Class / Patent application number | Description | Number of patent applications / Date published |
318478000 | Electrical conditions in circuit other than controlled motor circuit | 28 |
20090218978 | Contact Detection Apparatus and Pinch Prevention Apparatus - A contact detection apparatus that allows faster detection and a pinch prevention apparatus equipped with such a detection apparatus are provided. | 09-03-2009 |
20090256513 | Power output apparatus, vehicle equipped with power output apparatus, and control method of power output apparatus - A hybrid electronic control unit sends a combustion start command to an engine ECU when the rotation speed of an engine reaches a combustion start rotation speed by engine cranking. The engine ECU sends an initial explosion advance notification to the hybrid electronic control unit when the crank position of the engine reaches a specific position prior to an ignition timing of an initial explosion cylinder by a preset crank angle θec. Ignition of the initial explosion cylinder is performed at a timing when the crank position is further rotated by the preset crank angle θec. The hybrid electronic control unit sends a torque command in view of a counter torque Tα to a motor ECU after elapse of a preset time period tv. The preset time period tv is the sum of a first time period t | 10-15-2009 |
20090278487 | FAN CONTROL CIRCUIT - A fan control circuit for controlling a fan to dissipate heat from an electrical device includes a comparator and an electrical switch. The comparator has a comparator input terminal, a comparator reference terminal, and a comparator output terminal. The comparator input terminal is connected to a power source via a first resistor and is also connected to the electrical device to receive a working current draw of the electrical device. The comparator reference terminal is receiving a reference voltage. The comparator output terminal is capable of outputting a comparison result between a voltage received by the input terminal and the reference voltage. The electrical switch has a control terminal, a first terminal, and a second terminal. The control terminal is connected to the comparator output terminal of the comparator to receive the comparison result. The first terminal is connected to the power source via a resistor. The second terminal is grounded and connected to the terminal via a fan. | 11-12-2009 |
20100060221 | FAN MODULE AND SYSTEM - A fan module, especially a fan module which may reduce a rotating speed of a fan automatically when an object with static electricity gets into the fan is provided. The fan module includes a frame, a fan, an electrostatic induction unit and a controller. The fan is disposed in the frame, and the electrostatic induction unit is disposed on the frame and adjacent to the fan. The controller is electrically coupled to the electrostatic induction unit. When an object with static electricity gets into the electrostatic induction unit, the electrostatic induction unit outputs a sensing value to the controller. The controller determines whether to reduce the rotating speed of the fan according to the sensing value. | 03-11-2010 |
20100066293 | VEHICLE-USE START CONTROL SYSTEM - The vehicle-use start control system includes a control section which initializes a control signal outputted from the control section when a power supply voltage supplied is lower than or equal to a predetermined initialization voltage, and sets a voltage level of the control signal depending on the detected shift range of the automatic transmission, and a latch section which outputs a start permission/inhibition signal a voltage level of which is indicative of starting of an engine of the vehicle being permitted or inhibited. The latch section latches the voltage level of the start permission/inhibition signal when the power supply voltage is predicted to be lower than or equal to the initialization voltage during the start processing period. | 03-18-2010 |
20100164421 | APPARATUS, SYSTEM, AND METHOD FOR IMPROVED FAN CONTROL IN A POWER SUPPLY - An apparatus, system, and method are disclosed for controlling fan speed in a power supply. The apparatus measures input power to the power supply and measures the output power provided by the power supply over an interval. The apparatus determines values for the input power and output power and, using the two, determines how much power has been dissipated in the power supply. Power dissipation values are associated with particular fan speeds, and the apparatus adjusts the speed of the fan in the power supply based on how much power was dissipated during the interval. Increasing levels of power dissipation increases the fan speed, and decreasing levels of power dissipation decrease the fan speed. | 07-01-2010 |
20100244759 | SAFETY FEATURES FOR MOVING COMPONENTS OF ELECTRONIC DEVICES - The invention broadly contemplates a safety arrangement that transitions a moving component, for example a cooling fan housed within a chassis of an electronic device, between a first operating mode or condition and a second operating mode or condition. The first operating mode is a normal operating mode, allowing the component (fan) to operate (rotate) at full speed. The second operating mode is a safety or service mode, allowing the component (fan) to operate (rotate) at a reduced speed such that it is compliant with applicable safety regulations. | 09-30-2010 |
20110199035 | MOTOR CONTROL DEVICE - A motor control device, which receives at least two emergency stop signals, includes an LSI, a PWM signal transmission circuit, a drive circuit, and an inverter circuit. The LSI generates PWM signals. The PWM signal transmission circuit transmits the PWM signals. The drive circuit generates inverter drive signals. The inverter circuit includes a P-side power switching device and an N-side power switching device. The drive circuit includes a P-side drive circuit for driving the P-side power switching device, and an N-side drive circuit for driving the N-side power switching device. One of the emergency stop signals is inputted to the P-side drive circuit and the PWM signal transmission circuit. The other emergency stop signal is inputted to the N-side drive circuit and the PWM signal transmission circuit. In response to the receipt of an emergency stop signal, the PWM signal transmission circuit stops transmitting the PWM signals, and the drive circuit stops outputting the inverter drive signals. | 08-18-2011 |
20110298407 | MOTOR POSITION CONTROLLER - The motor position controller inputs a command pulse signal and a desired pulse form setting, and drives a motor based on the command pulse signal. The motor position controller includes a position command generating device configured to generate a position command signal from the command pulse signal in accordance with the inputted desired pulse form setting, a motor controlling part configured to supply power to the motor based on the position command signal, and a first conformity determination device configured to determine the conformity of the desired pulse form setting and the command pulse signal. | 12-08-2011 |
20120081057 | METHOD FOR OPERATING AN ACTUATOR - A method for operating an electrically driven actuator having a power supply that has an energy storage unit ( | 04-05-2012 |
20140021900 | CONTROLLER FOR A SEATBELT POSITIONING DEVICE AND SEATBELT POSITIONING DEVICE - A control ( | 01-23-2014 |
20140265979 | SYSTEM AND METHOD FOR FAULT PROTECTION OF A MOTOR - An exemplary motor driving system includes a power source, a driving circuit, a controller, a motor, and a protection circuit. The driving circuit including at least one switching device coupled with the power source. The motor includes a plurality of windings. The motor is coupled with the driving circuit and driven by the driving circuit. The controller is configured to provide first switch signals to the at least one switching device of the driving circuit in a normal mode. The protection circuit is coupled with the controller, and configured to generate second switch signals based at least in part on a fault signal in a fault mode and provide the second switch signals to the at least one switching device of the driving circuit so as to reconstruct circuit loops between the driving circuit and the plurality of windings. A method for operating the motor driving system is also described. | 09-18-2014 |
20140292245 | MOTOR-DRIVEN APPLIANCE SYSTEM AND METHOD FOR CONTROLLING THE SYSTEM - A motor-driven appliance system in one aspect of an embodiment of the present disclosure includes a motor-driven appliance having a motor, at least one control circuit, and a communication device. The control circuit is configured to execute a process related to control of the motor-driven appliance. The communication device is configured to communicate with an external device. The control circuit is further configured to switch, when at least one predetermined sleep condition is satisfied, from an active mode in which the control circuit performs a normal operation to a sleep mode in which the control circuit stops part of the normal operation to thereby suppress power consumption; and to switch to the active mode when the communication device receives an external wakeup signal transmitted from the external device while the control circuit is in the sleep mode. | 10-02-2014 |
20150022134 | MACHINE TOOL AND CONTROL METHOD FOR THE SAME - A machine tool includes a rotational drive unit that rotationally drives a main spindle to which a tool is attached, a moving unit that relatively moves the tool with respect to the workpiece, and a rotational speed adjustment unit that adjusts a rotational speed of the main spindle by controlling the rotational drive unit. The machine tool also includes a machining start determination unit that determines that machining of the workpiece by the tool is started with the rotational drive unit rotationally driving the main spindle. The rotational speed adjustment unit exponentially raises the rotational speed of the main spindle after reducing the rotational speed to a predetermined rotational speed set in advance, on condition that the machining start determination unit determines that the machining is started, and causes the rotational speed of the main spindle to reach a value of the rotational speed before being reduced. | 01-22-2015 |
20150323911 | SYSTEM AND METHOD FOR AUTOMATING ANCILLARY DEVICES USING A MOTOR CONTROLLER FOR A PUMP - A motor controller coupled to a motor for a pump is described. The motor controller is configured to determine a first mode of operation for the motor, based on at least one of a predefined schedule stored by the motor controller and an input signal received by the motor controller from at least one ancillary device. The motor controller is additionally configured to transmit a first control signal to the motor to operate the motor in the first mode, and to transmit a second control signal to change an operation of the at least one ancillary device, wherein the at least one ancillary device includes one or more of a heater, a chlorine generator, and an ozone generator. | 11-12-2015 |
20160380575 | MOTOR DRIVE CONTROL DEVICE, COMPRESSOR, AIR-SENDING DEVICE, AND AIR-CONDITIONING APPARATUS - A motor drive control device includes a three-phase rectifier; a boosting circuit including a reactor, a switching element, and a backflow preventing element and boosts a direct-current bus voltage supplied from the three-phase rectifier; a smoothing capacitor; an inverter circuit; a boosting control unit; an inverter control unit; and a circuit protecting unit suppresses a ripple current flowing through the smoothing capacitor. In the circuit protecting unit, a correlation of an on-duty ratio of the switching element included in the boosting circuit, the output power of the inverter circuit, and an estimated ripple current are set. On the basis of the on-duty ratio of the switching element, output power of the inverter circuit, and the correlation, the circuit protecting unit determines an estimated ripple current flowing through the smoothing capacitor. When the estimated ripple current exceeds a preset threshold, the circuit protecting unit suppresses the ripple current. | 12-29-2016 |
318479000 | Voltage | 12 |
20090015183 | Power tools - A power tool includes a motor, a first device and a second device. The motor receives a supply of an electric power from a power source externally of the power tool. The first device determines if the electric power supplied from the power source is an AC power or a DC power. The second device permits or interrupts the supply of the electric power to the motor depending on the determination of the first device. | 01-15-2009 |
20120032624 | Method and Apparatus for Motor Control - Various embodiments of a motor controller are disclosed. In exemplary embodiments, the motor controller can be instructed to select an operational profile based on the duration of power loss. In an exemplary embodiment, the system comprises a battery or capacitor to provide power to a microcontroller in the motor controller while power is disconnected. | 02-09-2012 |
20120074889 | Inverter Control Device - Provided is an inverter control device that can detect momentary abnormality in a power-supply voltage for sure, and return quickly to regular state when the abnormality in the power-supply voltage has been settled. The inverter control device consists of a main power-supply ( | 03-29-2012 |
20120098475 | MOTOR DRIVING APPARATUS - A motor driving apparatus includes: a threshold providing circuit that provides a plurality of power failure detection thresholds determined according to an installation environment of the motor driving apparatus, a selection circuit that selects a specified power failure detection threshold from the power failure detection thresholds, and a comparison and determination circuit that determines presence or absence of an occurrence of power failure by comparing a detected voltage of an alternating-current power input to a motor driving circuit and the selected power failure detection threshold. Consequently, it is possible to select the power failure detection threshold, which determines a detection reference of power failure in which alternating-current power input is interrupted, according to an installation environment, so that the abnormal end process in the case of an occurrence of power failure in which alternating-current power input is interrupted can be surely performed in any installation environment. | 04-26-2012 |
20130264986 | MOTOR DRIVE DEVICE HAVING FUNCTION OF VARYING DC LINK LOW-VOLTAGE ALARM DETECTION LEVEL - A motor drive device ( | 10-10-2013 |
20130342149 | MOTOR CONTROL DEVICE THAT DECREASES POWER CONSUMED BY CONTROL POWER SOURCE WHEN POWER FAILS - A PWM signal generation unit generates a PWM signal to drive a motor, based on a current value of the motor sampled by a current value sampling unit, a position or speed of the motor sampled by a motor sampling unit, and a position or speed of a driven object sampled by a driven object sampling unit. An operation stop unit stops the operation of any one of the motor sampling unit and the driven object sampling unit depending on the power stored in the DC link part and power to which the control power source can supply when the alternating-current power source fails. | 12-26-2013 |
20140015462 | METHOD OF DETECTING DISCONNECTION STATE OF POWER CABLE IN INVERTER SYSTEM - Disclosed is a method of detecting the disconnection state of a power cable in an inverter system. The method includes detecting a battery voltage, detecting a DC-link voltage, detecting the disconnection state of the power cable based on a difference value between the detected battery voltage and the DC-link voltage, and stopping driving of a motor if the power cable is detected as being disconnected. | 01-16-2014 |
20140084835 | LOAD DRIVING DEVICE AND ELECTRONIC DEVICE USING SAME - A load driving device according to the present invention has: an internal circuit (DRV) that operates in response to the supply of a power supply voltage (HV or LV); an output circuit (PD | 03-27-2014 |
20140132192 | POWER CONTROL FOR ELECTRICAL APPLICATIONS OVER LONG CABLES - This disclosure is drawn to methods, systems, devices and/or apparatus related to power control in applications over long cables. Specifically, the disclosed methods, systems, devices and/or apparatus relate to power control that considers the maximum power available at the end of a long cable (or from a battery) to a load over a broad range of load conditions. Some example systems may include a power supply located at the Earth's surface and a power converter coupled to the power supply via a cable having a first end coupled to the power supply and a second end coupled to the power converter. Some example power converters may be configured to measure the power being consumed by the electrical load in the well, and adjust operating parameter(s) of the electrical load based, at least in part, on the maximum power available at the second end of the cable. | 05-15-2014 |
20150349692 | SOLAR ENERGY UTILIZATION SYSTEM, AND COOL BOX, AIR CONDITIONER OR PUMP INCLUDED THEREIN - A solar energy utilization system includes a solar panel, a motor that is driven by solar output power, and a motor stall prevention device that prevents the motor during drive from stalling, and as the motor stall prevention device, any of following devices is selected: (a) a motor stall prevention device that limits solar output voltage to voltage higher than voltage at which the solar panel outputs maximum power at the point in time; (b) a motor stall prevention device that limits solar output voltage to voltage at which, when the output voltage is changed on a P-V curve, a change rate becomes negative; and (c) a motor stall prevention device that is configured by a capacitor which is connected in parallel to the solar panel and stores power generated by the solar panel. | 12-03-2015 |
20160028331 | MOTOR CONTROL DEVICE EQUIPPED WITH TORQUE COMMAND LIMITING FUNCTION AT POWER OUTAGE - A motor control device of the present invention is a control device for a motor for driving a feed shaft of a machine tool, and includes: a power outage detector for detecting a power outage of a power source for supplying power to drive the motor; a forcible decelerator for forcibly decelerating the motor in response to a torque command when a power outage is detected; a DC link voltage monitor for monitoring a DC link voltage applied to an amplifier for driving the motor; a determination unit for determining whether the value of the DC link voltage is greater than a first threshold, or whether the change ratio of the DC link voltage is greater than a second threshold; and, a torque command limiter for limiting the torque command to a predetermined torque command limiting value, in accordance with the result of determination at the determination unit. | 01-28-2016 |
20220140761 | SEMICONDUCTOR DEVICE AND METHOD THEREFOR - In one embodiment, a motor control circuit may be configured as a current circuit that forms a sense current that is representative of at least a BEMF voltage from a motor, and to use the sense current to detect a substantially zero-crossing of the BEMF voltage. | 05-05-2022 |