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high tension transformer protection

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Title: high tension transformer protection


1
TRANSFORMER PROTECTION
A PROJECT ON HIGH TENSION TRANSFORMER
PROTECTION DUE TO OVER HEATING
  • PRESENTED BY
  • ONKAR NATH RAI

2
CONTENT
  • Object
  • Aim
  • Platform Used
  • Block Diagram
  • Power Supply Section
  • Micro Controller Section
  • Functional Numeric Display(FND) Section
  • Relay Section
  • Working
  • Advantage
  • Application
  • Result
  • Conclusion

3
OBJECT
  • In this system, If the temp. rises
    upto first temp. limit then firstly FAN will
    automatically operated, if temp. is adequate
    then its ok but if it is not proper then
    WATERPUMP will be operated to maintain the temp.
    and if WATERPUMP unable to maintain to temp.
    then the transformer will go to half load
    condition. Afterwards if temp. becomes low then
    the transformer will resume its working as
    normal. There is a temperature sensor which is
    placed in a transformer whose temperature is to
    be controlled. Transformer during its operation
    gets heat up to prevent it from excess heat we
    developed this system. The temperature sensor
    senses the temperature and supplied the signal to
    controller which decide or analysis the
    temperature and compares it.

4
AIM OF THE PROJECT
  • The main aim of this project is save the
    transformer from burning. This is mainly done by
    the controlling the temperature of transformer .
    By analyzing the temperature, our system controls
    the temperature by running fan on the air to
    remove excess heat.
  • Here we use a temperature sensor which can sense
    the temperature of the transformer ,on sensing
    temperature it will forward the measured
    temperature to the microcontroller which control
    the entire operation of controlling temperature.

5
PLATEFORM USED
  • HARDWARE USED
  • PIC microcontroller 16f72
  • LM7805 Regulator
  • Power Supply
  • Resistors
  • Capacitors
  • Transistors
  • Connectors
  • FND (functional numeric display)
  • Light emitting diode(LED)
  • Temperature sensor
  • RELAY
  • FAN
  • Motor
  •  
  • SOFTWARE USED
  • MPLAB IDE v7.00
  • Source code Editor
  • Assembler 

6
BLOCK DIAGRAM



MICROCONTROLLER SECTION
DISPLAY FND
POWER SUPPLY
CONTROLLING OF TEMPERATURE FEEDING
TEMP. SENSING OF DEVICE
7
POWER SUPPLY SECTION
  • RLMT Connector- It is a connector used to
    connect the step down transformer to the
    bridge rectifier.
  •  Bridge Rectifier- It is a full wave rectifier
    used to convert ac into dc , 9-15v ac made by
    transformer is converted into dc with the help of
    rectifier. 
  • Capacitor- It is an electrolytic capacitor of
    rating 1000M/35V used to remove the ripples.
    Capacitor is the component used to pass the ac
    and block the dc. 
  • Regulator- LM7805 is used to give a fixed 5v
    regulated supply. 
  • Capacitor- It is again an electrolytic capacitor
    10M/65v used for filtering to give pure dc.
  • Capacitor- It is an ceramic capacitor used to
    remove the spikes generated when frequency is
    high(spikes). 
  • So the output of supply section is 5v regulated
    dc.
  •  

8
POWER SUPPLY SECTION
9
MICROCONTROLLER SECTION
  • 5v supply- This 5v supply is required for
    the controller to get start which is provided
    from the power supply section.
  • Crystal Oscillator- A crystal oscillator of 12
    MHz is connected at pin no.19,x1 and pin no.18,x2
    to generate the frequency for the controller. The
    crystal oscillator works on piezoelectric effect.
    The clock generated is used to determine the
    processing speed of the controller. Two
    capacitors are also connected one end with the
    oscillator while the other end is connected with
    the ground. As it is recommended in the book to
    connect two ceramic capacitor of 20 pf40pf to
    stabilize the clock generated.
  • Reset section- It consists of an RC network
    consisting of 10M/35V capacitor and one
    resistance of 1k. This section is used to reset
    the controller .

10
MICROCONTROLLER SECTION
11
MICROCONTROLLER UNIT
  • MICROCONTROLLER (PIC16F72)
  •  
  • The basic criteria for choosing a microcontroller
    suitable for the application are
  • 1) The first and foremost criterion is that it
    must meet the task at hand efficiently and cost
    effectively. In analyzing the needs of a
    microcontroller-based project, it is seen whether
    an 8- bit, 16-bit or 32-bit microcontroller can
    best handle the computing needs of the task most
    effectively. Among the other considerations in
    this category are
  • 2) The second criterion in choosing a
    microcontroller is how easy it is to develop
    products around it. Key considerations include
    the availability of an assembler, debugger,
    compiler, technical support.
  • 3) The third criterion in choosing a
    microcontroller is its ready availability in
    needed quantities both now and in the future.

12
FND DISPLAY
  • FND is similar to the seven segment display but
    it has one more segment db for decimal. It has
    eight leds. The current specification for an led
    is 5MA-25MA. The safe range for the current to
    select is the mid value that is12MA and voltage
    required is 5v so the resistance required to
    limit the current in led is calculated by the
    ohms law i.e. VIR, RV/I and hence R comes to
    about
  • 470ohm.
  • FND are connected to the
    microcontroller at i/o port like p0,p1,p2,or
    p3,and also a transistor is required to get the
    FND on or off. The base resistance required for
    the transistor is also 470ohm.

13
FND SECTION
14
RELAY SECTION
  • RELAY is an isolator and an electrical
    switch. The relay used is 12V-5A.To control the
    operation of relay an NPN transistor BC547 has
    been used. Whenever high signal comes at the base
    of NPN transistor it is switched on and whenever
    low arrives it is switched off. Base of the
    transistor is connected with the I/O pin of the
    microcontroller. Base resistance of 1k5 is
    connected at the base of the transistor. Whenever
    low is sensed at the pin of microcontroller
    transistor gets off and the output of the
    collector becomes high and the relay which is
    connected at the output of the collector becomes
    off. The reverse action of it takes place when
    high is sensed at the pin of microcontroller

15
RELAY SECTION
16
CKT. DIAGRAM
17
WORKING OF PROJECT
  • Here we are using a PIC microcontroller
    that has inbuilt ADC, through which it can sense
    the analog signal and at its output generate a
    digital signal. since temperature sensed by the
    sensor provide to the controller is in analog
    form so from PIC controller the work of this
    project become easier .
  • Here we have used a temperature sensor
    which will sense the temperature of the
    transformer ,on sensing temperature it will
    forward the measured temperature to the
    microcontroller which control the entire
    operation of controlling temperature.
  • The microcontroller compare the sensed
    temperature with the reference temperature which
    is either maximum or minimum temperature of the
    transformer and thus control it. If the
    temperature of transformer increases the maximum
    limit, the relay ON the FAN to give air and split
    on the transformer for cooling it .

18
ADVANTAGES
  • The project has achieved its set target well in
    Time and Budget.
  • Based on cutting edge technology called Embedded
    development which is niche in the market today
    and its future is much bright.
  • The product developed is ready for implementation
    and can bring financial benefits too by sale in
    the market.

19
CONCLUSION
  • We have successfully completed the project of
    high tension transformer protection . Through
    this project we conclude that the temperature of
    the transformer can control automatically using
    temperature sensor and microcontroller.
  • Microcontroller successfully done the cooling of
    the transformer in case of increase in
    temperature of the transformer. The developing of
    this project has been a learning experience for
    all team members and would prove as a milestone
    in their academic career.

20
Thank you
21
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