Poly-phase induction motors, commonly known as squirrel cage motors, are widely used in various industrial and commercial applications due to their simplicity, reliability, and robustness. They are designed to operate on a poly-phase AC power supply, typically with three phases.
Starting a squirrel cage motor involves overcoming the inertia and initial resistance of the motor's rotor, which is designed like a squirrel cage with short-circuited conductive bars. There are several methods used to start squirrel cage motors, each with its own advantages and disadvantages. Some of the common starting methods include:
Direct On-Line (DOL) Starting:
In this method, the motor is directly connected to the power supply without any additional starting equipment. While it's a simple and inexpensive method, it can result in a high starting current, which might cause voltage dips in the power supply and mechanical stress on the motor and connected equipment.
Star-Delta (Y-Δ) Starting:
In star-delta starting, the motor is initially connected in a "star" configuration for starting, which reduces the starting current and torque. After the motor reaches a certain speed, it's switched to a "delta" configuration for full-speed operation. This method reduces the mechanical and electrical stress during starting but requires a more complex switching arrangement.
Auto-transformer Starting:
An auto-transformer starter is used to initially connect the motor to a reduced voltage, which limits the starting current and torque. Once the motor gains speed, the voltage is gradually increased to full voltage. This method is relatively smoother compared to direct-on-line starting and is often used for larger motors.
Soft Starter:
A soft starter is an electronic device that gradually ramps up the voltage supplied to the motor, thereby limiting the starting current and torque. This method provides a smooth and controlled start, reducing mechanical stress on the system.
Variable Frequency Drive (VFD) Starting:
A VFD, also known as an AC drive, is a sophisticated device that allows controlling the motor's speed and torque by varying the frequency and voltage of the power supply. VFDs can provide smooth starting, speed control, and energy efficiency, but they are more complex and expensive.
Rotor Resistance Starting:
By adding external resistance to the rotor circuit during starting, the starting current and torque can be controlled. As the motor gains speed, the resistance is gradually reduced. This method is less common and might involve additional complexity in the motor design.
The choice of the starting method depends on factors such as the motor's size, load characteristics, power supply capacity, and the desired level of control. Smaller motors might use simple starting methods like DOL or star-delta, while larger motors or applications requiring precise control might opt for soft starters or VFDs. Each method balances the need for reduced starting current, mechanical stress, and control complexity.