The invention relates to a method for detecting a control method of an inverter (11) for supplying current to an electric machine (1), in particular a synchronous machine, having N phases. The method comprises sensing a control signal (CU, DU, CV, DV, CW, DW), which is fed to the inverter and which is clocked with a periodic cycle, over a specified number of periodic cycles of the control signal; determining a duty cycle frequency for the sensed control signal over the specified number of periodic cycles; and detecting the control method on the basis of the determined duty cycle frequency. The invention further relates to a device (5) designed to perform the method. In addition, the invention further relates a use of the method or of the device to monitor a torque of the electric machine and in particular to estimate an operating-point-dependent power loss of the electric machine according to the detected control method.

The disclosure provides a voltage detecting circuit that detects voltage increases and voltage decreases using a diode drop and voltage thresholds. The voltage detecting circuit, referred to as a voltage variation detector, uses the diode to maintain a differential between the voltage being monitored and a voltage threshold. When the diode is reversed bias, the voltage variation detector generates a detecting signal indicating the monitored voltage crossed the voltage threshold. In one example a voltage variation detector is disclosed that includes: (1) a transistor stack that corresponds to a voltage threshold, (2) a transistor diode, and (3) an inverter that receives an input signal and provides an detection signal that controls one or more gates of the transistor stack, wherein the transistor stack and the transistor diode provide the input signal and the detection signal indicates when the voltage crosses the voltage threshold.

The disclosure provides a voltage detecting circuit that detects voltage increases and voltage decreases using a diode drop and voltage thresholds. The voltage detecting circuit, referred to as a voltage variation detector, uses the diode to maintain a differential between the voltage being monitored and a voltage threshold. When the diode is reversed bias, the voltage variation detector generates a detecting signal indicating the monitored voltage crossed the voltage threshold. In one example a voltage variation detector is disclosed that includes: (1) a transistor stack that corresponds to a voltage threshold, (2) a transistor diode, and (3) an inverter that receives an input signal and provides an detection signal that controls one or more gates of the transistor stack, wherein the transistor stack and the transistor diode provide the input signal and the detection signal indicates when the voltage crosses the voltage threshold.

Provided is a health monitoring system for an electric machine that includes a power converter which receives power from an electric power supply, supplies power to the electric machine, and receives operational data from the electric machine. At least one computing unit is disposed within the power converter and includes one or more software modules for performing control for the power converter and diagnostics of the electric machine.

Provided is a health monitoring system for an electric machine that includes a power converter which receives power from an electric power supply, supplies power to the electric machine, and receives operational data from the electric machine. At least one computing unit is disposed within the power converter and includes one or more software modules for performing control for the power converter and diagnostics of the electric machine.

Embodiments include apparatuses, systems, and methods including a switching converter having an output stage including a power switch or first switching device to convert an input switching signal to an output switching signal and a sensor stage including a second switching device and a third switching device. In embodiments, the sensor stage may be coupled to receive the output switching signal from the first switching device and to substantially replicate a condition of the first switching device to generate a continuous signal rather than a switched signal. In embodiments, the continuous signal may allow detection of a current level. In some embodiments, the current level may indicate an overcurrent event. A digital post-processing circuit may be coupled to the switching device to count a number of overcurrent events according to various embodiments. Other embodiments may also be described and claimed.

Embodiments include apparatuses, systems, and methods including a switching converter having an output stage including a power switch or first switching device to convert an input switching signal to an output switching signal and a sensor stage including a second switching device and a third switching device. In embodiments, the sensor stage may be coupled to receive the output switching signal from the first switching device and to substantially replicate a condition of the first switching device to generate a continuous signal rather than a switched signal. In embodiments, the continuous signal may allow detection of a current level. In some embodiments, the current level may indicate an overcurrent event. A digital post-processing circuit may be coupled to the switching device to count a number of overcurrent events according to various embodiments. Other embodiments may also be described and claimed.

Systems, devices, and methods for a wide dynamic range current measurement with consumption event analysis are disclosed. According to an aspect, a method includes analyzing a plurality of a set of input data characteristics from a device under test. The method also includes totalizing the set of input data characteristics. The method also includes determining whether at least one of the plurality of the set of input data characteristics occurs above a quiescent level. Further, the method includes establishing an event in response to determining that at least one of the plurality of the set of input data characteristics occurs above the quiescent level. The method also includes creating a summary statistic based on the plurality of the set of input data characteristics. Further, the method includes storing the summary statistic and the event as a result.

Systems, devices, and methods for a wide dynamic range current measurement with consumption event analysis are disclosed. According to an aspect, a method includes analyzing a plurality of a set of input data characteristics from a device under test. The method also includes totalizing the set of input data characteristics. The method also includes determining whether at least one of the plurality of the set of input data characteristics occurs above a quiescent level. Further, the method includes establishing an event in response to determining that at least one of the plurality of the set of input data characteristics occurs above the quiescent level. The method also includes creating a summary statistic based on the plurality of the set of input data characteristics. Further, the method includes storing the summary statistic and the event as a result.

The invention relates to a method for detecting a control method of an inverter (11) for supplying current to an electric machine (1), in particular a synchronous machine, having N phases. The method comprises sensing a control signal (CU, DU, CV, DV, CW, DW), which is fed to the inverter and which is clocked with a periodic cycle, over a specified number of periodic cycles of the control signal; determining a duty cycle frequency for the sensed control signal over the specified number of periodic cycles; and detecting the control method on the basis of the determined duty cycle frequency. The invention further relates to a device (5) designed to perform the method. In addition, the invention further relates a use of the method or of the device to monitor a torque of the electric machine and in particular to estimate an operating-point-dependent power loss of the electric machine according to the detected control method.