Patent application number | Description | Published |
20130116078 | HYBRID VEHICLE - A power split mechanism of a hybrid vehicle includes a sun gear that is coupled to a electric power generator, a ring gear that is coupled to a electric motor and a driving wheel, a pinion gear that meshes with the sun gear and the ring gear, and a carrier that supports the pinion gear and is coupled to a engine. Each of the arms of a inverter includes a first switching element that is provided on an upper arm thereof, and a second switching element that is provided on a lower arm thereof. A control device turns on one of the first switching element and the second switching element and turns off the other if an operation of stopping a vehicle system is performed during running. | 05-09-2013 |
20130317715 | Control Device for Vehicle - An ECU determines whether or not there is an abnormality (shift pattern abnormality) in a combination of shift signals provided from a shift position sensor. After occurrence of the shift pattern abnormality is determined, the ECU determines whether or not a first condition that a shift pattern changes into a normal pattern of a drive range is satisfied, and whether or not a second condition that a vehicle is running (a driver has an intention to cause the vehicle to run) is satisfied. When occurrence of the shift pattern abnormality is determined, the ECU stops generation of driving force of the vehicle and prohibits switching to the drive range. When the above-mentioned first condition and second condition are satisfied after occurrence of the shift pattern abnormality is determined, the ECU switches the shift range to the drive range indicated by the shift pattern and recovers the driving force. | 11-28-2013 |
20130317720 | CONTROL DEVICE FOR VEHICLE - During the deactivation of a driving system of a vehicle, an ECU determines whether or not a P range abnormality occurs which exhibits that a shift signal transmitted from a shift position sensor includes a P signal and an MJ signal corresponding to the P range as well as a different-type signal other than the P signal and the MJ signal. When the P range abnormality occurs, the ECU determines whether or not the vehicle-stopped state can be assured based on whether or not a brake-ON state (a hydraulic braking force or a parking braking force are beyond the range capable of maintaining vehicle-stopped state) is present. In a case where a P range abnormality occurs, when ECU determines that the vehicle-stopped state can be assured, the ECU allows the activation of the driving system. | 11-28-2013 |
20130325275 | CONTROL DEVICE FOR VEHICLE - An ECU determines whether or not there is an abnormality (shift pattern abnormality) in a combination of shift signals provided from a shift position sensor. After occurrence of the shift pattern abnormality is determined, ECU determines whether or not a first condition that a shift pattern has changed into a normal pattern of a drive range, a second condition that a brake is ON and a vehicle is in a stop state is satisfied, and a third condition that an accelerator is OFF satisfied. When occurrence of the shift pattern abnormality is determined, ECU stops generation of driving force of the vehicle and prohibits switching to the drive range. When ECU determines that the above-mentioned first to third conditions are satisfied after occurrence of the shift pattern abnormality is determined, ECU switches the shift range to the drive range indicated by the shift pattern. | 12-05-2013 |
20140117971 | SHIFT SENSOR AND VEHICLE INCLUDING THE SAME - A shift sensor includes a movable member, four movable contacts, seven fixed contacts, and two power supply terminals. Each of the movable contacts is fixed to the movable member and pivoted to a position corresponding to a shift position. Each of the fixed contacts outputs a shift signal when it is brought into conduction with a power supply terminal by coming into contact with any of the movable contacts. The fixed contacts are arranged such that the number of shift signals that differ between shift positions is three or more, between the shift positions of P, R, N, D, and B, except for between the D and B positions. | 05-01-2014 |
20140188356 | VEHICLE AND CONTROL METHOD FOR VEHICLE - A vehicle includes a shift sensor and an ECU that switches a shift range based on a combination of shift signals received from the shift sensor. The ECU includes a determining unit and a switching unit. The determining unit determines, based on how a shift signal pattern has changed (the number and type of shift signals that have changed), whether or not to execute first fail-safe traveling in which a shift range before occurrence of a shift abnormality is maintained. In the event of a shift abnormality, in a case where execution of the first fail-safe traveling is permitted, the switching unit executes the first fail-safe traveling to maintain a shift range before occurrence of the shift abnormality, and in a case where execution of the first fail-safe traveling is prohibited, the switching unit executes second fail-safe traveling to switch a shift range to an N range. | 07-03-2014 |
20140288740 | CONTROL APPARATUS FOR HYBRID VEHICLE - A control apparatus for a hybrid vehicle includes an engine for traveling, a motor for traveling, and a battery exchanging electric power with the motor. the control apparatus including: a heater is configured to perform heating inside a cabin of the hybrid vehicle by using the engine or an electric heat source as a heat source; and a controller is configured to operate the engine intermittently, the controller is configured to select the heat source for the heater, the controller is configured to determine whether or not a fuel for the engine is degraded when the engine is stopped, and the controller is configured to start the engine and select the engine as the heat source when the controller determines that the fuel is degraded. | 09-25-2014 |
20140288741 | HYBRID VEHICLE AND CONTROL METHOD THEREFOR - A hybrid vehicle includes: an engine configured to output power for traveling; a motor configured to output power for traveling; a switch configured to set a fuel economy priority mode, in which priority is given to fuel economy, and to cancel the fuel economy priority mode; and a controller configured (a) to operate the engine and the motor based on the switch setting; (b) to determine the presence/absence of degradation of fuel supplied to the engine; and (c) to prohibit setting of the fuel economy priority mode by the switch subsequently when determination is made that the fuel has degraded when the hybrid vehicle travels using power of the motor in a state in which the drive of the engine is stopped. | 09-25-2014 |
20140288742 | HYBRID VEHICLE - A hybrid vehicle includes: an engine; a motor; a battery; a navigation system; and a controller configured to carry out navigation coordination traveling, the controller being configured to stop the navigation coordination traveling when a state of charge of the battery becomes lower than or equal to a first switching threshold, the controller being configured to resume the navigation coordination traveling when the state of charge of the battery becomes higher than or equal to a second switching threshold higher than the first switching threshold, the controller being configured to set a first predetermined state of charge for the first switching threshold when there is no regenerative travel section, and the controller being configured to set a second predetermined state of charge lower than the first predetermined state of charge when there is the regenerative travel section. | 09-25-2014 |
20140288743 | HYBRID VEHICLE - A hybrid vehicle includes an engine including a purification device, a motor, a battery, a navigation system, and a controller. The controller is configured to set a predetermined section, which is an initial section of a hybrid traveling priority section in a travel plan, for a warm-up section for warming up the purification device. The controller is configured to reset the travel plan by changing any one of an electric traveling priority sections before the predetermined section to the hybrid traveling priority section when a traveling load of the predetermined section is higher than a predetermined load corresponding to an output limit of the battery. The controller is configured to reset the section changed to the hybrid traveling priority section for the warm-up section for warming up the purification device. | 09-25-2014 |
20140288744 | CONTROL APPARATUS FOR VEHICLE - A control apparatus for a vehicle includes an engine installed on the vehicle as a drive source, an electric motor installed on the vehicle as a drive source, the electric motor being configured to run the vehicle even in a condition where the engine is stopped. The control apparatus includes a controller configured to start the engine after a given delay time elapses, if a starting condition based on an operation of a driver is satisfied, the controller being configured to keep the engine stopped if the starting condition ceases to be satisfied before the delay time elapses after the starting condition is satisfied. | 09-25-2014 |
20140303818 | HYBRID VEHICLE AND METHOD FOR CONTROLLING HYBRID VEHICLE - Provided are a hybrid vehicle and control method thereof. The hybrid vehicle has a power storage device, an internal combustion engine, a power generation device, an input device and an electronic control unit. The electronic control unit is configured to control charging of the power storage device by the power generation device in such a manner that charging of the power storage device is promoted when an increase of the power storage amount is requested through the input device, and in a state where an increase of the power storage amount has been requested through the input device, to suppress charging of the power storage device when a travel load is small, as compared to when the travel load is large, and to mitigate suppression of charging of the power storage device when a predefined condition is met during suppression of charging of the power storage device. | 10-09-2014 |
20140303819 | HYBRID VEHICLE - A hybrid vehicle includes a power storage device, an engine, a power generation apparatus, an input apparatus, and an ECU. The power generation apparatus is configured to generate charging power of the power storage device by using output of the engine. The input apparatus is configured to request, by a user input, an increase in a power storage amount of the power storage device. The ECU is configured to: (a) control charging of the power storage device by the power generation apparatus and accelerate the charging of the power storage device, when the increase in the power storage amount is requested, and (b) suppress charging of the power storage device at the time when a travel load is small in comparison with charging of the power storage device at the time when the travel load is large, when the increase in the power storage amount is requested. | 10-09-2014 |
20140303820 | HYBRID VEHICLE AND CONTROL METHOD THEREOF - A hybrid vehicle includes an engine, a motor configured to generate electricity using a power from the engine, a battery configured to exchange an electric power with the motor, a switch configured to set a charging acceleration mode and to cancel the charging acceleration mode, a reporting device configured to report information, and an electronic control unit configured to (a) increase the electric power generated by the motor higher when the charging acceleration mode is set than that when the charging acceleration mode is not set, and (b) control the reporting device to notify that the charging acceleration mode is set. | 10-09-2014 |
20150038287 | VEHICLE AND VEHICLE CONTROL METHOD - In a vehicle and a vehicle control method, when conditions i) and ii) are satisfied, an electronic control unit is configured to control an internal combustion engine so as to delay starting of the internal combustion engine, which is based on a condition where a vehicle request power is greater than a start threshold value, in a first mode than that in a second mode. The condition i) is a condition in which the driving mode is the first mode and the condition ii) is a condition in which the vehicle request power requested by the vehicle is greater than the start threshold value. The start threshold value is a value with which the internal combustion engine in a stopped state is started. | 02-05-2015 |