09-06-2010, 08:39 PM
see block diagrams
[attachment=3758]
[attachment=3759]
This Project describes a design of effective security for data communication by designing standard algorithm for encryption and decryption. The source information is generated by a key pad and this will be encrypted and is sent to destination through RF communication. The receiving system will check the data and decrypt according to a specific algorithm and displays on the LCD. The RF modules used here are STT-433 MHz Transmitter, STR-433 MHz Receiver, HT640 RF Encoder and HT648 RF Decoder. RF Transmitter is connected to the different sensors through RF Encoder. This encoder converts the 8-bit data into a single bit and sends it to the transmitter which will be transmitting. The data which is in the air is an analog value. At the receiving end, the receiver receives this analog value on a single data line and passes this data to the decoder. The decoder does the opposite functioning of the encoder i.e., it converts the single bit data into eight bit data and gives it to the microcontroller which does the further processing. This project uses regulated 5V, 500mA power supply. 7805 three terminal voltage regulator is used for voltage regulation. Bridge type full wave rectifier is used to rectify the ac out put of secondary of 230/12V step down transformer
Components:
Microcontroller: AT89S52
Power Supply:+5V, 500mA Regulated Power Supply
Transmitter Display:LED 5mm, 16 X 2 LCD
Receiver Display:LED 5mm, 16 X 2 LCD
Input Source:Key Pad
Crystal:11.0592MHz
Communication Device:RF Module
courtesy:M/S Wine Yard Technologies
[attachment=3758]
[attachment=3759]
This Project describes a design of effective security for data communication by designing standard algorithm for encryption and decryption. The source information is generated by a key pad and this will be encrypted and is sent to destination through RF communication. The receiving system will check the data and decrypt according to a specific algorithm and displays on the LCD. The RF modules used here are STT-433 MHz Transmitter, STR-433 MHz Receiver, HT640 RF Encoder and HT648 RF Decoder. RF Transmitter is connected to the different sensors through RF Encoder. This encoder converts the 8-bit data into a single bit and sends it to the transmitter which will be transmitting. The data which is in the air is an analog value. At the receiving end, the receiver receives this analog value on a single data line and passes this data to the decoder. The decoder does the opposite functioning of the encoder i.e., it converts the single bit data into eight bit data and gives it to the microcontroller which does the further processing. This project uses regulated 5V, 500mA power supply. 7805 three terminal voltage regulator is used for voltage regulation. Bridge type full wave rectifier is used to rectify the ac out put of secondary of 230/12V step down transformer
Components:
Microcontroller: AT89S52
Power Supply:+5V, 500mA Regulated Power Supply
Transmitter Display:LED 5mm, 16 X 2 LCD
Receiver Display:LED 5mm, 16 X 2 LCD
Input Source:Key Pad
Crystal:11.0592MHz
Communication Device:RF Module
courtesy:M/S Wine Yard Technologies
