Entries |
Document | Title | Date |
20080303469 | Variable Frequency Drive System Apparatus and Method for Reduced Ground Leakage Current and Transistor Protection - As applications of variable frequency drives (VFD) ( | 12-11-2008 |
20080315819 | Parallel Multiplex Matrix Converter - It is possible to reduce the size of a parallel multiplex matrix converter as a whole. | 12-25-2008 |
20090001918 | TRANSMISSION DEVICE - A transmission device includes a power output unit and a non-contact type sensing unit. The power output unit includes a power output member that is rotatable about an axis, and has at least one sensed portion that is co-rotatable with the power output member about the axis. The non-contact type sensing unit detects the sensed portion and generates a sensor output from which angular displacement and position of the power output member can be calculated. | 01-01-2009 |
20090009121 | Method for Measuring a Motor Current - The invention relates to a method for measuring a current that flows through a motor, in which a power switch that supplies the motor with electric energy is controlled by a control unit via a pulse width-modulation signal. The pulse width-modulation signal comprises a cycle of operation and the motor current is determined in a feeder to the power switch or a feeder to the motor. Since exactly one measured value representing the motor current is sampled in each cycle of operation, this permits the provision of a method for measuring the motor current, which determines the motor current in a more rapid, more cost-effective manner than in prior art. The method is used for the motor control of direct current motors. | 01-08-2009 |
20090039817 | AUDIBLE NOISE REDUCTION FOR SINGLE CURRENT SHUNT PLATFORM - A method for reducing audible motor noise in a motor drive, wherein the motor drive includes a motor controller driving a PWM space vector modulator providing gating pulses to an inverter providing phase currents to the phase windings of the motor, and wherein phase currents of the motor are determined by taking samples of the DC link current in a DC link powering the inverter. The method comprises determining the speed of the motor and comparing the speed to a preset threshold, the preset threshold defining a speed at which audible noise is generated by the motor due to a minimum pulse constraint being imposed on the motor phase currents in order to reliably sample the DC link current to measure the phase current. If the speed is below the threshold, the DC link current in the DC link is sampled using a reduced number of current samples for a PWM cycle of the PWM space vector modulator to reduce audible motor noise. | 02-12-2009 |
20090045764 | Driver For an Inductive Load | 02-19-2009 |
20090153090 | MOTOR CONTROLLER - A motor controller that outputs a drive signal to a direct-current motor to drive the motor is provided. The motor controller includes a drive circuit that generates the drive signal. The drive circuit superimposes on a direct-current voltage an alternating-current component having a frequency in the audible frequency range of the human ear, thereby generating the drive signal. | 06-18-2009 |
20090167229 | AC Motor Bypass With Fault Annunication, Serial Communication And Fault Tolerant Coil Control - A motor bypass is controlled by a digital signal processor (DSP) with embedded control software that allows fault detection and annunciation, serial communications between both a variable frequency drive (VFD) and a bypass controller and the bypass controller and a host computer. The use of the DSP and embedded control software further allows for contactor coil control to provide fault tolerant operation as well as fault condition detection and annunciation to the user. | 07-02-2009 |
20090322273 | METHOD AND APPARATUS FOR CONTROLLING A MOTOR - The invention concerns a method and an apparatus for controlling a three-or-more-phase motor driven by a frequency converter. In the method, a change-over switch of the frequency converter is controlled to a continuously conducting state and at the same time the phase voltages or phase currents of the other phases are controlled by switching the change-over switches in those motor phases at a switching frequency substantially higher than the frequency of the fundamental wave of the phase voltage or phase current. The apparatus comprises in conjunction with the frequency converter a number of change-over switches, at least one change-over switch for each motor phase. The change-over switches comprise controllable change-over contacts. The apparatus further comprises in conjunction with the frequency converter means for determining the motor phase currents and means for controlling the change-over contacts. | 12-31-2009 |
20100007300 | Method and system for temperature-based power converter control - A method of controlling a power converter in an electric drive machine is disclosed. The method may include determining a first switching frequency and determining a second switching frequency. The method may also include comparing the first switching frequency and the second switching frequency. The method may further include selecting a power converter switching frequency from the lesser of the first switching frequency and the second switching frequency to control a power converter. | 01-14-2010 |
20100045228 | Integrated Fan Drive System For Cooling Tower - An integrated fan drive system for a cooling tower comprising a high-torque, low speed permanent magnet motor having a rotatable shaft, a fan comprising a hub that is directly connected to the rotatable shaft and a plurality of fan blades that are attached to the hub, and a variable frequency drive device in electrical signal communication with the permanent magnet motor to control the rotational speed of the permanent magnet motor. The high-torque, permanent magnet motor comprises no more than two bearings in operative association with the shaft. The variable frequency drive device has a variable frequency controller that has an input for receiving AC power and an output for providing electrical signals that control the operational speed of high-torque, permanent magnet motor. The variable frequency drive device also includes a user interface in electronic data signal communication with the variable frequency controller to allow a user to input motor speed control data. | 02-25-2010 |
20100201299 | METHOD AND DEVICE FOR CONTROLLING AN ELECTRIC MOTOR - The invention provides a method and a device for controlling an electric motor using pulse-width modulated control signals. Control pulses having a setpoint duty factor and temporally varying pulse widths and pulse spacing are generated in the process, the temporally varying pulse widths and pulse spacing being selected as a function of a load and/or thermal loading of the electric motor and/or its control device. | 08-12-2010 |
20100207565 | Bypass and Synchronous Transfer Arrangement for a Medium Voltage Drive Control System - A medium voltage variable frequency drive having a 2-high controller configuration with a dual bus system is described. The drive control system includes at least one motor control cabinet housing a fused medium voltage bypass controller, a non-fused transfer controller positioned above the fused medium voltage bypass controller, an extendable output bus coupled to the non-fused medium voltage transfer controller, and an extendable supply bus coupled to the fused medium voltage bypass controller. The drive control system further includes a variable frequency drive cabinet housing a variable frequency drive. The variable frequency drive is coupled to the extendable output bus and a power supply line. The power supply line may be further coupled to the extendable supply bus. The drive control system includes at least one cabling transition cabinet housing cabling between the at least one motor control cabinet, the power supply line, and the variable frequency drive. | 08-19-2010 |
20100270964 | METHOD FOR DRIVING A PULSE WIDTH MODULATED CONTROLLER - The present invention relates to a method for generating an electric control signal for controlling one or more switching elements of an inverter for driving an electric machine, such as a motor, the method comprising the steps of providing an electric control signal comprising a control frequency and a corresponding control period, dividing a first control period of said electric control signal into a plurality of switching periods, and providing a first switching PWM pulse within a first switching period of a first control period, and providing a second switching PWM pulse within a second switching period of said first control period, wherein the first switching PWM pulse is a minimum-filtered PWM pulse, and wherein the second switching PWM pulse is a corrected PWM pulse. The present invention further relates to an electronic control signal provided according to the before-mentioned method, and to an electronic control system for providing the before-mentioned method. | 10-28-2010 |
20100301793 | POWER SUPPLY ARRANGEMENT - The invention relates to a frequency converter, which is fitted to supply power between a polyphase alternating electricity source and an electric machine. The frequency converter comprises a network rectifier connected to the alternating electricity source and an inverter connected to the electric machine. The power supply is implemented in the network rectifier and in the inverter with solid-state change-over switches, which change-over switches comprise an antiparallel-connected diode fitted in parallel with the controllable switch. The network rectifier and the inverter are connected to each other with an intermediate circuit, which intermediate circuit is implemented without a passive energy storage. | 12-02-2010 |
20100327793 | POWER TRANSMISSION METHOD AND POWER TRANSMISSION APPARATUS - Method and apparatus for controlling an apparatus transmitting power between two electricity networks or between an electricity network and a polyphase electric machine (M/G), which electricity networks can be polyphase alternating-current networks or one of them can be a single-phase direct-current network, and which apparatus comprises low-voltage power cells (C), which comprise a single-phase output connection (OUT). The power cells also comprise a single-phase input connector (IN), the power cells are arranged into groups (G | 12-30-2010 |
20100327794 | MOTOR LOAD CONTROL APPARATUS - A motor load control apparatus capable of suppressing heat generation of an electronic switch and suppressing occurrence of noise associated with rotation of a fan and vibration of the fan is provided. A switch section ( | 12-30-2010 |
20110043154 | FLUX CONTROL AND ONE-HUNDRED AND EIGHTY DEGREE CORE SYSTEMS - A two-phase or four-phase electric machine includes a first stator part and a second stator part disposed about ninety electrical degrees apart. Stator pole parts are positioned near the first stator part and the second stator part. An injector injects a third-harmonic frequency current that is separate from and not produced by the fundamental current driving the first stator part and the second stator part. The electric angular speed of the third-harmonic rotating field comprises | 02-24-2011 |
20110057598 | Current Control Apparatus Operable In Wet Environment - An apparatus operable in a wet environment for controlling the flow of electrical current to an electrical load, includes a pair of input terminals for connection to an AC mains supply; a pair of output terminals for connection to an electric motor and connected in a full power mode to the pair of input terminals; a voltage doubler circuit including a pair of diodes; a pair of direct current switching elements connected between the respective diodes and a common point; a controller; an interface connected to the controller for receiving external status signals; a switching arrangement responsive to signals from the controller to select the full power mode or a controlled power mode, and wherein in the controlled power mode the switching arrangement connects one of the output terminals to the common point so that AC output voltage is supplied to the electric motor through the switching elements. The controller is responsive to the external status signals to control the switching arrangement between the controlled mode and the full power mode, and in the controlled power mode to switch the switching elements in a predetermined sequence such that only one said direct current switching element conducts current during any one half cycle of AC output voltage applied to the electric motor. | 03-10-2011 |
20110074329 | ELECTRIC MOTOR CONTROL APPARATUS - In an electric motor control apparatus, an electric motor driving unit includes: a current detection unit configured to detect a current flowing through a current detection place in the electric motor driving unit. A control unit includes a current calculation unit configured to calculate a current value of a current flowing through an electric motor from an offset correction value obtained based on a first detection value detected at a time when a current flows through the current detection place and a second detection value detected at a time when a current does not flow through the current detection place. The offset correction value includes: a first offset correction value stored in nonvolatile memory of the control unit at a time of assembling the electric motor control apparatus; and a second offset correction value computed by the control unit while the electric motor is driven. | 03-31-2011 |
20110080131 | CONTROL DEVICE - A control device that controls a plurality of inverters respectively provided corresponding to a plurality of alternating-current electric motors so as to control the plurality of alternating-current electric motors by current feedback. The control device comprises a carrier frequency setting unit that individually selects and sets one of a plurality of carrier frequencies, each of which is a frequency of a carrier for generating switching control signals for the inverter based on a pulse width modulation method, for each of the plurality of inverters, and a switching timing table that specifies a switching timing serving as a permissible timing of switching to a different carrier frequency pair from each of a plurality of carrier frequency pairs each of which is composed of a combination of the carrier frequencies set for each of the plurality of inverters. | 04-07-2011 |
20110181225 | CONTROLLER FOR A ROTATING ELECTRICAL MACHINE - To minimize switching losses in a rotating electrical machine, exemplary embodiments of the present disclosure proposes an iterative control method which calculates optimal switching states in advance. A rotating electrical machine can be controlled on the basis of this iterative control method. | 07-28-2011 |
20110193509 | Power Conversion Device - A power conversion device includes a power switching circuit that supplies AC voltages generated between switching elements operating as upper arms and switching elements operating as lower arms, and a control circuit that generates and supplies to the driver circuit signals for controlling the switching operation of the switching elements by a PWM method in a first operational region in which frequency of an AC power to be outputted is low, and that generates and supplies to the driver circuit signals for controlling the switching operation of the switching elements at timings based upon the phase of the AC power to be outputted in an operational region in which the frequency of the AC power to be outputted is higher than in the first operational region. | 08-11-2011 |
20110199037 | POWER SUPPLY AND CONTROL UNIT, PARTICULARLY FOR SUBMERSED ELECTRIC MOTORS - A power supply and control unit for submersed electric motors includes an enclosure which is jointly connected to the motor of a submersed electric pump and forms a hermetic chamber that contains an electronic power supply that can be connected to the motor. The unit includes a heat exchange means in the liquid state that completely fills the empty space within the hermetic chamber yin order to transfer to the enclosure the heat generated by the electronic power supply. | 08-18-2011 |
20110234140 | MOTOR DRIVE UNIT - The motor drive unit includes: an energized phase switch section; a power stage; a PWM control section; a torque comparison section configured to compare the voltage level of a torque command signal with the voltage level of a comparison reference signal; a comparison reference signal production section configured to produce the comparison reference signal; and an energization control section configured to drive the power stage by synchronous rectification PWM drive when the voltage level of the torque command signal is higher than the voltage level of the comparison reference signal, and by a scheme other than the synchronous rectification PWM drive when the voltage level of the torque command signal is lower than the voltage level of the comparison reference signal. | 09-29-2011 |
20110254494 | RAPID REVERSIBLE CHARGING DEVICE FOR AN ELECTRIC VEHICLE - A device for generating electric power of a traction system of a motor vehicle powered by a battery, including a first rectifier stage configured to be connected to a power supply network or to a load to be powered, a second inverter stage configured to be connected to the battery, a mechanism regulating average current flowing between the first stage and the second stage, and a controller controlling a transfer of electric power between the power supply network and the battery or the powering of a load. | 10-20-2011 |
20110260668 | Low frequency drive control circuit and method for driving an inductive load - According to one embodiment, a low frequency drive control circuit for use with an inductive load comprises a comparator configured to receive a high frequency signal at a first input and a smoothly varying low frequency signal for modulating the high frequency signal at a second input. The comparator is further configured to produce a pulse width modulated output of the low frequency drive control circuit for use in generating a smoothly varying low frequency load current in the inductive load. In one embodiment, the inductive load can comprise a DC brushed motor. In one embodiment, the low frequency drive control circuit can be implemented as part of an integrated circuit further comprising a switching circuit configured to use the pulse width modulated output of the comparator to generate the smoothly varying low frequency load current, which may be a substantially sinusoidal load current, for example. | 10-27-2011 |
20110260669 | MOTOR DRIVE CIRCUIT - A motor drive circuit to drive a motor coil based on duty ratio of a PWM signal, includes: a first pulse signal generating circuit to generate a first pulse signal for each time period, the time period being equal to 1/n of a time period during which the PWM signal is at one logic level; a counter to change a count value based on the first pulse signal; a drive signal output circuit to output a drive signal of one logic level when the count value is not a predetermined value, and output the drive signal of the other logic level when the count value reaches the predetermined value; a drive circuit to perform PWM driving for the motor coil based on the duty ratio of the drive signal; and a setting circuit to set, in the counter, such a count value as to decrease a current passing through the motor coil, for each period of the PWM signal, in a time period during which the current passing through the motor coil is decreased, and set, in the counter, such a count value as to increase the current passing through the motor coil, for each period of the PWM signal, in a time period during which the current passing through the motor coil is increased, out of a time period during which the current passing through the motor coil is changed in direction. | 10-27-2011 |
20110273125 | CONTROLLER FOR AC ELECTRIC MOTOR AND ELECTRIC POWERED VEHICLE - An AC electric motor, an inverter and a controller are mounted on an electric powered vehicle. The controller includes a voltage deviation calculating unit, a modulation factor calculating unit, and a mode switching determination unit. The voltage deviation calculating unit calculates a voltage deviation between a first voltage command when the rectangular wave voltage control is executed and a second voltage command when pulse width modulation control is executed, by inputting a current deviation to a voltage equation of the AC electric motor. Modulation factor calculating unit calculates the modulation factor based on the first voltage command and the voltage deviation. The mode switching determination unit determines whether or not control mode of the AC electric motor from the rectangular wave voltage control to the pulse width modulation control is necessary, based on the modulation factor. | 11-10-2011 |
20110273126 | ROBOTIC DRIVE CONTROL - A robotic device includes an electric motor in which a drive control circuit includes a driver circuit for intermittently supplying the magnetic coils with a supply voltage VSUP; a switching signal generating circuit that generates a switching signal supplied to the driver circuit; and a voltage setter that supplies a supply voltage control value Ya to the switching signal generating circuit. By adjusting pulse width of the switching signals DRVA | 11-10-2011 |
20110279076 | ELECTRIC MOTOR, AND DEVICE FOR GENERATING A SIGNAL FOR CONTROLLING THE SAME - An electric motor, having a stator ( | 11-17-2011 |
20120007533 | POWER CONVERTER AND MOTOR DRIVING DEVICE USING THE SAME - In order to reduce the average power of the ringing noise, the present invention provides a power converter comprising: an arm circuit including a high-voltage side switching device to which a first diode is connected in parallel and a low-voltage side switching device to which a second diode is connected in parallel; and a main power supply connected to a series circuit of the high-voltage side switching device and the low-voltage side switching device, wherein a connecting point between the high-voltage side switching device and the low-voltage side switching device is connected to a load, and a resonant frequency calculated from inductances of wirings of a closed circuit including the first diode, the second diode, and the main power supply and a capacitance across the first diode is different form that calculated from the inductances of the wirings and a capacitance across the second diode. | 01-12-2012 |
20120038306 | MEDIA DRIVE DEVICE - The present invention discloses media drive device that turns a media by a motor, read data from the media and/or write data on to the media, that is comprised of a speed control unit that outputs a control pulse signal to control rotational speed of the motor and set adjusting quantity of the rotational speed by changing duty ratio of the control pulse, and a voltage up circuit that voltage up and generates driving voltage for driving the motor by switching operation that is based on the duty ratio of the control pulse. | 02-16-2012 |
20120081061 | ADAPTIVE HARMONIC REDUCTION APPARATUS AND METHODS - Power conversion systems with active front end converters for example motor drives and power generation systems for distributed energy sources are presented with adaptive harmonic minimization for grid-tie converters for minimized or reduced total harmonic distortion in the line current spectrum including the source harmonic current and the grid-tie converter injected current spectrum referred to the line side. | 04-05-2012 |
20120112680 | ELECTRIC MACHINE SYSTEM INCLUDING AN ALTERNATING ELECTRIC CURRENT (AC) ELECTRIC MACHINE HAVING A SWITCH MODULE - An electric machine system includes an alternating current (AC) electric machine. The AC electric machine includes a machine housing having a machine portion and a switch portion. A stator is fixedly mounted in the machine portion of the machine housing and a rotor is rotatably mounted relative to the stator. A switch assembly is arranged within the switch portion of the machine housing and electrically connected to the stator. The switch assembly includes at least one switch module having at least one switch member. The at least one switch module is configured and disposed to be detachably mounted in the switch portion of the machine housing. A direct current (DC) power source is electrically connected to the stator through the switch assembly. A controller is operatively connected to the switch assembly. | 05-10-2012 |
20120112681 | CURRENT LIMITING FOR A MOTOR WINDING - Techniques and apparatus for limiting the current through a motor, such as a motor for rotating a rotatable element of a hard drive. The current can be limited based on a threshold. A first threshold value can be set for a first time period. A second threshold value can be set for a second time period in which the current through the motor rises. The second threshold value is lower than the first threshold value. A spike in the supply current upon accelerating the rotatable element of the motor can thereby be reduced or eliminated. | 05-10-2012 |
20120133316 | MOTOR CONTROL CIRCUIT - A motor control circuit for a motor is provided. The motor control circuit drives the motor based on torque command data. The torque command data is output by adding speed error data output from a speed error detecting section based on a first reference clock and a speed pulse and phase error data output from a phase error detecting section based on a second reference clock and the speed pulse. Each of the speed error data and the phase error data is output within a detection range set by a setting section provided for each of the speed error detecting section and the phase error detecting section. | 05-31-2012 |
20120146564 | LOW LOSS LOW NOISE MOTOR CONTROL SYSTEM - In one embodiment, a system for reducing component noise in a motor in a automobile includes a first gate driver and a second gate driver, a high side FET; a low side FET; a charge pump circuit; a high frequency reduction component; and a timing signal source. The timing source signal interconnected to the charge pump, the first gate driver, and the second gate driver, the first gate driver interconnected with the charge pump, the first gate driver interconnected with the high side FET, the high side FET and the low side FET interconnected with the high frequency reduction component, the timing signal source providing timing signals to the signals to the first gate driver, the second gate driver, and the charge pump circuit such that the PWM slope is dull enough to prevent RE EMC, wherein the timing signal source provides three timing signals, the three timing signals including a first timing signal provided to the first gate driver, the first signal being a HSD PWM signal for the high side FET, a second timing signal provided to the second gate driver, the second signal being a LSD PWM signal for the high side FET, and a third timing signal provided to the charge pump. | 06-14-2012 |
20120146565 | DEVICE AND METHOD FOR DRIVING AN ELECTRIC MACHINE FOR ABATING AND MASKING DISTINCTIVE ACOUSTIC EMISSIONS - A device for driving an electric motor includes: an inverter circuit, configured for converting a d.c. supply signal into an a.c. supply signal; and a control block, connected to the inverter circuit and configured for controlling the inverter circuit by means of a pulse-width modulation, having a given cycle-period value. The driving device further includes a first random-number generator, connected to the control block and configured for supplying to the control block pseudo-random or random cycle-period values. | 06-14-2012 |
20120146566 | PWM CONTROL CIRCUIT AND MOTOR EQUIPPED WITH THE SAME - The PWM control circuit is provided. The PWM control circuit includes: a PWM control signal generator that generates a PWM period signal defining a period of a PWM signal and a PWM resolution signal specifying a resolution in one period of the PWM period signal; and a PWM unit that generates the PWM signal based on the PWM period signal and the PWM resolution signal, wherein the PWM control signal generator changes a frequency of the PWM resolution signal while keeping a frequency of the PWM period signal unchanged. | 06-14-2012 |
20120161685 | METHOD FOR CONTROLLING A CONVERTER - Exemplary embodiments are directed to a converter for an electrical system that is controlled in such that switching sequences for the converter, determined with respect to an optimization goal are modified such that by correcting a flux error resulting from assumptions on which the first optimization of the switching sequence is based. | 06-28-2012 |
20120187886 | Variable Frequency Drive Bypass Energy Savings - A Variable Frequency Drive (VFD) supplies power to rotate a motor, controlling both the speed and direction. The method normally used for this power conversion by the VFD results in energy losses and line harmonics. When the motor is driven by the VFD to be rotating at the same speed and direction as if the motor was straight across the incoming AC power, a transfer in power supply to the motor can be made using contactors to bypass the VFD. When in this bypass mode, the energy losses of the VFD are greatly reduced, and the line harmonics due to the VFD are greatly reduced. When it is subsequently recognized that the speed reference has deviated from being the same speed and direction as if the motor was straight across the incoming AC power, a transfer in power supply can be made from using contactors to once again drive the motor from the VFD. | 07-26-2012 |
20120194119 | FAST SWITCHING FOR POWER INVERTER - An apparatus includes an inverter including a high-side switch coupled to a low-side switch, the inverter generating a time-varying drive current from a plurality of drive control signals, a positive rail voltage, and a negative rail voltage wherein controlling the switches to generate the time-varying drive current produces a potential transitory overshoot condition for one of the switches of the inverter; a drive control, coupled to the inverter, to generate the drive control signals and to set a level of each of the rail voltages responsive to a plurality of controller signals; and a controller monitoring one or more parameters indicative of the potential transitory voltage overshoot condition, the controller dynamically adjusting, responsive to the monitored parameters, the controller signals to reduce a risk of occurrence of the potential transitory voltage overshoot condition. | 08-02-2012 |
20120212170 | INVERTER DEVICE AND ELECTRIC DEVICE USING SAME - The present invention relates to an inverter device including an upper arm switching circuit, a lower arm switching circuit, a control unit that controls the upper arm switching circuit and the lower arm switching circuit, a plurality of voltage-driven switching elements forming the upper arm switching circuit, a plurality of current-driven switching elements forming the lower arm switching circuit, and a bootstrap circuit that applies a driving voltage to the switching elements of the upper arm switching circuit and the lower arm switching circuit. With this configuration, the circuit loss is reduced and thus efficiency is improved. | 08-23-2012 |
20120242268 | ROTATING ELECTRICAL-MACHINE CONTROL SYSTEM AND METHOD OF OPERATING MAGNET TEMPERATURE OF ROTATING ELECTRICAL-MACHINE - A rotating electrical-machine control system is provided with: a rotating electrical-machine comprising a rotor further comprising permanent magnets that are divided into a dividing-number of sections; an inverter circuit that drives the rotating electrical-machine by PWM control, using a carrier wave having a carrier frequency; a storage unit that has stored therein a relationship file that indicates the relationship between the dividing-number of the magnets, the magnet temperature, and the carrier frequency; and a control apparatus. The control apparatus comprises a condition acquisition processing unit for acquiring the target magnet temperature, a rotational-speed acquisition processing unit for acquiring the rotational speed of the rotating electrical-machine, and a carrier-frequency setup processing unit for providing the dividing-number of the magnets and the target magnet temperature to the storage unit and conducting a search therein, and giving the corresponding carrier frequency to an inverter control unit as an instruction. | 09-27-2012 |
20120293103 | ELECTRONIC SWTICHING MODULE FOR A POWER TOOL - A power tool includes a tool housing, an electric motor inside the housing, and a power interface facilitating a connection to a power source. At least four actively-controlled power components are configured as an H-bridge to modulate a supply of power from the power interface to the electric motor. A user-actuated input unit outputs a first signal indicative of a desired power output level to the electric motor and a second signal indicative of a desired direction of current flow to the electric motor. A control unit controls the supply of power to the electric motor using two of said power components with synchronous rectification for pulse-width modulation (PWM) of the supply of power based on the first signal, and to control the direction of current flow to the electric motor using the other two of said power components based on the second signal. | 11-22-2012 |
20120306425 | ELECTRIC TOOL - In an electric tool, in order to carry out a phase control or an antiphase control using a transistor with the cost lower and structure simpler, and to suppress an electromagnetic noise, constant voltage generating means of the electric tool includes a series circuit of a resistor | 12-06-2012 |
20130009585 | CONTROL APPARATUS FOR SWITCHING CIRCUIT - A control apparatus for a switching circuit includes a controller, a target-rotational-speed acquiring device, a target-torque acquiring device, and an ON-time varying device. The controller is configured to turn on a bidirectional conduction switching device provided parallel to a reverse conducting device through which a commutation current flows. The target-rotational-speed acquiring device is configured to acquire a target rotational speed of an alternating current motor. The target-torque acquiring device is configured to acquire a target torque of the alternating current motor. The ON-time varying device is configured to vary, on a basis of the target rotational speed and the target torque, an ON time period during which the bidirectional conduction switching device provided parallel to the reverse conducting device through which a commutation current flows is turned on. | 01-10-2013 |
20130015803 | METHODS, SYSTEMS AND APPARATUS FOR REDUCING POWER LOSS IN AN ELECTRIC MOTOR DRIVE SYSTEMAANM ARNETT; MICHAELAACI WIXOMAAST MIAACO USAAGP ARNETT; MICHAEL WIXOM MI USAANM SCHULZ; STEVEN E.AACI TORRANCEAAST CAAACO USAAGP SCHULZ; STEVEN E. TORRANCE CA USAANM BAE; BON HOAACI TORRANCEAAST CAAACO USAAGP BAE; BON HO TORRANCE CA USAANM HITI; SILVAAACI REDONDO BEACHAAST CAAACO USAAGP HITI; SILVA REDONDO BEACH CA USAANM LI; RONGHUIAACI TORRANCEAAST CAAACO USAAGP LI; RONGHUI TORRANCE CA US - Methods, system and apparatus are provided for reducing power loss in an electric motor drive system that includes an electric machine and an inverter module. A controller determines whether a torque command (T | 01-17-2013 |
20130043819 | Chiller Motor Control System - A chiller system ( | 02-21-2013 |
20130049666 | DEVICE AND METHOD FOR CONTROLLING MOTOR - In order to lower electromagnetic noise, normally, a carrier frequency of a inverter or controlling drive of a motor mounted on an electrically powered vehicle is changed periodically or randomly within a first frequency range set in advance, as the time elapses. While a vehicle speed is low, the carrier frequency is changed periodically or randomly within a second frequency range set in advance to be wider than the first frequency range and to be equal in central frequency to the first frequency range, as the time elapses. The second frequency range is set to include a resonant frequency of a specific mechanical oscillation system higher in electromagnetic noise generated at a natural resonant frequency, among a plurality of mechanical oscillation systems formed by equipment mounted on the electrically powered vehicle. On the other hand, the first frequency range is set not to include the resonant frequency. | 02-28-2013 |
20130088181 | CONTROL DEVICE AND CONTROL METHOD OF ALTERNATING CURRENT MOTOR - A control device of an alternating current motor includes a voltage phase setting portion, an offset detecting portion, a switching controlling portion obtaining a timing at which a voltage waveform is switched between a pulse width modulation waveform and a square waveform per half cycle of an electric angle, and a waveform switching portion switching the voltage waveform to the pulse width modulation waveform on a positive side and the square waveform on a negative side in a case where the offset value is a positive value, switching the voltage waveform to the pulse width modulation waveform on the negative side and the square waveform on the positive side in a case where the offset value is a negative value, and switching the voltage waveform to the square waveform on the positive side and the square waveform on the negative side in a case where the offset value is zero. | 04-11-2013 |
20130093376 | REGENERATIVE MEDIUM VOLTAGE INVERTER - Provided is a regenerative medium voltage inverter, the inverter being such that regenerative operation is enabled by changing structure of input terminal of a unit power cell at a series H-bridge medium voltage inverter, and a dynamic braking resistor is not required to reduce the size of a DC-link capacitor over that of a conventional medium voltage inverter. | 04-18-2013 |
20130099716 | MOTOR DRIVING APPARATUS - There is provided a motor driving apparatus. The motor driving apparatus includes: a duty adjusting unit adjusting a duty of a PWM signal in response to a detection signal from a hall sensor, adjusting a duty value in a partial period of the entire duty period to be higher than a target duty value that is to be controlled and a duty value in another partial period thereof to be lower than the target duty value that is to be controlled, and adjusting an average duty value in the entire duty period to follow the target duty value; a signal generating unit receiving a PWM control signal and generating the PWM signal of which the duty is adjusted according to the adjustment of the duty; and a driving controlling unit controlling driving of a motor in response to the detection signal of the hall sensor and the PWM signal. | 04-25-2013 |
20130147413 | MOTOR DRIVING CIRCUIT AND MOTOR DRIVING SYSTEM - The characteristic is defined by a characteristic line that connects a lowest point at which the duty of the PWM signal is a minimum value and the rotation command signal is a minimum rotation command signal, and a highest point at which the duty of the PWM signal is a maximum value and the rotation command signal is a maximum rotation command signal. The duty calculating circuit updates the characteristic so that the characteristic line passes through a first control point at which the duty of the PWM signal is a value set based on the first setting signal and the rotation command signal is a first rotation command signal between the minimum rotation command signal and the maximum rotation command signal. | 06-13-2013 |
20130154535 | Lockout switching strategy for preventing high voltage transition - A protection circuit includes a first switch, a second switch and a third switch. The first switch, the second switch and the third switch are configured to generate lock signals indicative of an electrical voltage transition on the respective phases of a multi-phase power signal. A control circuit is configured to prevent the first switch from changing state if the second switch or third switch is changing state. | 06-20-2013 |
20130154536 | APPARATUS FOR CONTROLLING AN INVERTER - An apparatus for controlling an inverter is disclosed, the apparatus detecting a DC link voltage of the inverter and a load amount using an output current outputted from a motor to the inverter, and deducting a load amount detected at the time of occurrence of instantaneous power failure from a command frequency at the time of the occurrence of instantaneous power failure, whereby a command voltage and a command frequency driving the motor can be outputted. | 06-20-2013 |
20130181651 | APPARATUS AND METHOD FOR CONTROLLING FAN MOTOR - There are provided an apparatus and method for controlling a fan motor. The apparatus for controlling a fan motor includes: a signal generating unit generating a pulse width modulation (PWM) input signal having a predetermined duty value; a memory storing duty correction values according to the duty value of the PWM input signal and driving characteristics of the fan motor therein; and a signal controlling unit generating a PWM output signal for operating the fan motor by using the PWM input signal and the duty correction values stored in the memory. | 07-18-2013 |
20130193897 | MOTOR DRIVE PWM RECTIFIER HAVING MODULATION SCHEME SELECTOR - A motor drive PWM rectifier includes a control section which generates the PWM signal in accordance with either a three-phase modulation scheme or a two-phase modulation scheme in which a PWM voltage command for one phase selected from among three phases each constituting the PWM voltage command in the three-phase modulation scheme is set and held at a level equivalent to a maximum value or minimum value of the PWM carrier and in which a PWM voltage command for the other two phases created by also applying an offset, required to achieve the setting, to the other two phases, a detecting section which detects three-phase AC current and outputs a detected current value, and a selecting section which selects the two-phase modulation scheme when the detected current value is larger than a first threshold value but smaller than a second threshold value, and otherwise selects the three-phase modulation scheme. | 08-01-2013 |
20130214717 | POWER CONVERSION APPARATUS - A resonance suppression control block includes a high-pass filter for extracting an AC component of DC link voltage, and a gain section for outputting a correction signal obtained by multiplying the AC component by a gain. A control unit controls an inverter based on a signal obtained by adding the correction signal to the voltage instruction. Thus, a power conversion apparatus with a simple configuration can be obtained that can suppress resonance of a DC link section and omit extra work for performing adjustment again in accordance with a power supply frequency. | 08-22-2013 |
20130234641 | CONVERTER SYSTEM - The present disclosure discloses a converter system, which at least includes the first and second back-to-back converters. The first back-to-back converter includes a first rectifier module and a first inverter module. The first rectifier module is used to convert a first AC voltage to a first DC voltage. The first inverter module is used to convert the first DC voltage to a second AC voltage. The second back-to-back converter includes a second rectifier module and a second inverter module. The second rectifier module is used to convert the first AC voltage to a second DC voltage. The second inverter module is used to convert the second DC voltage to the second AC voltage. The converter system can suppress the circular current through the synchronous operation of the first and second rectifiers or the synchronous operation of the first and second inverters. | 09-12-2013 |
20130257333 | CONTROL APPARATUS FOR VIBRATION TYPE ACTUATOR - A control apparatus for a vibration type actuator using a vibration wave excited by a vibrating member, a movable member in contact with or indirectly connected to the vibrating member, including a command unit which gives a command indicating at least one parameter, an AC voltage generator which generates the AC voltage for applying the excitation force to the vibrating member, a variable adding unit which adds a predetermined variable to each of one or more parameters, a frequency response characteristic measuring unit which receives as an input a variable output and outputs a physical quantity and obtains a frequency response characteristic at one or more predetermined frequencies, a resonance frequency estimation unit which estimates a resonance frequency of the vibrating member, and a frequency range limiter which determines a frequency range for the AC voltage output by the AC voltage generator. | 10-03-2013 |
20130271055 | PARALLELING OF LOAD COMMUTATED INVERTERS - A device includes a controller that receives current values generated by at least four parallel load commutated inverters (LCIs). The controller includes a source firing generator that generates independent source firing commands for each of the at least four parallel LCIs based on the received current values and transmits each of the independent source firing commands to a respective one of the at least four parallel LCIs, wherein the source firing commands are configured to set input phase angle values of the four parallel LCIs. | 10-17-2013 |
20130271056 | PITCH MOTOR DRIVE CIRCUIT WHICH CAN OPERATE IN EMERGENCY MODE - The invention relates to a pitch drive circuit ( | 10-17-2013 |
20130293177 | MOTOR CONTROL DEVICE AND MOTOR CONTROL METHOD - A motor control device and a motor control method are disclosed herein, where the motor control device includes a signal conversion unit, a frequency multiplication unit, a profile generation circuit and a frequency converter unit. The signal conversion unit receives a rotation speed signal from a motor and converts the rotation speed signal into a digital signal. The frequency multiplication unit generates a frequency multiplication signal based on the digital signal. The profile generation circuit performs frequency division on the frequency multiplication signal to get a profile signal. The frequency converter unit generates a reference signal and compares the reference signal with the profile signal to output a motor control signal. | 11-07-2013 |
20130314020 | BRIDGE OUTPUT CIRCUIT, MOTOR DRIVING DEVICE USING THE SAME, AND ELECTRONIC APPARATUS - A bridge output circuit includes an output terminal, a high side transistor, a low side transistor, a high side driver for controlling a gate voltage of the high side transistor, a low side driver for controlling a gate voltage of the low side transistor, and a controller for controlling the high side and low side drivers. The low side driver includes a first current source, a second current source, and a first assist circuit. The controller is configured to control the turning-on and turning-off states of the first current source, the second current source and the first assist circuit. | 11-28-2013 |
20130320907 | SIGNAL DUTY DETECTING APPARATUS AND MOTOR DRIVING APPARATUS HAVING THE SAME - There are provided a signal duty detecting apparatus detecting a duty of a pulse width modulation (PWM) signal by counting a signal, among signals present in a preset period of the PWM signal, having a predetermined level or higher and a motor driving apparatus having the same. The signal duty detecting apparatus includes: a level detector detecting levels of an input signal; a counter counting the levels detected by the level detector; and a duty calculator calculating a duty of the input signal based on the levels counted by the counter. | 12-05-2013 |
20130334998 | SYSTEMS, APPARATUS, AND METHODS FOR SOFT STARTING LARGE AC MOTORS WITH A VARIABLE FREQUENCY DRIVE - A system for soft starting a large AC motor may include a variable frequency drive (VFD) having a much lower voltage rating than the rated voltage of the AC motor. The VFD's voltage rating may be in a range of about 33% to about 67% of the AC motor's rated voltage. The AC motor may be coupled to a utility power source via conventional connections to leads of the AC motor's windings. The VFD may be connected to the AC motor via tapped connections within the windings of the AC motor such that the tap voltages are much less than the AC motor's rated voltage. A less expensive VFD may therefore be used to soft start the AC motor instead of a VFD having the same rated voltage as the AC motor. Methods of starting large AC motors with a VFD are also provided, as are other aspects. | 12-19-2013 |
20140001999 | MOTOR DRIVING APPARATUS AND BRUSHLESS MOTOR | 01-02-2014 |
20140015464 | ASSYMETRICAL POWER INVERTER - An exemplary inverter includes first, second and third legs connected in parallel to a line rail and a neutral rail. Each leg includes a first switch, a second switch, and a node between the first and second switches. The first leg further includes a voltage boosting section operable to selectively increase and decrease the voltage potential of the node of the first leg. The voltage boosting section may include a capacitor in parallel with the first and second switches. The first leg may further include a third switch in series with the voltage boosting section and between the voltage boosting section and the line rail, and a fourth switch in series with the voltage boosting section and between the voltage boosting section and the neutral rail. | 01-16-2014 |
20140021901 | Driving circuit and method for fan - A driving circuit for a fan includes an initiation module for generating a switch signal according to a feedback signal, a control module coupled to the initiation module for generating a control signal according to the switch signal and a predetermined comparison signal, so as to drive the fan for a rotational operation, and a feedback module coupled to the fan for generating the feedback signal according to a conduction result of the fan, wherein the control module utilizes a pulse frequency modulation technique to generate the control signal, and the conduction result is realized via a voltage type or a current type to correspond to a rotational speed of the rotational operation. | 01-23-2014 |
20140021902 | MOTOR CONTROLLER - A motor controller according to the invention includes a driving IC and a magnetic sensor. The driving IC receives a driving signal for driving a motor and controls the rotation speed of the motor using the driving signal. The magnetic sensor detects the rotation speed of the motor. The driving IC includes a sensor signal output terminal and a driving signal input terminal. The sensor signal output terminal outputs a sensor signal generated by the driving IC based on a pulse signal from the magnetic sensor. The driving signal input terminal receives the driving signal. The sensor signal output terminal and the driving signal input terminal are connected by a connecting portion. The driving IC rotates the motor at a first rotation speed different from the rotation speed of the motor driven according to the driving signal using the sensor signal input to the driving signal input terminal. | 01-23-2014 |
20140028236 | DRIVING APPARATUS FOR FAN MOTER - A digital filter is configured to convert, into a digital value, the duty ratio of a control signal subjected to pulse width modulation according to a target toque to be set for a fan motor to be driven. A sampling circuit is configured to perform sampling of the output value of the digital filter at a sampling timing that is asynchronous with respect to the cycle of the control signal, so as to generate a torque instruction value. A driving circuit is configured to drive the fan motor according to the torque instruction value thus generated. | 01-30-2014 |
20140042948 | Motor Drive Control Using Pulse-Width Modulation Pulse Skipping - A control system for a motor includes a pulse-width modulation module, a pulse skip determination module, and a duty cycle adjustment module. The pulse-width modulation module generates three duty cycle values based on three voltage requests, respectively. A plurality of solid-state switches control three phases of the motor in response to the three duty cycle values, respectively. The pulse skip determination module generates a pulse skip signal. The duty cycle adjustment module selectively prevents the plurality of solid-state switches from switching during intervals specified by the pulse skip signal. | 02-13-2014 |
20140103851 | Use of Cooling Fan in Adjustable Speed Drives - Apparatuses and methods are described for implementing adjustable speed drives. For instance, an apparatus may comprise an inverter circuit configured to drive a multi-phase electrical load, the inverter configured to be powered by first and second direct-current (DC) bus lines, a fan drive circuit configured to be powered by the first and second DC bus lines, a fan configured to be controlled by the fan drive circuit and having a plurality of windings coupled together at an electrical node, a first capacitor having a first terminal coupled to the first DC bus line and a second terminal coupled to the electrical node, and a second capacitor having a first terminal coupled to the second DC bus lines and a second terminal coupled to the electrical node. | 04-17-2014 |
20140117913 | SYSTEM AND METHOD FOR CONTROLLING AN ELECTRIC MOTOR - A system for controlling an electric motor, based on an N-MOS switching device, allowing operation in reverse battery polarity condition and protecting the switching device against voltage peaks when in direct battery polarity condition. The system includes a power source, a switching device connected in series with the motor to switch the same between the “on” and “off” states, a control device to control the switching device, and a thyristor connected in parallel with the motor, whereby its gate terminal, and consequently its conducting or non-conducting state, are controlled by the control device. Also a method is provided for controlling an electric motor, such as in a system defined above, comprising the steps of switching a state of the thyristor in direct battery polarity conditions such that the thyristor conducts current and switching the state of the thyristor in reverse battery polarity conditions such that the thyristor does not conduct current. | 05-01-2014 |
20140145665 | INVERTER CONTROL DEVICE AND INVERTER CONTROL METHOD - An inverter control device is equipped with an inverter and a command value calculation unit calculates command values for the alternating current voltage output from the inverter. A phase compensation unit compensates the phase of the command values or the phase of the detected values. An inverter control unit controls the inverter on the basis of the command values or detected values that have been compensated by the phase compensation unit. A motor rotational velocity detector detects the rotational velocity of a motor. The phase compensation unit calculates the phase lead amount on the basis of a phase compensation time that is set for the purpose of obtaining a prescribed phase margin and on the basis of the rotational velocity and, in accordance with the phase lead amount, compensates the phase that is based on the specific characteristics of the motor. | 05-29-2014 |
20140152226 | ELECTRIC MACHINE COMPRISING AN ALTERNATING CURRENT ELECTRIC MOTOR AND AN INVERTER - An electric machine may include: an alternating current electric motor comprising a first semi-winding and a second semi-winding; an inverter comprising a first inverter branch electrically connected to the first semi-winding and a second inverter branch electrically connected to the second semi-winding; and a control unit configured to provide a first control signal to the first inverter branch, so as to induce a first alternating current in the first semi-winding, and a second control signal to the second inverter branch, so as to induce a second alternating current in the second semi-winding. The first and second alternating currents may have a first frequency. The first and second control signals may have a second frequency that is less than the first frequency. The first and second control signals may be reciprocally out of phase by substantially 180° relative to the second frequency. | 06-05-2014 |
20140152227 | RELATIVISTIC PONDEROMOTIVE FORCE GENERATOR - A propulsion system is presented, the system comprising primary and secondary electromagnetic field generators being attached to a frame at a predetermined distance between them, and a control unit connected thereto and configured to create pulsating electromagnetic fields generated by at least one of the electromagnetic field generators. The pulsating electromagnetic field is configured to pulsate at time intervals determined in accordance with retardation time caused by said predetermined distance between the primary and secondary electromagnetic field generators. Interaction between the electromagnetic field generators and electromagnetic fields generated thereby provides a total net force acting on the system. | 06-05-2014 |
20140176035 | MOTOR DRIVING CONTROL APPARATUS, MOTOR DRIVING CONTROL METHOD, AND MOTOR USING THE SAME - There are provided a motor driving control apparatus, a motor driving control method, and a motor using the same. The motor driving control apparatus includes a controller, a duty ratio calculation unit, and a driving signal generation unit. The controller generates a speed control signal by using at least one of a speed signal of a motor device and a speed command signal input from the outside. The duty ratio calculation unit calculates a duty ratio of the speed control signal. The driving signal generation unit generates a driving control signal for controlling driving of the motor device by using the duty ratio. | 06-26-2014 |
20140184126 | FAN CONTROL CIRCUIT - A fan control circuit includes a hardware controller, a rectifier circuit, first to third electronic switches, and a fan. When the hardware controller outputs a pulse width modulation (PWM) signal to the rectifier circuit and the fan, the rectifier circuit transforms the PWM signal into a direct current (DC) voltage and outputs the DC voltage to the first electronic switch. The first electronic switch is turned on, and the second and third electronic switches are turned off. A rotation speed of the fan is controlled by the PWM signal received from the hardware controller. When the hardware controller does not output the PWM signal, the first electronic switch is turned off, the second and third electronic switches are turned on, a DC power supply supplies power to the fan through the third electronic switch, and the fan rotates at full speed. | 07-03-2014 |
20140191698 | METHOD FOR ACTUATING A POLYPHASE MACHINE - A method is described for activating a multiphase machine that has a link circuit equipped with a link circuit capacitor, phase windings, and one high-side switch and one low-side switch per phase. The switches associated with the individual phases have control signals applied to them by a control unit. The control unit provides, in successive activation cycles, pulse-shaped control signals for the switches, the pulse widths and pulse onsets of which are respectively varied within an activation cycle in such a way that the link circuit current is reduced. | 07-10-2014 |
20140191699 | Motor Control with Voltage Harmonic Shaping - A control system for an electric motor ( | 07-10-2014 |
20140197772 | MOTOR CONTROL DEVICE FOR SWITCHING PWM FREQUENCY TO USE THE SAME - A motor control device includes an inverter, a power device temperature obtaining unit, a motor temperature obtaining unit, a power device temperature determination level storage unit, a motor temperature determination level storage unit, a PWM frequency storage unit that stores at least two PWM frequencies including a high PWM frequency a low PWM frequency, a power device temperature determining unit that determines whether or not a temperature of a power device is equal to or higher than a power device temperature determination level, a motor temperature determining unit that determines whether or not a temperature of a motor is equal to or higher than the motor temperature determination level, and a PWM frequency selecting unit that selects a PWM frequency to be given as a command to the inverter. | 07-17-2014 |
20140217947 | SHORT CIRCUIT SAFE RECTIFIER STAGE FOR A SUBSEA POWER GRID - Short circuit safe rectifier stage for a subsea power grid It is described a rectifier stage ( | 08-07-2014 |
20140217948 | METHOD FOR CONTROLLING A MULTIPHASE MACHINE - A method for controlling a multiphase machine which is connected to a direct current voltage source. The machine has a DC link which is provided with a DC link capacitor, phase windings, and a high side switch and a low side switch for each phase. The switches associated with the individual phases are acted on by control signals from a control unit. For reducing the DC link current, the control unit provides block-shaped control signals for the switches associated with the individual phases in such a way that trapezoidal or pulsed phase currents are predefined, at least one phase current is connected at any point in time in each control cycle, and the value of the amplitude ratio of the predefined phase currents is selected in such a way that the connected phase currents correspond to the instantaneous current of the direct current voltage source. | 08-07-2014 |
20140217949 | METHOD OF PWM REGULATION OF A CONTINUOUS CURRENT ELECTRIC MOTOR - A method of PWM regulating a motor through a half-bridge drive stage includes sampling the motor current to obtain sampled values during driving intervals or during current decay intervals, and comparing a last sampled value with a current threshold. The motor is coupled in a slow decay electrical path for the duration of a current decay interval if the last sampled value does not exceed the current threshold. Otherwise the motor is coupled in a fast decay electrical path for a portion of the duration of the current decay interval, and is coupled in the slow decay electrical path for a remaining part of the duration of the same current decay interval. | 08-07-2014 |
20140217950 | CONSTANT VOLTAGE CIRCUIT AND ANALOG ELECTRONIC CLOCK - There are provided a constant voltage circuit that outputs a stable constant voltage for an analog electronic clock, and an analog electronic clock featuring low current consumption and prolonged battery life. The constant voltage circuit has a first voltage holding circuit connected between the gate of an output transistor and an output terminal and a second voltage holding circuit connected between the gate of the output transistor and a ground terminal, and carries out control such that the second voltage holding circuit is enabled when the motor is operated. | 08-07-2014 |
20140239870 | Power Conversion Apparatus - A power conversion apparatus includes a power conversion element; a capacitor; a control circuit that outputs a control signal to control operation of the power conversion element at the time of driving a load; a discharge control unit that outputs a discharge control signal to control operation of the power conversion element at the time of discharging the capacitor; a power supply circuit that generates a power supply voltage, on the basis of a voltage between both ends of the capacitor; and a driver unit that outputs a driving signal to operate the power conversion element, on the basis of the control signal or the discharge control signal. The power conversion element is operated according to the discharge control signal, a current is flown from the capacitor to the load through the power conversion element, and the capacitor is discharged. | 08-28-2014 |
20140265989 | METHODS AND SYSTEMS FOR PROGRAMMING AN ELECTRIC MOTOR - Methods and systems for programming an electric motor are provided. An electric motor controller configured to be coupled to an electric motor is configured to control the electric motor to produce torque when direct current (DC) link voltage has up to 100% voltage ripple. The controller includes a first power input, a second power input, and a third power input, an energized line detection device, and a microprocessor. Each power input is configured to receive power from an alternating current (AC) power source. The energized line detection device is configured to sense which power input has received power from the AC power source and output an isolated signal. The microprocessor is coupled downstream from the energized line detection device and is configured to determine an operating profile for the electric motor based on the isolated signal. | 09-18-2014 |
20140320055 | ELECTRICAL GEAR AND METHOD FOR OPERATING A SUBSEA MACHINERY ROTATING AT HIGH SPEED - An electrical gear configured to supply electrical drive power to a machinery to be rotated at high speed, such as a subsea motor/pump or a subsea motor/compressor assembly, the electrical gear including a high input voltage AC-motor having a low pole number, the AC-motor drivingly connected to a medium output voltage AC-generator having inverted design, wherein in the AC-generator the field windings are supported on a rotor which is journalled for rotation inside an outer stator carrying a high number of magnet poles, the AC-motor is configured to run on high voltage alternating current at a first frequency, and the AC-generator is configured to deliver medium voltage alternating current at a second frequency, higher than said first frequency, to an AC-motor to be energized having a low pole number. | 10-30-2014 |
20140333247 | REDUCED TORQUE RIPPLE SYSTEM - An apparatus with reduced torque ripple is disclosed. The apparatus includes a back electromotive force (BEMF) detector, a harmonic identifier, and a compensator circuit. The BEMF detector is configured to detect a BEMF voltage waveform. The harmonic identifier is configured to receive the BEMF voltage waveform and is further configured to identify at least one harmonic contributing to a torque ripple. The compensator circuit is configured to compensate for the at least one harmonic to reduce the torque ripple. | 11-13-2014 |
20140354207 | PWM OUTPUT APPARATUS AND MOTOR DRIVING APPARATUS - A PWM output apparatus includes a calculating circuit configured to calculate an output width of a PWM output signal of a first signal and a second signal, which have phases different from each other, based on a command value of a PWM output. A comparing circuit compares the output width and a reference period which is set longer than a predetermined dead time period. A PWM output signal generating circuit outputs the PWM output signal to a dead time inserting block as a corrected PWM output signal, when a set/clear signal generating circuit outputs the set signal, and carries out a correction of setting the first signal of the PWM output signal to be inactive to output to the dead time inserting block as the corrected PWM output signal, when the set/clear circuit outputs the clear signal. The dead time inserting block corrects the corrected PWM output signal. | 12-04-2014 |
20150008860 | APPARATUS FOR MODIFYING VOLTAGE COMMAND FOR DETECTING OUTPUT CURRENT IN INVERTER - An apparatus for modifying voltage command for detecting output current in inverter is disclosed to modify a PWM voltage command by determining a sector in a voltage hexagon, the sector having a PWM voltage command therein, by comparing the PWM voltage command, determining an area, the area having the PWM voltage command, within a current detection disabled area by converting a minimum sampling time to a minimum sampling PWM and using the converted minimum sampling PWM, and determining an adjusting voltage and a restoring voltage using a minimum injection voltage based on the determined area. | 01-08-2015 |
20150035467 | PERMANENT MAGNET INDUCTOR FILTER APPARATUS AND METHOD OF USE THEREOF - The invention comprises a high frequency inductor filter apparatus coupled with an inverter yielding high frequency harmonics and/or non-sixty Hertz output. For example, an inductor/converter apparatus is provided that uses a silicon carbide transistor to output power having a carrier frequency, modulated by a fundamental frequency, and a set of harmonic frequencies. A filter, comprising an inductor having a distributed gap core material and optional magnet wires, receives power output from the inverter/converter and processes the power by passing the fundamental frequency while reducing amplitude of the harmonic frequencies. | 02-05-2015 |
20150035468 | CONTROL METHOD IMPLEMENTED IN A VARIABLE SPEED DRIVE - The invention relates to a method of control implemented in a variable speed drive, said method comprising the following steps of:
| 02-05-2015 |
20150048769 | MOTOR CONTROL SYSTEM AND METHOD - A motor control system is disclosed. The motor control system includes a level-shifting unit, a motor unit and a control unit. The level-shifting unit receives an original pulse width modulation (PWM) signal to generate an output PWM signal. When a first high level of the original PWM signal is larger than a first reference value, the level-shifting unit shifts a second high level of the output PWM signal to a set high level. When a first low level of the original PWM signal is lower than a second reference value, the level-shifting unit shifts a second low level of the output PWM signal to a set low level. The control unit controls the speed of the motor according to the output PWM signal. | 02-19-2015 |
20150091487 | METHOD AND ARRANGEMENT FOR OPERATING A PUMP - A method and arrangement for operating a pump system are disclosed, the pump system including a pump arranged to be rotated with an AC motor, an inverter, the output of which is electrically connected to the AC motor, and a photovoltaic panel system electrically connected to feed DC power to the inverter. The method can include setting a voltage limit, and determining continuously voltage obtained from the photovoltaic panel system. When the determined voltage of the photovoltaic panel system is below the set voltage limit, frequency of the inverter can be controlled such that the ratio between output voltage of the inverter and the output frequency is substantially constant. When the determined voltage of the photovoltaic panel system exceeds the voltage limit, the inverter frequency can be controlled for keeping voltage of the photovoltaic panel system substantially at the voltage limit. | 04-02-2015 |
20150097505 | CURRENT SOURCE INVERTER DEVICE - A current source inverter device according to an embodiment includes an inverter that supplies AC power to a number n (integer of 1 or greater) of AC motors each having a number m (integer of 2 or greater) of windings per phase; and a controller that controls the inverter and AC motor. The inverter includes a switching unit, in which a number n×m+1 of switching elements per phase are connected in series, and a number n×m of nodes among the switching elements are respectively connected with a number n×m of different windings with the same phase among the windings of the number n of the AC motors. The controller includes a mode selector that selects at least one winding as a supply target of the AC power from the number n×m of the windings based on a rotation speed of the AC motor. | 04-09-2015 |
20150145462 | METHOD AND APPARATUS FOR CURRENT AUTO BALANCING FOR PARALLEL CONVERTER SYSTEMS - Parallel converter current imbalance control apparatus and methods in which individual converter AC currents are measured for each phase, and the AC voltage control modulation indices associated with the converters having the highest and lowest AC currents for a given phase are adjusted to counteract current imbalance between the converters. | 05-28-2015 |
20150145463 | Method and Apparatus for Reducing Radiated Emissions in Switching Power Converters - A filter for reducing radiated emissions in switching power converters such as a motor drive is disclosed. The switching power converter modulates a DC voltage input to generate a desired AC voltage output. Capacitors are connected in parallel between each output phase and a common connection, which may be a ground connection. The magnitude and layout of the capacitors are selected to minimize current conducted by the capacitors. The capacitors may be surface mount technology located proximate to the switching devices or the capacitors may be incorporated in the circuit board on which the switching devices are mounted. The filter may be applied to any of the switching elements in a motor drive, such as the inverter section, an active rectifier section, or a switched mode power supply. | 05-28-2015 |
20150303848 | METHOD AND DEVICE FOR CONTROLLING AN ELECTRIC MOTOR OF A HAND MACHINE TOOL - A method is suggested for the purpose of controlling an electric motor of a hand machine tool, wherein the electric motor is controlled by means of a pulse width modulated signal, and the carrier frequency of the pulse width modulated signal is varied during the operation of the hand machine tool. | 10-22-2015 |
20150306962 | DUTY CYCLE UPDATES FOR A POWER CONVERTER - A method and system are provided for updating a duty cycle for a power converter. The system and method operate the power converter to compute a first duty cycle during a first pulse-width modulation period and updating a second duty cycle for a second pulse-width modulation period at the completion of the first pulse-width modulation period. Next a third duty cycle for a third pervious pulse-width modulation period is updated at the completion of the first pulse-width modulation period. | 10-29-2015 |
20150326166 | CONTROL DEVICE FOR MULTI-PHASE AC MOTOR - A control device for controlling a multi-phase AC motor generating a steering assist torque in an electric power steering device of a vehicle, includes: first and second inverters in first and second systems that output first and second alternating current voltages to first and second multi-phase winding wire sets, respectively; and a control unit that controls a phase difference between the first and second alternating current voltages. The first and second multi-phase winding wire sets provide a stator of the motor, and generate a rotating magnetic field in a rotor. The control unit sets a control range including a reference phase difference, which reduces a specified-order harmonic component, and changes the phase difference within the control range according to a characteristic required of the motor, or so as to cause a fluctuation in the energization of the motor. | 11-12-2015 |
20150326211 | VARIABLE DELAY CIRCUIT - A variable delay circuit, includes: an oscillation circuit unit which generates n-phase clock signals, the n-phase clock signals having a same oscillation period and phases of the n-phase clock signals being shifted by 1/n of the oscillation period, wherein n is a natural number equal to or greater than 2; and a delay circuit unit which delays an input signal by using the clock signals to generate an output signal. The delay circuit unit adjusts a delay amount using a phase difference of the clock signals as a minimum variable unit based on a delay amount setting signal. | 11-12-2015 |
20150357960 | ROTARY ELECTRIC MACHINE DRIVING DEVICE - A rotary electric machine driving device including: an inverter that is electrically interposed between a direct-current power supply and the rotary electric machine, and converts electric power between a direct current and an alternating current; a smoothing capacitor that is electrically interposed between the direct-current power supply and the inverter, and is connected between a positive pole and a negative pole on a direct-current side of the inverter; an inverter control unit that controls switching of a switching element of the inverter according to a predetermined switching frequency; and an inductance control unit that switches a direct-current side inductance between a positive pole of the direct-current power supply and a positive pole of the smoothing capacitor, according to the switching frequency, between a predefined standard inductance and a high inductance that is higher than the standard inductance. | 12-10-2015 |
20160013741 | Motor Control | 01-14-2016 |
20160028342 | ELECTRIC MOTOR DRIVE DEVICE - An electric motor drive device which drives an electric motor includes switching elements which are respectively connected to output lines and correspond to upper and lower arms of respective phases, a control unit which controls the operations of the switching elements, a smoothing capacitor connected in parallel with series circuits of the upper and lower arms of the phases, and an abnormality detection unit. The abnormality detection unit detects a voltage value of a virtual neutral point as a value related to the state of insulation of each of the output lines and detects a ground fault of the output line, based on a tilt of a temporary change in the detected value. | 01-28-2016 |
20160043623 | BIDIRECTIONAL LOW VOLTAGE POWER SUPPLY (LVPS) WITH SINGLE PULSE WIDTH MODULATOR (PWM), CRYOGENIC COOLER SYSTEM, AND METHOD - Embodiments of a bidirectional low voltage power supply (LVPS) with a single pulse width modulator and method are generally described herein. In some embodiments, the bidirectional LVPS may include a first converter arranged to provide power from an input power source to a load and a second converter arranged to selectively recycle power from the load at an output of the first converter back to the input power source. Control circuitry may include switching circuitry that may be configured to select either the first power converter or the second power converter for reception of an output of a single PWM. | 02-11-2016 |
20160072424 | CONTROL DEVICE OF ALTERNATING-CURRENT ELECTRIC MOTOR - A control device includes a gate-signal generating unit that outputs a gate signal to an inverter circuit and a voltage-vector generating unit that generates a voltage command to the gate-signal generating unit on the basis of a torque command PTR from an upper unit, rotating speed FM of an alternating-current electric motor, and a direct-current voltage value EFC applied to the inverter circuit. The voltage-vector generating unit calculates, on basis of a modulation rate, which is a ratio of the direct-current voltage value EFC and a voltage amplitude command in the voltage command, a PWM current distortion rate serving as an index representing a degree of a current harmonic caused by PWM control, generates the voltage amplitude command value on the basis of the calculated PWM current distortion rate, and outputs the voltage amplitude command value to the gate-signal generating unit. | 03-10-2016 |
20160079902 | INVERTER DRIVES HAVING A CONTROLLED POWER OUTPUT - An electromechanical system includes an inverter drive, a component arranged during operation to generate a variable force having one or more periodic frequency components, and processing circuitry arranged to determine the power output of the inverter drive, measure a difference between the power output and a reference power output, and control an output frequency of the inverter drive as a function of the measured difference, so as to stabilise the power output during operation of the component. Other example electromechanical systems, inverter drives and methods are also disclosed. | 03-17-2016 |
20160087565 | DOOR OPENING/CLOSING DEVICE AND DOOR OPENING/CLOSING METHOD - A door opening/closing device includes: a motor; and a control unit that is configured to control a rotation rate of the motor by pulse-width modulation (PWM) control. The door opening/closing device opens and closes a door of a vehicle with power of the motor. The control unit is configured to perform the PWM control on the motor at a PWM frequency set so as to deviate from a resonance point of an installation body on which the motor is installed. | 03-24-2016 |
20160094150 | Apparatus and Electrical Assembly for Converting a Direct Voltage Into an Alternating Voltage - Embodiments relate to an electrical assembly ( | 03-31-2016 |
20160111953 | APPARATUS AND METHOD FOR RESTARTING MEDIUM VOLTAGE INVERTER - An apparatus for restarting a medium voltage inverter is disclosed, wherein the medium voltage inverter can be restarted by estimating a rotor speed when an input power returns from an instantaneous defective state to a normal state, whereby a time to restart the medium voltage inverter can be reduced by a simple configuration to dispense with the need to wait until the rotor speed reaches zero speed. | 04-21-2016 |
20160126880 | APPARATUS FOR CONTROLLING INVERTER - Disclosed herein is an apparatus for controlling an inverter. The apparatus determines the phase of an command voltage in a restart section taking into account the frequency of an input voltage to an electric motor when an input power is reduced below a rated power, the frequency of the input voltage into the electric motor at the time of restarting, a time period for generating a torque, and the phase of the input voltage to the electric motor at the time of the restarting. | 05-05-2016 |
20160181964 | PARTITIONED MOTOR DRIVE APPARATUS FOR SUBSEA APPLICATIONS | 06-23-2016 |
20160200270 | VEHICLE | 07-14-2016 |
20160204690 | BACKFLOW PREVENTING DEVICE, POWER CONVERSION APPARATUS, MOTOR DRIVER, AND REFRIGERATING AND AIR-CONDITIONING APPARATUS | 07-14-2016 |
20160380572 | SHIELDING STRUCTURE FOR POWER CONVERSION SYSTEM - An electromagnetic shielding structure includes a first shielding material disposed at a first location with respect to at least one radiation source and a second shielding material attached with the first shielding material by fastening means. The second shielding material is disposed at a second location with respect to the at least one electromagnetic radiation source so as to define a predetermined gap between the first shielding material and the second shielding material. The first shielding material shields at least part of first frequency electromagnetic radiations generated from the at least one electromagnetic radiation source and penetrating through the second shielding material and the predetermined gap. The second shielding material shields at least part of second frequency electromagnetic radiations generated from the at least one electromagnetic radiation source. | 12-29-2016 |
20170232867 | VEHICLE | 08-17-2017 |
20170237379 | VEHICLE | 08-17-2017 |