Magnetic levitation floating globe LED

How does the electromagnetic field of the Magnetic levitation floating globe LED generate and control the levitation of the sphere?
The process of the electromagnetic field of the Magnetic levitation floating globe LED generating and controlling the levitation of the sphere can be described in detail as follows:
Electromagnet energization: The base of the Magnetic levitation floating globe LED is usually equipped with an electromagnet. When the electromagnet is energized, the current will flow inside it. According to the principle of Ampere force, the current interacts with the magnetic field to generate a specific magnetic field around the electromagnet. The strength and direction of this magnetic field are crucial to achieve the levitation of the globe.
Magnetic field direction control: By adjusting the direction and size of the current of the electromagnet, we can precisely control the strength and direction of the magnetic field. This process involves precise electronic control and circuit adjustment technology to ensure that the magnetic field can accurately match the magnet inside the globe. When the magnet inside the globe interacts with the magnetic field generated by the electromagnet, an upward force is generated between them, which can counteract the gravity of the globe, thus providing the basis for the levitation of the globe.
Magnetic balance: The magnet inside the globe interacts with the magnetic field generated by the electromagnet to form a stable force field. This force field can generate an upward force that balances the gravity of the globe. By adjusting the current of the electromagnet, we can precisely control the size and direction of this force field to ensure that the globe can be stably suspended in the air.
Position monitoring and feedback control: In order to ensure that the globe can be stably suspended in the air, the Magnetic levitation floating globe LED is also equipped with an advanced sensor system. These sensors can monitor the position and attitude of the globe in real time and transmit this information to the control system. When the globe deviates from the equilibrium position, the sensor will quickly detect this change and pass the information to the control system.
Dynamic adjustment: After receiving the information from the sensor, the control system will immediately make dynamic adjustments. It will accurately adjust the current parameters of the electromagnet according to the degree and direction of the deviation of the globe. This adjustment will change the strength and direction of the magnetic field, thereby generating an appropriate reaction force. This reaction force will pull the globe back to the equilibrium position, ensuring that it can be stably suspended in the air.
The electromagnetic field of the Magnetic levitation floating globe LED is generated by energizing the electromagnet, and the strength and direction of the magnetic field are controlled by adjusting the current parameters. The sphere suspension is achieved through magnetic balance and position monitoring and feedback control. Specifically, when the electromagnet is energized, the magnetic field generated interacts with the magnet inside the globe to achieve magnetic balance; the sensor monitors the position of the globe in real time and dynamically adjusts the current parameters of the electromagnet through the control system to keep the globe stably suspended.