Class / Patent application number | Description | Number of patent applications / Date published |
318400120 | With table lookup, stored map, or memory table (e.g., speed table, stored current profile, etc.) | 10 |
20090026990 | METHOD AND DEVICE FOR DRIVING A BRUSHLESS MOTOR WITH VOLTAGE WAVEFORM PREDISPOSED FOR A PROGRESSIVE AND AUTOMATIC SWITCHING FROM A THREE-PHASE SINUSOIDAL DRIVING TO A SQUARE WAVE THREE-PHASE DRIVING - The method and a related device are for driving a brushless motor, according to which by acting solely on the control value, that is by reducing or increasing it, the driving mode eventually passes from a sinusoidal three-phase driving mode to a distorted square-wave three-phase driving mode for increasing or maximizing the voltage that may be supplied to each motor winding or vice versa. An effective drive voltage profile includes, cyclically, during each 60 electrical degree interval, profiles of re-constructed outphased complete drive waveforms including a first one stably in a saturated region, a second one exiting, at the beginning of the interval, a state of incipient saturation, and a third one reaching, at the end of the interval, a state of incipient saturation. In this way, by modifying the numerical control value it is possible to pass from a sinusoidal drive mode to a distorted drive mode of enhanced maximum peak value or vice versa. | 01-29-2009 |
20100253257 | CONTROL OF AN ELECTRIC MACHINE - A method of controlling an electric machine, the method comprising storing a plurality of power maps, each power map comprising control values for driving the electric machine at different power, and selecting a power map in response to an input signal. Additionally, a control system for an electric machine, and a product incorporating the control system and electric machine. | 10-07-2010 |
20110193506 | MOTOR DRIVER AND METHOD OF CONTROLLING THE SAME - A controller controls switching of IGBT devices of an inverter according to the desired output of the permanent magnet motor. The controller includes: a magnet temperature detection device that detects the magnet temperature of the permanent magnet motor based on the output of a temperature sensor; a setting device that sets a threshold value of the magnet temperature corresponding to the desired output of the permanent magnet motor, based on a predetermined relation between the output from the permanent magnet motor and a critical temperature, up to which demagnetization in the permanent magnet motor is not caused; and a carrier frequency control device that, when the magnet temperature detected by the magnet temperature detection device exceeds the threshold value, changes the carrier frequency, at which the IGBT devices are switched, such that a ripple current superimposed on a motor current that flows through the permanent magnet motor is reduced. | 08-11-2011 |
20110273121 | Electric Machine Component Temperature Monitoring - Embodiments of the invention provide an electric machine module including a module housing. In some embodiments, the module housing can at least partially define a machine cavity into which an electric machine can be positioned. The electric machine can include a rotor assembly comprising a plurality of laminations and a least one magnet positioned substantially within the rotor assembly. In some embodiments, at least one temperature sensor can be operatively coupled to, and in thermal communication with, a portion of the rotor assembly. The temperature sensor can be configured to sense a temperature of the rotor assembly. In some embodiments, at least one transmitter can be in communication with the temperature sensor and can transmit a signal from the temperature sensor to a receiver. In some embodiments, the receiver can be coupled to the module housing and in communication with a controller. | 11-10-2011 |
20120038299 | Apparatus And Method For Rotating-Sensor-less Identification Of Magneto-Mechanical Parameters Of An AC Synchronous Motor - A method for the identification without a shaft encoder of magnetomechanical characteristic quantities, in particular the mass moment of inertia J and the permanent magnetic flux ψ | 02-16-2012 |
20120062156 | AUTOMATIC DETECTION OF A MECHANICALLY COMMUTATED DC MOTOR - In order to automatically detect a mechanically commutated DC motor, it is provided to acquire an electrical engine size, to determine current ripples in the engine size, to evaluate the amplitude, the duration and/or time position of the detected current ripples and to compare to known ripple patterns, and to choose from a known key data table a number of key data assigned to a certain engine type, when the amplitude, during and/or time position of the detected current ripples correspond to a ripple pattern, which is assigned to the engine type. | 03-15-2012 |
20120086372 | ELECTRONICALLY COMMUTATED ELECTRIC MOTOR HAVING EMERGENCY RUNNING PROPERTIES - The invention relates to an electronically commutated electric motor. The electric motor comprises a stator, and a rotor, in particular a permanent-magnetic rotor. The electric motor further comprises a control unit connected to the stator. The control unit is designed to actuate the stator such that the stator can generate a magnetic rotating field for rotationally moving the rotor. According to the invention, the control unit of the electric motor is provided with a power output stage having semiconductor switches. Subject to the low-resistance, or short-circuited, semiconductor switch of the power output stage, in particular as a result of defect, the control unit is designed to actuate the stator for generating the rotating field such that during a complete rotor revolution, the rotor can provide a mechanical output, or in the operational mode, a braking torque of the electric motor caused by the defect is reduced, or completely neutralized, by the low-resistance, or short-circuited, semiconductor switch. | 04-12-2012 |
20120098473 | METHOD FOR CONTROL OF SYNCHRONOUS ELECTRICAL MOTORS - Method for control of synchronous electrical motors with application for stepper and Brush-Less Direct Current motors for which there is an explicit relation between the active electrical power supplied to the motor and the mechanical power that the motor delivers to the load. The active electrical power Pel consumed by the motor is measured and according to FIG. | 04-26-2012 |
20120133311 | MOTOR MAGNETIC POLE POSITION CORRECTION METHOD - A motor magnetic pole position correction method includes preventing a movement of a movable element of a direct drive motor by mechanical brake (step S | 05-31-2012 |
20150318807 | DIRECT TORQUE CONTROL METHOD FOR INHIBITING TORQUE RIPPLES - The present invention relates to a direct torque control method for inhibiting torque ripples, mainly comprising the following steps: establishing an MC voltage vector switching table visually displaying degrees of change in torque and flux, and, proposing, on the basis of the MC voltage vector switching table visually displaying the degrees of change in torque and flux, an MC-DTC mark-to-space ratio computing policy for torque quantification control. The MC-DTC mark-to-space ratio computing policy allows for inhibition of torque ripples of a PMSM speed control system and for a constant switching frequency, uses the MC voltage vector switching table visually displaying the degrees of change in torque and flux, has a simple algorithm, does not reply on motor parameters, and obviates the need for rotational coordinate transformation. | 11-05-2015 |