Ks0013 keyestudio Rotary Encoder Module: Difference between revisions

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==Introduction==
==Introduction==
The rotary encoder can count the pulse outputting times during the process of rotation in positive and reverse direction by rotating. This rotating counting is unlimited, not like potential counting. It can be restored to initial state to count from 0.
The rotary encoder can count the pulse outputting times during the process of rotation in positive and reverse direction by rotating. This rotating counting is unlimited, not like potential counting. It can be restored to initial state to count from 0.
 
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*Power Supply: 5V
*Power Supply: 5V
*Interface: Digital
*Interface: Digital


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==Sample Code ==
==Sample Code ==
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==Resources ==
==Resources ==


'''Video'''<br>
* '''Video'''<br>
http://video.keyestudio.com/ks0013/
http://video.keyestudio.com/ks0013/


'''PDF and Code:'''<br>
* '''PDF and Code:'''<br>
https://drive.google.com/open?id=1Haca67UfKEHv0ssZ5b8TKQKGxyi9z0e9
https://fs.keyestudio.com/KS0013




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==Get One Now==
==Get One Now==



Latest revision as of 11:23, 8 January 2021


Introduction

The rotary encoder can count the pulse outputting times during the process of rotation in positive and reverse direction by rotating. This rotating counting is unlimited, not like potential counting. It can be restored to initial state to count from 0.
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Specification

  • Power Supply: 5V
  • Interface: Digital


Connection Diagram


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Sample Code

const int interruptA = 0;       
const int interruptB = 1;       
int CLK = 2;     // PIN2
int DAT = 3;     // PIN3
int BUTTON = 4;  // PIN4
int LED1 = 5;    // PIN5
int LED2 = 6;    // PIN6
int COUNT = 0;

void setup() 
 {
  attachInterrupt(interruptA, RoteStateChanged, FALLING);
 // attachInterrupt(interruptB, buttonState, FALLING);
  pinMode(CLK, INPUT); 
  digitalWrite(2, HIGH);  // Pull High Restance  
  pinMode(DAT, INPUT); 
  digitalWrite(3, HIGH);  // Pull High Restance 
 
pinMode(BUTTON, INPUT); 
  digitalWrite(4, HIGH);  // Pull High Restance
  pinMode(LED1, OUTPUT); 
  pinMode(LED2, OUTPUT); 
   Serial.begin(9600);
 }


void loop() 
{
  if  (!(digitalRead(BUTTON))) 
    {
     COUNT = 0;  
     Serial.println("STOP COUNT = 0");
     digitalWrite(LED1, LOW);
     digitalWrite(LED2, LOW);
     delay (2000);
    }
     Serial.println(COUNT);  
}

//-------------------------------------------
void RoteStateChanged() //When CLK  FALLING READ DAT
{
 if  (digitalRead(DAT)) // When DAT = HIGH IS FORWARD
   {
    COUNT++;
    digitalWrite(LED1, HIGH);
    digitalWrite(LED2, LOW);
    delay(20);
   }
 else                   // When DAT = LOW IS BackRote
   {
    COUNT--;
    digitalWrite(LED2, HIGH);
    digitalWrite(LED1, LOW);
    delay(20);
   }
}



Result

Wiring well and uploading the above code, you can rotate the encoder module to randomly control two LED modules on and off.
When you rotate the encoder module, one LED module is turned on first but another one is off. If you continue to rotate the encoder module, one LED module becomes off while another one is turned on, repeatedly.
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Resources

  • Video

http://video.keyestudio.com/ks0013/

  • PDF and Code:

https://fs.keyestudio.com/KS0013



Get One Now