Patent application number | Description | Published |
20110175563 | MOTOR CONTROLLING DEVICE - A motor controlling device includes an encoder to output pulse signals with a predetermined angle interval as a rotor of a motor is rotated. An energized phase of the motor is sequentially switched by detecting a rotation position of the rotor based on a value of counting the signals. An initial drive controlling portion executes an initial drive to switch the energized phase with a predetermined pattern after the device is activated so as to learn a relationship among the count value, the rotation position and the energized phase. An initial drive prohibiting portion prohibits the execution of the initial drive until a predetermined time is elapsed after the initial drive is finished. | 07-21-2011 |
20120119689 | MOTOR CONTROL SYSTEM - An amount of a rotational angle corresponding to a half of a play (included in an insert-fit coupling device having a maximum production tolerance) is set as a correction amount. When a shift range is changed to a target range, a target rotational angle for an output shaft corresponding to such target range is calculated. The target rotational angle is corrected to get a virtual rotational angle for the output shaft, so that the output shaft may be further rotated by the correction amount in addition to the target rotational angle. A control error for a stop position of a roller is controlled within a half of the play. According to the invention, it is not necessary to carry out a learning process for the play. | 05-17-2012 |
20120123653 | SHIFT-BY-WIRE SYSTEM - When a vehicle electric power source is turned on, and when a target mode position is other than a P-mode position and a D-mode position or the target mode position is unfixed, an SBW-ECU does not drive the actuator so that the current actual mode position is maintained. The SBW-ECU accepts only the driver's requirement for changing the mode position to the P-mode position or the D-mode position. When it is required to change the mode position to the P-mode position, a first position learning portion learns a first reference position. When it is required to change the mode position to the D-mode position, a second position learning portion learns a second reference position. | 05-17-2012 |
20130110364 | SHIFT-BY-WIRE SYSTEM FOR AUTOMATIC TRANSMISSION OF VEHICLE | 05-02-2013 |
20130110365 | SHIFT-BY-WIRE SYSTEM FOR AUTOMATIC TRANSMISSION OF VEHICLE | 05-02-2013 |
20130141031 | MOTOR CONTROL APPARATUS - When a failure of a feedback control operation of an electric motor is sensed, a control unit changes the feedback control operation to an open loop control operation. At the time of executing the open loop control operation, the control unit sequentially changes the exciting phase of the motor without executing feedback of information of the count value of the encoder counter and rotates a rotor of the motor until a count value of an exciting phase change counter reaches an open loop target count value, which corresponds to a target rotational position of the rotor. When the control unit changes the feedback control operation to the open loop control operation, the control unit sets the open loop target count value by correcting a feedback target count value based on an exciting phase deviation correction value for the count value of the encoder counter. | 06-06-2013 |
20130144478 | SHIFT RANGE SWITCHER - A shift range switcher includes a motor for switching a shift range and a controller for energizing the motor. The controller estimates temperatures of the motor and controller. The controller adds to the estimated controller temperature a value corresponding to heat generation in the controller due to energization of the motor. The controller subtracts from the estimated controller temperature a value corresponding to heat release from the controller due to de-energization of the motor. The controller adds to the estimated motor temperature a value corresponding to heat generation in the motor due to the energization. The controller subtracts from the estimated motor temperature a value corresponding to heat release from the motor due to the de-energization. The controller prohibits or restricts operations of the controller and the motor when at least one of the controller and motor estimated temperatures reaches an allowable temperature limit. | 06-06-2013 |
20130154537 | MOTOR CONTROL APPARATUS - A motor control apparatus that controls rotation of a rotor of an electric motor powered from an electric power source includes a learning portion that executes an initial drive learning process, and a controller that executes a normal drive operation to sequentially change an exciting phase of the electric motor based on a count value of a counter which is corrected by a correcting portion such that the rotor is rotated to a target position after an initial drive operation is finished. The learning portion re-executes the initial drive learning process after a predetermined condition is satisfied, when the initial drive learning process is failed. | 06-20-2013 |
20130175963 | MOTOR CONTROL APPARATUS - A motor control apparatus that controls a motor which switches an operating position of a control object and that is powered from a power source through a switching portion which is turned on or off by an operating portion includes a control portion executing a return control after an abutment control. The control portion maintains the switching portion on until the return control is completed so as to continue powered from the power source, when the operating portion is operated to turn the switching portion off in a time period from when the abutment control is started to when the return control is completed. | 07-11-2013 |
20140015467 | MOTOR CONTROL APPARATUS - A motor control apparatus includes a motor that rotates a controlled object, an encoder that outputs a pulse signal in synchronization with a rotation of the motor, and a control section that performs a feedback control so as to rotate the motor to the target rotational position. The control section includes a stopping and holding control portion. The stopping and holding control portion performs a stopping and holding process in which the stopping and holding control portion supplies electric current to the motor so as to stop and hold the motor for a current-supply holding time. The stopping and holding control portion sets the current-supply holding time on the basis of a rotation speed of the motor just before the stopping and holding process. | 01-16-2014 |
20140025266 | RANGE SWITCHOVER APPARATUS - In a range switchover control apparatus, a microcomputer checks, under a state that driving force of a motor is released, whether a range switchover mechanism is at rest and whether the range switchover mechanism is at rest in a bottom position, that is, whether an engagement member is fitted deep into a bottom of a range holding recess. If the range switchover mechanism is at rest in the bottom position, an encoder count value at a reference position (bottom position of a P-range) is calculated based on a present range and an encoder count value. By using the present range and the calculated encoder count value, an encoder count value of the bottom position of the present range can be determined. Based on this encoder count value, the encoder count value at the reference position can be calculated. | 01-23-2014 |
20140028231 | RANGE SWITCHOVER APPARATUS - When electric power supply is started, an initial driving operation is performed to switch over a power supply phase of a motor in open-loop control. Initial learning processing is performed to learn a phase deviation correction value for the power supply phase relative to a count value of a pulse signal of an encoder. As a restraint caused by a shape of a detent mechanism, the motor need be rotationally driven so that a detent lever does not move in a negative direction beyond a bottom position of a P-range in the initial driving operation. In a case of performing the initial learning processing in the P-range in consideration of this restraint, the initial learning processing is performed by setting a rotation direction of the motor. | 01-30-2014 |
20140139171 | RANGE SWITCHING DEVICE - A range switching device provides a feedback control for rotating a motor toward a target rotation position. When a target shift range is switched, the range switching device rotates the motor toward a target rotation position by sequentially switching power supply phases of the motor based on an encoder count value. When the motor rotates within a predetermined stop range, the feedback control ends and a power supply to the motor is stopped. However, if the motor has not rotated to the target rotation position after a predetermined time has elapsed from the stopping of the power supply to the motor, an open drive is performed, in which the power supply phase of the motor is sequentially switched by open-loop control and the motor is rotated in small and/or minute steps toward the target rotation position. In such manner, position accuracy of the shift range switching is improved. | 05-22-2014 |
20140139172 | MOTOR CONTROL APPARATUS - In a butting control, while performing a constant current control for a motor based on an output of a current sensor, the motor is driven by sequentially switching over a current supply phase of the motor in a one-phase current supply method, in which only one of the phases of the motor is powered. By performing the constant current control in the butting control, changes in a current value of each phase caused by temperature changes or aging changes is suppressed and hence a torque change of the motor is suppressed. In addition, by sequentially switching over the current supply phase of the motor in the one phase current supply method under the constant current control, a torque change of the motor can be suppressed while maintaining the current value of the current supply phase at a constant value. | 05-22-2014 |
20140210395 | RANGE SWITCHING DEVICE - A range switching device may switch a shift range despite resetting and restarting of a controller. When the controller is reset and restarted during a switching operation of the shift range and the shift range before or after being switched is a P range, the controller controls a motor to rotate the motor until a range switching mechanism abuts against a first limit position of a movable range of the range switching mechanism and learns a rotation position of the motor as a reference position of the motor. When the shift ranges before and after being switched are the ranges other that the P range, the controller controls the motor to rotate until the range switching mechanism abuts against a second limit position of the movable range and learns the rotation position of the motor as the reference position. | 07-31-2014 |
20140251051 | RANGE SWITCHING DEVICE - A range switching device has a range switch mechanism driven by a motor and a control unit in the range switching device performs an abutment control for controlling the motor when a shift range is a range other than a P range at a start time of the control unit, based on a determination whether a switch permission condition is being fulfilled. The fulfillment of such a condition is determined based on a brake ON state of a vehicle and an IG switch ON state. When the switch permission condition is determined as fulfilled, the shift range is switched to the P range and the motor is rotated to perform the abutment control for learning a reference position. | 09-11-2014 |
20140336864 | ACTUATOR CONTROL APPARATUS - An actuator control apparatus including a by-wire control circuit, a monitor circuit, a drive determination section, and a prohibition section is provided. The by-wire control circuit electrically controls an actuator acting as a drive source of an on-board apparatus. The monitor circuit monitors whether or not the by-wire control circuit is normally operating. The monitor circuit is provided separately from the by-wire control circuit. The drive determination section determines prohibition and permission of driving the actuator. The prohibition section prohibits the actuator from being driven when the permission of driving the actuator is not determined by the drive determination section. The prohibition section also prohibits the actuator from being driven when the monitor circuit determines that the by-wire control circuit is not normally operating. | 11-13-2014 |
20150035463 | VEHICLE CONTROL SYSTEM - A SBW-ECU prohibits driving of an electric motor by turning off power supply to the motor by a drive prohibition device, when a diagnosis part of a by-wire control circuit determines that a shift-by-wire system is abnormal or a monitor circuit determines that the by-wire control circuit is abnormal. In this case, the motor is stopped from rotating by execution of power supply phase fixation processing, by which a power supply phase of the motor is fixed without switchover, when the motor is driven to rotate at the time of determination of abnormality of the shift-by-wire system. Then the prohibition device prohibits driving of the motor by stopping the power supply to the motor. | 02-05-2015 |