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Cell Phone Controlled Land Rover Using Logic Gates

Contents
  • 1 Overview
  • 2 Circuit Diagram
  • 3 Advantages
  • 4 Applications


What’s Science for a small child ?At that age, no one of us is aware about the vast branches in science ,yet we are very curious to know.There will be lots of  Why’s and How’s in our mind which makes the elders irritated.By seeing a toy car,we always get wondered. Without knowing any robotics or electronics inside we just want to make our own toy car with clay and blocks.So its not wrong to say that every child has scientist inside who’s curious ,Who wants to do!
So here I’m going to discuss to make a toy car or a land rover .Not just a toy car but it’s controllable ,obviously who don’t want to have control over something .So a remote control toy or a land rover .By hearing it, Some may think it’s difficult and can’t be done.But without having any knowledge of microcontrollers or any other processors it can be done using Gate circuit so that even a high school boy with little amount of knowledge in Gates can do it.
Most of the remote control wireless robots are made by the RF circuitry .But it has the drawbacks of limited working range, limited frequency range and limited control .So an alternate method to solve these issues is to make by using DTMF.A cell phone can be used for this purpose .With the help of microcontrollers we can program and implement .But it remains difficult for those who are unaware and don’t have enough knowledge of microcontrollers.
The problem can be solved by using the equivalent logic circuit of the microcontroller .But as we know everything has its pros and cons,there will be a problem of excessive current division due to overloaded logic lines .However it can be solved by using a current amplifier with overloaded lines or by increasing the total current input to the circuit.
The control of the rover involves 3 distinct stages.
  1.  Reception   -Sensors mounted on the board
  2.  Processing -Inputs to logic circuit which give corresponding output
  3. Action         -Movement by the motors and actuator

Overview

To activate the rover a call is made to the phone which is attached to the rover itself .The cell phone will be in auto answer mode .If any button is pressed during the call corresponding tone is heard on the other end .This tone is called Dual Tone Multi Frequency           ( DTMF) tone .The tone is received by the phone attached to the rover .The received tone is fed onto the logic circuit (Decoder) which converts or decodes the tone corresponding to equivalent BCD codes .The output is fed onto the motor Which decides the motion of the rover according to output of logic circuit.
The logic relation between decoder and motor driver is as shown below :
DTMF KeysBCD CodesFunctionMotor Driver Inputs
D3D2D1D0EN1A2A3A4A
10001XXXXX
20010Forward10110
30011XXXXX
40100Left Turn11010
50101Brake0XXXX
60110Right Turn10101
70111XXXXX
81000Backward11001
91001XXXXX
01010XXXXX
*1011XXXXX
#1100XXXXX
A1101XXXXX
B1110XXXXX
C1111XXXXX
D0000XXXXX
The logic relation for each input can be found out by solving the K-map as shown below :
1) EN (output enable ) =D0′
D1′ D0′D1′ D0D1 D0D1 D0′
D3′ D2′XXX1
D3′ D210X1
D3 D2XXXX
D3 D2′1XXX
If we look the truth table its clear that the for operative’s signals the D0 data line is low ,which should be high and for brake it should below so that all functions stop and rover comes to rest .So the common enable of motor driver is given the signal D0′(compliment of D0).
2) 1A=D1′
D1′ D0′D1′ D0D1 D0D1 D0′
D3′ D2′XXX0
D3′ D21XX0
D3 D2XXXX
D3 D2′1XXX
The 1st driver signal is given to motor driver is the compliment of D1 data line.
3) 2A= D1
D1′ D0′D1′ D0D1 D0D1 D0′
D3′ D2′XXX1
D3′ D20XX1
D3 D2XXXX
D3 D2′0XXX
The 2nd driver signal to the motor driver is the direct signal of date line D1.
4) 3A=D2’D1+D2D1′ ( D2 X-OR D1)
D1′ D0′D1′ D0D1 D0D1 D0′
D3′ D2′XXX1
D3′ D21XX0
D3 D2XXXX
D3 D2′0XXX
The 3rd driver signal to the motor is the XOR the data lines D2 and D1.
5) 4A=D2’D1’+D2D1 ( D2 X-NOR D1)
D1′ D0′D1′ D0D1 D0D1 D0′
D3′ D2′XXX0
D3′ D20XX1
D3 D2XXXX
D3 D2′1XXX
The 4th driver signal to the motor is the X-NOR of the data lines D2 and D1 or the complement of X-OR of D2 and D1.

Circuit Diagram

Cell Phone Controlled Land Rover Using Logic Gates Circuit Diagram
This is the circuit diagram for the cellphone operated rover.The main parts are DTMF decoder,Logic circuits by IC’s and motor drivers. HT9170 IC is used as DTMFdecoder. It is a DTMF receiver integerated with digital decoders and bandsplit filter functions.All typeof HT9170 uses digital counting techniques to detect and decode 16 bit DTMF tone pairs to 4-bit code output.Highly accurate capacitor filters are employed to divide tone signals to high and low group signals.A built in dial tone rejection circuit is provided eliminate the need of prefiltering circuit.It decodes the DTMF tones to corresponding BCD codes.The IC 74HC04 is high speed CMOS hex Inverter (Not gates) and IC 74HC86 high speed CMOS quad XOR gates.These two IC’s forms the logic circuit between decoder and motor driver. Use high speed CMOS ICs only for this circuit other IC would require extra hardware like pull up resistors, etc. The L293D IC is comparator motor driver .It is a quad, high-current, half-H driver designed to provide bidirectional drive currents of up to 600 mA at voltages from 4.5V to 36V , consisting of of four drivers .It makes it easier to drive the DC motors .It is capable of handling the direction of motor easily according to the given logic inputs, this IC can handle up to 18V DC supply without any extra heat sink and 18V-30V with a heat sink. IC 7805 is used as voltage regulator which has 5V output.To interface DTMF signals in the circuit .Get a 3.5mm (or 2.5mm, whichever suits you) audio jack (male part) solder a long enough wire on to it and attach the other open end with the circuit .Connect the wire from the signal out pin(s) to the input end of the coupling capacitor in the circuit (where it reads input from headset), and ground wire of the jack to the circuit ground .For connecting the male jack use female jack in the phone .Don’t use any audio transmitter enhancement of cell phone.

Advantages

  • Accurate, Reliable, low cost system
  • Working range as large as the coverage area of the service provider
  • No interference with other controllers
  •  DTMF tones if received from external sources,are neglected by amplitude comparison of two tones
  •  No need of designing a separate transmitter / receiver
  • Number of functions may be extended to 12 using simple logic gates.

Applications

  • Remote sensing
  •  Spying
  • As a transporting system

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