1. Department of Mechanical Engineering 2016-17
Seminar on
“ TRANSFORMER ”
SUBMITTED TO: SUBMITTED BY:-
MR. SAURABH KUMAR SINGH ARJUN RANA
MR. VINOD KUMAR GAUTAM ROLL NO-1473640903
MR. ANKIT KUMAR SRIVASTAV MECHANICAL ENGINEERING
MR. PANKAJ YADAV
RAJKIYA ENGINEERING COLLEGE,
AZAMGARH
2. CONTENTS
• Introduction
• Working principle of transformer
• Types of transformer
• Transformer Efficiency
• Losses of transformers
• Advantages
• Disadvantages
• Applications
3. INTRODUCTION
• A static device, which transfers electrical energy from one circuit to
another circuit, without change of frequency.
• Transformers are used to increase or decrease the alternating
voltages in electric power applications.
• It is produce the E.M.F is –
E.M.F= 4.44fϕMN volt
4. WORKING PRINCIPLE
• A transformer works on the principle of electromagnetic
induction.
• It has two windings known as primary winding and secondary
winding. Applying a varying current to the primary coil results
in the formation of a magnetic flux in the core that is varying
and this imparts a varying magnetic field to the secondary coil
and induces an electromotive force in the secondary coil.
5. TYPES OF TRANSFORMER
• Step-up transformer
• Step-down transformer
• Auto transformer
• Instrument transformer
6. Step up transformer
• If the number of turn on the secondary winding of a T/F is
greater than the primary winding.
• Than the secondary output voltage will be greater than the
primary input voltage.
7. Step down transformer
• If the number of turn on the primary winding of a T/F is
greater than the secondary winding.
• Than the secondary output voltage will be lower than the
primary input voltage.
8. Autotransformer
• An autotransformer has one winding that is tapped at some
point along the winding.
• Voltage is applied across a portion of the winding, and a
higher (or lower) voltage is produced across another portion of
the same winding.
9. Instrument transformer
Current transformer
• A current transformer is step-up transformer.
• It is a series connected measurement device designed to
provide a current in its secondary coil proportional to the
current flowing in its primary.
Voltage transformer
• A voltage transformer is a step-down transformer used along
with a low range voltmeter for measuring a high voltage.
• The primary winding is connected across the high voltage
supply and the secondary winding to the voltmeter.
10. Transformer Efficiency
•Transformer efficiency is defined as the ratio of output to
input power.
%100
in
out
P
P
%100
lossout
out
PP
P
Types of losses incurred in a transformer:
Copper I2R losses
Hysteresis losses
Eddy current losses
Therefore, for a transformer, efficiency may be calculated using the following:
%100
cos
cos
x
IVPP
IV
SScoreCu
SS
11. Losses of transformers
• Core losses
• Hysteresis losses
• Eddy current losses
• Copper losses
Hysteresis losses
• During magnetization and demagnetization ,
due to hysteresis effect, some energy
losses in the core called hysteresis loss.
Wh=Bmax
1.6 fv watt.
12. Eddy current losses
• The leakage magnetic flux generates
the E.M.F in the core produces current
is called of eddy current loss.
We=Bmax
2.t2 f 2 v
Copper losses
• These losses are due to the ohmic resistance of the transformer
windings.
13. Advantages of transformers
• Transformers are provide to required voltage.
• it is operate to the high voltage and low voltage.
• It can be used to prevent DC from passing from one circuit
to the other.
15. Applications
• Transformer increase and decrease the voltage without
changing the frequency.
• Its use in transmission and distribution of electrical power.
• Its use in the charger, television.
• It is use to the measuring the high voltage and current.