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ⅠIntroduction

A direct current (DC) motor is a type of rotary electrical motor that converts direct current electrical energy into mechanical energy. The most common types are based on magnetic field forces. Almost all types of DC motors have an internal mechanism, either electromechanical or electronic, that changes the direction of current in a portion of the motor on a regular basis.

 

 

Catalog

ⅠIntroduction

Ⅱ Dc Motor Related Video

Ⅲ What is a DC Motor?

Ⅳ How DC Motors Work?

Ⅴ Types of DC Motors

5.1 Shunt Wound DC Motor

5.2 Series Wound DC Motor

5.3 Compound Wound DC Motor

Ⅵ Applications of DC Motors

Ⅶ Popular DC Motor Brands

Ⅷ What is the Difference Between an AC and DC Motor?

8.1 AC Motor and It’s Mechanism

8.2 Difference Between AC and DC Motor

Ⅸ FAQ

 

DC Motor, How it works?

 

Dc Motor Video Description:

The working of a DC motor is well explained in this video with the help of animation. Construction details of DC Motor, Shunt & Series motor, concept of back EMF are also explained in this video.

 

Ⅲ What is a DC Motor?

A DC motor is an electric motor that runs on direct current (DC) (unlike an induction motor that operates via an alternating current). A direct current motor converts direct current electrical energy into mechanical energy.

A direct current (DC) motor is a type of rotary electrical motor that converts direct current electrical energy into mechanical energy. The most common types are based on magnetic field forces. Almost all types of DC motors have an internal mechanism, either electromechanical or electronic, that changes the direction of current in a portion of the motor regularly.

 

Figure1:What is a DC Motor?

Ⅳ How DC Motors Work?

Any rotary electrical machine that shifts direct current electrical energy into mechanical energy is referred to as a 'DC motor.' Small motors in toys and appliances to large mechanisms that power vehicles, pull elevators and hoists, and drive steel rolling mills are examples of DC motors. But how do direct current motors work?

A stator and an armature are the two main components of a direct current motor. The stator is the motor's stationary component, while the armature rotates. In a direct current motor, the stator generates a rotating magnetic field that causes the armature to rotate.

A simple DC motor generates an electromagnetic field aligned with the center of the coil by using a stationary set of magnets in the stator and a coil of wire with a current running through it. To concentrate the magnetic field, one or more windings of insulated wire are wrapped around the core of the motor.

Insulated wire windings are connected to a commutator (a rotary electrical switch), which applies an electrical current to the windings. The commutator enables each armature coil to be energized in turn, resulting in a consistent rotating force (known as torque).

When the coils are on and off in sequence, a rotating magnetic field is created that interacts with the varying fields of the stator's stationary magnets to produce torque, which causes it to rotate. These key operating principles of direct current motors enable them to convert electrical energy from direct current into mechanical energy via rotating movement, which can then be used for object propulsion.

 

Figure2:working principle

Ⅴ Types of DC Motors

Direct motors are classified based on how the field winding is connected to the armature.

There are 3 main types of DC Motors:

 

5.1 Shunt Wound DC Motor

Figure3:Shunt Wound DC Motor

 

A DC shunt motor (also known as a shunt wound DC motor) is a type of self-excited DC motor in which the field windings are shunted to or paralleled with the motor's armature winding. The armature and field windings are exposed to the same supply voltage because they are connected in parallel. Though, as shown in the figure below, there are separate branches for the flow of armature current and field current.

Figure4:DC shunt motor

 

 

 

5.2 Series Wound DC Motor

Figure5:Series Wound DC Motor

 

A series wound DC motor like a shunt wound DC motor or a compound wound DC motor, is a type of self-excited DC motor that gets its name from the fact that the field winding is connected internally in series to the armature winding. As a result, unlike a shunt motor, the field winding is exposed to the entire armature current.

 

 

Figure6:wound DC motor circuit

 

5.3 Compound Wound DC Motor

 

A compound wound DC motor (also known as a DC compound motor) is a type of self-excited motor that is composed of both series and shunt field coils connected to the armature winding, as shown in the figure below.

 

 

Figure7:DC compound motor

 

Both field coils provide the required amount of magnetic flux, which connects with the armature coil and produces the torque required to allow rotation at the desired speed. As we can see, a compound wound DC motor is created by combining a shunt wound DC motor and a series wound DC motor to achieve the best of both types. A shunt-wound DC motor, like a shunt-wound AC motor, has an extremely efficient speed regulation characteristic, whereas a DC series motor has a high starting torque.

As a result, the compound wound DC motor strikes a balance between these two characteristics, offering a good combination of proper speed regulation and high starting torque.

Though its starting torque is lower than that of a DC motor, and its speed regulation is not as good as that of a shunt DC motor. The overall characteristics of a DC shunt motor fall somewhere between these two extremes. Studying our electrical MCQs will help you learn more about motors.

Types of Compound Wound DC Motor:

  • Long Shunt Compound Wound DC Motor
  • Short Shunt Compound Wound DC Motor
  • Cumulative Compounding of DC Motor

 

 

Ⅵ Applications of DC Motors

Because of the various types of DC motors available, DC motors have a wide range of applications. The preceding section discussed some of the various applications and circumstances in which DC motors are used, as well as the advantages of the various types of motors.

While each type has advantages, a DC motor can be used in a variety of ways. Small DC motors are used in tools, toys, and various household appliances at home. Conveyors and turntables are examples of DC motor applications in retail, while large DC motor applications in the industry include braking and reversing.

Here are a few more specific uses for DC motors:

  • DC motors for fans
  • DC motors for pumps
  • DC motors for toys
  • DC motors for electric cars
  • DC motors for robots
  • DC motors for bikes

 

Please search the below online to view DC motors produced by some of our most popular brands.

 

                                                                                 

RS PRO                                                                               Crouzet                                                                                   Maxon

 

 

Ⅷ What is the Difference Between an AC and DC Motor?

Electric motors are broadly classified into two types. They are the alternating current (AC) motor and the direct current (DC) motor. The AC motor is powered by alternating current, whereas the DC motor is powered by direct current.

Figure8:Difference Between an AC and DC Motor

 

8.1 AC Motor and It’s Mechanism

A hoop of electromagnets is organized across the outside of an AC motor (making up the stator). Which can be configured to generate a rotating magnetic field. An axle made of solid metal, a wire loop, a coil, a squirrel cage made of metal bars, and interconnections are all found inside the stator. Other freely rotating metal parts that can conduct electricity are also present.

The rotor, which is suspended within the magnetic field, acts as an electrical conductor. The magnetic field is constantly changing as a result of its rotation. The magnetic field generates (or induces) an electric current inside the rotor, according to Faraday's law of electromagnetism. If the conductor is a ring or a wire, the current flows in a loop around it. Instead, eddy currents swirl around a solid piece of metal if the conductor is simply a solid piece of metal.

In any case, the induced current generates its magnetic field and, according to another electromagnetism law (Lenz's law), attempts to stop whatever is causing the rotating magnetic field by rotating as well. AC motors provide a relatively efficient way of generating mechanical energy from a simple electrical input signal.

 

 

Figure9:AC motor and DC notor

 

8.2 Difference Between AC and DC Motor

AC Motor

DC Motor

AC motors do not require current conversion. Current is converted from alternative (AC) to direct (DC) output in DC motors.
AC motors are available in two-phase, single-phase, and three-phase configurations. DC motors are all single phase.
Armatures in alternating current motors do not rotate in tandem with the continuous rotation of magnetic fields. The armature rotates while the magnetic field rotates in DC motors.
Repairing is not expensive. Repairs are quite expensive.
Have a longer life expectancy. Have a shorter life expectancy.
To begin operation, AC motors require effective starting equipment such as a capacitor. DC motors do not require any external assistance to begin operation.

There are three input terminals.
You should have two input terminals.
When the load changes, AC motors are slow to respond. DC motors respond quickly to changes in load.
AC motors are suitable for applications requiring high speed and variable torque. DC motors are appropriate for applications requiring high torque and variable speed.
The speed of an alternating current motor is simply controlled by varying the frequency of the current. The speed of a direct current motor is controlled by varying the current of the armature winding.
Implemented for large-scale industrial use. Intended for small-scale domestic use.

The distinction between AC and DC motors is significant not only from a technical standpoint. It is also required for practical demonstrations. Whether you're an engineer or a business enthusiast, you can't choose the right one for your needs unless you understand the fundamental technical differences.

 

Ⅸ FAQ

1. How can you tell if a motor is AC or DC?

Look for the stator core construction and rotor. If there is no commutator, then it is a AC motor. If there is a commutator and brushes, it may be either a DC motor or an AC commutator motor (Universal motor).

2. Which motor is powerful AC or DC?

AC motors are generally considered to be more powerful than DC motors because they can generate higher torque by using a more powerful current. However, DC motors are typically more efficient and make better use of their input energy.

3. Why starter is used in DC motor?

Starters are used to protect DC motors from damage that can be caused by very high current and torque during startup. They do this by providing external resistance to the motor, which is connected in series to the motor's armature winding and restricts the current to an acceptable level.

4. What is the voltage of a DC motor?

Typical DC motors may operate on as few as 1.5 Volts or up to 100 Volts or more. Roboticists often use motors that operate on 6, 12, or 24 volts because most robots are battery powered, and batteries are typically available with these values. Operating Current.

5. Is a brushless motor AC or DC?

There are two types of commonly used DC motors: Brushed motors, and brushless motors (or BLDC motors). As their names imply, DC brushed motors have brushes, which are used to commutate the motor to cause it to spin. Brushless motors replace the mechanical commutation function with electronic control.

6.Does Tesla use DC or AC motors?

Tesla, for example, uses alternating current (AC) induction motors in the Model S but uses permanent-magnet direct current (DC) motors in its Model 3. There are upsides to both types of motor, but generally, induction motors are somewhat less efficient than permanent-magnet motors at full load.

7. Are Tesla motors brushless?

Today, all the hybrids are powered by DC brushless drives, with no exceptions. The only notable uses of induction drives have been the General Motors EV-1; the AC Propulsion vehicles, including the tzero; and the Tesla Roadster. Both DC brushless and induction drives use motors having similar stators.

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