Supervisory Control and Data Acquisition
System using GSM
Title of the project: Supervisory Control and Data Acquisition System using GSM Modem
Domain: GSM and Embedded
Software: Assembly Language
Relay: 5V, 100Ω SPDT
Power Supply: +5V, 750mA Regulated Power Supply
Display: LED, PC Screen
LED: 5mm White-in-Red, 5mm White-in-Blue
Input: Voltage, Current, Temperature, Light, Vibration
Communication Tool: Hyper Terminal
Sensors: Voltage, Current, LDR, Temperature sensor
ABSTRACT
One of the 8051s many powerful features is its integrated UART, otherwise known as a serial port. The fact that the 8051 has an integrated serial port means that you may very easily read and write values to the serial port. If it were not for the integrated serial port, writing a byte to a serial line would be a rather tedious process requiring turning on and off one of the I/O lines in rapid succession to properly "clock out" each individual bit, including start bits, stop bits, and parity bits.
However, we do not have to do this. Instead, we simply need to configure the serial ports operation mode and baud rate. Once configured, all we have to do is write to an SFR to write a value to the serial port or read the same SFR to read a value from the serial port. The 8051 will automatically let us know when it has finished sending the character we wrote and will let us know whenever it has received a byte so that we can process it. We do not have to worry about transmission at the bit level--which saves us quite a bit of coding and processing time.
In this project, we are using four sensors, four relays, ADC (Analog to Digital
Conversion), Microcontroller, LCD (Liquid Crystal Display) for displaying the messages.
By using this project, one can control the TEMPERATURE, LIGHT, VOLTAGE, CURRENT by means of a GSM modem by sending SMS. In this application two conditions will be displayed whether we want to change the voltage, current, temperature, light intensity else not that can be varied depending upon the user’s requirement. LED Indication is provided on the Kit to know which sensor has been activated.
This project uses regulated 5v, 750mA power supply. 7805, a three terminal voltage regulator is used for voltage regulation. Bridge type full wave rectifier is used to rectify the ac output of secondary of 230/12v step down transformer. The RFID module requires a separate +5v power.