What is a Reduced Voltage Starter?
Reduced Voltage Starter is a device that starts motors with reduced power supplied at start-up. Reducing the power reduces potentially damaging electrical and mechanical shocks on the system.
As the name implies, starters "start" motors. They can also stop, reverse, accelerate and protect them. Whether it's a small fan, or piece of mining equipment, electric motor are often the driving force behind them. Electric motors consume 60% to 70% of all energy used in the United States.
Reduced Voltage Starters are a combination of a controller and overload protection.
Reduced Voltage Starters place a device called a soft starter, between the motor and the incoming utility line to regulate the amount of current fed to the motor.
Reduced Voltage Starters enable the AC induction motor to speed up in smaller, resulting in less current drawn than with a traditional motor starter. Due to decreased voltage, torque is also reduced resulting in a soft, or easy start. Reduced Voltage Starters are used on all types of AC and DC motors. They are most commonly used with the AC squirrel cage induction motor because of its simplicity, ruggedness and reliability.
There are five main varieties of Reduced Voltage Starters:
Primary Resistor
Auto Transformer
Part Winding
Wye Delta
Solid State
Primary resistor reduced voltage starter diagramDeveloped in the early 1900's, this simple unit is one of the first reduced voltage starters placed into operation. Fig. 4 shows that there is a resistor for each of the three phases of current. Resistors resist the flow of current. When the motor is started, the resistors resist the current flow resulting in a voltage drop. Approximately 70% of the line voltage is sent to the motor terminals at startup. A timer closes a set of contacts after the motor has accelerated to a pre-determined point. This removes the resistors from the circuit and lets full power through to the motor.
Primary resistors starters are known for their smooth starts. They offer two-point acceleration, or one step of resistance. For extra-smooth starting, add additional stages of resistors and contactors.
Autotransformer reduced voltage starterAuto transformer starting is one of the most effective methods of reduced voltage starting. It is preferred over primary resistor starting when the starting current is drawn from the line must be held to a minimum, yet the maximum starting torque per line amp is required. Instead of using resistors, this starter uses taps on transformer windings to control the power input to the motor. Taps are usually set up to provide 80%, 65% and 50% of the line voltage, respectively.
These taps provide built-in flexibility. Activating any one of three taps on the windings allows different amounts of current to the motor. In Fig. 6, the motor is receiving voltage through the second of the three taps. This type of starter can supply more current to the motor than other reduced voltage starters, while keeping voltage low. The transformer steps up the current making it greater than the line current input during startup.
The part winding method requires dividing the motor windings into two, or more, separate sets. These identical winding sets are intended for parallel operation. At startup, power is applied to only one set of windings. As the motor comes up to speed, power is applied to the other winding set for normal running. When windings are energized in this manner, they produce reduced starting current and reduced starting torque. Most dual voltage (230V/460V) motors are compatible with the part winding starter at 230 volts.
Wye Delta starting requires the motor have connection points to each of the three coil windings. These are specially wound with six leads for Delta and Wye connections. Fig. 8 illustrates the winding configurations as they are connected at startup.
It is called the Wye Configuration because it is shaped like the letter "Y". This connection results in line voltage applied to an electrically larger winding, reducing the line current. It provides 33% of the normal starting torque and 58% of the normal starting voltage.
After a pre-determined time, the starter electrically switches the windings over to a Delta Configuration. This configuration resembles the Greek letter "delta". The windings are connected in their normal run configuration with every winding receiving full voltage.
An important consideration with this starter is at the transition point, where the starter switches from Wye to Delta, the motor MUST disconnect and reconnect. This type of Wye Delta starter is known as Open Transition and can have a momentary hitch in operation, allowing a momentary current inrush.
Closed Transition is another type of Wye Delta starter. It uses an extra contactor and set of resistors to keep the motor on-line during the transition. It eliminates the inrush concern and the cost is slightly higher than the open transition version.
The newest reduced voltage starter method is the solid state type. It replaces mechanical components with electrical components. The key is the Silicon Control Rectifier or SCR. During motor acceleration, this device controls motor voltage, current and torque. Fig. 11 shows how the solid state reduced voltage starter controls the current draw and the starting torque. The SCR has the ability to rapidly switch heavy currents. This allows the reduced voltage starter to provide smooth stepless acceleration - the smoothest of any of the reduced voltage starter methods.
Order of Events when a Motor is Started (SOLID STATE):
Reduced Voltage Starters have properties that are more suited to specific applications. To make the proper selection, the following is needed:
There is a wide assortment of Reduced Voltage Starters available including 200-690 VAC input, up to 700 HP at 230V and up to 1600 normal duty amps. Before making your final selection, consult a reduced voltage starter application specialist.