Can ANY DC brushless motor be used as a generator?

Question

Question is pretty much in the title. I know it's definitely possible to use certain DC brushless motor as a generator, but is it always the case?

Thanks a lot in advance.

Answer 1

Brushless DC motors are usually motors that have permanent magnet rotors. It would be extremely unusual to find any other type of motor described as a brushless DC motor. All such motors can be used as generators, but some designs are easier to use as generators than others. A major example of a difficult motor is a BLDC fan motor found in a computer. Those have electronic circuitry built into them that must be removed or disconnected in order to use the motor as a generator. You might find some other design described as a BLDC motor that would be difficult to use as a generator, but most of them only require the shaft to be turned to produce AC at the terminals and a rectifier added if you want DC.

Answer 2

Permanent magnet BLDC motors can be used as generators.

There is a type of brushless motor called a Reluctance Motor, which has soft-iron core, so will generate nominally zero voltage when spun.

Answer 3

Two examples where it is desirable for a motor to function as a generator are:

1. Regenerative braking in a vehicle so at least some of the energy is recovered rather than being totally wasted in a mechanical friction brake.

2. Using the generator function to hold the motor in a stopped condition by switching a resistor or a short across its terminals.

Answer 4

A Brush-less Direct Current Motor, also known as Permanent Magnet BLDC motor can be used as a generator. It is a common application in case of regenerative braking. In case of regenerative braking, the accelerator is not being used, but the rotor of the motor which is connected to the wheel via the shaft continues rotating. This causes the motor to act as a generator and feed power back into the batteries of the electric vehicle. When the brakes are applied, a sudden pulse of electrical energy is sent into the batteries. It is also possible to manually rotate the wheel of an electric vehicle and charge the battery. However, this is not practical and achievable only in case of very low performance E-Bikes.

Besides, permanent magnet AC motors used in microwave ovens can also generate electricity when turned manually. However, one must be careful as these motors can give high voltages at a very low turning torque and pose an electrocution risk.

The use of motors as a generator has these following points:-

1. Only permanent magnet motors will generate electricity when rotated and this will not work with the Induction type motors which will have no permanent magnets.

2. Motors will supply a mix of AC and DC and not pure current. Thus use a full bridge rectifier that will output DC and fix a capacitor to ensure a purer amount of DC. Use a DC to DC converter to regulate the output.

3. Ensure the KV rating of the motor. The KV rating of the motor is the rating, which when multiplied to the input voltage value will give the value of the torque in RPM. E.g. If a motor has a value of 5KV is given a 12 Volt supply, then 5KV = 5000 V and 5000*12 = 60000 RPM. Thus if you manually rotate the motor's load shaft at 60000 RPM then you will get an output voltage of 12 Volts. The best thing would be to use a motor with a low torque rating so that you can get a usable voltage at very low spinning speed. The best example for this is the microwave oven motor which can give 110-220 Volts while being spun at just 2-4 RPM. However, this is a high voltage that poses an electrocution risk, so be careful when you use this motor.