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Starting Torque of Induction Motor Calculator

Starting Current & Starting Torque

3 Phase Induction Motor

Motor Rating

KW Voltage
Rated Speed Synchronous Speed
Rated Current Terminal Resistance

Short Circuit Test Data

Current % Volts Amps KW
100
150
200

Result

Slip: - Y1: -
Y2: - Y: -
Starting Current (A): - Starting Current (PU): -
Starting Torque (PU): -

The starting torque of three-phase induction motor calculator is the tool to calculate the starting torte of the machine based on the short circuit test data. It  is the torque produced by the motor when it starts from a standstill position. It’s a crucial characteristic of the motor, especially in applications where the motor needs to overcome inertia or resistance during startup.

Starting Torque of Induction Motor Calculator
Three Phase Induction Motor

When a three-phase induction motor is started, it initially draws a high starting current, which creates a magnetic field in the stator winding. This magnetic field induces currents in the rotor bars, which in turn produce a torque on the rotor. This torque is known as the starting torque.

Several factors influence the starting torque of a three-phase induction motor:

  1. Stator Voltage: The magnitude of the stator voltage applied to the motor affects the starting torque. Higher voltage generally results in higher starting torque.
  2. Stator Resistance: The resistance of the stator winding influences the amount of current flowing during startup, which in turn affects the starting torque. Higher resistance leads to lower starting torque.
  3. Rotor Resistance: The resistance of the rotor circuit also affects the starting torque. Higher resistance in the rotor circuit leads to higher starting torque.
  4. Rotor Reactance: The reactance of the rotor circuit, both resistance and leakage reactance, also plays a role in determining the starting torque.
  5. Design of the Motor: Factors such as the number of poles, the shape of rotor bars, and the type of rotor construction impact the starting torque.
  6. Load Connected: The type and magnitude of the load connected to the motor also affect the starting torque requirement. Higher loads may require higher starting torque.
  7. Starting Method: The method used to start the motor also affects the starting torque. Direct-on-line (DOL) starting, star-delta starting, and soft starters are some common methods, each with its impact on starting torque.

It’s essential for the starting torque to be sufficient to overcome the inertia of the load and any initial resistance to motion. If the starting torque is too low, the motor may not be able to start the load, leading to stalling or failure to start altogether.

Efficient motor design and proper selection of motor parameters ensure that the motor provides adequate starting torque while maintaining efficiency and reliability throughout its operating range. In case of any doubt feel free to write in the comment section of this article Starting Torque of Induction Motor Calculator.

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