Magnetic Starter: Circuit, Working, Advantages & Key Uses
What ismagnetic starter?
A magnetic starter is a switch
which can be operated electrically. They are designed to safely start, stop and
protect electric motors from overloads, short circuits and phase failure.
Magnetic starter has electromagnetic contactor along with overload relays which
ensure automatic and reliable motor control by providing enhanced safety for
equipment and operators. The main function of electric motor is to control
large electric motors. They handle the high inrush current during the startup
by offering built-in motor protection. Magnetic starter is an integrated system
made up of miniature circuit boards, connectors, contactors etc. Magnetic
starter is widely used in HVAC systems, conveyors and in industrial machines.
Magnetic Starter Circuit Diagram
Magnetic starter circuit diagram
includes the components like contactor, overload relay, MCB, push buttons &
motor connections. They are electrically interconnected to control and protect
electric motor.
1.
Power supply which is
usually a three-phase for industrial motors, provides the electrical input.
2.
To provide
short-circuit and overcurrent protection, MCB is placed before the starter.
3.
Electromagnetic switch
contactor is used which connects or disconnects the motor from the power supply.
4.
Overload relay is used
to protect the motor from overheating and current overload conditions.
5.
When start push button
(Normally Open) is pushed, it energizes the contactor coil to start the motor.
6.
When stop push button
(Normally Closed) is pushed, it interrupts the coil current to stop the motor.
7.
Motor load devices like
pump, fan compressor etc is connected to starter.
Function of Starter in Motor
1.
During startup of
motor, starter limits the excessive inrush current drawn by the motor and
prevent damage to windings.
2.
Relays connected in
starter protect the motor from overheating and current conditions.
3.
Starters can control
ON/OFF switching of motors.
4.
Starter maintains the
voltage stability by limiting the high inrush current and protect the other
connected equipment.
5.
Starters can be
operated remotely through push buttons, sensors or automated control systems.
6.
During short circuit,
phase failure or overload, starters disconnect the motor.
Motor Starter Working
Working
principle of motor starter is based on the principle of controlling the flow of
electric current.
The
motor starter is connected to the main power supply through MCB which provides
initial protection against short circuits.
After
we pressed the start button, current flows through the control circuit and
energizes the electromagnetic coil of starter.
The
energized coil pulls the contactor contacts together and allows power to flow
from the supply line to the motor windings. The holding contacts keep the
circuit closed even after releasing the start button.
After
that motor begins to rotate and draws the current which is regulated by the
starter. Depending on the type of starter, the inrush current is either
directly supplied or reduced.
When
motor draws current above its rated capacity, the overload relay trips and
breaks the control circuit and de-energizes the contactor to stop the motor.
The
control circuit is interrupted when we press the stop button and the coil
de-energizes and opens the contactor and disconnects the motor from the supply.
Types of Magnetic Starters
There
are different types of magnetic starter which are categorized on their power
requirements, protection needs and the application.
1. Direct-On-Line
Magnetic Starter
Direct-on-line
is a low cost, simple in design and which is easy to install magnetic starter.
It supplies full line voltage directly to the motor through a contactor. It can
cause high inrush current at startup but highly efficient one and start
quickly. It is used in small to medium motors i.e. up to 5 HP.
2. Reversing Magnetic
Starter
This
type of magnetic starter uses two contactors in such a way that the motor’s
rotation can be reversed. It includes electrical or mechanical interlocks which
prevent both contactors from energizing simultaneously. They are slightly more
complex and has high cost but they provide easy motor direction control. They
are used in conveyor belts, cranes and machinery forward and backward motion is
required.
3. Star Delta Magnetic
Starter
These
magnetic starter starts the motor initially in star connection for reducing
voltage and then switches to delta connection for normal running. Thay can
reduce start current to one-third of direct-on-line start. They require more
space, wiring and control equipment. But they prevent voltage dips by limiting
the inrush current. They are used in large three phase induction motors i.e.
above 5HP.
4. Autotransformer
Magnetic Starter
Autotransformer
magnetic starter provides smoother acceleration with adjustable voltage
tapping. They use an autotransformer to supply reduced voltage to the motor
during starting and then switches to full line voltage. They have high initial
cost compared to other starters but they have better control of starting torque
and reduces mechanical stress. They are used in heavy duty industrial motors
where reduced starting current is essential.
5. Compensator
Magnetic Starter
Compensator
magnetic starter has external resistance in series with the motor during
startup and then gradually reduce it as the motor picks up speed. It limits
starting current by controlling resistance. They are less efficient and rarely
used in modern installations but can provides current limitation and overload
protection. They are used in older systems and specific industrial setups.
Applications of Magnetic Starter
Used
in conveyor systems, presses, lathes, milling machines, and CNC machines.
Extensively
used in water pumps, hydraulic pumps, air compressors, and irrigation systems.
Controls
motors in heating, ventilation, and air conditioning equipment.
Magnetic
starters are critical for lifting equipment where safe motor control is
essential.
Used
in irrigation pumps, threshers, and harvesters.
Applied
in industrial ventilation, cooling systems, and dust collectors.
Used
in large motors for escalators, elevators, central air systems, and water
supply pumps.
Frequently Asked Questions
1. What is the difference
between a contactor and a magnetic starter?
Ans.
A contactor is an electrically operated switch used to control power flow,
while a magnetic starter is a contactor with added overload protection for
starting and safeguarding motors.
2. Can a magnetic
starter be used without overload protection?
Ans.
No, a magnetic starter should not be used without overload protection as it is
essential to safeguard the motor from overheating and damage.
3. Is a magnetic
starter AC or DC?
Ans.
A magnetic starter is primarily designed for AC motors, though its control coil
can be either AC or DC depending on the application.
4. What size of motor
requires a magnetic starter?
Ans.
A magnetic starter is typically required for motors above 5 HP to handle high
starting current and provide overload protection.
5. What is the voltage
rating of a typical magnetic starter?
Ans.
The voltage rating of a typical magnetic starter usually ranges from 220V to
600V AC, depending on the motor application.
If you still have questions about magnetic starters, feel free to contact our team.
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