR VEHICLE - A starting mechanism for a motor vehicle with an ignition mechanism, a programmable ignition key and a detector for alcohol and/or drugs, wherein the ignition mechanism is configured to be started by the ignition key if the detector for alcohol and/or drugs provides a result below a limit value, wherein the programmable ignition key comprises an adjustable identifier that deactivates the detector for alcohol and/or drugs and enables starting of the ignition mechanism. | 01-21-2016 |
20160053735 | STARTING DEVICE FOR GAS INTERNAL COMBUSTION ENGINE - An object of the present invention is to provide a starting device for a gas internal combustion engine whereby non-combusted gas accumulating in the gas internal combustion engine and an exhaust channel is discharged before ignition startup of the gas internal combustion engine and abnormal combustion of the gas internal combustion engine is prevented so as to improve safety, breakage prevention, durability and reliability. A starting device of a gas internal combustion engine | 02-25-2016 |
20160061170 | METHOD OF STARTING AN INTERNAL COMBUSTION ENGINE - A method of starting an internal combustion engine ( | 03-03-2016 |
20160069316 | START CONTROL APPARATUS - A start control apparatus is provided with: a crank angle sensor configured to output a signal in association with rotation of an output shaft of an internal combustion engine; a resolver configured to detect a rotor angle, which is an angle position of a rotating shaft of a motor; and a controlling device configured to perform start control associated with the internal combustion engine on the basis of a temporary crank angle, from a start of the internal combustion engine until determination of a crank angle in starting of the internal combustion engine, wherein the temporary crank angle is an estimated value calculated by adding a value according to the outputted signal to a stop angle, which is an angle based on the rotor angle detected at a previous stop of the internal combustion engine. | 03-10-2016 |
20160097365 | STARTING CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINES AND STARTING CONTROL METHOD - A starting control device for an internal combustion engine is provided with a hard cranking device and a soft cranking device that are respectively capable of and incapable of cranking the internal combustion engine to a target idle rotation speed. The starting control device includes: a starting mode determination unit determining whether to carry out starting in a non-combustion pressure mode whereby starting is carried out with the hard cranking device, or in a combustion pressure combination mode whereby starting is carried out through cranking with the soft cranking device while using a combustion pressure generated by supplying fuel to the internal combustion engine in combination; and an intake air amount control unit making an amount of intake air during cranking differ between a case where starting is carried out in the non-combustion pressure mode and a case where starting is carried out in the combustion pressure combination mode. | 04-07-2016 |
20160102643 | SYSTEM FOR STARTING POWER SYSTEMS WITH MULTIPLE GENERATOR UNITS - A control system and strategy for starting power systems having a plurality of power modules. For example, a multi-engine generator set switcher locomotive has three power modules each of which have an engine associated therewith. Upon receiving a command from the locomotive indicating to the engine control module to start at least one power module, i.e., engine, the control strategy determines whether to start the engine with an air or electric start. The control strategy starts only a single engine at a time, thereby avoiding overloading the airflow capacity of the compressed air source or the electric power capacity of the electric source. The control strategy also implements a command to start ever engine with an air starter, if possible, to preserve the electric starter motor and the electric power capacity of the electric source. | 04-14-2016 |
20190145368 | ENGINE STARTING SYSTEM AND STARTER | 05-16-2019 |