Abstract: The present invention relates to a surge arrester for a charge controller of a battery. The surge arrester comprises a first voltage detector with a fixed predetermined response threshold and a second voltage detector with an adaptively adjustable voltage threshold. The voltage threshold of the second voltage detector is adapted as a function of the response of the first voltage detector.

Abstract: The present invention relates to a surge arrester for a charge controller of a battery. The surge arrester comprises a first voltage detector with a fixed predetermined response threshold and a second voltage detector with an adaptively adjustable voltage threshold. The voltage threshold of the second voltage detector is adapted as a function of the response of the first voltage detector.

Abstract: In a method for determining a power limiting value for an electric machine in a vehicle, the electric machine being assigned an energy storage device, an intermediate power value is calculated from a maximally allowable current of the energy storage device and an instantaneous voltage. A corrected intermediate power value is determined by adding at least one power loss to the intermediate power value. A first correction value is determined for reducing the absolute value of the corrected intermediate power value if an instantaneous power of the energy storage device is greater than the absolute value of the calculated intermediate power value. The power limiting value is determined by superimposing the first correction value on the corrected intermediate power value.

Abstract: A method for operating a polyphase machine having a pulse-width-modulated inverter includes: determining a setpoint current value respectively for a current in the longitudinal direction and/or the transverse direction based on a specified torque, ascertaining a setpoint voltage value respectively for a voltage in the longitudinal direction and/or the transverse direction with the aid of the setpoint current value and/or of an actual current value determined at the pulse-width-modulated inverter, controlling and/or regulating the polyphase machine corresponding to the ascertained setpoint voltage value. In this context it is provided that, in addition, using a model, a model value is determined respectively for the voltage in the longitudinal direction and/or the transverse direction, the difference between the setpoint voltage value and the model value is ascertained, and in response to the exceeding of a specifiable maximum difference, an error signal is triggered.

Abstract: In a method for controlling a synchronous machine having a stator, a rotor, and magnets situated on the rotor, first a nominal value is set for the magnetic flux prevailing in the synchronous machine, and a marker is set in a control unit that indicates that no calibration has yet been carried out. It is then checked repeatedly whether the synchronous machine has been out of operation for at least a specified time duration. If this is the case, a temperature balance between the stator and the rotor is assumed, so that the temperature to be measured at the stator is equal to the rotor temperature, and thus can be used as a basis for a calibration of the magnetic flux. A marker that indicates the carrying out of a flux calibration is set in the control unit. Subsequently, normal operation can be continued.

Abstract: A method and a device for monitoring the startup of an electric drive, which has a polyphase machine, a pulse-controlled inverter and a control unit. The control unit is provided to compare rotational speed values that are successive in time to one another during the startup of the drive, and when recognizing a non-increase in the rotational speed of the rotor shaft, to detect a mixup of phase lines or pulse-controlled inverter lines.

Abstract: In a method for determining a power limiting value for an electric machine in a vehicle, the electric machine being assigned an energy storage device, an intermediate power value is calculated from a maximally allowable current of the energy storage device and an instantaneous voltage. A corrected intermediate power value is determined by adding at least one power loss to the intermediate power value. A first correction value is determined for reducing the absolute value of the corrected intermediate power value if an instantaneous power of the energy storage device is greater than the absolute value of the calculated intermediate power value. The power limiting value is determined by superimposing the first correction value on the corrected intermediate power value.

Abstract: A method for determining the magnet temperature of a permanent magnet electrical machine. The magnet temperature is able to be determined particularly simply and accurately if a phase voltage and the rotational speed of the electrical machine are measured, and the magnet temperature is determined from this.

Abstract: A method and a device for monitoring the startup of an electric drive, which has a polyphase machine, a pulse-controlled inverter and a control unit. The control unit is provided to compare rotational speed values that are successive in time to one another during the startup of the drive, and when recognizing a non-increase in the rotational speed of the rotor shaft, to detect a mixup of phase lines or pulse-controlled inverter lines.

Abstract: A pulse-width rectifier for operating an electric machine in motor operating mode or in generator operating mode, includes a terminal for a control device that communicates with the pulse-width rectifier via a data connection. In order to safeguard the supply of energy in the case of a disturbance in the data transmission between the control device and the pulse-width rectifier, the pulse-width rectifier is constructed such that it automatically switches into an emergency generator operating mode in which it produces at its direct-voltage output a prespecified power with which it is possible to maintain at least an emergency operation of electrical consumers.

Abstract: A method and a device for field-oriented regulation of a polyphase machine. An actual torque of the polyphase machine is ascertained, the ascertained actual torque is compared with a setpoint torque, and in the event that torque differences occur, the setpoint values for the flow-forming current and the torque-forming current are modified to bring the actual torque into agreement with the setpoint torque. The actual torque is calculated with the aid of the power balance of the polyphase machine.

Abstract: A method for determining the torque of an electric machine, in particular a permanently energized electric machine. The torque is determined by a particularly simple and accurate method by measuring a phase voltage and the rotational speed of the electric machine and calculating the torque based on these values.

Abstract: A method for identifying the sensor assignment to the output signals of an electrical machine having at least two standardized sensor elements, that are assigned to a rotating body. An arbitrary signal sequence of sensor signals of the at least two standardized sensor elements is recorded for a first direction of rotation of the electrical machine. The arbitrary signal sequence is sorted with respect to the electrical angle ? of the electrical machine corresponding to an offset of the electrical angle ? per sensor signal. The zero crossings of phases of the electrical machine are assigned to the sensor signals.

Abstract: A method for determining the magnet temperature of a permanent magnet electrical machine. The magnet temperature is able to be determined particularly simply and accurately if a phase voltage and the rotational speed of the electrical machine are measured, and the magnet temperature is determined from this.

Abstract: A pulse-width rectifier for operating an electric machine in motor operating mode or in generator operating mode, includes a terminal for a control device that communicates with the pulse-width rectifier via a data connection. In order to safeguard the supply of energy in the case of a disturbance in the data transmission between the control device and the pulse-width rectifier, the pulse-width rectifier is constructed such that it automatically switches into an emergency generator operating mode in which it produces at its direct-voltage output a prespecified power with which it is possible to maintain at least an emergency operation of electrical consumers.

Abstract: A method for determining the torque of an electric machine, in particular a permanently energized electric machine. The torque is determined by a particularly simple and accurate method by measuring a phase voltage and the rotational speed of the electric machine and calculating the torque based on these values.

Abstract: An electric machine coupled to an internal combustion engine in a motor vehicle, a control unit being provided for specifying an optimal efficiency operating state or for specifying a dynamically optimal operating state for the electric machine. Switchover means are used for switching over the usually specified optimal efficiency operating state to the dynamically optimal operating state before operating procedures in the motor vehicle which require a rapid torque setting.

Abstract: A method is described for adjusting a setpoint operating state of a hybrid drive in a motor vehicle, the hybrid drive including an internal combustion engine and at least two electric motors as the drive motors, and the output shafts of the drive motor being capable of being operatively connected to a drive train of the vehicle, a setpoint operating point of the hybrid drive being adjusted as a function of an instantaneous power demand (output torque) on the hybrid drive and an instantaneous electrical power demand of an electrical system of the vehicle, by determining the speeds and the torques of the drive motors. At least one of the electric motors (16) is controlled by voltage regulation and the other electric motor(s) (14) is/are controlled by speed regulation.

Abstract: The invention concerns a method and an apparatus for field-oriented control of a permanent-magnet-excited synchronous machine. Conversion of an ascertained longitudinal voltage component and an ascertained transverse voltage component into triggering pulses for the synchronous machine is accomplished in a low rotation speed range using a pulse-width-modulated inverter, and in a high rotation speed range using a block switching mechanism or a software program functionally corresponding to a block switching mechanism. The invention reduces output oscillations in the upper rotation speed range that occur in known systems as a result of angular inaccuracies with respect to the target voltage zero transition and the voltage zero transition that is actually implemented.

Abstract: The invention concerns a method and an apparatus for field-oriented control of a permanent-magnet-excited synchronous machine. Conversion of an ascertained longitudinal voltage component and an ascertained transverse voltage component into triggering pulses for the synchronous machine is accomplished in a low rotation speed range using a pulse-width-modulated inverter, and in a high rotation speed range using a block switching mechanism or a software program functionally corresponding to a block switching mechanism. The invention reduces output oscillations in the upper rotation speed range that occur in known systems as a result of angular inaccuracies with respect to the target voltage zero transition and the voltage zero transition that is actually implemented.