Difference between revisions of "Lesson 9--Microduino "DIY Multimeter""

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(Objective)
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Previously, we introduced analogRead() and its return values of 0~1024. In this lesson, we will use the analog port of [[Microduino-Core]] to make a multimeter with the range of 0-5 V.
 
Previously, we introduced analogRead() and its return values of 0~1024. In this lesson, we will use the analog port of [[Microduino-Core]] to make a multimeter with the range of 0-5 V.
  
'''Important: The design of the experiment does not have an effective protection circuit. Please don't use more than two AA batteries and don't use the circuit to measure a lithium battery or any other power supply!'''
+
'''Important: The design of this experiment does not have an effective protection circuit. Please do not use more than two AA batteries and do not use the circuit to measure a lithium battery or any other power supply!'''
  
 
==Equipment==
 
==Equipment==

Revision as of 07:44, 15 July 2015

Language: English  • 中文

Objective

Previously, we introduced analogRead() and its return values of 0~1024. In this lesson, we will use the analog port of Microduino-Core to make a multimeter with the range of 0-5 V.

Important: The design of this experiment does not have an effective protection circuit. Please do not use more than two AA batteries and do not use the circuit to measure a lithium battery or any other power supply!

Equipment

Lesson9All.jpg

Experiment Schematic

Less0n9-schematic.jpg

Program

float temp;   // Define a float variable temp to save data.
void setup()
{
  Serial.begin(9600);     //Set baud rate 9600
}
void loop()
{
 
  int V1 = analogRead(A0);                    
// Read the voltage data from A0 and store it in variable V1. The voltage range is 0-5V and returns values 0-1024. 
  float vol = V1*(5.0 / 1023.0);               
//Convert the V1 to the voltage value and store it in vol
  if (vol == temp)                             
//Use to filter duplicate data, Only the voltage value and the last isn't same then output the value.
  {
    temp = vol;                               //Compared, then store in temp variable "temp"
  }
  else
  { 
    Serial.print(vol);                       //Serial output voltage, nowrap  
    Serial.println(" V");                    //Serial output character "V", and wrap
    temp = vol;
    delay(1000);                           //Wait for 1s, use to refresh the data
  }
}

We didn't use the map() function in this example, but you can try it yourself!

Result

When the measured voltage changes, refresh the data every second. It is normal if there is a difference between two measurements of the same battery. This is because this is still simply a low accuracy test. If you need a high accuracy test, you can take a look at: http://www.hacktronics.com/Tutorials/arduino-current-sensor.html

Lesson9Result.jpg

Video

https://www.youtube.com/watch?v=bhaj_QhRE-Q