A flywheel diode, also known as a freewheeling diode or a snubber diode, is an essential component used in motor control circuits, especially in circuits where motors are driven by transistors or other switching devices (e.g., MOSFETs or IGBTs). The purpose of the flywheel diode is to provide a path for the current to flow when the switching element (transistor) turns off, protecting the circuit from voltage spikes and ensuring proper operation of the motor.
When a motor is running, it acts as an inductive load. Inductive loads store energy in the form of a magnetic field, and when the current flowing through them is interrupted (e.g., when the switching element turns off), this stored energy seeks a path to discharge. Without a flywheel diode, the sudden interruption of current can lead to a voltage spike across the inductive load, potentially damaging the switching element and other sensitive components in the circuit.
The flywheel diode is connected in parallel with the motor, with its cathode connected to the positive side of the motor and its anode connected to the negative side. When the switching element turns off, the diode becomes forward-biased and provides a low-resistance path for the inductive current to flow through. This allows the stored energy in the motor's magnetic field to circulate through the diode and the motor, preventing voltage spikes and ensuring a smooth current decay.
In summary, the purpose of a flywheel diode in motor control circuits is to protect the circuit from voltage spikes that occur when inductive loads (such as motors) are switched off, improving the overall reliability and performance of the motor control system.