Solid State Devices I
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Solid State Devices I Benchmark Companies Inc PO Box 473768 Aurora CO 80047
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Solid State Devices I. Benchmark Companies Inc PO Box 473768 Aurora CO 80047. Transformers. Objectives: Definition of Transformer Uses of a Transformer Step-Up Step-Down Isolator. Back. Transformers. Back. Transformers. Symbol. Primary. :. Secondary. N P. :. N S. - PowerPoint PPT Presentation
Transcript of Solid State Devices I
Solid State Devices I
Benchmark Companies Inc
PO Box 473768
Aurora CO 80047
Transformers
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Objectives:• Definition of Transformer• Uses of a Transformer
•Step-Up•Step-Down•Isolator
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Primary Secondary
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A transformer typically has two separate windings with a Varying number of turns (N). They are the primary winding And Secondary winding
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The two lines in the center of the two coils indicate this Transformer has a core. (No lines indicates no core)
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There is another type of transformer called a center-tap transformer (photo). It has many uses in today’s electronics
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The benefit of center-tap transformers is the availability of several voltage levels on the secondary winding.
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BackVirtually every electronic devices which uses AC has to convert the power to a usable level.
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A transformer is a typically a pair of coils where ones magnetic field acts on the other
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The flow of current through the primary causes current to flow in the opposite direction in the secondary.
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The direction of current is designated by dots on either end of the windings.
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RECALL current flows through the primary winding, a magnetic field is produced that causes a current to flow through the secondary winding.
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The current flowing through the primary winding causes the current to flow in an opposite direction through the secondary.
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The current direction is indicated by the dots on each coil. Having the dot on the same end tells us the output is in phase.
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Output Voltage is directly proportional to the number ofTurns in the secondary winding (Ns) with respect to the Primary windings(Np). This is called the Turns Ratio.
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The relationship is defined as follows:
Ep/Es = Np/Ns
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Example: Primary winding has 20 turns and the Secondary Winding has 40 turns. The result is the input voltage is Increased by a factor of 2 . 10/V(out) = 20/40 >> 400/20 = V(out) = 20 volts. This is a Step-up Transformer
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Likewise, if a Primary winding has 40 turns and the Secondary Winding has 20 turns. The result is the input voltage is decreased by ½. 10/V(out) = 40/20 >> 200/40 = V(out) = 5 volts. This is a Step-down Transformer
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Sometimes, there is a need to isolate voltage source from the Circuit. This can be done by using a transformer with a 1:1 Turns ratio
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You should understand that there is no net power lossIn an ideal transformer. That means that: Power (primary) = Power (secondary)
Ip*Ep = Is*Es
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Moving Ip and Is to one side of the equal sign and Ep and Es to the other yields:
Ip/Is = Es/Ep (Inversely Proportional)
Current (in) Current (out)
Voltage (in)Voltage (out)
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Transformers and the secondary circuit have a loading Effect on the source voltage that is proportional to the Turns ratio
Np/Ns x R1 = RL
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Example: Primary winding has 20 turns and the Secondary Winding has 40 turns. If R1 = 10KOhms the Load Resistance (RL) = (20/40)x10k = 5kOhms. Note the difference in expected current needed to drive the circuit.
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Summary on TransformersFormulas:
Vin/Vout = Np/Ns
Iin/Iout = Ns/Np
Pin = Pout
Np/Ns x R1 = RL
The Formulas above of are based on the assumption thatThe transformer is ideal and no power loss occurs in the
Transformer.
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Transformers take a waveform and scale the waveform according to the turns ratio of the primary coil with respect to the secondary coil. If the turns ratio is greater than 1 the waveform is increased, if the ratio is less than one, the waveform is decreased.
Sine waveinput
Scaled WaveformTransformer
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