KS0550 Keyestudio Servo Driver Expansion Board(Black and Eco-friendly)

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Description

This is an Arduino servo driver shield. It has a PS2 interface for using a PS2 handle control. It contains 10 IO interfaces used to connect servos or other sensors. in addition, we have also extended RX/TX interfaces to interface with serial communication modules like BT modules. There are two LM2596 voltage regulator ICs onboard, which can provide a stable 600mA current for each servo.It is also applied to mechanical structures such as robotic arms.

Specification

  • Input voltage VIN: DC 7-9V
  • Input current VIN: maximum 5A
  • Output voltage: 5V
  • Output current: max 3A
  • Voltage regulator IC: LM2596S
  • Frequency: 150kHz
  • PS2 interface: PS2 female 9P socket
  • Working temperature: 0~50
  • Size: 73*53.34mm


Pin-out

Wiring Diagram

Test Code

#include <Servo.h>
Servo myservo1;  
Servo myservo2;
Servo myservo3;
Servo myservo4;
int pos1 =0;
void setup()
{
  myservo1.attach(A1);  
  myservo2.attach(A0);
  myservo3.attach(8);
  myservo4.attach(9);
  
  myservo1.write(0);
  myservo2.write(0);
  myservo3.write(0);
  myservo4.write(0);
  delay(1000);
}

void loop() 
{
    for (pos1 = 0; pos1 <= 180; pos1 += 1) { // from 0 to 180
     myservo1.write(pos1);                // servo 1 rotates to pos1
     myservo2.write(pos1);                // servo 2 rotates to pos1
     myservo3.write(pos1);                // servo 3 rotates to pos1
     myservo4.write(pos1);           // servo 4 rotates to pos1
    delay(10);                          //control the speed of servos
  }
  for (pos1 = 180; pos1 >= 0; pos1 -= 1) { //from 180 to 0
     myservo1.write(pos1);           // servo 1 rotates to pos1
     myservo2.write(pos1);           // servo 2 rotates to pos1
     myservo3.write(pos1);           // servo 3 rotates to pos1
     myservo4.write(pos1);           // servo 4 rotates to pos1
    delay(10);
  }


}

Test Result

Stack the driver board onto the control board, wire up and upload the code. Four servos rotate from 0° to 180°, then from 180° to 0°.

Test Result

Stack the driver board onto the control board, wire up and upload the code. Four servos rotate from 0° to 180°, then from 180° to 0°