XV-DVI-GTI-10-000 EATON Touch Panel

In a DC brush motor, the stator is a permanent magnet and the rotor is a wound coil; the magnetism has two poles, which repel each other and attract each other. Therefore, passing direct current through the rotor coil will allow the rotor to rotate until it reaches the position where the torque is the smallest with the stator. At this time, due to the commutation of the brushes, the position where the torque was originally the smallest becomes the position where the torque is the largest. Finally, over and over again, the rotor continues to rotate. .Brushless DC does not have brushes; at the same time, in brushless DC motors, the stator is a permanent magnet and the rotor is a winding structure. In brushless DC motors, the stator is a winding and the rotor is a permanent magnet. If the winding is still on the rotor, you have to rely on physical contact to energize the winding, which does not solve the problem of brush aging. In the brushless DC motor, the winding exists in the stator and has three phase wires; when working, the input and output currents are successively supplied to the three phase wires to achieve the purpose of commutation. In brushless DC, the electromagnetic force generated by the rotor and stator is the same as that of brushed DC.For brushless DC motors, it is not necessarily whether the stator is inside or outside. A motor with a rotor outside and a stator inside is generally called an external rotor motor. The hub motor is a very special external rotor motor.Brushless DC motor, why is it classified as AC motor?This is because when we supply power to the controller of brushless DC and permanent magnet synchronous motors, we supply DC power, so it is called brushless DC; however, after the DC power is inverted through the motor controller, it communicates with the motor. For the three connected phase lines, the power supply type changes to AC. Only the changing phase voltage of AC can cause the current on the three phase lines of the motor to continuously reverse direction, so the motor is classified as an AC motor.3. Similarities and differences between brushless DC and permanent magnet synchronizationBrushless Direct Current Motor, English BLDC, English full name Brushless Direct Current MotorPermanent Magnet Synchronous Motor, English PMSM, English full name: Permanent Magnet Synchronous Motor

XV-440-10TVB-1-1U Intelligent operation control system
XP-DVI-12T-10 EATON HMI Human Machine Interface
XV-230-57CNN-1-10(OS/CF) Intelligent operation control system
XT-BCB-TP EATON Touch Panel
XP-702-C0-10TSI-10 EATON Touch Panel
XN-2AO-I(0/4…20MA) Human Machine Interaction
MC-HPG-230 EATON HMI Human Machine Interface
XV-DVI-GTR-12-000 Intelligent operation control system
XN-2DO-24VDC-0.5A-P EATON HMI Human Machine Interface
XVC-601-GTI-15-DPM-V1-000 EATON Touch Panel
MC2-440-10TVB-1-10 EATON Touch Panel
XVH-340-57MPI-1-1Q Human Machine Interaction
XN-KO/12 EATON Touch Panel
XVS-440-10MPI-1-1U EATON Touch Panel
MEMORY-CF-A7-S EATON Touch Panel
XVH-340-57CAN-1-50 Intelligent operation control system
XP-503-10-A10-A00-1B EATON Touch Panel
XV-102-D6-57TVRC-1K Eaton human-machine touch screen
XN-2DO-R-NC Capacitive touch screen and resistive touch screen
XV-460-57TQB-1-50 Capacitive touch screen and resistive touch screen
MC2-442-57CQB-1-50 Capacitive touch screen and resistive touch screen
XN-KO/2 EATON HMI Human Machine Interface
MS2-440-57MPI-1-10 EATON Touch Panel
XN-1SSI Intelligent operation control system
XV440-10TVB-1-10 EATON Touch Panel
MC2-440-10TVB-1-2L Human Machine Interaction
XVS-460-57MPI-1-1A Intelligent operation control system
XV-303-70-B00-A00-1C EATON Touch Panel
XV-460-84TVB-1-10 EATON Touch Panel
XV-102-B0-35TQR-10 EATON HMI Human Machine Interface
XV-430-12TSB-1-10 Eaton human-machine touch screen
XV-DVI-GTR-10-000 Human Machine Interaction
MC2-430-12TSB-1-10 Eaton human-machine touch screen
MS2-440-10MPI-1-10 EATON HMI Human Machine Interface
XT-MEM-CF128M-02 Capacitive touch screen and resistive touch screen