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Topic: MultiMeter Project (Read 2940 times) previous topic - next topic

Alexr2311

Jan 28, 2011, 05:26 pm Last Edit: Jan 28, 2011, 05:36 pm by Alexr2311 Reason: 1
Hey all, little project i've been working on today. The code is pasted bellow. (Its pretty self explanitory).

(Im using an arduino UNO with this project.)

Code: [Select]
// Arduino MultiMeter. (This serves no real purpose, its just a bit of fun).
// Coded By Alex Richman.

// (I havn't commented on any of the code, but i've explained the wiring bellow.
// should you want to try it out).

// Wiring Explanation:

// LED Display:
// The LED display is simply 10 LEDs in a line. The Display(); Function
// Controls Them. So if the voltage mesured was 5000 MilliVolts It Would Light
// 5 LEDs. (Its Rounded, So 4499 is 4 LEDs, and 4500 is 5).
// The pins for the LEDs are:
// LED 1: DigitalPin 2.
// LED 2: DigitalPin 3.
// LED 3: DigitalPin 4.
// LED 4: DigitalPin 5.
// LED 5: DigitalPin 6.
// LED 6: DigitalPin 7.
// LED 7: DigitalPin 8.
// LED 8: DigitalPin 9.
// LED 9: DigitalPin 10.
// LED 10: DigitalPin 11.

// Other pins used:
// DigitalPin 12: Buzzer Power.
// DigitalPin 13: General light to show the board is on.

// AnalogPin 3: Input for continuity test.
// AnalogPin 4: Input for 6-10 volt read. (Important Note Bellow).
// AnalogPin 5: Input for 0-5 volt read.

// Notes:
// The 6-10 volt read consists of a voltage devider (I Used 2x 4.7k) so that
// a 6-10 volt input is reduced to 0-5. (So the board dosn't fry).

// The continuity tester is just a open connection from +5 to AnalogPin 3.
// (The user closes the connected with whatever they are testing).
int inByte;
int sIn;
int showByte;
int disByte;
int var;
int var1;
int var2;
int var3;
int var4;
int var5;
int var6;
int var7;
int var8;
int var9;
int var10;
int disVar;
int avgvar;
int LoadNumber = 0;
int i;
int raw = 0;         
int Vin = 5;         
float Vout = 0;       
float R1 = 10;       
float R2 = 0;       
float buffer = 0;
void setup() {
  Serial.begin(9600);
  pinMode(2, OUTPUT);
  pinMode(3, OUTPUT);
  pinMode(4, OUTPUT);
  pinMode(5, OUTPUT);
  pinMode(6, OUTPUT);
  pinMode(7, OUTPUT);
  pinMode(8, OUTPUT);
  pinMode(9, OUTPUT);
  pinMode(10, OUTPUT); 
  pinMode(11, OUTPUT);
  pinMode(12, OUTPUT);
  pinMode(13, OUTPUT);
  pinMode(A3, INPUT);
  analogWrite(A5, HIGH);
  digitalWrite(13, HIGH);
}
void loop() {
  Main();
}
void Menu5() {
    digitalWrite(2, LOW);
    digitalWrite(3, LOW);
    digitalWrite(4, LOW);
    digitalWrite(5, LOW);
    digitalWrite(6, LOW);
    digitalWrite(7, LOW);
    digitalWrite(8, LOW);
    digitalWrite(9, LOW);
    digitalWrite(10, LOW);
    digitalWrite(11, LOW);
    digitalWrite(12, LOW);
    digitalWrite(13, LOW);
    digitalWrite(A0, LOW);
    digitalWrite(A1, LOW);
  SerialClear();
  inByte = 0;
  showByte = 0;
  var = 0;
  var1 = 0;
  var2 = 0;
  var3 = 0;
  var4 = 0;
  var5 = 0;
  var6 = 0;
  var7 = 0;
  var8 = 0;
  var9 = 0;
  var10 = 0;
  disVar =0;
  avgvar = 0;
  sIn = 0;
  Serial.println("Arduino MultiMeter.");
  Serial.println("Coded By Alex Richman.");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println("Put Test Voltage + To Pins 1-5, And - To Ground.");
  Serial.println(" ");
  Serial.println("Enter A To Take A Voltage Reading.");
  Serial.println("Enter B To Take An Average Voltage Reading Over 10 Seconds.");
  Serial.println("Enter C To Take An Active Voltage Reading.");
  Serial.println("Enter M To Return To The Main Menu.");
  Load5();
}
void Load5() {
  LoadNumber = LoadNumber + 1;
  inByte = 0;
  showByte = 0;
  var = 0;
  var1 = 0;
  var2 = 0;
  var3 = 0;
  var4 = 0;
  var5 = 0;
  var6 = 0;
  var7 = 0;
  var8 = 0;
  var9 = 0;
  var10 = 0;
  disVar =0;
  sIn = 0;
  avgvar = 0;
  sIn = Serial.read();
  if (sIn == 'A') {
    Read5();
  }
  if (sIn == 'B') {
    Avg5();
  }
  if (sIn == 'C') {
    SerialClear();
    Active5();
  }
  if (sIn == 'M') {
    Main();
  }
  if (LoadNumber == 1) {
    LoadDis1();
  }
  if (LoadNumber == 2) {
    LoadDis2();
  }
  if (LoadNumber == 3) {
    LoadDis3();
  }
  if (LoadNumber > 3) {
    LoadNumber = 0;
  }
  Load5();
}
void Read5() {
  SerialClear();
  inByte = analogRead(A5);
  var = map (inByte, 0, 1023, 0, 5000);
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  Serial.println(" ");
  Serial.println("Enter T To Return To The Menu.");
  if (Serial.available() > 0) {
  while (Serial.read() != 'T');
  }
  SerialClear(); Menu5();
}
void SerialClear() {
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
}

Alexr2311

Code: [Select]
void Avg5() {
  SerialClear();
  inByte = analogRead(A5);
  var = map (inByte, 0, 1023, 0, 5000);
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var1 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A5);
  var = map (inByte, 0, 1023, 0, 5000);
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var2 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A5);
  var = map (inByte, 0, 1023, 0, 5000);
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var3 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A5);
  var = map (inByte, 0, 1023, 0, 5000);
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var4 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A5);
  var = map (inByte, 0, 1023, 0, 5000);
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var5 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A5);
  var = map (inByte, 0, 1023, 0, 5000);
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var6 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A5);
  var = map (inByte, 0, 1023, 0, 5000);
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var7 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A5);
  var = map (inByte, 0, 1023, 0, 5000);
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var8 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A5);
  var = map (inByte, 0, 1023, 0, 5000);
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var9 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A5);
  var = map (inByte, 0, 1023, 0, 5000);
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var10 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000);
  avgvar = var1+var2+var3+var4+var5;
  avgvar = avgvar / 5;
  SerialClear();
  Serial.println("The Average Voltage Is:");
  Serial.println("MilliVolts:");
  Display();
  Serial.println(avgvar, DEC);
  var = avgvar;
  avgvar = avgvar / 1000;
  Serial.println("Volts:");
  Serial.print(avgvar, DEC);
  Serial.print(".");
  avgvar = avgvar * 1000;
  var = var - avgvar;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  Serial.println(" ");
  Serial.println("Enter T To Return To The Menu.");
  if (Serial.available() > 0) {
  while (Serial.read() != 'T');
  }
  SerialClear(); Menu5();
}
void Active5() {
  inByte = analogRead(A5);
  var = map (inByte, 0, 1023, 0, 5000);
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  Serial.println(" ");
  Serial.println("Enter T To Return To The Menu.");
  if (Serial.available() > 0) {
    inByte = Serial.read();
  }
  if (inByte == 'T') {
    Menu5();
  }
  delay(800);
  SerialClear();
  Active5();
}
void Display() {
  if (showByte == 0) {
    disByte = 0;
  }
  if (showByte > 1 && showByte < 1499) {
    disByte = 1;
  }
  if (showByte > 1500 && showByte < 2499) {
    disByte = 2;
  }
  if (showByte > 2500 && showByte < 3499) {
    disByte = 3;
  }
  if (showByte > 3500 && showByte < 4499) {
    disByte = 4;
  }
  if (showByte > 4500 && showByte < 5499) {
    disByte = 5;
  }
  if (showByte > 5500 && showByte < 6499) {
    disByte = 6;
  }
  if (showByte > 6500 && showByte < 7499) {
    disByte = 7;
  }
  if (showByte > 7500 && showByte < 8499) {
    disByte = 8;
  }
  if (showByte > 8500 && showByte < 9499) {
    disByte = 9;
  }
  if (showByte > 9500 && showByte < 10000) {
    disByte = 10;
  }
    digitalWrite(2, LOW);
    digitalWrite(3, LOW);
    digitalWrite(4, LOW);
    digitalWrite(5, LOW);
    digitalWrite(6, LOW);
    digitalWrite(7, LOW);
    digitalWrite(8, LOW);
    digitalWrite(9, LOW);
    digitalWrite(10, LOW);
    digitalWrite(11, LOW);
    digitalWrite(12, LOW);
    digitalWrite(13, LOW);
    digitalWrite(A0, LOW);
    digitalWrite(A1, LOW);
  if (disByte == 1) {
    digitalWrite(2, HIGH);
  }
  if (disByte == 2) {
    digitalWrite(2, HIGH);
    digitalWrite(3, HIGH);
  }
  if (disByte == 3) {
    digitalWrite(2, HIGH);
    digitalWrite(3, HIGH);
    digitalWrite(4, HIGH);
  }
  if (disByte == 4) {
    digitalWrite(2, HIGH);
    digitalWrite(3, HIGH);
    digitalWrite(4, HIGH);
    digitalWrite(5, HIGH);
  }
  if (disByte == 5) {
    digitalWrite(2, HIGH);
    digitalWrite(3, HIGH);
    digitalWrite(4, HIGH);
    digitalWrite(5, HIGH);
    digitalWrite(6, HIGH);
  }

Alexr2311

Code: [Select]

if (disByte == 6) {
    digitalWrite(2, HIGH);
    digitalWrite(3, HIGH);
    digitalWrite(4, HIGH);
    digitalWrite(5, HIGH);
    digitalWrite(6, HIGH);
    digitalWrite(7, HIGH);
  }
  if (disByte == 7) {
    digitalWrite(2, HIGH);
    digitalWrite(3, HIGH);
    digitalWrite(4, HIGH);
    digitalWrite(5, HIGH);
    digitalWrite(6, HIGH);
    digitalWrite(7, HIGH);
    digitalWrite(8, HIGH);
  }
  if (disByte == 8) {
    digitalWrite(2, HIGH);
    digitalWrite(3, HIGH);
    digitalWrite(4, HIGH);
    digitalWrite(5, HIGH);
    digitalWrite(6, HIGH);
    digitalWrite(7, HIGH);
    digitalWrite(8, HIGH);
    digitalWrite(9, HIGH);
  }
  if (disByte == 9) {
    digitalWrite(2, HIGH);
    digitalWrite(3, HIGH);
    digitalWrite(4, HIGH);
    digitalWrite(5, HIGH);
    digitalWrite(6, HIGH);
    digitalWrite(7, HIGH);
    digitalWrite(8, HIGH);
    digitalWrite(9, HIGH);
    digitalWrite(10, HIGH);
  }
  if (disByte == 10) {
    digitalWrite(2, HIGH);
    digitalWrite(3, HIGH);
    digitalWrite(4, HIGH);
    digitalWrite(5, HIGH);
    digitalWrite(6, HIGH);
    digitalWrite(7, HIGH);
    digitalWrite(8, HIGH);
    digitalWrite(9, HIGH);
    digitalWrite(10, HIGH);
    digitalWrite(11, HIGH);
  }
}
void Main() {
  SerialClear();
  Serial.println("Arduino MultiMeter.");
  Serial.println("Coded By Alex Richman.");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println("A: Read 0-5 Volts. Pins 1-5. (And Ground).");
  Serial.println("B: Read 6-10 Volts. Pins 6-10. (And Ground).");
  Serial.println(" ");
  Serial.println("C: Test Continuity. Pins 24-28. (And +5).");
  Serial.println("Enter Option:");
  MainLoad();
}
void MainLoad() {
  LoadNumber = LoadNumber + 1;
  sIn = 0;
  sIn = Serial.read();
  if (sIn == 'A') {
    Menu5();
  }
  if (sIn == 'B') {
    Menu10();
  }
  if (sIn == 'C') {
    Contin();
  }
  if (LoadNumber == 1) {
    LoadDis1();
  }
  if (LoadNumber == 2) {
    LoadDis2();
  }
  if (LoadNumber == 3) {
    LoadDis3();
  }
  if (LoadNumber > 3) {
    LoadNumber = 0;
  }
  MainLoad();
}
void Menu10() {
    digitalWrite(2, LOW);
    digitalWrite(3, LOW);
    digitalWrite(4, LOW);
    digitalWrite(5, LOW);
    digitalWrite(6, LOW);
    digitalWrite(7, LOW);
    digitalWrite(8, LOW);
    digitalWrite(9, LOW);
    digitalWrite(10, LOW);
    digitalWrite(11, LOW);
    digitalWrite(12, LOW);
    digitalWrite(13, LOW);
    digitalWrite(A0, LOW);
    digitalWrite(A1, LOW);
  SerialClear();
  inByte = 0;
  showByte = 0;
  var = 0;
  var1 = 0;
  var2 = 0;
  var3 = 0;
  var4 = 0;
  var5 = 0;
  var6 = 0;
  var7 = 0;
  var8 = 0;
  var9 = 0;
  var10 = 0;
  disVar =0;
  avgvar = 0;
  sIn = 0;
  Serial.println("Arduino MultiMeter.");
  Serial.println("Coded By Alex Richman.");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println(" ");
  Serial.println("Put Test Voltage + To Pins 6-10, And - To Ground.");
  Serial.println(" ");
  Serial.println("Enter A To Take A Voltage Reading.");
  Serial.println("Enter B To Take An Average Voltage Reading Over 10 Seconds.");
  Serial.println("Enter C To Take An Active Voltage Reading.");
  Serial.println("Enter M To Return To The Main Menu.");
  Load10();
}
void Load10() {
  LoadNumber = LoadNumber + 1;
  inByte = 0;
  showByte = 0;
  var = 0;
  var1 = 0;
  var2 = 0;
  var3 = 0;
  var4 = 0;
  var5 = 0;
  var6 = 0;
  var7 = 0;
  var8 = 0;
  var9 = 0;
  var10 = 0;
  disVar =0;
  sIn = 0;
  avgvar = 0;
  sIn = Serial.read();
  if (sIn == 'A') {
    Read10();
  }
  if (sIn == 'B') {
    Avg10();
  }
  if (sIn == 'C') {
    SerialClear();
    Active10();
  }
  if (sIn == 'M') {
    Main();
  }
  if (LoadNumber == 1) {
    LoadDis1();
  }
  if (LoadNumber == 2) {
    LoadDis2();
  }
  if (LoadNumber == 3) {
    LoadDis3();
  }
  if (LoadNumber > 3) {
    LoadNumber = 0;
  }
  Load10();
}
void Read10() {
  SerialClear();
  inByte = analogRead(A4);
  var = map (inByte, 0, 1023, 0, 5000);
  var = var * 2;
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  Serial.println(" ");
  Serial.println("Enter T To Return To The Menu.");
  if (Serial.available() > 0) {
  while (Serial.read() != 'T');
  }
  SerialClear(); Menu10();
}
void Avg10() {
  SerialClear();
  inByte = analogRead(A4);
  var = map (inByte, 0, 1023, 0, 5000);
  var = var * 2;
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var1 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A4);
  var = map (inByte, 0, 1023, 0, 5000);
  var = var * 2;
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var2 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A4);
  var = map (inByte, 0, 1023, 0, 5000);
  var = var * 2;
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var3 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A4);
  var = map (inByte, 0, 1023, 0, 5000);
  var = var * 2;
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var4 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A4);
  var = map (inByte, 0, 1023, 0, 5000);
  var = var * 2;
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var5 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A4);
  var = map (inByte, 0, 1023, 0, 5000);
  var = var * 2;
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var6 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;


Alexr2311

#3
Jan 28, 2011, 05:29 pm Last Edit: Jan 28, 2011, 05:34 pm by Alexr2311 Reason: 1
Code: [Select]
var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A4);
  var = map (inByte, 0, 1023, 0, 5000);
  var = var * 2;
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var7 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A4);
  var = map (inByte, 0, 1023, 0, 5000);
  var = var * 2;
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var8 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A4);
  var = map (inByte, 0, 1023, 0, 5000);
  var = var * 2;
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var9 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000); Serial.println(" ");
  inByte = analogRead(A4);
  var = map (inByte, 0, 1023, 0, 5000);
  var = var * 2;
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  var10 = showByte;
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  delay(1000);
  avgvar = var1+var2+var3+var4+var5;
  avgvar = avgvar / 5;
  SerialClear();
  Serial.println("The Average Voltage Is:");
  Serial.println("MilliVolts:");
  Display();
  Serial.println(avgvar, DEC);
  var = avgvar;
  avgvar = avgvar / 1000;
  Serial.println("Volts:");
  Serial.print(avgvar, DEC);
  Serial.print(".");
  avgvar = avgvar * 1000;
  var = var - avgvar;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  Serial.println(" ");
  Serial.println("Enter T To Return To The Menu.");
  if (Serial.available() > 0) {
  while (Serial.read() != 'T');
  }
  SerialClear(); Menu10();
}
void Active10() {
  inByte = analogRead(A4);
  var = map (inByte, 0, 1023, 0, 5000);
  var = var * 2;
  showByte = var;
  Serial.println("MilliVolts:");
  Display();
  Serial.println(showByte, DEC);
  showByte = showByte / 1000;
  Serial.println("Volts:");
  Serial.print(showByte, DEC);
  Serial.print(".");
  showByte = showByte * 1000;
  var = var - showByte;
  Serial.print(var, DEC);
  Serial.println(" ");
  Serial.println("-");
  Serial.println(" ");
  Serial.println("Enter T To Return To The Menu.");
  if (Serial.available() > 0) {
    inByte = Serial.read();
  }
  if (inByte == 'T') {
    Menu10();
  }
  delay(800);
  SerialClear();
  Active10();
}
void LoadDis1() {
  digitalWrite(2, HIGH);
  digitalWrite(11, HIGH);
  delay(150);
  digitalWrite(3, HIGH);
  digitalWrite(10, HIGH);
  delay(150);
  digitalWrite(4, HIGH);
  digitalWrite(9, HIGH);
  delay(150);
  digitalWrite(5, HIGH);
  digitalWrite(8, HIGH);
  delay(150);
  digitalWrite(6, HIGH);
  digitalWrite(7, HIGH);
  delay(150);
  digitalWrite(2, LOW);
  digitalWrite(11, LOW);
  delay(150);
  digitalWrite(3, LOW);
  digitalWrite(10, LOW);
  delay(150);
  digitalWrite(4, LOW);
  digitalWrite(9, LOW);
  delay(150);
  digitalWrite(5, LOW);
  digitalWrite(8, LOW);
  delay(150);
  digitalWrite(6, LOW);
  digitalWrite(7, LOW);
  delay(150);
}
void LoadDis2() {
  digitalWrite(2, HIGH);
  delay(150);
  digitalWrite(2, LOW);
  digitalWrite(3, HIGH);
  delay(150);
  digitalWrite(3, LOW);
  digitalWrite(4, HIGH);
  delay(150);
  digitalWrite(4, LOW);
  digitalWrite(5, HIGH);
  delay(150);
  digitalWrite(5, LOW);
  digitalWrite(6, HIGH);
  delay(150);
  digitalWrite(6, LOW);
  digitalWrite(7, HIGH);
  delay(150);
  digitalWrite(7, LOW);
  digitalWrite(8, HIGH);
  delay(150);
  digitalWrite(8, LOW);
  digitalWrite(9, HIGH);
  delay(150);
  digitalWrite(9, LOW);
  digitalWrite(10, HIGH);
  delay(150);
  digitalWrite(10, LOW);
  digitalWrite(11, HIGH);
  delay(150);
  digitalWrite(11, LOW);
  delay(150);
}

void LoadDis3() {
  digitalWrite(11, HIGH);
  delay(150);
  digitalWrite(10, HIGH);
  delay(150);
  digitalWrite(9, HIGH);
  delay(150);
  digitalWrite(8, HIGH);
  delay(150);
  digitalWrite(7, HIGH);
  delay(150);
  digitalWrite(6, HIGH);
  delay(150);
  digitalWrite(5, HIGH);
  delay(150);
  digitalWrite(4, HIGH);
  delay(150);
  digitalWrite(3, HIGH);
  delay(150);
  digitalWrite(2, HIGH);
  delay(150);
  digitalWrite(11, LOW);
  delay(150);
  digitalWrite(10, LOW);
  delay(150);
  digitalWrite(9, LOW);
  delay(150);
  digitalWrite(8, LOW);
  delay(150);
  digitalWrite(7, LOW);
  delay(150);
  digitalWrite(6, LOW);
  delay(150);
  digitalWrite(5, LOW);
  delay(150);
  digitalWrite(4, LOW);
  delay(150);
  digitalWrite(3, LOW);
  delay(150);
  digitalWrite(2, LOW);
  delay(150);
}
void Contin() {
  analogWrite(A3, HIGH);
  SerialClear();
  Serial.println("Testing For Continuity.");
  Serial.println("Enter M To Return To The Main Menu.");
  TContin();
  digitalWrite(11, LOW);
  digitalWrite(10, LOW);
  digitalWrite(9, LOW);
  digitalWrite(8, LOW);
  digitalWrite(7, LOW);
  digitalWrite(6, LOW);
  digitalWrite(5, LOW);
  digitalWrite(4, LOW);
  digitalWrite(3, LOW);
  digitalWrite(2, LOW);
  digitalWrite(12, LOW);
  SerialClear();
  Main();
}
void TContin() {
  inByte = digitalRead(A3);
  SerialClear();
  if (inByte == 1) {
  digitalWrite(11, HIGH);
  digitalWrite(10, HIGH);
  digitalWrite(9, HIGH);
  digitalWrite(8, HIGH);
  digitalWrite(7, HIGH);
  digitalWrite(6, HIGH);
  digitalWrite(5, HIGH);
  digitalWrite(4, HIGH);
  digitalWrite(3, HIGH);
  digitalWrite(2, HIGH);
  digitalWrite(12, HIGH);
  SerialClear();
  Serial.println("Testing For Continuity.");
  Serial.println("Enter M To Return To The Main Menu.");
  Serial.println("CLOSED.");
  } else {
  digitalWrite(11, LOW);
  digitalWrite(10, LOW);
  digitalWrite(9, LOW);
  digitalWrite(8, LOW);
  digitalWrite(7, LOW);
  digitalWrite(6, LOW);
  digitalWrite(5, LOW);
  digitalWrite(4, LOW);
  digitalWrite(3, LOW);
  digitalWrite(2, LOW);
  digitalWrite(12, LOW);
  SerialClear();
  Serial.println("Testing For Continuity.");
  Serial.println("Enter M To Return To The Main Menu.");
  Serial.println(" ");
  Serial.println("OPEN.");
  }
  inByte = Serial.read();
  if (inByte == 'M') {
  digitalWrite(11, LOW);
  digitalWrite(10, LOW);
  digitalWrite(9, LOW);
  digitalWrite(8, LOW);
  digitalWrite(7, LOW);
  digitalWrite(6, LOW);
  digitalWrite(5, LOW);
  digitalWrite(4, LOW);
  digitalWrite(3, LOW);
  digitalWrite(2, LOW);
  digitalWrite(12, LOW);
    SerialClear();
    Main();
  }
  delay(800);
  TContin();
}
   


I couldnt work out the forum picture embed stuff, so here's a link to a picture of my
wiring.

http://s1216.photobucket.com/albums/dd362/Alexrichman2311/?action=view&current=Image001.jpg

Cheers
Alex.

P.S Sorry for the multiple posts, couldnt fit the code in one... or two... or indeed three.

P.P.S After looking at the posts, i realise that the code isn't easy to read or self explainitory in any way. Appologies for this, but it should work if you paste it into a new scetch. (And wire it all up).

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