A motor control system includes a motor and a motor control device. The motor control device includes an acquisition unit, a. diagnosis unit, and a control unit. The acquisition unit acquires control data. The control data includes a command, transmitted from each of a plurality of controllers, with respect to the motor. The plurality of controllers are configured to communicate with the motor control device. The diagnosis unit makes a diagnosis of multiple sets of the control data provided by the plurality of controllers and acquired by the acquisition unit. The control unit controls the motor by using a single set of control data selected based on a result of the diagnosis made by the diagnosis unit from the multiple sets of the control data.

A motor control system includes a motor and a motor control device. The motor control device includes an acquisition unit, a. diagnosis unit, and a control unit. The acquisition unit acquires control data. The control data includes a command, transmitted from each of a plurality of controllers, with respect to the motor. The plurality of controllers are configured to communicate with the motor control device. The diagnosis unit makes a diagnosis of multiple sets of the control data provided by the plurality of controllers and acquired by the acquisition unit. The control unit controls the motor by using a single set of control data selected based on a result of the diagnosis made by the diagnosis unit from the multiple sets of the control data.

A method is used to identify impending or previously occurring condensation on/in electric motors, in particular on/in electric motors as a component of fans or fan groups. It includes the following method steps: Determining component temperatures, preferably surface temperatures on the electronics, on/in the motor, on/in the fan, or on/in fan groups; Determining the dew point temperature or individual dew point temperatures on the electronics, in/on the motor, fan, or on/in fan groups; Comparing the respective component temperature with the respective dew point temperature and concluding a formation of condensation has already taken place or is imminent when the component temperature approaches the dew point temperature or when the dew point temperature is undershot. A further method serves to prevent the formation of condensate and/or to eliminate/remove condensate on/in electric motors, in particular on/in electric motors as a component of fans or fan groups. It includes the following method steps: Detecting an impending and/or previously occurring formation of condensate on or in the motor; and Initiating measures to prevent the formation of condensate and/or to eliminate/remove the condensate by means of passive or active measures.

One embodiment provides an adapter for configuring device settings of a gas engine replacement device. The adapter includes a transceiver, a user interface, and an electronic processor. The electronic processor is configured to connect the adapter to the gas engine replacement device and generate a graphical user interface showing a plurality of configurable device settings. The electronic processor is also configured to receive user input to choose one or more device settings to configure and receive user input to configure the one or more device setting chosen and generate changed device settings. The electronic processor is also configured to transmit the changed device settings to the gas engine replacement device. The gas engine replacement device is then used to drive power equipment in accordance with the changed device settings.

One embodiment provides an adapter for configuring device settings of a gas engine replacement device. The adapter includes a transceiver, a user interface, and an electronic processor. The electronic processor is configured to connect the adapter to the gas engine replacement device and generate a graphical user interface showing a plurality of configurable device settings. The electronic processor is also configured to receive user input to choose one or more device settings to configure and receive user input to configure the one or more device setting chosen and generate changed device settings. The electronic processor is also configured to transmit the changed device settings to the gas engine replacement device. The gas engine replacement device is then used to drive power equipment in accordance with the changed device settings.

There is provided an electric power tool including: a second voltage supply portion configured to supply, based on a first power supply voltage supplied from a first battery, a second operating voltage for operating a second controller, and configured to supply, based on a second power supply voltage supplied from a second battery, the second operating voltage for operating the second controller; a first voltage line configured to connect a first voltage supply portion and the second voltage supply portion and configured to supply the first power supply voltage; and a backflow suppression circuit configured to permit a current to flow from the first voltage supply portion to the second voltage supply portion in the first voltage line and configured to suppress a current from flowing from the second voltage supply portion to the first voltage supply portion in the first voltage line.

There is provided an electric power tool including: a second voltage supply portion configured to supply, based on a first power supply voltage supplied from a first battery, a second operating voltage for operating a second controller, and configured to supply, based on a second power supply voltage supplied from a second battery, the second operating voltage for operating the second controller; a first voltage line configured to connect a first voltage supply portion and the second voltage supply portion and configured to supply the first power supply voltage; and a backflow suppression circuit configured to permit a current to flow from the first voltage supply portion to the second voltage supply portion in the first voltage line and configured to suppress a current from flowing from the second voltage supply portion to the first voltage supply portion in the first voltage line.

There is provided an electric power tool including: a first electric motor and a second electric motor; a first controller configured to control the first electric motor and the second electric motor; a first circuit board on which the first controller is mounted; a communication device; a second controller configured to control the communication device; a second circuit board on which the second controller and an antenna of the communication device are mounted; and a housing configured to accommodate the first electric motor, the second electric motor, the first circuit board, the communication device, and the second circuit board. The first circuit board and the second circuit board are disposed around the first electric motor.

There is provided an electric power tool including: a first electric motor and a second electric motor; a first controller configured to control the first electric motor and the second electric motor; a first circuit board on which the first controller is mounted; a communication device; a second controller configured to control the communication device; a second circuit board on which the second controller and an antenna of the communication device are mounted; and a housing configured to accommodate the first electric motor, the second electric motor, the first circuit board, the communication device, and the second circuit board. The first circuit board and the second circuit board are disposed around the first electric motor.

A health monitor circuit for an electric machine includes a plurality of sensors, a rectifier, a memory device, and a microprocessor. The plurality of sensors includes a current transformer configured to be electromagnetically coupled to an electrical conductor that feeds a stator winding of the electric machine. The rectifier is coupled to the current transformer and is configured to convert an AC signal generated by the current transformer to a DC signal to supply power for the health monitor circuit. The microprocessor is coupled to the memory device and the plurality of sensors. The microprocessor is configured to periodically collect a stator current measurement from the current transformer and write the stator current measurement to the memory device.