Fan motor, fan comprising the same, and control method of fan motor

What is claimed is: 1 . A fan motor, comprising: a motor body; and a motor controller; wherein: the motor body comprises a base, a stator assembly, a rotor assembly, and a flange; the stator assembly is disposed on a sleeve protruding from the base; the rotor assembly is disposed around the stator assembly; the flange is disposed around the rotor assembly and serves as a mounting point for a fan wheel; the motor controller comprises a control box and a control circuit board; the control circuit board comprises a main control microprocessor, an inverter circuit, and an interface microprocessor; the main control microprocessor is configured to issue signals to operate the inverter circuit; the inverter circuit comprises an output interface; the stator assembly comprises coil windings; the output interface of the inverter circuit is electrically connected to the coil windings; the interface microprocessor communicates with both the main control microprocessor and a host computer; the control circuit board further comprises a vibration sensor communicating with the interface microprocessor; and when in use, the host computer sends a speed command to the main control microprocessor via the interface microprocessor; based on the speed command, the main control microprocessor adjusts the inverter circuit to regulate the motor's speed at a preset speed V; the vibration sensor continuously detects the vibration data of the fan motor operating at the preset speed V and relays the vibration data to the interface microprocessor; and the interface microprocessor transmits the vibration data back to the host computer. 2 . The fan motor of claim 1 , wherein the vibration sensor is a microelectromechanical systems (MEMS) sensor. 3 . The fan motor of claim 2 , wherein the MEMS sensor is a microelectromechanical system integrating microelectronic and micromechanical fabrication. 4 . The fan motor of claim 2 , wherein the interface microprocessor communicates with the MEMS sensor via a serial communication protocol of inter-integrated circuit (PC) or serial peripheral interface (SPI). 5 . The fan motor of claim 4 , wherein the interface microprocessor communicates with the host computer using a Modbus serial communication protocol. 6 . The fan motor of claim 5 , wherein the interface microprocessor communicates with the main control microprocessor via a Universal Asynchronous Receiver-Transmitter (UART). 7 . The fan motor of claim 6 , wherein the rotor assembly is an external rotor assembly. 8 . A method for controlling the fan motor of claim 1 , the method comprising: 1) powering on the fan motor; 2) sending, by a user using the host computer, the speed command to the interface microprocessor; 3) transmitting, using the interface microprocessor, the speed command to the main control microprocessor; adjusting, using the main control microprocessor, the inverter circuit to regulate the motor's speed at a preset speed V; receiving, using the interface microprocessor, the vibration data detected by the vibration sensor; processing, using the interface microprocessor, the vibration data; sending, using the interface microprocessor, processed vibration data to the host computer; accessing, by the user, the processed vibration data from the host computer; 4) determining, according to the processed vibration data, whether to adjust the speed command; and 5) repeating 3) and 4) if a new speed command is issued by the user, or continuously operating the fan motor at a current speed if no new speed command is received. 9 . The method of claim 8 , wherein in 4), the vibration data refers to an amplitude or a frequency of vibrations detected by the MEMS sensor; the interface microprocessor comprises a read-only memory (ROM) programmed with two thresholds: an amplitude threshold (H0) and a vibration frequency threshold (F0); if the amplitude of the vibrations exceeds the amplitude threshold H0, or if the frequency of the vibrations exceeds the vibration frequency threshold F0, the host computer sends the new speed command to the fan motor; the new speed command gradually decreases or increases the preset speed V until the vibration sensor detects that the amplitude has fallen below H0 or the frequency has dropped below F0. 10 . A fan, comprising: the fan motor; and a fan wheel; wherein: the fan motor is configured to operate and drive the fan wheel to rotate according to the method of claim 9 .