ABB Technology Oy Patent applications |
Patent application number | Title | Published |
20150365012 | CONVERTER ARRANGEMENT - A converter arrangement can include a first rectifier having an AC input and a DC output with two DC output poles, a capacitance (C) connected between the DC output poles of the first rectifier, a second rectifier having an AC input with two AC input poles and a DC output with two DC output poles, wherein the DC output of the second rectifier is connected between the DC output poles of the first rectifier. A magnetic amplifier includes at least one control winding (L | 12-17-2015 |
20150364939 | METHOD FOR CHARGING CAPACITANCE CONNECTED BETWEEN DC POLES OF THREE-PHASE ACTIVE RECTIFIER/INVERTER AND CONVERTER APPARATUS - An exemplary method for charging a capacitance connected between DC poles of a three-phase active rectifier/inverter and a converter apparatus including a three-phase active rectifier/inverter having a capacitance connected between DC poles thereof, a three-phase filter and a three-phase step-down transformer. The active rectifier/inverter is configured to charge the capacitance connected between the DC poles of the active rectifier/inverter with a rectified secondary voltage of the transformer until a voltage of the capacitance reaches a first predetermined threshold voltage. In response to the voltage of the capacitance connected between the DC poles of the active rectifier/inverter reaching the first predetermined threshold voltage, the active/rectifier/inverter is configured to charge the capacitance with a boosted rectified secondary voltage of the transformer until the voltage of the capacitance reaches a second predetermined threshold voltage higher than the first predetermined threshold voltage. | 12-17-2015 |
20150359143 | METHOD OF HEAT TRANSFER IN POWER ELECTRONICS APPLICATIONS - An exemplary method of heat transfer in power electronics applications is disclosed, wherein a metal foil including at least about 50% of tin, based on a total amount of metals contained in the metal foil, is used as a thermal interface material between a base plate of a heat-generating component and a heat sink. The metal foil is disposed on a heat sink. A base plate of a heat generating component or module is disposed on the heat sink covered by the metal foil to provide a power electronics device. A clamping force is applied to the power electronics assembly to provide a cooled power electronics assembly. | 12-10-2015 |
20150326222 | ARRANGEMENT AND METHOD FOR A POWER SEMICONDUCTOR SWITCH - An exemplary arrangement and method for a power semiconductor switch, where a first current between a first electrode and a second electrode can be controlled based on a control voltage between a third electrode and the first electrode. The arrangement includes an inductance connected in series with the power semiconductor switch, wherein a first end of the inductance is connected to the first electrode, first measuring source for generating a first measurement voltage based on the first end's voltage with respect to a reference potential, second measuring source for generating a second measurement voltage on the basis of the inductance's second end voltage with respect to the reference potential, a comparator for comparing the first measurement voltage with the second measurement voltage, and driver for generating the control voltage. The driver being configured to generate a first control voltage level and a second voltage level of the control voltage. | 11-12-2015 |
20150326164 | FREQUENCY CONVERTER PARAMETER OPTIMIZATION - A method is provided for optimizing a parameter used in a frequency converter connected to an electrical rotating machine. The method includes identifying a parameter of the machine using electrical quantities, the identified parameter being used in the frequency converter and being identified in a first operating point, providing an electro-mechanical model of the rotating electrical machine to the frequency converter, and calculating when a processor capacity of the frequency converter is available, (i) a state of the rotating electrical machine in the first operating point using a finite element method with the electro-mechanical model of the rotating electrical machine, (ii) a state of the rotating electrical machine in a selected operating point using the finite element method with the electro-mechanical model, correcting the calculated state of the rotating electrical machine, and calculating, from the corrected state, parameter(s) of the electrical machine to be used in the frequency converter. | 11-12-2015 |
20150295524 | SAFE TORQUE OFF PROCEDURE - A method and an arrangement of producing a safe torque off procedure of an electrical drive including a control unit and one or more power units having controllable semiconductor switches. The method includes detecting a signal in a control unit indicating a requirement to stop the drive, generating, based on the detected signal, at least one safety-approved signal which when received in a power unit initiates shutting-down of the power unit, feeding the generated at least one safety-approved signal to one or more power units, and initiating the shutting down of the one or more power units upon the receipt of the at least one safety-approved signal, the at least one safety-approved signal initiating at least two different shut-down procedures of the one or more power units at different time instants. | 10-15-2015 |