What are the main components of a transformer?

Transformers are composed of an iron core and two coils: a primary coil connected to an AC input and a secondary coil connected to an output circuit with a load resistance.

How do step-up and step-down transformers differ?

In a step-up transformer, the secondary coil has more turns than the primary, increasing voltage. In a step-down transformer, the secondary coil has fewer turns, decreasing voltage.

Why don't the primary and secondary coils form a physical electrical connection?

The coils are well insulated from each other to provide unique electricity altering properties without forming a direct electrical connection.

What happens in the core of a transformer?

The changing current driven by an AC source induces a magnetic field in the core which, through the secondary coil, is converted back into current flow, producing a voltage for the load.

How do you calculate the voltage in a step-down transformer?

Use the ratio of turns in the secondary coil to the primary coil, then multiply by the primary voltage to find the secondary voltage.

Step-up & Step-down Transformer

00:02:28

https://www.youtube.com/watch?v=w9ugMmrCTg0

Ringkasan

TLDRThe video explains how transformers work and their components. Transformers consist of an iron core wrapped in primary and secondary coils, which are insulated from each other to avoid direct electrical connection. This feature allows transformers to alter electricity by either stepping up or stepping down voltage. In a step-down transformer, the primary coil has more turns than the secondary coil, resulting in a decreased voltage in the secondary circuit. This relationship can be calculated using a ratio formula based on the number of coil turns. In contrast, step-up transformers have more turns in the secondary coil than in the primary coil.

Takeaways

🔌 Transformers alter voltage between circuits.
⚙️ Primary and secondary coils are insulated.
🔄 Alternating current induces a magnetic field.
🔋 Step-up transformers increase voltage.
⏬ Step-down transformers decrease voltage.
📉 Voltage ratio can be calculated using coil turns.
🔗 No physical electrical connection between coils.
🌀 Magnetic flux is involved in current conversion.

Garis waktu

00:00:00 - 00:02:28
Transformers consist of an iron core wrapped in coils, with the primary coil connected to an AC input voltage and the secondary coil to an output circuit with a load. There's no physical electrical connection between coils, allowing transformers to modify electricity. They can either increase (step up) or decrease (step down) voltage. In a step down transformer, the primary coil has more turns than the secondary; the reverse is true for step up transformers. An alternating voltage source induces a magnetic field in the transformer core, allowing the secondary coil to convert this into current flow and voltage. For step down transformers, with fewer turns in the secondary coil, the voltage decreases proportionally to the coil turn ratio. An example given uses a primary coil with 20 turns and a secondary with 10, resulting in a step down voltage of 60 volts from an initial 120 volts, using basic ratio calculations.

Peta Pikiran

Pertanyaan yang Sering Diajukan

What are the main components of a transformer?
Transformers are composed of an iron core and two coils: a primary coil connected to an AC input and a secondary coil connected to an output circuit with a load resistance.
How do step-up and step-down transformers differ?
In a step-up transformer, the secondary coil has more turns than the primary, increasing voltage. In a step-down transformer, the secondary coil has fewer turns, decreasing voltage.
Why don't the primary and secondary coils form a physical electrical connection?
The coils are well insulated from each other to provide unique electricity altering properties without forming a direct electrical connection.
What happens in the core of a transformer?
The changing current driven by an AC source induces a magnetic field in the core which, through the secondary coil, is converted back into current flow, producing a voltage for the load.
How do you calculate the voltage in a step-down transformer?
Use the ratio of turns in the secondary coil to the primary coil, then multiply by the primary voltage to find the secondary voltage.

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Gulir Otomatis:

00:00:01
Transformers are composed of an iron
00:00:03
core ring wrapped in
00:00:06
coils one coil is connected to an AC
00:00:09
input voltage and is called the primary
00:00:13
coil the other coil is connected to an
00:00:16
output circuit with a load resistance
00:00:18
and is called the secondary
00:00:21
coil the two coils are well insulated
00:00:25
from each other and do not form a
00:00:27
physical electrical connection this
00:00:30
gives a Transformer its unique
00:00:32
electricity altering properties
00:00:35
Transformers can either step up or step
00:00:38
down a voltage in a Step Down
00:00:40
Transformer the number of turns in the
00:00:43
primary coil is greater than the number
00:00:45
of turns in the secondary
00:00:48
coil in a Step up Transformer the number
00:00:51
of turns in the secondary coil is
00:00:54
greater than the number of turns in the
00:00:56
primary
00:00:58
coil
00:01:00
the constantly changing current driven
00:01:03
by an alternating voltage source induces
00:01:05
a changing magnetic field in the core of
00:01:08
the
00:01:10
Transformer the magnetic field created
00:01:13
by the alternating current in the
00:01:15
primary coil generates the flux in the
00:01:18
Transformer core the secondary coil
00:01:21
converts the flux back into current flow
00:01:24
and produces a voltage at the load or
00:01:26
resistance in the secondary circuit
00:01:31
if there are fewer coil turns on the
00:01:33
secondary than on the primary this is
00:01:36
called a Step Down Transformer the
00:01:39
resulting voltage in the secondary
00:01:41
circuit will be less than the
00:01:44
primary in this example we have 20 turns
00:01:48
on the primary coil and 10 turns on the
00:01:51
secondary coil to determine the decrease
00:01:53
in voltage occurring in this Step Down
00:01:56
Transformer we can use a simple ratio
00:01:59
Formula
00:02:00
this formula simply states that the
00:02:03
secondary voltage to primary voltage
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ratio is the same as the secondary coil
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to primary coil turn
00:02:11
ratio rearranging the formula and then
00:02:14
dividing 10 turns by 20 turns we get 0.5
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multiplied by 120 V this results in a
00:02:22
calculated step down voltage of 60
00:02:26
volts