Modern electrical motors are available in many different forms, such as single phase motors, three-phase
motors, brake motors, synchronous motors, Asynchronous Motors, special customised motors,
two speed motors, three speed motors, and so on, all with their own performance and characteristics.
For each type of motor there are many
different mounting arrangements, for example foot mounting, flange
mounting or combined foot and flange mounting. The cooling method
can also differ very much, from the simplest motor with free
self-circulation of air to a more complex motor with totally
enclosed air-water cooling with an interchangeable cassette type of
cooler.
To ensure a long lifetime for the motor it is
important to keep it with the correct degree of protection when
under heavy-duty conditions in a servere environment. The two
letters IP (International Protection) state the degree of
protection followed by two digits, the first of which indicates
the degree of protection against contact and penetration of
solid objects, whereas the second states the motor's degree of
protection against water.
The end of the motor is defined in the IEC-standard as follows:
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Squirrel Cage Motors
In this book the focus has been placed on the
squirrel cage motor, the most common type of motor on the
market. It is relatively cheap and the maintenance cost is
normally low. There are many different manufacturers represented on
the market, selling at various prices. Not all motors have the
same performance and quality as for example motors from ABB.
High efficiency enables significant savings
in energy costs during the motor's normal endurance. The low level of
noise is
something else that is of interest today, as
is the ability to withstand severe environments.
There are also other parameters that differ. The design of the rotor affects the starting current and torque
and the variation can be really large between different manufacturers for the same power rating. When
Using a Softstarter
it is good if the motor has a high starting torque at
Direct-on-line (D.O.L) start. When these motors are used together
with a softstarter it is possible to reduce the starting
current further when compared to motors with low starting torque.
The number of poles also affects the technical data. A motor
with two poles often has a lower starting torque than motors with
four or more poles.
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Voltage
Three-phase single speed motors can normally be connected for two different voltage levels. The three stator
windings are connected in star (Y) or delta (D).
The windings can also be connected in series
or parallel, Y or YY for instance. If the rating plate on a
squirrel cage motor indicates voltages for both the star and
delta connection, it is possible to use the motor for both 230 V,
and 400 V as an example.
The winding is delta connected at 230 V and if the main voltage is 400 V, the Y-connection is used.
When changing the main voltage it is important to remember that for the same power rating the rated motor
current will change depending on the voltage level.
The method for connecting the motor to the Terminal Blocks for Star or Delta Connection
is shown in the picture below.
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Wiring Diagram For Y & Delta Connection
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Power Factor
A motor always consumes active power, which it
converts into mechanical action. Reactive power is also
required for the magnetisation of the motor but it doesn't
perform any action. In the diagram below the active and reactive
power is represented by P and Q, which together give the power S.
The ratio between the active power (kW) and the reactive power (kVA) is known as the power factor, and is
often designated as the cos φ. A normal value is between 0.7 and 0.9, when running where the lower value is for small
motors and the higher for large ones.
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Speed
The speed of an AC motor depends on two
things: the number of poles of the stator winding and the main
frequency. At 50 Hz, a motor will run at a speed related to a
constant of 6000 divided by the number of poles and for a 60 Hz
motor the constant is 7200 rpm.
To calculate the speed of a motor, the following formula can be used:
This speed is the synchronous speed and a squirrel-cage or a slip-ring motor can never reach it. At unloaded
condition the speed will be very close to synchronous speed and will then drop when the motor is loaded.
The difference between the synchronous and asynchronous speed also named rated speed is "the slip" and it is
possible to calculate this by using the following formula:
Table for synchronous speed at different number of poles and frequency:
Torque
The starting torque for a motor differs
significantly depending on the size of the motor. A small motor,
e.g. ≤ 30 kW, normally has a value of between 2.5 and 3 times the
rated torque, and for a medium size motor, say up to
250 kW, a typical value is between 2 to 2.5 times the rated
torque. Really big motors have a tendency to have a very low
starting torque, sometimes even lower than the rated torque. It
is not possible to start such a motor fully loaded not even
at D.O.L start.
The rated torque of a motor can be calculated using the following formula:
 
Slip-Ring Motors
In some cases when a D.O.L start is not
permitted due to the high starting current, or when starting with a
star-delta starter will give too low starting torque, a slip-ring
motor is used. The motor is started by changing the rotor
resistance and when speeding up the resistance is gradually
removed until the rated speed is achieved and the motor is working at
the
equivalent rate of a standard squirrel-cage motor.
The advantage of a slip-ring motor is that the
starting current will be lower and it is possible to adjust the
starting torque up to the maximum torque. In general, if a
softstarter is going to be used for this application you also need to
replace the motor.
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