Hey there guys. Paul here from TheEngineeringMindset.com. In this video, we're going to be looking at Three Phase Electricity. Now, this follows on from our series on electrical engineering,
so if you haven't watched the previous videos on this so far, then please do this first. Links are in the video description below. Coming up, we're going to be looking at how a simple AC generator works. Then we'll look at a single phase power, then two phase power, and then
finally three phase power. As well as how three phase
power is used and why. Also why we don't use four, five, six phase, et cetera power. So, first of all, let's start
with a simple AC generator. We'll start with a single
phase to understand what's happening, and then we'll add in other phases until we get to three phases. Let's take a copper wire
and wrap it into two coils, then place these coils opposite
each other within a stator, and connect the ends together
to create a complete circuit. Now, if we place a magnet
in-between these coils, and we start to rotate the magnet, then the magnetic field will disturb the free electrons within the copper wire, and an electrical current
will begin to flow. We've covered how the free electrons flow in a previous video on
the electricity basics. So, please check that out
if have not so already. Links are in the video description below. As the magnet rotates, so does the polarity
of the magnetic field. As you can see in the illustration,
the North and South pole of the magnet are rotating,
and as they rotate, they pass across the coils,
which force electrons to move. Notice the lines of the magnetic field are in these oval shapes on each side, and they meet through the
central axis of the magnet. You can think of these as
one side being positive, and the other side being negative, and in-between these ovals,
the magnetic field is neutral. You can see that the intensity
of the magnetic field increases on either side until the center, where it is at its maximum strength, and then it decreases again until it gets back to the neutral point. So, as this field
rotates through the coil, the coil will experience
an increasing intensity of the magnetic fields positive half. And during this increase,
the free electrons within the copper coil will be pushed and begin to move faster
and faster in one direction, up until it reaches the maximum
point of the magnetic field. Then, as the magnetic field decreases, the flow of electrons will begin to slow all the way until it
reaches the neutral point when no electrons will flow. Then comes the negative
side of the magnetic field. And as this passes through, it's going to pull the
free electrons backwards. Again, the flow of electrons
will flow faster and faster, up until the maximum point
of the magnetic field. And then it will decrease
back to the neutral point. This is why AC electricity is
called alternating current. Because the current of the electrons alternates in direction,
backwards and forwards, just like the tide of the sea. If we were to plot on a graph,
the speed of the electrons flowing during the rotation, then we would get a sine wave pattern. In this sine wave, you can see that the electrons are
stationary at the start, in the neutral zone, and
then the speed increases through the positive half,
all the way up to the maximum, and then it begins to decrease all the way back down to the neutral when
no electrons will flow again. After this comes the negative half, where the electrons speed
up to the maximum point and then they begin to slow down again until the magnet has completed one full rotation, where
this will then repeat. This complete rotation
is known as a cycle. And the number of cycles per second is called the frequency,
which is measured in hertz. You've probably seen 50 hertz or 60 hertz written on your electrical goods. This means that the generator
of the power station is completing a full rotation either 50 or 60 times per second. So the direction of the current
is therefore also changing, 50 or 60 times per second also. When it is written on electrical products, this is just telling the
user what type of electricity the product should be connected to. Now, coming back to the sine
wave that we saw earlier, this plot of current
also represents power. And if we connect a lamp into the circuit, we'll see that it will
increase in brightness all the way to the peak,
that maximum point, then it decreases in
brightness all the way down until the neutral point, where
the lamp is actually off, because no current is flowing. But, then it will increase
in brightness again as the negative half of
the cycle comes through, and the electrons start
to flow back through in the opposite direction until again it reaches the neutral point. So, at these points in the cycle, the lamp is not producing any light. And at these points in the cycle, the lamp is not very bright,
so it's not of much use. So if you're working in a room and this lighting is flickering like this, it's going to get really annoying. To improve this we can
add another set of coils, or a second phase, into the generator. And we can do this by placing the coils 120 degrees rotation from
the first set of coils, and then connect this up to another lamp. This rotation means that the coils will experience the changing intensity of the magnetic field at
different points in time. The first coil reaches its
maximum current and brightness, and as it decreases the second
coil will begin to increase. This has improved the lighting, but there is still a gap
which will cause a flicker. So we can add in a third set
of coils, or a third phase, and this will mean that one of the lamps are almost always at
its maximum brightness, so the lighting is nearly constant. There are still some small
gaps between the phases and you could keep adding
more and more phases to fill these gaps, but this
will become more and more expensive to keep
running all these cables. So three phase became widely accepted, as its a good compromise between power provided and cost to build. Now in the real world, you're not going to use
three different lamps, in different phases, to create lighting. The lamps in your homes
are all on single phase, but they are flickering, it's
just that they are turning on and off so fast that
the human eye can't see it unless you record the lamp in slow motion. A more practical application is the power electrical induction motors and other commercial and
industrial equipment, as three phase will provide a
lot more power to these items, meaning you can pump water higher, or you can run motors
faster, et cetera, et cetera. Power is generally generated
and distributed in three phase, and transformers are used
to change the voltage. If you want to learn how transformers work,
we've also covered that too. Links are in the video description below. Now one of the interesting
things with three phase power, is that you can connect all three phases and power large industrial equipment, or you can also connect
only one of the phases and also power small electrical goods. This is generally how large
tower blocks and skyscrapers distribute electricity
through the building. The lift motors and air
conditioning pumps, et cetera, will need three phase power, but the computers and office equipment will need single phase power. So they distribute three
phase power up the building and they draw off from this as needed. The same occurs with the distribution of electricity across a city. Houses will be connected
to only a single phase because they do not require much power, whereas a large building will be connected to a three phase supply as they
will require a lot of power. Okay guys, that's it for this video. Thank you very much for watching. I hope this has helped
you and you've enjoyed it. If so, then please don't forget to like, subscribe and share this video. And also follow us on Facebook,
Twitter, Google+, Instagram, as well as our website
TheEngineeringMindset.com.
I would have liked a bit more in depth on the subject. Can anyone recommend a video that goes more in depth than this one?
Why is this in the computer subreddit /r/hardware? All computers run on DC or a single phase AC input PSU.
Oh, i was looking for this a while ago, thanks!
Could you solve the flicker issue on single phase power by installing a rectifier?
Am I shadow banned?