SG90 Servo

From Sketching with Hardware at LMU Wiki
Jump to navigation Jump to search

IMPORTANT

In many computers the current is not enough to drive the servo!!!

If it does not work, keeps disconnecting, or rebooting the ESP the power is not sufficent and you need a capacitor ot an extra power supply.

See the video for details how to do this.

Schematic - Connecting the SG90

Servo00.jpg

Servo01.jpg

Code Examples ESP8266

Basic control

Assuming the servo is connected to Pin 5.

 1 from machine import Pin,PWM
 2 from time import sleep
 3 
 4 servoPin = Pin(5, Pin.OUT)
 5 pwm =  PWM(servoPin, freq=50)
 6 pwm.deinit() # workaround to reset PWM
 7 pwm = PWM(servoPin, freq=50)
 8 
 9 val = 50
10 
11 while True:
12   pwm.duty(val)
13   val = val + 1
14   if val>100:
15     val = 50
16   print(val)
17   sleep(0.05)

Controlling the servo with a Poti

A0 is the analog input with 10 bit resolution. It reads the analog value every second and print it to the console and sets the servo based on the analog input.

 1 from machine import Pin, ADC, PWM
 2 from time import sleep
 3 
 4 analogPin = ADC(0)
 5 servoPin = Pin(5, Pin.OUT)
 6 pwm =  PWM(servoPin, freq=50)
 7 pwm.deinit()
 8 pwm = PWM(servoPin, freq=50)
 9 
10 while True:
11   analogVal = analogPin.read()
12   pwm.duty(int(analogVal/10))
13   print(analogVal)
14   sleep(1)


Related Tutorial Videos

PWM Output: connecting a servo and and LED


Power Issues

When connecting the servo to the ESP32 or ESP8266 it may not work at all, may restart at random times, or may move to a wrong angle. This is typically a power issue. The ESP-board is and the USB-output of the computer does not provide enough power. There are two fixes: adding a big capacitor (e.g. 2000 uF) or adding an external power source. The external power source is the better solution.

Have a look at the video for details.

Adding a Capacitor

PowerElko.JPG

Connecting an external Power Source

PowerUSB.JPG PowerUSB-module.JPG

PowerUSB-setup.JPG