Electric Motor Torque Calculator

Formula

The formula to calculate the Electric Motor Torque is:

\[ t = \frac{I \cdot V \cdot E / 100 \cdot 60}{\text{rpm} \cdot 2 \pi} \]

Where:

\( t \) is the torque.
\( I \) is the current (amps).
\( V \) is the voltage (volts).
\( E \) is the efficiency of the motor (%).
\( \text{rpm} \) is the rotations per minute.

Example

Let's say an electric motor has a current of 10 amps, a voltage of 220 volts, an efficiency of 90%, and runs at 1500 RPM. The torque would be calculated as follows:

\[ t = \frac{10 \cdot 220 \cdot 90 / 100 \cdot 60}{1500 \cdot 2 \pi} \approx 12.6 \text{ Nm} \]

So, the electric motor torque is approximately 12.6 Nm.

What is Electric Motor Torque?

Electric motor torque is the total torque generated by an electric motor given a current, voltage, efficiency, and RPM. It is a measure of the rotational force produced by the motor, which is crucial for understanding the motor's performance and suitability for various applications.