Class / Patent application number | Description | Number of patent applications / Date published |
318724000 | Having a plurality of windings or winding portions | 21 |
20090160392 | Virtual Moving Air Gap For An Axial Flux Permanent Magnet Motor With Dual Stators - An axial flux electric motor comprising a rotor and a first and second stator. The first and second stators have a first and second air gap located between the first and second stators and the rotor, respectively, and the second air gap is greater than the first gap. In one embodiment, the coils of the first stator and the coils of the second stator are in parallel. The motor further comprises switches which alternatingly energize the coils of the first stator and of the second stator based upon required torque and required speed of the motor. In a second embodiment, the coils of the first stator and the coils of the second stator are in series and the motor further comprises switches which selectively bypass the coils of the second stator in order to reduce the back EMF of the motor and increase the maximum speed of the motor at a given input voltage. | 06-25-2009 |
20110074333 | CONTROL APPARATUS FOR MULTI-PHASE ROTARY MACHINE AND ELECTRIC POWER STEERING SYSTEM - A control apparatus for a multi-phase rotary machine includes a control unit and a plurality of power supply systems including respective inverter units. When a short-circuiting failure occurs in one of the systems due to an ON-failure in any one of FETs in an inverter unit of the failure system, the control unit stops driving of the rotary machine by bringing all the FETs in the failure system into the OFF state. The control unit controls FETs of the non-failure system such that a brake torque generated in the failure system is cancelled or the influence of the brake torque exerted on the driving of the motor is reduced. | 03-31-2011 |
20110181230 | MOTOR - A motor including a stator, a rotor, and a current supply unit. The stator includes a stator core, which has a plurality of teeth, and a plurality of coils, which are wound around the teeth. The rotor includes a plurality of magnets, which function as first magnetic poles, and salient poles, which function as second magnetic poles. Each of the salient poles is arranged between adjacent magnets spaced apart by a clearance from the magnets. When P represents the number of poles in the rotor and S represents the number of coils, a ratio P/S of the pole number P and the coil number S is represented by (4n−2)/3m (where n and m are integers that are greater than or equal to 2). The plurality of coils includes a plurality of coil groups including coils for three phases. The current supply unit executes a different current control for each coil groups. | 07-28-2011 |
20110204839 | MOTOR DRIVE APPARATUS AND ELECTRIC POWER STEERING APPARATUS USING THE SAME - A motor drive apparatus has a plurality of motor drive parts and a control unit. The control unit performs first and second failure detection processing for the motor drive parts before starting to drive the motor. If the first motor drive part is determined to have failure by the first failure detection processing, a first power supply relay for the first motor drive part is turned off and the second failure detection processing for the first motor drive part is inhibited. If the second motor drive part is determined to have no failure by the first failure detection processing and then by the second failure detection processing, the motor is started to operate. | 08-25-2011 |
20110227523 | Direct Current Motor with Independently Driven and Switchable Stators - An apparatus and method are provided for adjusting torque and speed of a motor, while remaining within the voltage limit of a power supply. The invention provides a brushless direct current motor with independently driven and switchable stators. In an aspect, each stator and the rotor is structured to function as an independent motor separate from another stator and the rotor. A first power electronics directs energy to a first stator, and a second power electronics directs energy to a second stator. A rotor rotates relative to the stators. In an aspect, a commutation electronics determines electrical position of the rotor relative to the stators, and synchronizes current pulses directed to a sequentially selected phase of the stators, to generate a rotating magnetic field that communicates with the rotor. A controller sets the connection of the first power electronics in series or in parallel with the second power electronics. | 09-22-2011 |
20110241599 | SYSTEM INCLUDING A PLURALITY OF MOTORS AND A DRIVE CIRCUIT THEREFOR - In a system, a plurality of motors are provided. Each of the plurality of motors has a plurality of phase windings. Each of the plurality of motors is rotated when a unidirectional current is supplied to each of the plurality of phase windings thereof. A motor select unit includes a plurality of selectors connected to the plurality of motors, respectively. The motor select unit selects at least one of the plurality of motors via a corresponding at least one of the selectors. A phase current supplier is connected in series to each of the plurality of selectors. The phase current supplier supplies a direct current as the unidirectional current to each of the plurality of phase windings of the selected at least one of the plurality of motors via a corresponding at least one of the selectors. | 10-06-2011 |
20120119690 | SYNCHRONOUS ELECTRIC MOTOR DRIVE SYSTEM - A synchronous motor drive system improves the design flexibility regarding torque characteristics as compared with conventionally available design flexibility. A synchronous motor has a rotor and a stator. Each of at least two adjacent stator teeth has a slit formed at the tip thereof. Each of a plurality of stator teeth has a main coil wound therearound in concentrated winding. Between each two adjacent teeth having a slit, a sub-coil is wound around in a manner of being accommodated in the respective slits. The drive device separately controls electric current supplied to the main coils and electric current supplied to the sub-coil. | 05-17-2012 |
20120161689 | CONTROLLER - Each of a first and a second inverter circuit supplies a driving current to an electric motor in a different power supply line. A custom IC has a first pre-driver circuit for outputting control signals to the first inverter circuit and a second pre-driver circuit for outputting control signals to the second inverter circuit. A micro-computer for outputting operation signals to the first and second pre-driver circuits is mounted to a control board on a center line. A distance between the center line and the first inverter circuit and a distance between the center line and the second inverter circuit is equal to each other. First and second output terminals of the micro-computer as well as first and second input and output terminals of the custom IC are symmetric with respect to the center line. | 06-28-2012 |
20130026968 | MOTOR DRIVE APPARATUS - A motor drive apparatus receiving power from a power source and driving a motor with independent polyphase systems of excitation coils, comprises: a control circuit and power converters each corresponding to one system, each including an inverter circuit, an interrupter circuit, and a temperature detector, the inverter circuits being connected in series to the power source and, while not short-circuited, supplying power to the excitation coil, wherein the control circuit detects an operating state of the motor, short-circuits the inverter circuits and interrupts the interrupter circuits for a subset of power converters defined according to the operating state, such that a source voltage is supplied to non-short-circuited inverter circuits, and, when a power converter exceeds a predetermined temperature, the control circuit short-circuits the inverter circuit and interrupts the interrupter circuit thereof, and, in another power converter not exceeding the predetermined temperature, operates the inverter circuit and connects the interrupter circuit. | 01-31-2013 |
20130285591 | CONTROL DEVICE FOR THREE-PHASE ROTATING MACHINE - In a control device for a three-phase rotating machine with first and second winding sets, a current feedback computing section includes a current sum controller and a current difference controller. The current sum controller multiplies, by a sum gain, an error between a sum of current command values for alternating currents output from first and second inverters and a sum of sensed current values and computes a sum of voltage command values. The current difference controller multiplies, by a difference gain, an error between a difference of the current command values and a difference between the sensed current values, and computes a difference of voltage command values. In a variable-responsiveness mode, a gain ratio between the sum gain and the difference gain is varied according to a reference frequency such that the current sum controller and the current different controller are different in responsiveness. | 10-31-2013 |
20140002001 | MOTOR DRIVE SYSTEM | 01-02-2014 |
20140002002 | Control Unit | 01-02-2014 |
20140132197 | Electric Actuator For Automobile - In an electrical actuator, the number of piece of an inverter is made one in order to miniaturize a control circuit suitable to a mechanically and electrically integrate type, a motor is configured to include two independent three-phase windings thereinside, and motor relays are disposed at neutral points of the independent three-phase windings. | 05-15-2014 |
20140210397 | INVERTER APPARATUS, METHOD OF CONTROLLING INVERTER APPARATUS, AND ELECTRIC MOTOR DRIVE SYSTEM - Provided is an inverter apparatus | 07-31-2014 |
20140239876 | ELECTRIC DRIVE WITH RECONFIGURABLE WINDING - An electric drive system for a PM electric machine, where the machine includes a stator, a rotor and an inverter. Each phase of the machine includes a stator winding separated into a first winding section and a second winding section and two switches in the inverter electrically coupled to the winding sections. The drive system includes a switch assembly for each phase electrically coupled to the inverter switches and the first and second winding sections, where the switch assembly includes at least two switch states. A first switch state of the switch assembly electrically couples the first winding section and the second winding section in series to the inverter switches and a second switch state electrically couples the second winding section to the inverter switches and electrically disconnects the first winding section from the inverter switches. | 08-28-2014 |
20150061567 | Vehicle with Electrical Machine and Method for Operating the Same - The invention relates to a vehicle having a multiphase electric machine, comprising a first onboard power subsystem provided with a first nominal DC voltage level, and a second onboard power subsystem provided with a second nominal DC voltage level, wherein the electric machine comprises a rotor, a first stator system, and a second stator system. The first onboard power subsystem comprises a first inverter having a first intermediate circuit capacitor. The first stator system is dedicated to the first inverter. The second onboard power subsystem comprises a second inverter having a second intermediate circuit capacitor, and the second stator system is dedicated to the second inverter. The first stator system is configured in a star connection, the second stator system is configured in a star connection, and a transfer circuit connects the star point of the first stator system to the star point of the second stator system. | 03-05-2015 |
20150069949 | ASYMMETRICAL MULTI-LANE MULTI-PHASE MOTOR DRIVES - Motor drives and drive systems are provided. A motor drive of the subject invention can be an asymmetrical, multi-lane, multi-phase motor drive. The motor drive can include a master lane and slave lane having fewer phases than the master lane has. Each lane can be powered by a single direct current link. | 03-12-2015 |
20150306972 | ELECTRICAL APPARATUS AND METHOD FOR POWERING AN ELECTRICAL MACHINE - An electrical apparatus for powering an electrical machine with two different energy sources includes an electrical drive system having a battery and a super capacitor, and an electrical machine, wherein the electrical machine includes a rotor, a first separate multi-phase stator winding and a second separate multi-phase stator winding, wherein the drive system includes a first multi-phase bridge inverter connected to the first multi-phase stator winding, and wherein the apparatus further includes a second multi-phase bridge inverter connected to the second multi-phase stator winding and to the battery, where the first multi-phase bridge inverter is connected to a super capacitor, and where the drive system includes a switch adapted to connect and disconnect the DC links of the first multi-phase bridge inverter to and from the second multi-phase bridge inverter. The super capacitor can be used to both deliver and absorb transient power peaks which can prevent the battery from exposure of the power peaks which can improve the battery life. | 10-29-2015 |
20150311850 | ELECTRIC MOTOR DRIVE SYSTEM AND WINDING SWITCHING METHOD - An electric motor drive system includes an electric motor including windings for separate phases including a center tap, a winding for a low-speed rotation located between the center tap and a winding start terminal, and a winding for a high-speed rotation located between the center tap and a winding end terminal; an inverter configured to supply an inverter electric current to the winding of each phase; a first winding switch portion configured to open and close connection between the inverter and the winding start terminal, and a second winding switch portion configured to open and close connection between the inverter and the center tap of the winding of each phase; and a controller configured or programmed to control opening and closing of each of the first and second winding switch portions. | 10-29-2015 |
20150365036 | MOTOR APPARATUS HAVING SEPARATE WINDING SYSTEMS AND MASTER MODULE - A motor apparatus includes a motor having a first active part and a second active part, the first active part having a plurality of separately controllable windings, a control unit comprising a processing unit and for each of one or more of the windings a motor module, wherein the motor module has a power converter. The motor apparatus further has and a sensor device constructed to supply a position signal indicative of a position of the first active part relative to the second active part, wherein one of the motor modules is a master module, which receives the position signal directly from the sensor device as the only one of the motor modules, and transmits an item of position information corresponding to the position signal to the processing unit, and wherein another one of the motor modules is a slave module, which receives directly from the processing unit a single item of information regarding the position of the first active part relative to the second active part and controls the one or more windings as a function of the single item of information. | 12-17-2015 |
20160094175 | ELECTRICAL ROTATING MACHINE CONTROLLER - An ECU, which acts as a “electrical rotating machine controller”, controls driving of a motor unit having two winding sets. In the ECU, components having different heat dissipation properties are used as switching elements between two systems of inverters (electric power conversion circuit). For example, “component X” is used as switching elements of a first inverter acting as a “normal circuit”, and “component Y” which has superior heat conductivity is used as switching elements, different from the switching elements of the first inverter, of a second inverter acting as a “particular circuit”. As a result, the switching element (component Y) of the second inverter is more likely to have a longer lifespan than the switching element (component X) of the first inverter. Accordingly, the likelihood of both systems failing at the same time may be reduced. | 03-31-2016 |