ALLPCB
Overview
Star-delta reduced-voltage starting is a common method for induction motors. Because induction motors draw a large starting current, large-capacity motors often use a star-to-delta changeover at startup. This simple reduced-voltage method connects the stator windings in a star configuration during startup and then switches to a delta configuration after acceleration, which reduces the starting current and lessens the impact on the power supply.
Main Components of the Wiring Diagram
- QS: circuit breaker
- KM1: main contactor
- KM2: star contactor
- KM3: delta contactor
- FR: thermal overload relay
- KT: timer relay (energize-delay type)
- SB1: stop button
- SB2: start button
Starting Procedure
- Close the circuit breaker QS and press the start button SB2. KM1 (main contactor) and KM2 (star contactor) are energized and close, connecting the motor in a star configuration for startup.
- After the preset delay of the timer relay KT, for example 10 seconds, the normally closed contact of KT opens. KM2 de-energizes and releases, and KM3 (delta contactor) is energized and closes.
- The motor is then reconfigured to delta connection and runs in delta mode, completing the star-delta start sequence.
Applications
This method effectively reduces starting current and mitigates disturbances to the power grid. It is suitable for large motors where limiting inrush current is important.
Advantages
- Reduced starting current: With the stator connected in star during startup, the starting current is approximately one third of the current when starting directly in delta, reducing stress on the supply network.
- Simple and economical: Compared with other reduced-voltage starting methods, the star-delta method has the simplest structure and lowest cost.
- Improved efficiency under light load: In some cases with light load, operating in star can better match rated torque to load, which may improve efficiency and reduce energy consumption.
Disadvantages
- Low starting torque: Starting torque is proportional to the square of the per-phase voltage. In star connection the per-phase voltage is reduced by 1/√3, so starting torque drops to about one third of the torque in delta connection. This sacrifices torque to reduce starting current.
- Limited applicability: Because of the reduced starting torque, star-delta starting is mainly suitable for no-load or light-load start conditions.
In summary, star-delta reduced-voltage starting is an effective method to limit starting current and reduce supply disturbances, but its limited starting torque restricts its use to no-load or light-load starts.
