Make with Karkhana

This Video will illustrate you how to visualize audio left and right signals in bar-graph in 16X2 LCD Display using Arduino. Components Required: 1. Arduino UNO 2. 16X2 LCD Display 3. 3.5mm Audio Jack 4. Jumper Wires   Connection Diagram: Video Link Arduino Code #include <LiquidCrystal.h> #include <fix_fft.h> #define DEBUG 0 #define L_IN 1 // Audio input A0 Arduino #define R_IN 0 // Audio input A1 Arduino const int Yres = 8; const int gain = 3; float peaks[64]; char im[64], data[64]; char Rim[64], Rdata[64]; char data_avgs[64]; int debugLoop; int i; int load; LiquidCrystal lcd(11, 10, 7, 6, 5, 4); // pins to LCD // Custom CHARACTERS byte v1[8] = {   B00000, B00000, B00000, B00000, B00000, B00000, B00000, B11111 }; byte v2[8] = {   B00000, B00000, B00000, B00000, B00000, B00000, B00000, B11111 }; byte v3[8] = {   B00000, B00000, B00000, B00000, B00000, B11111, B11111, B11111 }; byte v4[8] = {   B00000, B00000, B00000, B0

This Blog will illustrate to you how to make Color changing Emblen light using the PWM of Arduino. using this you can make your emblems look more attractive. Video Link Components Required 1> Arduino UNO 2> 12V RGB led strip 3> 2N2222 Transistor 4> 10K ohm Resistor 5> Jumper Wires 6> Small Breadboard 7> Acrylic Engraved Emblem 8>IC7805 Power Regulator Circuit Diagram  Arduino Code const int greenPin = 10 ; const int bluePin = 9 ; void setup () { // Start off with the LED off. setColourRgb ( 0 , 0 , 0 ); } void loop () { unsigned int rgbColour[ 3 ]; // Start off with red. rgbColour[ 0 ] = 255 ; rgbColour[ 1 ] = 0 ; rgbColour[ 2 ] = 0 ;

This video will illustrate to you how to make a simple piano by using IR Modules. Based on the frequency of sa, re, ga, ma, pa, dha, ni and sa the tone of the buzzer will change. Video Link Components Required: 1> I.R. Modules 2> Arduino Uno 3> Jumper Wires 4>Small Breadboard Circuit Diagram Arduino Code: int button_C = 2; int button_D = 3; int button_E = 4; int button_F = 5; int button_G = 6; int button_A = 7; int button_B = 8; int button_Cup = 9; int speaker = 10; int buttonstate_C = 0; int buttonstate_D = 0; int buttonstate_E = 0; int buttonstate_F = 0; int buttonstate_G = 0; int buttonstate_A = 0; int buttonstate_B = 0; int buttonstate_Cup = 0; //NOTES         'c'  , 'd',  'e',  'f',  'g', 'a',  'b',  'C' int tones[] = { 240, 254, 285, 320, 359, 280, 427, 956 }; //freq int Cur_tone = 0; void setup() {   pinMode(button_C, OUTPUT);   pinMode(button_D, INPUT);   pinMode(button_E, INP

This will teach you how to control individual led in 8X8 LED MATRIX using Android App. Video Link   COMPONENTS REQUIRED 1. 8X8 LED MATRIX 2. Breadboard 3. Arduino Nano 4. Connecting Wires 5. Bluetooth HC-05  CONNECTION Connect as given in circuit Diagram ARDUINO Code  #include <Led.h> int DIN = 2; int CS =  3; int CLK = 4; int row=0; int col=0; int temp=0; int data=0; LedControl lc=LedControl(DIN,CLK,CS,1); void setup() {    lc.shutdown(0,false);       lc.setIntensity(0,5);  lc.clearDisplay(0);  Serial.begin(9600); } void loop() {    if(Serial.available() > 0)        {       data = Serial.read();       Serial.print(data);// it returns ascii value if we send one in the phone                     if(data < 96)       {        if(temp==0)        {         row=data-48;         temp=1;        }        else        col=data-48;       }           else if(data=='n')        {          lc.setLed(0,row,col,true);        Serial.println('n')

Hey Folks, In this tutorial, we will learn how to interface a Seven Segment Display with ARM(FRDM-KL25Z). Components Required FRDM-KL25Z board Seven Segment Display (Common Cathode) Breadboard Mini Jumper Wires (As Required) FRDM-KL25Z         2. Seven Segment Display        3. Breadboard Mini         4. Jumper Wires (Male to Male)   Follow the Image below for circuit connection reference:-  (Interfacing all components) After making the circuit dump the code given below:- #include "mbed.h" BusOut display(PTA1,PTA2,PTD4,PTA12,PTA4,PTA5,PTC8,PTC9); int main() {          while (1) {                 display= 0xBF ;         wait( 1 );         display= 0x86 ;         wait( 1 );         display= 0xDB ;         wait( 1 );         display= 0xCF ;         wait( 1 );         display= 0xE6 ;         wait( 1 );         display= 0xED ;         wait( 1 );         display= 0xFD ;