Hardware

A Raspberry Pi Pico Relay Board

rp2040guy7112k views

The Raspberry Pi Pico Relay Board from sbcomponents allows your Raspberry Pi Pico to control up to 4 devices with loads up to 240V AC / 7A or 30V DC / 10A.

The 4 channels have an opto-isolator, here is what an opto-isolator does

An opto-isolator (also called an optocoupler, photocoupler, or optical isolator) is an electronic component that transfers electrical signals between two isolated circuits by using light.

Opto-isolators prevent high voltages from affecting the system receiving the signal. Commercially available opto-isolators withstand input-to-output voltages up to 10 kV and voltage transients with speeds up to 25 kV/μs.

A common type of opto-isolator consists of an LED and a phototransistor in the same opaque package. Other types of source-sensor combinations include LED-photodiode, LED-LASCR, and lamp-photoresistor pairs. Usually opto-isolators transfer digital (on-off) signals, but some techniques allow them to be used with analog signals.

Each relay also includes an indicator LED for easy debugging. Relay control jumpers allow users to control the relays by custom pins other than the default pins.

The board uses GP18, Gp19, GP20 and GP21 to control the individual relays – so these will not be available for other devices, sensors or modules

To switch the Relay On set the output to 1, To switch the Relay Off set the output to 0

Relay_board pinout

Features

4 High-quality Relay and loads up to 240V AC @ 7A, 30V DC @ 10A
opto-isolator (CTR: 50-600% at IF =5mA, VCE =5V)
Indicator LEDs for Relay output status
Relay control jumpers allow the user to control the relays by custom pins other than the default pins
Female header for fitting a Raspberry Pi Pico (with male headers attached)
Male headers break out all Pico GPIO pins for prototyping with jumper wires

Specifications

  • Channels – 4
  • Operating Voltage – 5V
  • Switching Voltage (VAC) – 7A/ 250V
  • Switching Voltage(VDC) – 10A/ 30V
  • Dimensions – 58 x 21 mm

Code

[codesyntax lang=”python”]

from machine import Pin
import utime

relay1 = Pin(18, Pin.OUT)
relay2 = Pin(19, Pin.OUT)
relay3 = Pin(20, Pin.OUT)
relay4 = Pin(21, Pin.OUT)

def AllOn():
    relay1.value(1)
    relay2.value(1)
    relay3.value(1)
    relay4.value(1)
    
 def AllOff():
    relay1.value(0)
    relay2.value(0)
    relay3.value(0)
    relay4.value(0)

while True:
    AllOn()
    utime.sleep(1)
    AllOff()
    utime.sleep(1)
    relay1.toggle()
    utime.sleep(0.5)
    relay2.toggle()
    utime.sleep(0.5)
    relay3.toggle()
    utime.sleep(0.5)
    relay4.toggle()
    utime.sleep(0.5)

[/codesyntax]

Purchase

sb components Raspberry Pi Pico Board with Raspberry Pi Pico Relay Board, Multi-purpose Relay Board Control up to 4 Appliances Raspberry Pi Pico Kit

Links

There is a C++ example – https://github.com/sbcshop/Raspberry-Pi-Pico-Relay-Board

Related posts:

  1. Pico Unicorn Pack for the Raspberry Pi Pico
  2. A 1.3inch OLED Display Module for Raspberry Pi Pico
  3. Raspberry Pi Pico and Pico-10DOF-IMU circuitpython example
  4. An RTC expansion module for the Raspberry Pi Pico

Related posts

An RP2040 board in a Microbit form factor

A board that turns a RP2040 into a Raspberry Pi Zero

StackyPi – Raspberry Pi RP2040 based Board in a Pi Zero format

1 comment

ICYMI Python on Microcontrollers Newsletter: Python Developer’s Survey ’23, Raspberry 5 Experimentation, GitHub Pivots and more! #CircuitPython #Python #micropython #ICYMI @Raspberry_Pi « Adafruit Industries – Makers, hackers, artists, des 14 November 2023 - 3:02 pm
[…] A Raspberry Pi Pico relay board programmed in MicroPython – RP2040 Learning. […]

Comments are closed.

Add Comment

This website uses cookies to improve your experience. We'll assume you're ok with this, but you can opt-out if you wish. Read More