eIisrt arutselvi (electrical)

International Journal of Electrical, Electronics and Communication Engineering (IJEEC)
Vol. 1, Issue. 1, April – 2015 ISSN (Online): 2395-6747
4
ABSTRACT: At present days we can see that there is problem in
the Electric power generation due to shortage of rain fall and
availability of fuel. Due to the shortage of power generation it has
become very important to make proper maintenance in power
distribution network where power consumption is more. We also
have to strictly eliminate power theft, overload and voltage
fluctuation in the power lines. The Electrical power line is
distributed in the form of network for proper power distribution.
There will be feeders in the network between the power station
and nodes. If there is a break down due to problems in the power
transmission line between the node and base station, then there
will be huge loss especially in the Industrial area. To avoid this
loss in the industrial areas we should be able to sustain the power
supply all the time without any break down and present days in
the main line we cannot detect power theft, due to this Electrical
Board (EB) is meeting a huge loss. The proposed method can be
used to make distribution network automation by switching the
feeders automatically and to find the voltage fluctuation and
power theft in the power lines. And also to indicate fault
detection in the power lines using GSM.
Keywords—GSM modem, Digital energy meter, Pulse
Generator, Microcontroller.
I. INTRODUCTION
Electrical power is essential in all walks of life.
However, the generated electric power not may be fully
utilized if cannot be efficiently and effectively distributed.
As an effective approach of fault location, Fault
Passage Indicator (FPI) is widely used in the distribution.
Currently, most of the FPIs can only indicate the fault, and the
fault location still depends on manual line inspection. The FPI
with communication function can upload the fault data to the
master station for automatically fault location, which
considerably reduced the location time [1].
The main function of feeder automation system is on
the basis of accurate locating fault to realize fault isolation and
restore power supply of non-fault zone automatically. [2]
The word Automation means doing the particular
task automatically in a sequence with faster operation rate.
This requires the use of microprocessor together with
communication network and some relevant software
programming [3].
The paper discusses to make distribution network
automation by switching the feeders automatically, to find the
voltage fluctuation and power theft in the power lines. And to
indicate fault detection in the power lines using GSM.
Application and Advantages:
1. We can detect the voltage fluctuation and correct it.
2. It detects the Power Theft in the Power line between
Substation and node and updated the same information
to Sub Station.
3. We have wireless transmission between feeder station
and Sub Station, due to this cost of data transmission
will be reduced.
4. If there is major problem in the power line then
particular line related feeder will be opened.
5. Fault detected joint will be isolated for further work
which should be done by line man.
6. Automatically switched to other feeder to provide
temporary power on the line until line man clear the
fault.
7. Trouble shooting in the faulty line will be Faster.
II. MODERN DISTRIBUTION SYSTEMS
A modern distribution system is shown in Figure.1.
Modern power grids are extremely complex and widespread.
Surges in power lines can cause massive network failures and
permanent damage to multimillion-dollar equipment in power
generation plants.
After electricity is produced at power plants it has to
reach the customers who use the electricity. As generators
spin, they produce electricity with a voltage of about 25,000
volts. The transmission and distribution system delivers
electricity from the generating site to residential, commercial,
and industrial facilities. [4]
Conductors for distribution may be carried on
overhead pole lines or in densely-populated areas where they
are buried underground. Urban and suburban distribution is
done with three-phase systems to serve residential,
commercial and industrial loads.
Distribution Network Automation with Voltage Fluctuation
and Power Theft Identification using GSM for Power Lines1
E.Arutselvi, 2
E.Kavitha
1
M.Tech, Department of ECE, HKBK College of Engineering, Bangalore, INDIA
2
Professor, Department of ECE, HKBK College of Engineering, Bangalore, INDIA

5
Figure.1: Modern Distribution System [3].
Only large consumers are fed directly from
distribution voltages: most utility customers are connected to a
transformer, which reduces the distribution voltage to the
relatively low voltage used by lighting and interior wiring
systems. The transformer may be pole-mounted or set on the
ground in a protective enclosure.
In rural areas a pole-mount transformer may serve
only one customer, but in more built-up areas multiple
customers may be connected. In very dense city areas, a
secondary network may be formed with many transformers
feeding into a common bus at the utilization voltage. Each
customer has a service drop connection and a meter for billing.
[5]
A ground connection to local earth is normally
provided for the customers system as well as for the
equipment owned by the utility. The purpose of connecting the
customers system to ground is to limit the voltage that may
develop if high voltage conductors fall on the lower-voltage
conductors or if a failure occurs within a distribution
transformer.
III .PROPOSED MODEL
A functional block diagram of distribution network
automation with voltage fluctuations and power theft
identification is shown in Figure.2. One is feeder station and
another one is substation part. The feeder station will be
placed in the Transformer pole where the power lines are used
for power transmission.
And line man will be having mobile by which receive
the information sent by the feeder station using GSM modem
about the fault happened in the particular area and the same
information will be displayed on LCD provided at the feeder
station.
If any fault in this distribution network is detected
then controller is going to apply test charge on it’s own at the
feeder. Then by this it is going to confirm whether it is
permanent fault or temporary fault. If it is temporary fault then
controller is going to clear the fault by itself and switches ON
feeder. If it is permanent fault then controller is going to
isolate the faulty point and it is going to bring up the
temporary feeder online.
Feeder station
Sub station
Figure.2: Functional block diagram
So by which the losses will be minimized to zero in
distribution network and then controller is going to send the
information about the fault where it as occurred to substation

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so by which they can make problem correction with shorter
time and they can send acknowledgement back to controller
where it will switch OFF temporary feeder and close all joints
and brings permanent feeder online.
In the feeder station is also going to detect the power
theft which will be in the power lines and also to make
automatic feeder switching by using microcontroller and
relays.
Hardware Aspects:
Microcontroller : The AT89C52 is a low-power, high-
performance CMOS 8-bit microcomputer with 8K bytes of
Flash programmable and erasable read only memory. The
device is manufactured using Atmel’s high-density nonvolatile
memory technology and is compatible with the industry-
standard 80C51 and 80C52 instruction set and pinout. The on-
chip Flash allows the program memory to be reprogrammed
in-system or by a conventional nonvolatile memory
programmer. By combining a versatile 8-bit CPU with Flash
on a monolithic chip, the Atmel AT89C52 is a powerful
microcomputer which provides a highly-flexible and cost-
effective solution to many embedded control applications.
Pulse Generator: A pulse generator is either an
electronic circuit or a piece of electronic test equipment used
to generate rectangular pulses. This article describes the test
equipment.
LCD Screen: A16*2 LCD screen is used to display the
warning message and other text messages. 16*2 in the LCD
screen indicates that the LCD screen has 2 arrays of line and
each array can hold up to 16 characters.
GSM Modem: A GSM modem is one of the wireless
modem that is devised to work with a GSM wireless network.
It works with the same frequency of GSM wireless network. It
is an important part of the GSM network.
Power supply: The power supply provides regulated 5-
V output to power the system microcontroller and drive eight
low-side switches. The ac zero-detect circuitry is monitoring
the crossover voltage of the mains ac supply. The resultant
signal is a low-frequency clock output on the ZVS(Zero-
Voltage Detection Signal) based on the ac-line cycle. This
information allows the microcontroller to reduce in-rush
current by powering loads on the ac-line peak voltage.
Relay Driver: The relay subsystem is an electrically-
operated switch. The relay switches when the signal coming
into the driver is high. It must be connected to a transducer
driver subsystem. The relay uses a DPDT relay. Relay use an
electromagnetic coil to move the poles of a switch when
powered. There are three pairs of connections known as
common, normally open and normally closed.
Transformer: A Transformer is a device that transfers
electrical energy from one circuit to another through
inductively coupled conductors- the transformers coils or
windings. Expect for air core transformers, the conductors are
commonly wound around a single iron-rich core or around
separate but magnetically-coupled cores. A current passing
through the primary coil creates a magnetic field.
Voltage Regulator: A voltage regulator is an electrical
regulator designed to automatically maintain a constant
voltage level. It is usually having three legs converts varying
input voltage and produces a constant regulated output
voltage.
Bridge Rectifier: A diode bridge is an arrangement of four
diodes in a bridge configuration provides the same polarity of
output voltage for either polarity of input voltage. When used
in its most common application, for conversion of alternating
current input into direct current output it is known as a bridge.
Abridge rectifier provides full-wave rectification from a two-
wire AC input, resulting in lower cost and weight as compared
to a center-tapped transformer design.
Software Aspects:
a) Keil: Keil C51 Compiler gets full use of 8051 register
banks. Register banks are useful while processing interrupts
and also when using a real time operating system. Keil C51
Compiler use AJMP (Absolute Jump) and ACALL (Absolute
Call) instructions.
Keil software snapshot is shown in Figure.3. It is used to
develop the program using Embedded C Language and it has
inbuilt compiler. This software is widely used for converting
Embedded C program into Hex file format. The hex file is
dumped into the microcontroller for the required
application.Some of the commonly used Keil software
development tools are:
 Microvision4 for windows is an integrated
development environment
 The C51 ANSI optimizing C Cross compiler
 The A51 macro assembler
 The L51 Linker/Loader
 The LIB51 Library manager
Software Development cycle:
 Select the target chip from the device database and
configure the tools settings
 Create source files in C or assembly
 Build the application with the project manager
 Correct the errors in source files
 Test the linked applications.
Figure: 3 Keil software

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b) Proload: Proload is software which accepts only hex
files. Once the machine code is converted into hex code, that
hex code has to be dumped into the microcontroller placed in
the kit and this is done by the proload. The microcontroller
accepts the hex file from the keil compiler and dumps this hex
file into the microcontroller which is to be programmed. Pro
load software snap shot is shown in the Figure: 4
Figure: 4 Pro load
c)GSM Commands: The circuit of interfacing GSM to
AT89C51 microcontroller mainly consists of GSM modem
and 8051 family microcontroller. GSM has RS232 interface
for serial communication. In between the GSM module and
the microcontroller MAX232 IC is connected.MAX232 IC is
used for converting the logic levels. RS232 logic levels of
GSM are converted to the TTL logic levels of the
microcontroller using this MAX232 IC. MAX232 IC has 16
pins.
This is a dual driver IC as it has two transmitters and
receivers. Interfacing of GSM to AT89C51 microcontroller
uses only one transmitter and receiver. The transmitter pin
T1IN of max232 is connected to the transmitter pin of the
microcontroller. The receiver pin R1out of the max232 is
connected to the receiver pin of the microcontroller. The
T1out pin of the IC is connected to the transmitter pin of the
GSM modem. The R1IN pin of the IC is connected to the
receiver pin of the GSM modem. GSM Commands as shown
in the Table:1
Table: 1 GSM Commands
III CONCLUSION
Physical protection is paramount, as in rural and urban
areas which are located very far from the electricity board to
keep separate technician to check failure like open joint and
theft identification in the distribution network. This proposal
method is used to monitor these parameters without actual
involvement of technician in detecting failure.
The system to make proper power distribution in the
electric power lines without any interruption, at the same time
system give test charge in the fault line and in case of power
failure it automatically switches on power from other feeder
by breaking up the fault feeder line and to detect power theft
done in power lines by calculating current by consumers.
REFERENCES
[1] Zhang Yang and Wang Wei “Networking technology of
fault indication system based on Zigbee”.IN IEEE PES 2014
July.
[2] Zhou Zhifeng &Albert Dong “Communication research
based on of Distribution Intelligent Feeder Automation
System of the distribution network”.CICED Sept-2014
[3] Palak parikh “Distribution System Automation” P.No:1-9
[4] Marline Sharmila.A and Savitha Raj.S “A Smart
Distribution Automation using Supervisory Control and Data
Acquisition with Advanced Metering Infrastructure and GPRS
Technology”ISSN2091-2730SEP-2014
[5] Neha Gaur and Priyanka Gaur ”Automation in power
distribution system: Present status” jers June,2012/82-84

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