Python Notes for mca i year students osmania university.docx
AUTOMATIC THREE PHASE SUPPLY CHANGOVER
1. AUTOMATIC THREE PHASE SUPPLY
CHANGEROVER
SUBMITTED BY:
Manish Kumar (1473720019)
Rohit Jaiswal (1473720029)
Setu Parmar (1473720034)
Shubham Rao (1473720038)
RAJKIYA ENGINEERING COLLEGE,
AMBEDKARNAGAR
GUIDED BY:
Mr. Mayank Kr. Gautam
Department Of Electrical Engineering
2. CONTENTS
• Introduction
• Types Of Electric Power Supply
• Block diagram
• Components Used
• Applications
• Advantages
• Future Scope
• Description Of Project
• References
3. INTRODUCTION
• Automatic feature - need of the day.
• In case of the electrical appliance control using automation
ensures more safety.
• Automation becomes necessary as the rate of power outage in
developing countries becomes predominantly high.
• If processes of change-over are manual, human error may occur;
leading to machine damage, electrocution, increased down time
consequently introducing massive losses.
• However, if the starting of the generator is automatic, switching
battery voltage to ignition coil of the generator while the main
power relay switches the load, the down time would be reduced.
4. TYPES OF ELECTRIC POWER SUPPLY
• All the possible types of electric supplies are listed below:
1. Single-phase two wire supply
2. Two-phase three wire supply
3. Three-phase four wire supply
4. Backup generator
5. Uninterruptible power source (battery flywheel backup(
6. Solar power
5. • In our project, we can connect three types of sources
simultaneously and we can also set priorities to those sources.
• If the first priority source is down then it will automatically
switch to the source which is at priority number 2 without any
delay.
• If both the sources which are at priority numbers 1 & 2 are
missing, then it will switch to third source without any delay.
In this way, we can assure an uninterrupted power supply.
• We will face black out only if all the three sources are missing.
DESCRIPTION OF PROJECT
7. COMPONENTS
These are the following components that are used
• Power Supply
• Three voltage Comparators (LM741 AH1883)
• 3-input-AND gate (4073)
• Two BC 108 transistors
• Two12V ; 30mA relays
• Biasing resistors
• 240/12V; 500mA transformer
• Bridge rectifier (1N4002)
• Two voltage regulators (LM7812 and LM7805)
• Variac
• Multimeter & some other components.
8. TRANSFORMER
• Transformer is a static electrical device that transfers by
inductive coupling between its winding circuit.
• Here in this model we are using step down transformer.
9. BRIDGE RECTIFIER
• A diode bridge is an arrangement of four diodes in a bridge
circuit configuration that provides the same polarity of output
for either polarity of input.
• When used in its most common application, for conversion of
an alternating current(ac) input into a direct current(dc)
output,it is known as bridge rectifier.
10. RELAY
• Relays are electromechanical switches.
• Relays have two circuit namely load circuit and control circuit.
• The control circuit has a small coil whereas the load circuit has
a switch.
• The coil controls the operation of switch.
11. VOLTAGE REGULATOR
• A voltage regulator is designed to automatically maintain a
constant voltage level.
• A voltage regulator may use a simple feed-forward design
or may include negative feedback. It may use an
electromechanical mechanism, or electronic components.
78 Series regulator
12. IC 7806
• It is a voltage regulator meant to give regulated 6V supply when
provided with suitable input.
• The 78xx (sometimes LM78xx) is a family of self-contained
fixed linear voltage regulator integrated circuit. The 78xx family
is commonly used in electronic circuits requiring a regulated
power supply due to their ease-of-use and low cost.
• For ICs within the family, the xx is replaced with two digits,
indicating the output voltage (for example, the 7805 has a 5 volt
output, while the 7812 produces 12 volts).
13. • A miniature snap-action switch, also trademarked and frequently
known as a micro switch.
• It is an electric switch that is actuated by very little physical
force, through the use of a tipping down mechanism, sometimes
called an "over-center" mechanism.
• Switching happens reliably at specific and repeatable positions
of the actuator, which is not necessarily true of other
mechanisms.
MICRO SWITCHES
14. Change-Over/Electrical Relay Isolation Stage
• Physical size and pin arrangement: A relay is chose based on the
existing PCB to ensure that its dimensions and pin arrangement
are suitable for the designed project.
• Coil Voltage: The relay coil voltage rating and resistance were
taken into consideration.
• Coil Resistance: The circuit must be able to supply the current
required by the relay coil. From Ohm’s law,
𝑅𝑒𝑙𝑎𝑦 𝑐𝑜𝑖𝑙 𝑐𝑢𝑟𝑟𝑒𝑛𝑡 =
𝑆𝑢𝑝𝑝𝑙𝑦 𝑉𝑜𝑙𝑡𝑎𝑔𝑒
𝐶𝑜𝑖𝑙 𝑅𝑒𝑠𝑖𝑠𝑡𝑎𝑛𝑐𝑒
15. After the construction of the automatic voltage change-over
system, a variac was used to carry out the measurement and the
results.
CHANGEOVER SWITCH
16. APPLICATIONS
This project is very useful. It removes the need of human effort to
change the phase whenever the power supply went out of phase.
1. Hospital
2. Multiple building.
3. Lifts
4. Domestic supply
5. School and college continuity power supply
6. Call centres
7. Hotels
8. Cinema
9. Big electric farness
10. Computer based seismography
17. ADVANTAGES
1. Continuity power supply.
2. Cost is very less.
3. Less voltage drop compare to inverter.
4. Energy efficient.
5. Low voltage protection.
6. Over load protection.
7. Less maintenance compare to inverter.
8. Less space.
9. Give good efficiency of motor
10. Give suitable load
18. FUTURE SCOPE
The project have huge future scope because every home is
facing the problem of current gone in the phase and need to
put wire from one phase to the next phase. Sometimes
electric shock also takes place because of this problem.
Everyone wants this phase changing process automatic. So
we can say that the project have huge future scope.
19. [1]. American Journal of Engineering Research (AJER) Paper.
[2]. G. Mazur and G. Rocks, Electrical Motor Controls
(American Technical Publisher, New York, NY USA,2001).
[3]. P. Horowitz and H. Winfield, The Art of Electronics (2nd
edition. Cambridge Univ. Press, Cambridge, UK, 1989).
[4]. P. Horowitz and H. Winfield, The Art of Electronics (2nd
edition. Cambridge Univ. Press, Cambridge, UK, 1989).
[5]. Theraja, B. L and Theraja, A.K, “Electrical Technology
(5thedition, S Chand New Delhi, India, 2005).
REFERENCES