1. DTMF BASED REMOTE INDUSTRIAL LOAD AND/OR AGRICULTURAL PUMP CONTROL
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2. contents Introduction Block diagram Power supply Microcontroller
DTMF decoder
Relay
Relay driver
Software requirements
Schematic & Working of the project
Advantages
Applications
Future scope
Conclusion

3. introduction
The main objective of the project is to control the functioning of the industrial/ agricultural load using wireless technology.
One cell phone will send digitized commands to another cell phone which is in auto answering mode at the receiving end.
The receiving cell phone codes are fed to the microcontroller which is programmed to recognize those codes for operating any kind of load duly interfaced through relays and relay drivers as per the sent commands from the senders mobile

4. Contd..
The receiving cell phone codes are DTMF (dual tone multi frequency) decoded.
DTMF Decoder will identify the key frequency and convert that frequency to digital codes which are then fed to the microcontroller.

5. Block diagram

6. Power supply

7. Contd..
The 230V AC supply is first stepped down to 12V AC using a step down transformer.
This is then converted to DC using bridge rectifier.
The AC ripples is filtered out by using a capacitor and given to the input pin of voltage regulator 7805.
At output pin of this regulator we get a constant 5V DC which is used for MC and other ICs in this project.

8. Microcontroller It is a smaller computer
Has on-chip RAM, ROM, I/O ports...
RAM
ROM
I/O Port
Timer
Serial COM Port
Microcontroller
CPU
A single chip

9. Features of MC 8K Bytes of In-System Programmable (ISP) Flash Memory
4.0V to 5.5V Operating Range
Fully Static Operation: 0 Hz to 33 MHz
256 x 8-bit Internal RAM
32 Programmable I/O Lines
Three 16-bit Timer/Counters
Eight Interrupt Sources
Full Duplex UART Serial Channel

10. PIC (PIC16F877A) High-Performance RISC CPU:
Only 35 single-word instructions.
All single-cycle instructions except for program branches, which are two cycle.
Operating speed: DC – 20 MHz clock input DC – 200 ns instruction cycle
Up to 8K x 14 words of Flash Program Memory, Up to 368 x 8 bytes of Data Memory (RAM), Up to 256 x 8 bytes of EEPROM Data Memory.
Pin out compatible to other 28-pin or 40/44- pin, PIC16CXXX and PIC16FXXX microcontrollers.

11. Special Microcontroller Features:
100,000 erase/write cycle Enhanced Flash program memory typical.
1,000,000 erase/write cycle Data EEPROM memory typical.
Data EEPROM Retention > 40 years.
Self-reprogrammable under software control.
In-Circuit Serial Programming™ (ICSP™) via two pins.
Single-supply 5V In-Circuit Serial Programming.
Watchdog Timer (WDT) with its own on-chip RC oscillator for reliable operation.
Programmable code protection.
Power saving Sleep mode.
Selectable oscillator options.
In-Circuit Debug (ICD) via two pins.

12. Peripheral Features: Timer0: 8-bit timer/counter with 8-bit prescaler.
Timer1: 16-bit timer/counter with prescaler, can be incremented during Sleep via external crystal/clock.
Timer2: 8-bit timer/counter with 8-bit period register, prescaler and postscaler.
Two Capture, Compare, PWM modules
- Capture is 16-bit, max. resolution is 12.5 ns
- Compare is 16-bit, max. resolution is 200 ns
- PWM max resolution is 10-bit
Synchronous Serial Port (SSP) with SPI™ (Master mode) and I2C™ (Master/Slave).
Universal Synchronous Asynchronous Receiver Transmitter (USART/SCI) with 9-bit address detection.
Parallel Slave Port (PSP) – 8 bits wide with external RD, WR and CS controls (40/44-pin only).
Brown-out detection circuitry for Brown-out Reset (BOR).

13. PIN DIAGRAM OF PIC16F877

14. Power on Reset circuit +5V + 10 uF 31 EA/VPP X1 30 pF 19 11.0592 MHz
8.2 K
10 uF +
MHz
EA/VPP X1 X2
RST 31 19 18 9

15. Dtmf decoder
This circuit detects the dial tone from a telephone line and decodes the keypad pressed on the remote telephone.
Two distinct frequency tones make up the DTMF(dual tome multiple frequency), and hence the name.
The dialer and the telephone exchange communicate one way through the DTMF communication.
The tone generator and the tone decoder consist of a complete communication setup.

16. Contd..
In this project, IC MT8870DE is used to decode the input dial tone to the dialed numbers.
These digital bits are interfaced to a microcontroller for any application.
Pulse/dial tone method is used in the modern telephone communication.
There is a dial tone generator on the caller side and a unique tone consisting of two audible tone frequency is generated when the user presses a button.
As an example, 697hz & 1209hz will be generated when key '1' is being pressed on the phone.
a decoder circuit is present on the receiver side, which decodes the tone to a digital code.

17. relay A relay is an electrically operated switch.
Current flowing through the coil of the relay creates a magnetic field which attracts a lever and changes the switch contacts.
The coil current can be on or off so relays have two switch positions and have double throw (changeover) switch contacts as shown in the diagram.

18. Contd..
Relays allow one circuit to switch a second circuit which can be completely separate from the first.
For example a low voltage battery circuit can use a relay to switch a 230V AC mains circuit.
There is no electrical connection inside the relay between the two circuits, the link is magnetic and mechanical.
To drive relay through MC ULN2003 relay driver IC is used

19. Relay driver uln2003 ULN is Relay driver application
The ULN2003 is a monolithic high voltage and high current Darlington transistor arrays.
It consists of seven NPN Darlington pairs that features high-voltage outputs with common- cathode clamp diode for switching inductive loads.
The collector-current rating of a single Darlington pair is 500mA.
The Darlington pairs may be paralleled for higher current capability.

20. Contd.. The ULN functions as an inverter.
If the logic at input 1B is high then the output at its corresponding pin 1C will be low.

21. Working of project
The mobile is connected to the DTMF decoder IC and a call is made to data mobile from another mobile.
When the network path is formed, any mobile key is pressed.
If 1 is pressed then this tone is decoded to 4 digit data and given to MC by inverting the data.
MC compares this data and at output port which is connected to ULN gets logic high and the output of ULN is low which makes the relay ON. Hence, load 1 will be ON.

22. advantages
Using DTMF technology the loads can be operated from any where.

23. applications This project is used to control the loads in --industries
--home
--agriculture etc..

24. Conclusion
Thus by using DTMF technology and microcontroller the loads can be operated from any place.