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Presented by:
AMARESH
BAKKESH V KUBSAD
NARESHKUMAR K V
VINOD KUNCHANUR

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SMS Based Industrial Automation Using ARM Controller
Introduction
 Automation plays an increasingly important role in the global economy and in daily experience.
 In this day and age of computers, industrial automation is becoming increasingly important in the manufacturing process because computerized or robotic machines are capable of handling repetitive tasks quickly and efficiently.
OVERVIEW
 ARM processor
 GSM Architecture
 AT commands
 Transactions between GSM and ARM
 Advantage , Disadvantage and Application
 Conclusion
PROBLEM OCCURS BEFORE GOING TO THIS PROJECT
 Availability Critical to Function
 Fail-Safe Hardware
 Non-Delayed Response
BLOCK DIAGRAM
Why we used ARM controller?
 32 Bit Microcontroller
 RISC
 Pipelining
 Von Neumann Architecture (Physical Memory up to 4GB)
 Clock Frequency up to 50MHz
 It has Two Instructions Set
 Standard 32 Bit ARM Instructions Set
 16 Bit THUMB Instruction Set
LPC2129 SPECIFICATION
 16/32-bit ARM7TDMI-S and 64 pin package.
 16 kB on-chip Static RAM.
 128/256 kB on-chip Flash Program Memory.
 128-bit wide interface for high speed operation.
 Multiple serial interfaces: Two UARTs (16C550),
and Two SPIs
 Temperature range is -40degree to +85 degree
GSM ARCHITECTURE
 Network switching subsystem
 Base station subsystem
 Network management subsystem
AT COMMANDS
The "AT" or "at" prefix must be set at the beginning of each command line. When we enter AT and send that command to GSM modem it will give an acknowledgment by sending OK command
Components used
Transmitter section
 GSM based Mobile Station
Receiver section
 GSM modem
 ARM controller
 Relays
 Stepper motor
 LCD displays
DESIGN FLOW
Interaction between GSM and ARM
MAX232 logic standards
Logic 0 +3V to +25V
Logic 1 -3V to -25V
Basic register in UART operation
Pin descriptions
GENERAL PURPOSE INPUT OUTPUT (GPIO)
 Direction control of individual bits
 Separate control of output set and clear
 All I/O default to inputs after reset
 PORT0 and PORT1 are controlled by two groups of 4 registers such that IOPIN,IODIR,IOSET,IOSET
Interaction between ARM controller and LCD display
Interaction between ARM controller and load through relays
Functional diagram between ARM controller and stepper motor
Decision making
ALGORITHMS
ADVANTAGE & DISADVANTAGE
Advantages:
 Safety of Control Personnel
 Access by Multiple Users
 User Friendly GUI
 Fast effective & flawless service
 High reliable and flexibility
 Reducing cost
Disadvantages:
 If network is busy the delivery of SMS may fail
 More number of relay ports there will be always a delay in the response time of the system
APPLICATIONS
 • Industrial control
 • Medical systems
 • Access control
 • Point-of-sale
 • Communication gateway
 • Embedded soft modem
 • general purpose applications
CONCLUSION
There are many alternatives for controlling devices individually but the proposed system is a multiple device control which really saves the time, energy and cost of the human being more reliable and effective.
Future Scope:
Feedback can be employed to the transmitter
We can prevent the using of unauthorization person
Wireless router and hub can be used to enable the connectivity of the Hardware

PRESENTED BY
J.PRABAKARAN
V.SAKKAPPAN
M.SOODAMANI
M.SURESH

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ABSTRACT
The embedded based industrial automation uses the microcontroller ATMEL series 89C51 microcontroller.
The transmitting cell phone the receiving cell phone the signal cable from receiving cell phone to the signal converter the temperature sensing circuit the pressure sensing circuit and ,the motor parameter sensing circuit the motor driving circuit the pneumatic sensing circuit and the temperature driving circuit.
The temperature sensing circuit uses the temperature sensor metal thermistor and the signal conversion circuit and is interfaced with the port1 line of the microcontroller.
The pressure sensing circuit uses the pressure sensor and the signal conversion circuit which is interfaced with the port1 line of the microcontroller.
The motor parameter sensing circuit uses the voltage current and power sensing circuits which is connected to the signal converter circuit which is interfaced in the port3 line of the microcontroller.
The transmitting cell phone sends SMS messages to the receiving cell phone and the receiving cell phone sends the serial data through the serial data pins of the microcontroller.
WORKING 
The embedded based industrial automation is used in industries to make the industrial parameters such as temperature, pressure and the speed control of the D.C motors can be automated using the cell phone.
The embedded based industrial automation uses the microcontroller ATMEL series 89C51 microcontroller the transmitting cell phone the receiving cell phone the signal cable from receiving cell phone to the signal converter the temperature sensing circuit.
The receiving cell phone data cable is connected to the microcontroller through the digital converter.
The D.C motor speed control is achieved through the PWM method and the speed range is varied by sending the message to the receiving cell phone.
The temperature sensing circuit uses the temperature sensor metal thermistor and the signal conversion circuit and is interfaced with the port1 line of the microcontroller.
ADVANTAGES:
Reduce the man power
Reduce the wiring complexity

to get information about the topic industrial automation using cellphones full report,ppt and related topic please refer the link bellow

https://seminarproject.net/Thread-indust...-cellphone

https://seminarproject.net/Thread-sms-ba...controller

https://seminarproject.net/Thread-dtmf-b...rol-system

https://seminarproject.net/Thread-indust...h-internet