With Acceleration Control Patents (Class 318/263)
  • Patent number: 10826552
    Abstract: An example method includes determining, by executing an instruction with a processor, whether environmental condition data collected by a plurality of sensors of a mobile device complies with an environmental condition rule. The environmental condition rule including environmental thresholds associated with the environmental condition data, and the environmental condition data being representative of external conditions.
    Type: Grant
    Filed: February 4, 2019
    Date of Patent: November 3, 2020
    Assignee: AT&T INTELLECTUAL PROPERTY I, L.P.
    Inventors: Barrett M. Kreiner, Ryan Schaub, Randall S. Spell
  • Patent number: 9512661
    Abstract: A vehicle system may include a plurality of exterior capacitive sensors, such as door handles, and a controller in communication with the plurality of capacitive sensors. The controller may be configured to identify a rain condition based on sensor data received from at least one of the exterior capacitive sensors of the vehicle; ensure an absence of a key fob in proximity of the at least one locked handle and an absence of a subsequent door opening occurrence when unlocked to confirm the rain condition; and initiate a closure action to a power actuator associated with an open vehicle window for a confirmed rain condition.
    Type: Grant
    Filed: February 17, 2015
    Date of Patent: December 6, 2016
    Assignee: Ford Global Technologies, LLC
    Inventors: John Robert Van Wiemeersch, Patrick Kevin Holub
  • Patent number: 9018869
    Abstract: A motor control device includes an acceleration portion for increasing a target number of rotations of a motor every predetermined calculation cycle until the target number of rotations of the motor reaches an upper limit number of rotations, which is set on the basis of a reached position of a driven object from a reference position, the driven object is driven by the motor so that a position of the driven object is changed, a deceleration portion for decreasing the target number of rotations of the motor every calculation cycle after the target number of rotations reaches the upper limit number of rotations, and a main control portion for controlling a drive of the motor on the basis of the target number of rotations.
    Type: Grant
    Filed: August 18, 2010
    Date of Patent: April 28, 2015
    Assignee: Aisin Seiki Kabushiki Kaisha
    Inventors: Daisuke Yuasa, Akira Aikawa
  • Patent number: 8466639
    Abstract: A motion control system including components such as an accelerometer for detecting zero force positions and for self-calibrating the motion control system. The motion control system may be implemented in an active seat suspension.
    Type: Grant
    Filed: December 23, 2009
    Date of Patent: June 18, 2013
    Assignee: Bose Corporation
    Inventors: James A. Parison, Jr., Tyson Curtis Coey, Antonio Sangermano, II, Yongkai Xu
  • Patent number: 8334666
    Abstract: A system for detecting a backspin condition of a motor in an electrical submersible pump is described herein. The system comprises a variable speed drive for powering the motor via a power cable; and a controller, the controller having a memory, a computer processor, and a computer program product stored on the memory and executable by the processor. The computer program product comprises the instructions of: monitoring an input current or impedance on the power cable to determine changes in motor current impedance, comparing changes in the motor current impedance to a historical threshold value for backspin events to determine whether the motor is backspinning; impeding operable power to the motor when it is determined the motor is backspinning; supplying a low AC voltage to the motor after it is determined the motor is backspinning; and determining whether or not the motor has stopped backspinning by monitoring the low AC voltage.
    Type: Grant
    Filed: August 26, 2010
    Date of Patent: December 18, 2012
    Assignee: Baker Hughes Incorporated
    Inventors: Sheldon Plitt, John M. Leuthen
  • Patent number: 7579796
    Abstract: Control of rotational speed of a direct current multi-phase brushless motor is provided using an apparatus and method that works at low speed but does not depend upon Hall effect sensors. An apparatus for accelerating rotation of the motor shaft has a power stage circuit coupled to a back Electromotive Force (EMF) sensor circuit and a microprocessor. The power stage pulses at a duty cycle less than 100% under control of the microprocessor. The back EMF sensor circuit measures an order with respect to voltage of at least one phase relative to one or more other phases during off-time. The microprocessor determines one or more phases to be pulsed, and the polarity of the pulses based on the measured order. A method for sustaining rotation pulses the phases, measures order with respect to voltage of at least one phase relative to one or more other phases, and updates commutation state based on the measured order.
    Type: Grant
    Filed: June 24, 2008
    Date of Patent: August 25, 2009
    Assignee: Castle Creations, Inc.
    Inventor: Richard A. Hofer
  • Patent number: 7400103
    Abstract: Control of rotational speed of a direct current multi-phase brushless motor is provided using an apparatus and method that works at low speed but does not depend upon Hall effect sensors. An apparatus for accelerating rotation of the motor shaft has a power stage circuit coupled to a back Electromotive Force (EMF) sensor circuit and a microprocessor. The power stage pulses at a duty cycle less than 100% under control of the microprocessor. The back EMF sensor circuit measures an order with respect to voltage of at least one phase relative to one or more other phases during off-time. The microprocessor determines one or more phases to be pulsed, and the polarity of the pulses based on the measured order. A method for sustaining rotation pulses the phases, measures order with respect to voltage of at least one phase relative to one or more other phases, and updates commutation state based on the measured order.
    Type: Grant
    Filed: August 8, 2006
    Date of Patent: July 15, 2008
    Assignee: Castle Creations, Inc.
    Inventor: Richard A. Hofer
  • Patent number: 6781342
    Abstract: A three phase motor starting system is provided to reduce the in-rush current to the motor in order to obtain a soft start of the motor. The soft start of the motor equates to reduced impact forces on motor parts and device components connected to the motor during startup of the motor, especially a startup resulting from a reversal of the direction of rotation of the motor. The system uses an impedance load in series with the motor windings of the motor to reduce the in-rush current to the motor windings, which results in a reduced acceleration of the motor shaft and a soft start to the motor. The impedance loads used by the system can be a resistive load, a capacitive load or an inductive load, depending on the type of impedance load that is desired for the soft start of the motor.
    Type: Grant
    Filed: May 23, 2003
    Date of Patent: August 24, 2004
    Assignee: Bristol Compressors, Inc.
    Inventors: John Willard Tolbert, Jr., David Turner Monk, Joseph Frank Loprete, Tyrone Scott Simerly, Bradley Todd Arnold
  • Patent number: 5521472
    Abstract: A starting method for starting a multiphase DC motor having a stator provided with stator coils, a rotor provided with a rotor magnet and detector for detecting revolutions of the rotor, has stepping process and acceleration process. In the stepping process, a plurality of stepping steps is performed. The accelerating process is performed after the stepping process is completed. The plurality of the stepping steps include counter-exciting operation. Each of the plurality of stepping steps is provided by a rotation detection step. The stepping process is completed and the accelerating process is performed when a rotation detector detects that the revolutions of the rotor exceeds a predetermined value.
    Type: Grant
    Filed: December 6, 1993
    Date of Patent: May 28, 1996
    Assignee: Nippon Corporation
    Inventors: Shiming Tang, Isao Kaneda, Hisashi Yamamoto
  • Patent number: 4626750
    Abstract: The system includes a plurality of parallel-connected power field effect transistors arranged for connection in series with the traction motor with a common control circuit connected to the gate electrodes of the field effect transistors to control the on-off cycle of conduction through the field effect transistors. A plurality of parallel connected power diodes are arranged for reverse connection in parallel with the traction motor to serve as freewheeling diodes. The diodes are physically positioned apart from one another and distributed in position among the field effect transistors and each diode is positioned in a similar manner with a group of associated field effect transistors for ease of transfer of current flow between the diode and the associated field effect transistors.
    Type: Grant
    Filed: September 10, 1985
    Date of Patent: December 2, 1986
    Assignee: Curtis Instruments, Inc.
    Inventor: Stephen F. Post
  • Patent number: 3989992
    Abstract: A pulse width modulated motor control system in which the power supplies for forward and reverse operation for the motor are provided to supply electric energy at different levels. The control signals for the motor are provided in such a manner that the average energy of unbalanced pulse periods is the same, but the potential level differs by a substantial amount. Energy storage may be provided for in conjunction with the lesser of the two power supplies to assist in a rapid reversal, stop or shaft positioning of the motor.
    Type: Grant
    Filed: March 10, 1975
    Date of Patent: November 2, 1976
    Assignee: Electro-Craft Corporation
    Inventor: Robert H. Schmidt