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In actual practice, the three coils form three windings distributed over several slots. These windings may be connected in star or delta and three terminations are brought out. These are conventional three phase windings which are discussed in greater detail in the chapters on alternators. Such windings are present n the stator as well as rotor. A photograph of 

Construction - Induction Machines | Electrical Machines - Electrical Engineering (EE)

Figure 9: stator of an induction machine the stator of an induction machine is shown in fig. 9. A close up of the windings is shown in fig. 10.the several turns that makeup a coil are seen in this picture. The three terminations are connected to rings on which three brushes make a sliding contact. As the rotor rotates the brushes slip over the rings and provide means of connecting stationary external circuit elements to the rotating windings. A schematic of these arrangements is shown in fig. 13. A photograph of a wound rotor for an induction machine is shown in fig. 11. Fig. 12 shows a close up of the slip ring portion. Brushes are not shown in this picture.

Induction machines, which have these kinds of windings and terminals that are brought out, are called slip ring machines. The reader may note that in order that torque is produced current must flow in the rotor. To achieve that, the stationary brush terminals must either be shorted, or connected to a circuit allowing current flow. Sometimes a star connected resistor bank is connected so that the developed starting torque is higher. There are also other forms of power electronic circuitry that may be connected to the rotor terminals to achieve various functions.

The popularity of the induction machine however, stems from another variety of rotor

Construction - Induction Machines | Electrical Machines - Electrical Engineering (EE)

Figure 10: Coils in the stator

Construction - Induction Machines | Electrical Machines - Electrical Engineering (EE)

Figure 11: A wound rotor with slip rings

Construction - Induction Machines | Electrical Machines - Electrical Engineering (EE)

Figure 12: slip rings

Construction - Induction Machines | Electrical Machines - Electrical Engineering (EE)

Figure 13: Slip rings and brushes in induction machines — a schematic that is used. This rotor has slots into which copper or aluminium bars are inserted. These bars are then shorted by rings that are brazed on to each of the rotor ends. Figure 14 shows a simple schematic.

Construction - Induction Machines | Electrical Machines - Electrical Engineering (EE)

Figure 14: Squirrel cage rotor — a schematic

Such a rotor is called squirrel cage rotor. This rotor behaves like a short-circuited winding and hence the machine is able to perform electromechanical energy conversion. This type of rotor is easy to manufacture, has no sliding contacts and is very robust. It is this feature that makes induction machine suitable for use even in hazardous environments and reliable operation is achieved. The disadvantage of this type of rotor is that the motor behavior cannot be altered by connecting anything to the rotor — there are no rotor terminals.

Fig. 15 shows a photograph of a squirrel cage rotor. The rotor also has a fan attached to it. This is for cooling purposes. The bars ( white lines on the surface) are embedded in the rotor iron which forms the magnetic circuit. The white lines correspond to the visible portion of the rotor bar.

Sometimes two rotor bars are used per slot to achieve some degree of variability in the starting and running performances. It is to make use of the fact that while high rotor

Construction - Induction Machines | Electrical Machines - Electrical Engineering (EE)

Figure 15: squirrel cage rotor

resistance is desirable from the point of view of starting torque, low rotor resistance is desirable from efficiency considerations while the machine is running. Such rotors are called double cage rotors or deep-bar rotors.

To summarize the salient features discussed so far,

1. The stator of the 3 - phase induction machine consists of normal distributed AC windings.

2. Balanced three phase voltages impressed on the stator, cause balanced three phase currents to flow in the stator.

3. These stator currents cause a rotating flux pattern (the pattern is a flux distribution which is sinusoidal with respect to the space angle) in the air gap.

4. The rotating flux pattern causes three phase induced e.m.f.s in rotor windings (again normal ac windings). These windings, if shorted, carry three phase-balanced currents.
Torque is produced as a result of interaction of the currents and the air gap flux.

5. The rotor may also take the form of a squirrel cage arrangement, which behaves in a manner similar to the short-circuited three phase windings.

The document Construction - Induction Machines | Electrical Machines - Electrical Engineering (EE) is a part of the Electrical Engineering (EE) Course Electrical Machines.
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FAQs on Construction - Induction Machines - Electrical Machines - Electrical Engineering (EE)

1. What is an induction machine in electrical engineering?
Ans. An induction machine, also known as an induction motor, is an electrical machine that converts electrical energy into mechanical energy. It works on the principle of electromagnetic induction, where a rotating magnetic field is created by the stator winding, inducing currents in the rotor and producing torque.
2. How does an induction machine work?
Ans. An induction machine works by the principle of electromagnetic induction. When an alternating current is supplied to the stator winding, it creates a rotating magnetic field. This rotating magnetic field induces currents in the rotor windings, which in turn produces a magnetic field. The interaction between the rotating magnetic field and the rotor's magnetic field produces torque, causing the rotor to rotate.
3. What are the main components of an induction machine?
Ans. The main components of an induction machine include the stator, rotor, and the air gap between them. The stator consists of stator windings, which are connected to the power supply and create the rotating magnetic field. The rotor, on the other hand, consists of rotor windings or conductive bars, which interact with the rotating magnetic field to produce torque. The air gap provides the necessary space for the magnetic field interaction.
4. What are the advantages of induction machines over other types of electrical machines?
Ans. Induction machines have several advantages over other types of electrical machines. These include: - Simple and robust construction, making them reliable and suitable for various applications. - High efficiency, especially at full load, which leads to energy savings. - Self-starting capability, eliminating the need for external starting devices. - Low maintenance requirements, as they have no brushes or commutators. - Wide range of power ratings, making them suitable for both small and large-scale applications.
5. How are induction machines used in the construction industry?
Ans. Induction machines find various applications in the construction industry. Some common uses include: - Electric motors for operating heavy machinery and equipment, such as cranes, pumps, and conveyors. - HVAC systems for heating, ventilation, and air conditioning in buildings. - Powering construction vehicles and equipment, such as bulldozers, excavators, and forklifts. - Generators for providing backup power during construction projects or in remote areas.
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