2. CONTENTS
Introduction
Objective
Transformer faults
Hardware required
Description of components used
Block Diagram
Working
Flowchart
Program Execution and Testing
Results
Conclusion
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3. INTRODUCTION
Transformers are the vital part of the transmission and
distribution system.
Since transformers are expensive, the faults should be
rectified before it occurs.
Monitoring the transformers for problems before they occur
can prevent faults that are costly to repair.
Current systems can provide information about the state of
a transformer, but are either offline or very expensive to
implement.
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4. OBJECTIVE
To develop low cost solution for monitoring health condition
of remotely located distribution transformers using GSM
technology to prevent premature failure of distribution
transformers and improving reliability of services to the
customers.
To rescue the transformer from the high fault, before it
occurs. Thus reducing the discrepancy in the transmission
and distribution of power to the consumers.
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5. TRANSFORMER FAULT
ANALYSIS
Over load
The load current in excess of the transformer name-plate rating
decreases the insulation life span.
Over temperature
Due to over voltage and over current, temp. of oil increases which
causes failure of insulation of transformer winding.
Over excitation
It results in excess flux, which causes transformer heating and in-
creases exciting current, noise, and vibration.
Oil level fault
As oil level decreases, the insulation of the transformer gets
affected.
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7. CT AND THERMISTOR
Current Transformer
Current or voltage transformer are essential for protection and
control. The behavior of current and voltage transformer
during and after the occurrence of fault is critical in electrical
protection.
Thermistor
Thermistors are special solid temperature sensors. There are
basically two broad types, NTC-Negative Temperature used
mostly in temperature sensing and PTC-Positive Temperature
Coefficient, used mostly in electric current control.
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8. OIL LEVEL SENSOR
Oil level sensor is a float connected angular
potentiometer. Float is immersed in oil and its
mechanical output is given to angular potentiometer.
When there is any mechanical movement of float,
there is voltage generation corresponding to
mechanical movement of float. That voltage is used
for oil level monitoring.
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9. ANALOG TO DIGITAL
CONVERTER
• The heart of this system is the 8-bit analog-to-digital converter ADC0808
and it offers high speed, high accuracy.
The Block diagram of ADC 0808
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10. MICROCONTROLLER
The AT89S51 is a low-power,
high-performance CMOS 8-bit
μC with 4K bytes.
It has following features:
4K Bytes of In-System
Programmable (ISP) Flash
Memory.
4 V to 5.5V Operating
Range.128 x 8-bit Internal
RAM
32 Programmable I/O Lines
Dual Data PointerThe Pin diagram of AT89S51
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11. GSM
GSM (Global System for Mobile
communication) is a digital mobile
telephony system .
A GSM modem is a wireless
modem which accepts a SIM card,
and operates over a mobile
operator, just like a mobile phone.
It has features like operating from
a Single 5-V Power Supply,
operates up to 120 kb. Two Drivers
and Two Receivers 30-V Input
Levels Low Supply Current 8 mA
Typical..
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13. WORKING
Initially input from mains to load is monitored by CT.
The output of the CT is fed to the ADC0808 for converting analog
voltage to digital voltage.
When power supply is switched on, microcontroller starts program
execution.
The 4 out of 8 input lines of microcontroller are used for selecting
input and after this microcontroller receives 8 bit output from ADC.
Microcontroller gets another i/p from maximum limit setting switches,
which are connected on pin 10,11,12,13. This gives maximum limit of
power which consumer can use during peak time.
This all information is displayed on LCD which is connected on pin 32
to 40.
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14. WORKING (Contd,.)
This i/p is compare with maximum limit setting. Display both those
data on LCD.
If the i/p (i.e) power consumption exceeds the maximum limit then
initially an alert is sent to the configured numbers. This alert is
given by microcontroller through pin 14.
Then microcontroller again check power consumption by
customer, if it decreases then alert stops or else a signal is
triggered on pin 15, which is fed to relay.
Then, the relay switches off the supply to consumer for
predetermined time limit. After this time limit completion again the
supply resumes.
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15. 15
FLOWCHART
Start
If
P > 125 W
Display “Normal
voltage” Display “Over
voltage”
Relay is OFF
Display
“Normal load”
Relay is OFF
Relay and
GSM is ON
Display “Over
Load”
Microcontroller ports
configuration
Read ADC
LCD displays ADC
values
If V > 240
Relay and
GSM is ON
Stop Stop
16. PROGRAM EXECUTION
AND TESTING
The program for microcontroller is in embedded C language.
For AT89S51 controller Atmel programmer is used.
After successful program burning, microcontroller becomes ready for use
For example, Let us consider the four parameter of transformer to be
tested:
180 >Voltage > 260 --Voltage Fault
Temperature > 400C --Temperature fault
Power > 125W --Over load
Oil level < 10 ml ---Oil level fault
If any change occurred in above rating, it is shown in LCD and same data
is sent as SMS and at the same time transformer gets disconnected from
supply with the help of relay.
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18. CONCLUSION
Transformers are among the most generic and expensive
equipment, hence the regular monitoring health condition of
transformer is essential.
Since, it is possible to receive fault information of transformer
through GSM technology.
So one can able to take possible solution before converting fault
in to fatal situation.
This is the technique of increasing the life of a transformer in a
decreased cost of power system operation.
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