Category Archives: Arduino

In this video lesson we will show you how to incorporate accelerometers into your Arduino projects. Your Sunfounder kit includes the GY-87 IMU module. This module contains a BMP180 pressure sensor, which we have already used in earlier lessons, and an MPU6050 6 axis IMU. The MPU6050 includes 3 accelerometers and 3 gyros. In today’s lesson, we learn how to use the MPU6050 accelerometers. I will explain how these MEMS bases accelerometers work, and how we can use them in our project.

This is the schematic we use in todays lesson.

MPU6050 — Schematic for connecting the GY-87 module to the Arduino

For your convenience, the code developed in the lesson is presented below:

#include <Adafruit_MPU6050.h>
#include <Adafruit_Sensor.h>
#include <Wire.h>
float Ax;
float Ay;

Adafruit_MPU6050 mpu;

void setup() {
  // put your setup code here, to run once:
  Serial.begin(115200);
  mpu.begin();
  Serial.println("MPU6050 Started!");
  mpu.setAccelerometerRange(MPU6050_RANGE_2_G);
  mpu.setFilterBandwidth(MPU6050_BAND_21_HZ);


}

void loop() {
  // put your main code here, to run repeatedly:
  sensors_event_t a, g, temp;
  mpu.getEvent(&a, &g, &temp);
  Ax=a.acceleration.x/9.81;
  Ay=a.acceleration.y/9.81;

  Serial.print(Ax);
  Serial.print(',');
  Serial.println(Ay);

  delay(50);

}

#include <Adafruit_MPU6050.h>

#include <Adafruit_Sensor.h>

#include <Wire.h>

float Ax;

float Ay;

Adafruit_MPU6050 mpu;

void setup() {

// put your setup code here, to run once:

Serial.begin(115200);

mpu.begin();

Serial.println("MPU6050 Started!");

mpu.setAccelerometerRange(MPU6050_RANGE_2_G);

mpu.setFilterBandwidth(MPU6050_BAND_21_HZ);

}

void loop() {

// put your main code here, to run repeatedly:

sensors_event_t a, g, temp;

mpu.getEvent(&a, &g, &temp);

Ax=a.acceleration.x/9.81;

Ay=a.acceleration.y/9.81;

Serial.print(Ax);

Serial.print(',');

Serial.println(Ay);

delay(50);

}

Arduino, Python

Controlling Brightness of Arduino LED Remotely Using PyQt and WiFi

June 25, 2025 admin

In this lesson we will use PyQt5, UDP and WiFi to control the brightness of an Arduino LED circuit remotely. The PyQt generates a constantly updating sin wave, which it plots on a PyQt graph, and then transfers the brightness in real time to the arduino project. This lesson teaches many important skills including UDP, WiFi, PyQt5, Python, Arduino and LEDs.

When using the breadvolt, or any battery power supply on a breadboard project, do not turn the power supply on while the Arduino is connected to USB, as you could generate voltage conflicts. It is an either or. If the USB is connected, the power supply should be OFF. The schematic for the arduino circuit is shown below:

Schematic of our Arduino Uno R4 Wifi connected to an RGB LED

In the video, we develop code for the server, on the arduino, and the client, running in Python on the desktop. We present the code below for your convenience.

This is the Server code for the Arduino:

#include <WiFiS3.h>
#include "secrets.h"
WiFiUDP udp;
int PORT = 12345;
String myString;
String stringArray[10];
String response = "ACK";
int redPin=9;
void setup() {
  Serial.begin(9600);
  pinMode(redPin,OUTPUT);
  Serial.print("Connecting to ");
  Serial.println(mySSID);
  WiFi.begin(mySSID, myPASS);
  while (WiFi.status() != WL_CONNECTED) {
    delay(100);
    Serial.print(".");
  }
  Serial.println("\nConnected to WiFi");
  Serial.println(WiFi.localIP());
  udp.begin(PORT);
  Serial.print("UDP Server started on port ");
  Serial.print(PORT);
  // put your setup code here, to run once:
}
void splitString() {
  int startIndex = 0;
  int indexCount = 0;
  int i;
  int j;
  myString = myString + ':';
  for (i = 0; i < myString.length(); i = i + 1) {
    if (myString[i] == ':') {
      stringArray[indexCount] = myString.substring(startIndex, i);
      indexCount = indexCount + 1;
      startIndex = i + 1;
    }
  }
}

void loop() {
  // put your main code here, to run repeatedly:
  if (udp.parsePacket()) {
    myString = udp.readStringUntil('\n');
    splitString();
    analogWrite(redPin,stringArray[0].toInt());
  }
}

#include <WiFiS3.h>

#include "secrets.h"

WiFiUDP udp;

int PORT = 12345;

String myString;

String stringArray[10];

String response = "ACK";

int redPin=9;

void setup() {

Serial.begin(9600);

pinMode(redPin,OUTPUT);

Serial.print("Connecting to ");

Serial.println(mySSID);

WiFi.begin(mySSID, myPASS);

while (WiFi.status() != WL_CONNECTED) {

delay(100);

Serial.print(".");

}

Serial.println("\nConnected to WiFi");

Serial.println(WiFi.localIP());

udp.begin(PORT);

Serial.print("UDP Server started on port ");

Serial.print(PORT);

// put your setup code here, to run once:

}

void splitString() {

int startIndex = 0;

int indexCount = 0;

int i;

int j;

myString = myString + ':';

for (i = 0; i < myString.length(); i = i + 1) {

if (myString[i] == ':') {

stringArray[indexCount] = myString.substring(startIndex, i);

indexCount = indexCount + 1;

startIndex = i + 1;

}

void loop() {

// put your main code here, to run repeatedly:

if (udp.parsePacket()) {

myString = udp.readStringUntil('\n');

splitString();

analogWrite(redPin,stringArray[0].toInt());

}

You will need to open a new tab, and save the following code as “secrets.h” with the program above.

#define mySSID "Your WiFi Name"
#define myPASS "Your WiFi Password"

1 2	#define mySSID "Your WiFi Name" #define myPASS "Your WiFi Password"

On the Python side, this is the Client code:

import pyqtgraph as pg
from PyQt5.QtWidgets import *
from PyQt5.QtCore import *
from PyQt5.QtGui import QGuiApplication
import sys
from math import sin,pi
import time
import socket
 
# Arduino’s IP address (from Arduino Serial Monitor)
HOST = "192.168.88.120"  # Use Your Arduino's IP. It will print when
                        #You Run the Arduino Server Program
PORT = 12345            # Must match Arduino’s UDP port
 
# Create a UDP socket
mySocket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
mySocket.settimeout(5.0)  # 5 seconds timeout for responses

Period = 5
frequency = 1/Period
numPoints = 500
timeStep = Period/numPoints
redData = [0]*numPoints
timeData =[0]*numPoints

app = QApplication([])
window = QMainWindow()
window.setWindowTitle("Red Sine Wave Graph")
window.setGeometry(100,100,800,600)

screens =QGuiApplication.screens()
window.move(screens[1].geometry().x() +100,screens[1].geometry().y() +100)

widgetContainer =QWidget()
window.setCentralWidget(widgetContainer)

mainLayout = QVBoxLayout(widgetContainer)

plotWidget = pg.PlotWidget()
plotWidget.setLabel("left", "y=sin(2*Pi*f*t")
plotWidget.setLabel("bottom", "Time (s)")
plotWidget.setTitle("My Fine Sin Wave")
plotWidget.addLegend()
mainLayout.addWidget(plotWidget)

for i in range(numPoints):
    t = i * timeStep
    timeData[i] = t
    redData[i] = sin(2*pi*frequency*t)

redPlot = plotWidget.plot(timeData,redData, pen=pg.mkPen("r", width=3), name="Red")
tStart = time.perf_counter()
def updateGraph():
    global t,tStart,frequency
    t = t +timeStep
    r= sin(2*pi*frequency*t)
    redWrite = int((r*255 + 255)/2)
    myData= str(redWrite)+'\n'
    myDataEncoded=myData.encode()
    mySocket.sendto(myDataEncoded, (HOST,PORT))
    for i in range(numPoints -1):
        redData[i] = redData[i+1]
        timeData[i] = timeData[i+1]
    redData[numPoints - 1] = r
    timeData[numPoints -1] = t
    redPlot.setData(timeData,redData)
    if redData[0] <=0 and redData[1] > 0:
        measuredPeriod = time.perf_counter() - tStart
        print("Measured Period: ",measuredPeriod)
        tStart = time.perf_counter()

timer = QTimer()
timer.timeout.connect(updateGraph)
timer.start(int(timeStep*1000))

window.show()
sys.exit(app.exec_())

import pyqtgraph as pg

from PyQt5.QtWidgets import *

from PyQt5.QtCore import *

from PyQt5.QtGui import QGuiApplication

import sys

from math import sin,pi

import time

import socket

# Arduino’s IP address (from Arduino Serial Monitor)

HOST = "192.168.88.120" # Use Your Arduino's IP. It will print when

#You Run the Arduino Server Program

PORT = 12345 # Must match Arduino’s UDP port

# Create a UDP socket

mySocket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)

mySocket.settimeout(5.0) # 5 seconds timeout for responses

Period = 5

frequency = 1/Period

numPoints = 500

timeStep = Period/numPoints

redData = [0]*numPoints

timeData =[0]*numPoints

app = QApplication([])

window = QMainWindow()

window.setWindowTitle("Red Sine Wave Graph")

window.setGeometry(100,100,800,600)

screens =QGuiApplication.screens()

window.move(screens[1].geometry().x() +100,screens[1].geometry().y() +100)

widgetContainer =QWidget()

window.setCentralWidget(widgetContainer)

mainLayout = QVBoxLayout(widgetContainer)

plotWidget = pg.PlotWidget()

plotWidget.setLabel("left", "y=sin(2*Pi*f*t")

plotWidget.setLabel("bottom", "Time (s)")

plotWidget.setTitle("My Fine Sin Wave")

plotWidget.addLegend()

mainLayout.addWidget(plotWidget)

for i in range(numPoints):

t = i * timeStep

timeData[i] = t

redData[i] = sin(2*pi*frequency*t)

redPlot = plotWidget.plot(timeData,redData, pen=pg.mkPen("r", width=3), name="Red")

tStart = time.perf_counter()

def updateGraph():

global t,tStart,frequency

t = t +timeStep

r= sin(2*pi*frequency*t)

redWrite = int((r*255 + 255)/2)

myData= str(redWrite)+'\n'

myDataEncoded=myData.encode()

mySocket.sendto(myDataEncoded, (HOST,PORT))

for i in range(numPoints -1):

redData[i] = redData[i+1]

timeData[i] = timeData[i+1]

redData[numPoints - 1] = r

timeData[numPoints -1] = t

redPlot.setData(timeData,redData)

if redData[0] <=0 and redData[1] > 0:

measuredPeriod = time.perf_counter() - tStart

print("Measured Period: ",measuredPeriod)

tStart = time.perf_counter()

timer = QTimer()

timer.timeout.connect(updateGraph)

timer.start(int(timeStep*1000))

window.show()

sys.exit(app.exec_())

Arduino, Python

Plot Live Data in Python Using PyQt5

June 18, 2025 admin

In this video lesson we show you how to plot live data in Python using PyQt5. In this lesson, we generate the data in python on the fly, but in future lessons we will bring the data in from the Arduino Project over WiFi using UDP. For your convenience, the code we developed in this lesson is below:

import pyqtgraph as pg
from PyQt5.QtWidgets import *
from PyQt5.QtCore import *
from PyQt5.QtGui import QGuiApplication
import sys
from math import sin,pi
import time

Period = 5
frequency = 1/Period
numPoints = 500
timeStep = Period/numPoints
redData = [0]*numPoints
timeData =[0]*numPoints

app = QApplication([])
window = QMainWindow()
window.setWindowTitle("Red Sine Wave Graph")
window.setGeometry(100,100,800,600)

#screens =QGuiApplication.screens()
#window.move(screens[1].geometry().x() +100,screens[1].geometry().y() +100)

widgetContainer =QWidget()
window.setCentralWidget(widgetContainer)

mainLayout = QVBoxLayout(widgetContainer)

plotWidget = pg.PlotWidget()
plotWidget.setLabel("left", "y=sin(2*Pi*f*t")
plotWidget.setLabel("bottom", "Time (s)")
plotWidget.setTitle("My Fine Sin Wave")
plotWidget.addLegend()
mainLayout.addWidget(plotWidget)

for i in range(numPoints):
    t = i * timeStep
    timeData[i] = t
    redData[i] = sin(2*pi*frequency*t)

redPlot = plotWidget.plot(timeData,redData, pen=pg.mkPen("r", width=3), name="Red")
tStart = time.perf_counter()
def updateGraph():
    global t,tStart,frequency
    t = t +timeStep
    r= sin(2*pi*frequency*t)
    for i in range(numPoints -1):
        redData[i] = redData[i+1]
        timeData[i] = timeData[i+1]
    redData[numPoints - 1] = r
    timeData[numPoints -1] = t
    redPlot.setData(timeData,redData)
    if redData[0] <=0 and redData[1] > 0:
        measuredPeriod = time.perf_counter() - tStart
        print("Measured Period: ",measuredPeriod)
        tStart = time.perf_counter()

timer = QTimer()
timer.timeout.connect(updateGraph)
timer.start(int(timeStep*1000))

window.show()
sys.exit(app.exec_())

import pyqtgraph as pg

from PyQt5.QtWidgets import *

from PyQt5.QtCore import *

from PyQt5.QtGui import QGuiApplication

import sys

from math import sin,pi

import time

Period = 5

frequency = 1/Period

numPoints = 500

timeStep = Period/numPoints

redData = [0]*numPoints

timeData =[0]*numPoints

app = QApplication([])

window = QMainWindow()

window.setWindowTitle("Red Sine Wave Graph")

window.setGeometry(100,100,800,600)

#screens =QGuiApplication.screens()

#window.move(screens[1].geometry().x() +100,screens[1].geometry().y() +100)

widgetContainer =QWidget()

window.setCentralWidget(widgetContainer)

mainLayout = QVBoxLayout(widgetContainer)

plotWidget = pg.PlotWidget()

plotWidget.setLabel("left", "y=sin(2*Pi*f*t")

plotWidget.setLabel("bottom", "Time (s)")

plotWidget.setTitle("My Fine Sin Wave")

plotWidget.addLegend()

mainLayout.addWidget(plotWidget)

for i in range(numPoints):

t = i * timeStep

timeData[i] = t

redData[i] = sin(2*pi*frequency*t)

redPlot = plotWidget.plot(timeData,redData, pen=pg.mkPen("r", width=3), name="Red")

tStart = time.perf_counter()

def updateGraph():

global t,tStart,frequency

t = t +timeStep

r= sin(2*pi*frequency*t)

for i in range(numPoints -1):

redData[i] = redData[i+1]

timeData[i] = timeData[i+1]

redData[numPoints - 1] = r

timeData[numPoints -1] = t

redPlot.setData(timeData,redData)

if redData[0] <=0 and redData[1] > 0:

measuredPeriod = time.perf_counter() - tStart

print("Measured Period: ",measuredPeriod)

tStart = time.perf_counter()

timer = QTimer()

timer.timeout.connect(updateGraph)

timer.start(int(timeStep*1000))

window.show()

sys.exit(app.exec_())

Arduino, Arduino with Python, Tutorial

PyQt5 Project to Control Arduino RGB LED Over WiFi

June 12, 2025 admin

In this video lesson we add slider bars to our PyQt Widget allowing us to control the color of an RGB LED over WiFi. When using the breadvolt, or any battery power supply on a breadboard project, do not turn the power supply on while the Arduino is connected to USB, as you could generate voltage conflicts. It is an either or. If the USB is connected, the power supply should be OFF. Or if you are going to connect the USB, first turn off the power supply. The schematic for the project circuit is shown below:

The server side code developed in the video is presented below:

#include <WiFiS3.h>
#include "secrets.h"
WiFiUDP udp;
int PORT = 12345;
String myString;
String stringArray[10];
String response = "ACK\n";

int redPin = 9;
int greenPin = 10;
int bluePin = 11;

void setup() {
  Serial.begin(9600);
  pinMode(redPin,OUTPUT);
  pinMode(greenPin,OUTPUT);
  pinMode(bluePin,OUTPUT);
  Serial.print("Connecting to ");
  Serial.println(mySSID);
  WiFi.begin(mySSID, myPASS);
  while (WiFi.status() != WL_CONNECTED) {
    delay(100);
    Serial.print(".");
  }
  Serial.println("\nConnected to WiFi");
  Serial.println(WiFi.localIP());
  udp.begin(PORT);
  Serial.print("UDP Server started on port ");
  Serial.print(PORT);
  // put your setup code here, to run once:
}
void splitString() {
  int startIndex = 0;
  int indexCount = 0;
  int i;
  int j;
  myString = myString + ':';
  for (i = 0; i < myString.length(); i = i + 1) {
    if (myString[i] == ':') {
      stringArray[indexCount] = myString.substring(startIndex, i);
      indexCount = indexCount + 1;
      startIndex = i + 1;
    }
  }
  for (j = 0; j < indexCount; j = j + 1) {
    Serial.println(stringArray[j]);
  }
}

void loop() {
  // put your main code here, to run repeatedly:
  if (udp.parsePacket()) {
    myString = udp.readStringUntil('\n');
    Serial.println("Received : " + myString);
    udp.beginPacket(udp.remoteIP(), udp.remotePort());
    udp.print(response);
    udp.endPacket();
    Serial.println("SENT: " + response);
    splitString();
    if (stringArray[0]=="redblink"){
      for (int i =0; i<stringArray[1].toInt();i=i+1){
        Serial.println("Blink Red");
        analogWrite(redPin,stringArray[3].toInt());
        delay(stringArray[2].toInt());
          analogWrite(redPin,0);
        delay(stringArray[2].toInt());
      }      
    }
        if (stringArray[0]=="greenblink"){
      for (int i =0; i<stringArray[1].toInt();i=i+1){
        Serial.println("Blink Green");
        analogWrite(greenPin,stringArray[3].toInt());
        delay(stringArray[2].toInt());
          analogWrite(greenPin,0);
        delay(stringArray[2].toInt());
      }      
    }    if (stringArray[0]=="blueblink"){
      for (int i =0; i<stringArray[1].toInt();i=i+1){
        Serial.println("Blink Blue");
        analogWrite(bluePin,stringArray[3].toInt());
        delay(stringArray[2].toInt());
          analogWrite(bluePin,0);
        delay(stringArray[2].toInt());
      }      
    }
    if (stringArray[0]=="redOn"){
      analogWrite(redPin,stringArray[1].toInt());
    }
        if (stringArray[0]=="redOff"){
      analogWrite(redPin,0);
    }
        if (stringArray[0]=="greenOn"){
      analogWrite(greenPin,stringArray[1].toInt());
    }
        if (stringArray[0]=="greenOff"){
      analogWrite(greenPin,0);
    }
        if (stringArray[0]=="blueOn"){
      analogWrite(bluePin,stringArray[1].toInt());
    }
        if (stringArray[0]=="blueOff"){
      analogWrite(bluePin,0);
    }
    if (stringArray[0]=="redBright"){
      analogWrite(redPin,stringArray[1].toInt());
      Serial.println(stringArray[1].toInt());
    }
        if (stringArray[0]=="greenBright"){
      analogWrite(greenPin,stringArray[1].toInt());
      Serial.println(stringArray[1].toInt());
    }
        if (stringArray[0]=="blueBright"){
      analogWrite(bluePin,stringArray[1].toInt());
      Serial.println(stringArray[1].toInt());
    }
  }
}

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#include <WiFiS3.h>

#include "secrets.h"

WiFiUDP udp;

int PORT = 12345;

String myString;

String stringArray[10];

String response = "ACK\n";

int redPin = 9;

int greenPin = 10;

int bluePin = 11;

void setup() {

Serial.begin(9600);

pinMode(redPin,OUTPUT);

pinMode(greenPin,OUTPUT);

pinMode(bluePin,OUTPUT);

Serial.print("Connecting to ");

Serial.println(mySSID);

WiFi.begin(mySSID, myPASS);

while (WiFi.status() != WL_CONNECTED) {

delay(100);

Serial.print(".");

}

Serial.println("\nConnected to WiFi");

Serial.println(WiFi.localIP());

udp.begin(PORT);

Serial.print("UDP Server started on port ");

Serial.print(PORT);

// put your setup code here, to run once:

}

void splitString() {

int startIndex = 0;

int indexCount = 0;

int i;

int j;

myString = myString + ':';

for (i = 0; i < myString.length(); i = i + 1) {

if (myString[i] == ':') {

stringArray[indexCount] = myString.substring(startIndex, i);

indexCount = indexCount + 1;

startIndex = i + 1;

}

for (j = 0; j < indexCount; j = j + 1) {

Serial.println(stringArray[j]);

}

void loop() {

// put your main code here, to run repeatedly:

if (udp.parsePacket()) {

myString = udp.readStringUntil('\n');

Serial.println("Received : " + myString);

udp.beginPacket(udp.remoteIP(), udp.remotePort());

udp.print(response);

udp.endPacket();

Serial.println("SENT: " + response);

splitString();

if (stringArray[0]=="redblink"){

for (int i =0; i<stringArray[1].toInt();i=i+1){

Serial.println("Blink Red");

analogWrite(redPin,stringArray[3].toInt());

delay(stringArray[2].toInt());

analogWrite(redPin,0);

delay(stringArray[2].toInt());

}

if (stringArray[0]=="greenblink"){

for (int i =0; i<stringArray[1].toInt();i=i+1){

Serial.println("Blink Green");

analogWrite(greenPin,stringArray[3].toInt());

delay(stringArray[2].toInt());

analogWrite(greenPin,0);

delay(stringArray[2].toInt());

}

} if (stringArray[0]=="blueblink"){

for (int i =0; i<stringArray[1].toInt();i=i+1){

Serial.println("Blink Blue");

analogWrite(bluePin,stringArray[3].toInt());

delay(stringArray[2].toInt());

analogWrite(bluePin,0);

delay(stringArray[2].toInt());

}

if (stringArray[0]=="redOn"){

analogWrite(redPin,stringArray[1].toInt());

}

if (stringArray[0]=="redOff"){

analogWrite(redPin,0);

}

if (stringArray[0]=="greenOn"){

analogWrite(greenPin,stringArray[1].toInt());

}

if (stringArray[0]=="greenOff"){

analogWrite(greenPin,0);

}

if (stringArray[0]=="blueOn"){

analogWrite(bluePin,stringArray[1].toInt());

}

if (stringArray[0]=="blueOff"){

analogWrite(bluePin,0);

}

if (stringArray[0]=="redBright"){

analogWrite(redPin,stringArray[1].toInt());

Serial.println(stringArray[1].toInt());

}

if (stringArray[0]=="greenBright"){

analogWrite(greenPin,stringArray[1].toInt());

Serial.println(stringArray[1].toInt());

}

if (stringArray[0]=="blueBright"){

analogWrite(bluePin,stringArray[1].toInt());

Serial.println(stringArray[1].toInt());

}

Remember to add the secrets.h file by adding a tab to the project, as explained in the video.

#define mySSID "YOUR WIFI NAME"
#define myPASS "YOUR WIFI PASSWORD"

1 2	#define mySSID "YOUR WIFI NAME" #define myPASS "YOUR WIFI PASSWORD"

And then on the client side, we have the following code:

from PyQt5.QtWidgets import *
from PyQt5.QtCore import *
import sys
import socket

redStrength=255
greenStrength=255
blueStrength=255
 
# Arduino’s IP address (from Arduino Serial Monitor)
HOST = "192.168.88.120"  # Use Your Arduino's IP. It will print when
                        #You Run the Arduino Server Program
PORT = 12345            # Must match Arduino’s UDP port
 
# Create a UDP socket
mySocket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
mySocket.settimeout(5.0)  # 5 seconds timeout for responses

app = QApplication([])

window = QMainWindow()
window.setWindowTitle('Welcome to GUI World')
window.setGeometry(100,100,500,300)

widgetContainer = QWidget()
window.setCentralWidget(widgetContainer)
mainLayout = QVBoxLayout(widgetContainer)

label = QLabel("Welcome to PyQt5!")
label.setAlignment(Qt.AlignCenter)
label.setStyleSheet("font-size: 24px; color: blue; padding: 10px;")
label.setFixedHeight(50)
mainLayout.addWidget(label)

pushButtonLayout = QHBoxLayout()
mainLayout.addLayout(pushButtonLayout)

pushButtonRed = QPushButton("Blink Red!")
pushButtonRed.setStyleSheet("background-color: red; color: white; font-size: 24px; padding:10;")
pushButtonRed.setFixedSize(150,50)
def pushButtonRedClicked():
    label.setText("Blink Red!")
    label.setStyleSheet(" font-size: 24px;color: red; padding:10;")
    cmd ="redblink:5:100:"+str(redStrength)+"\n"
    cmdEncoded=cmd.encode()
    mySocket.sendto(cmdEncoded, (HOST,PORT))
    print('Sent '+cmd+' to HOST',HOST,PORT)
    try:
        response, server_address = mySocket.recvfrom(1024)
        print("Server response:", response.decode())
    except socket.timeout:
        print("No response received from server within 5 seconds")
pushButtonRed.clicked.connect(pushButtonRedClicked)
pushButtonLayout.addWidget(pushButtonRed)

pushButtonGreen = QPushButton("Blink Green!")
pushButtonGreen.setStyleSheet("background-color: green; color: white; font-size: 24px; padding:10;")
pushButtonGreen.setFixedSize(150,50)
def pushButtonGreenClicked():
    label.setText("Blink Green!")
    label.setStyleSheet(" font-size: 24px;color: green; padding:10;")
    cmd ="greenblink:5:100:"+str(greenStrength)+"\n"
    cmdEncoded=cmd.encode()
    mySocket.sendto(cmdEncoded, (HOST,PORT))
    print('Sent '+cmd+' to HOST',HOST,PORT)
    try:
        response, server_address = mySocket.recvfrom(1024)
        print("Server response:", response.decode())
    except socket.timeout:
        print("No response received from server within 5 seconds")
    
pushButtonGreen.clicked.connect(pushButtonGreenClicked)
pushButtonLayout.addWidget(pushButtonGreen)

pushButtonBlue = QPushButton("Blink Blue!")
pushButtonBlue.setStyleSheet("background-color: blue; color: white; font-size: 24px; padding:10;")
pushButtonBlue.setFixedSize(150,50)
def pushButtonBlueClicked():
    label.setText("Blink Blue!")
    label.setStyleSheet(" font-size: 24px;color: blue; padding:10;")
    cmd ="blueblink:5:100:"+str(blueStrength)+"\n"
    cmdEncoded=cmd.encode()
    mySocket.sendto(cmdEncoded, (HOST,PORT))
    print('Sent '+cmd+' to HOST',HOST,PORT)
    try:
        response, server_address = mySocket.recvfrom(1024)
        print("Server response:", response.decode())
    except socket.timeout:
        print("No response received from server within 5 seconds")
 
pushButtonBlue.clicked.connect(pushButtonBlueClicked)
pushButtonLayout.addWidget(pushButtonBlue)

toggleButtonLayout = QHBoxLayout()
mainLayout.addLayout(toggleButtonLayout)


toggleButtonRed = QPushButton("Toggle Red")
toggleButtonRed.setCheckable(True)
toggleButtonRed.setStyleSheet("background-color: red; color: white; font-size: 18px; padding:10;")
toggleButtonRed.setFixedSize(150,50)
def toggleRed(checked):
    if checked:
        label.setText("Red Toggle ON")
        label.setStyleSheet(" font-size: 24px;color: red; padding:10;")
        cmd="redOn:"+str(redStrength)+"\n"
        cmdEncoded=cmd.encode()
        mySocket.sendto(cmdEncoded, (HOST,PORT))
        print('Sent '+cmd+' to HOST',HOST,PORT)
        try:
            response, server_address = mySocket.recvfrom(1024)
            print("Server response:", response.decode())
        except socket.timeout:
            print("No response received from server within 5 seconds")
    if not checked:
        label.setText("Red Toggle OFF")
        label.setStyleSheet(" font-size: 24px;color: red; padding:10;")
        cmd="redOff:0\n"
        cmdEncoded=cmd.encode()
        mySocket.sendto(cmdEncoded, (HOST,PORT))
        print('Sent '+cmd+' to HOST',HOST,PORT)
        try:
            response, server_address = mySocket.recvfrom(1024)
            print("Server response:", response.decode())
        except socket.timeout:
            print("No response received from server within 5 seconds") 
        

toggleButtonRed.toggled.connect(toggleRed)
toggleButtonLayout.addWidget(toggleButtonRed)

toggleButtonGreen = QPushButton("Toggle Green")
toggleButtonGreen.setCheckable(True)
toggleButtonGreen.setStyleSheet("background-color: green; color: white; font-size: 18px; padding:10;")
toggleButtonGreen.setFixedSize(150,50)
def toggleGreen(checked):
    if checked:
        label.setText("Green Toggle ON")
        label.setStyleSheet(" font-size: 24px;color: green; padding:10;")
        cmd="greenOn:"+str(greenStrength)+"\n"
        cmdEncoded=cmd.encode()
        mySocket.sendto(cmdEncoded, (HOST,PORT))
        print('Sent '+cmd+' to HOST',HOST,PORT)
        try:
            response, server_address = mySocket.recvfrom(1024)
            print("Server response:", response.decode())
        except socket.timeout:
            print("No response received from server within 5 seconds")
    if not checked:
        label.setText("Green Toggle OFF")
        label.setStyleSheet(" font-size: 24px;color: green; padding:10;")
        cmd="greenOff:0\n"
        cmdEncoded=cmd.encode()
        mySocket.sendto(cmdEncoded, (HOST,PORT))
        print('Sent '+cmd+' to HOST',HOST,PORT)
        try:
            response, server_address = mySocket.recvfrom(1024)
            print("Server response:", response.decode())
        except socket.timeout:
            print("No response received from server within 5 seconds") 
   
toggleButtonGreen.toggled.connect(toggleGreen)
toggleButtonLayout.addWidget(toggleButtonGreen)

toggleButtonBlue = QPushButton("Toggle Blue")
toggleButtonBlue.setCheckable(True)
toggleButtonBlue.setStyleSheet("background-color: blue; color: white; font-size: 18px; padding:10;")
toggleButtonBlue.setFixedSize(150,50)
def toggleBlue(checked):
    if checked:
        label.setText("Blue Toggle ON")
        label.setStyleSheet(" font-size: 24px;color: blue; padding:10;")
        cmd="blueOn:"+str(blueStrength)+"\n"
        cmdEncoded=cmd.encode()
        mySocket.sendto(cmdEncoded, (HOST,PORT))
        print('Sent '+cmd+' to HOST',HOST,PORT)
        try:
            response, server_address = mySocket.recvfrom(1024)
            print("Server response:", response.decode())
        except socket.timeout:
            print("No response received from server within 5 seconds")
    if not checked:
        label.setText("Blue Toggle OFF")
        label.setStyleSheet(" font-size: 24px;color: blue; padding:10;")
        cmd="blueOff:0\n"
        cmdEncoded=cmd.encode()
        mySocket.sendto(cmdEncoded, (HOST,PORT))
        print('Sent '+cmd+' to HOST',HOST,PORT)
        try:
            response, server_address = mySocket.recvfrom(1024)
            print("Server response:", response.decode())
        except socket.timeout:
            print("No response received from server within 5 seconds") 
   
toggleButtonBlue.toggled.connect(toggleBlue)
toggleButtonLayout.addWidget(toggleButtonBlue)

redSlider = QSlider(Qt.Horizontal)
redSlider.setMinimum(0)
redSlider.setMaximum(100)
redSlider.setValue(100)
redSlider.setStyleSheet("""
QSlider::groove:horizontal {background: lightpink; height:20px;border-radius:5px;}
QSlider::handle:horizontal {background: red; margin-top: -10px; margin-bottom: -10px ; height: 40;width: 20px;border-radius: 5px;} 
""")
redSlider.setFixedHeight(50)
def updateRedSlider():
    global redStrength
    label.setText("Red Slider: "+str(redSlider.value()))
    label.setStyleSheet("font-size: 24px; color: red; padding:10;")
    redStrength = int(redSlider.value()/100*255)
    print("Red Strength: ",redStrength)
    cmd="redBright:"+str(redStrength)+"\n"
    cmdEncoded=cmd.encode()
    mySocket.sendto(cmdEncoded, (HOST,PORT))
    try:
        response,server_address = mySocket.recvfrom(1024)
        print("Server response: ",response.decode())
    except socket.timeout:
        print("No Response for the Server for TimeOut")
    
redSlider.valueChanged.connect(updateRedSlider)
mainLayout.addWidget(redSlider)

greenSlider = QSlider(Qt.Horizontal)
greenSlider.setMinimum(0)
greenSlider.setMaximum(100)
greenSlider.setValue(100)
greenSlider.setStyleSheet("""
QSlider::groove:horizontal {background: lightgreen; height:20px;border-radius:5px;}
QSlider::handle:horizontal {background: green; margin-top: -10px; margin-bottom: -10px ; height: 40;width: 20px;border-radius: 5px;} 
""")
greenSlider.setFixedHeight(50)
def updateGreenSlider():
    global greenStrength
    label.setText("Green Slider: "+str(greenSlider.value()))
    label.setStyleSheet("font-size: 24px; color: green; padding:10;")
    greenStrength = int(greenSlider.value()/100*255)
    print("Green Strength: ",greenStrength)
    cmd="greenBright:"+str(greenStrength)+"\n"
    cmdEncoded=cmd.encode()
    mySocket.sendto(cmdEncoded, (HOST,PORT))
    try:
        response,server_address = mySocket.recvfrom(1024)
        print("Server response: ",response.decode())
    except socket.timeout:
        print("No Response for the Server for TimeOut")
greenSlider.valueChanged.connect(updateGreenSlider)
mainLayout.addWidget(greenSlider)

blueSlider = QSlider(Qt.Horizontal)
blueSlider.setMinimum(0)
blueSlider.setMaximum(100)
blueSlider.setValue(100)
blueSlider.setStyleSheet("""
QSlider::groove:horizontal {background: lightblue; height:20px;border-radius:5px;}
QSlider::handle:horizontal {background: blue; margin-top: -10px; margin-bottom: -10px ; height: 40;width: 20px;border-radius: 5px;} 
""")
blueSlider.setFixedHeight(50)
def updateBlueSlider():
    global blueStrength
    label.setText("Blue Slider: "+str(blueSlider.value()))
    label.setStyleSheet("font-size: 24px; color: blue; padding:10;")
    blueStrength = int(blueSlider.value()/100*255)
    print("Blue Strength: ",blueStrength)
    cmd="blueBright:"+str(blueStrength)+"\n"
    cmdEncoded=cmd.encode()
    mySocket.sendto(cmdEncoded, (HOST,PORT))
    try:
        response,server_address = mySocket.recvfrom(1024)
        print("Server response: ",response.decode())
    except socket.timeout:
        print("No Response for the Server for TimeOut") 
blueSlider.valueChanged.connect(updateBlueSlider)
mainLayout.addWidget(blueSlider)

mainLayout.addStretch()
window.show()
sys.exit(app.exec_())

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from PyQt5.QtWidgets import *

from PyQt5.QtCore import *

import sys

import socket

redStrength=255

greenStrength=255

blueStrength=255

# Arduino’s IP address (from Arduino Serial Monitor)

HOST = "192.168.88.120" # Use Your Arduino's IP. It will print when

#You Run the Arduino Server Program

PORT = 12345 # Must match Arduino’s UDP port

# Create a UDP socket

mySocket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)

mySocket.settimeout(5.0) # 5 seconds timeout for responses

app = QApplication([])

window = QMainWindow()

window.setWindowTitle('Welcome to GUI World')

window.setGeometry(100,100,500,300)

widgetContainer = QWidget()

window.setCentralWidget(widgetContainer)

mainLayout = QVBoxLayout(widgetContainer)

label = QLabel("Welcome to PyQt5!")

label.setAlignment(Qt.AlignCenter)

label.setStyleSheet("font-size: 24px; color: blue; padding: 10px;")

label.setFixedHeight(50)

mainLayout.addWidget(label)

pushButtonLayout = QHBoxLayout()

mainLayout.addLayout(pushButtonLayout)

pushButtonRed = QPushButton("Blink Red!")

pushButtonRed.setStyleSheet("background-color: red; color: white; font-size: 24px; padding:10;")

pushButtonRed.setFixedSize(150,50)

def pushButtonRedClicked():

label.setText("Blink Red!")

label.setStyleSheet(" font-size: 24px;color: red; padding:10;")

cmd ="redblink:5:100:"+str(redStrength)+"\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

pushButtonRed.clicked.connect(pushButtonRedClicked)

pushButtonLayout.addWidget(pushButtonRed)

pushButtonGreen = QPushButton("Blink Green!")

pushButtonGreen.setStyleSheet("background-color: green; color: white; font-size: 24px; padding:10;")

pushButtonGreen.setFixedSize(150,50)

def pushButtonGreenClicked():

label.setText("Blink Green!")

label.setStyleSheet(" font-size: 24px;color: green; padding:10;")

cmd ="greenblink:5:100:"+str(greenStrength)+"\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

pushButtonGreen.clicked.connect(pushButtonGreenClicked)

pushButtonLayout.addWidget(pushButtonGreen)

pushButtonBlue = QPushButton("Blink Blue!")

pushButtonBlue.setStyleSheet("background-color: blue; color: white; font-size: 24px; padding:10;")

pushButtonBlue.setFixedSize(150,50)

def pushButtonBlueClicked():

label.setText("Blink Blue!")

label.setStyleSheet(" font-size: 24px;color: blue; padding:10;")

cmd ="blueblink:5:100:"+str(blueStrength)+"\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

pushButtonBlue.clicked.connect(pushButtonBlueClicked)

pushButtonLayout.addWidget(pushButtonBlue)

toggleButtonLayout = QHBoxLayout()

mainLayout.addLayout(toggleButtonLayout)

toggleButtonRed = QPushButton("Toggle Red")

toggleButtonRed.setCheckable(True)

toggleButtonRed.setStyleSheet("background-color: red; color: white; font-size: 18px; padding:10;")

toggleButtonRed.setFixedSize(150,50)

def toggleRed(checked):

if checked:

label.setText("Red Toggle ON")

label.setStyleSheet(" font-size: 24px;color: red; padding:10;")

cmd="redOn:"+str(redStrength)+"\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

if not checked:

label.setText("Red Toggle OFF")

label.setStyleSheet(" font-size: 24px;color: red; padding:10;")

cmd="redOff:0\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

toggleButtonRed.toggled.connect(toggleRed)

toggleButtonLayout.addWidget(toggleButtonRed)

toggleButtonGreen = QPushButton("Toggle Green")

toggleButtonGreen.setCheckable(True)

toggleButtonGreen.setStyleSheet("background-color: green; color: white; font-size: 18px; padding:10;")

toggleButtonGreen.setFixedSize(150,50)

def toggleGreen(checked):

if checked:

label.setText("Green Toggle ON")

label.setStyleSheet(" font-size: 24px;color: green; padding:10;")

cmd="greenOn:"+str(greenStrength)+"\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

if not checked:

label.setText("Green Toggle OFF")

label.setStyleSheet(" font-size: 24px;color: green; padding:10;")

cmd="greenOff:0\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

toggleButtonGreen.toggled.connect(toggleGreen)

toggleButtonLayout.addWidget(toggleButtonGreen)

toggleButtonBlue = QPushButton("Toggle Blue")

toggleButtonBlue.setCheckable(True)

toggleButtonBlue.setStyleSheet("background-color: blue; color: white; font-size: 18px; padding:10;")

toggleButtonBlue.setFixedSize(150,50)

def toggleBlue(checked):

if checked:

label.setText("Blue Toggle ON")

label.setStyleSheet(" font-size: 24px;color: blue; padding:10;")

cmd="blueOn:"+str(blueStrength)+"\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

if not checked:

label.setText("Blue Toggle OFF")

label.setStyleSheet(" font-size: 24px;color: blue; padding:10;")

cmd="blueOff:0\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

toggleButtonBlue.toggled.connect(toggleBlue)

toggleButtonLayout.addWidget(toggleButtonBlue)

redSlider = QSlider(Qt.Horizontal)

redSlider.setMinimum(0)

redSlider.setMaximum(100)

redSlider.setValue(100)

redSlider.setStyleSheet("""

QSlider::groove:horizontal {background: lightpink; height:20px;border-radius:5px;}

QSlider::handle:horizontal {background: red; margin-top: -10px; margin-bottom: -10px ; height: 40;width: 20px;border-radius: 5px;}

""")

redSlider.setFixedHeight(50)

def updateRedSlider():

global redStrength

label.setText("Red Slider: "+str(redSlider.value()))

label.setStyleSheet("font-size: 24px; color: red; padding:10;")

redStrength = int(redSlider.value()/100*255)

print("Red Strength: ",redStrength)

cmd="redBright:"+str(redStrength)+"\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

try:

response,server_address = mySocket.recvfrom(1024)

print("Server response: ",response.decode())

except socket.timeout:

print("No Response for the Server for TimeOut")

redSlider.valueChanged.connect(updateRedSlider)

mainLayout.addWidget(redSlider)

greenSlider = QSlider(Qt.Horizontal)

greenSlider.setMinimum(0)

greenSlider.setMaximum(100)

greenSlider.setValue(100)

greenSlider.setStyleSheet("""

QSlider::groove:horizontal {background: lightgreen; height:20px;border-radius:5px;}

QSlider::handle:horizontal {background: green; margin-top: -10px; margin-bottom: -10px ; height: 40;width: 20px;border-radius: 5px;}

""")

greenSlider.setFixedHeight(50)

def updateGreenSlider():

global greenStrength

label.setText("Green Slider: "+str(greenSlider.value()))

label.setStyleSheet("font-size: 24px; color: green; padding:10;")

greenStrength = int(greenSlider.value()/100*255)

print("Green Strength: ",greenStrength)

cmd="greenBright:"+str(greenStrength)+"\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

try:

response,server_address = mySocket.recvfrom(1024)

print("Server response: ",response.decode())

except socket.timeout:

print("No Response for the Server for TimeOut")

greenSlider.valueChanged.connect(updateGreenSlider)

mainLayout.addWidget(greenSlider)

blueSlider = QSlider(Qt.Horizontal)

blueSlider.setMinimum(0)

blueSlider.setMaximum(100)

blueSlider.setValue(100)

blueSlider.setStyleSheet("""

QSlider::groove:horizontal {background: lightblue; height:20px;border-radius:5px;}

QSlider::handle:horizontal {background: blue; margin-top: -10px; margin-bottom: -10px ; height: 40;width: 20px;border-radius: 5px;}

""")

blueSlider.setFixedHeight(50)

def updateBlueSlider():

global blueStrength

label.setText("Blue Slider: "+str(blueSlider.value()))

label.setStyleSheet("font-size: 24px; color: blue; padding:10;")

blueStrength = int(blueSlider.value()/100*255)

print("Blue Strength: ",blueStrength)

cmd="blueBright:"+str(blueStrength)+"\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

try:

response,server_address = mySocket.recvfrom(1024)

print("Server response: ",response.decode())

except socket.timeout:

print("No Response for the Server for TimeOut")

blueSlider.valueChanged.connect(updateBlueSlider)

mainLayout.addWidget(blueSlider)

mainLayout.addStretch()

window.show()

sys.exit(app.exec_())

Arduino, Arduino with Python

Adding Slider Bars to Your PyQt Arduino Project

June 5, 2025 admin

In this lesson we add slider bars to our PyQt widget. The slider bars will be used to control the color of an RGB LED, but this week we are simply getting the slider bars incorporated into the widget and then next week we will connect them to the Arduino. This is the schematic for the arduino we are using for the next few lessons:

When using the breadvolt, or any battery power supply on a breadboard project, do not turn the power supply on while the Arduino is connected to USB, as you could generate voltage conflicts. It is an either or. If the USB is connected, the power supply should be OFF. Or if you are going to connect the USB, first turn off the power supply.

This is the code for the server on the Arduino:

#include <WiFiS3.h>
#include "secrets.h"
WiFiUDP udp;
int PORT = 12345;
String myString;
String stringArray[10];
String response = "ACK\n";

int redPin = 9;
int greenPin = 10;
int bluePin = 11;

void setup() {
  Serial.begin(9600);
  pinMode(redPin,OUTPUT);
  pinMode(greenPin,OUTPUT);
  pinMode(bluePin,OUTPUT);
  Serial.print("Connecting to ");
  Serial.println(mySSID);
  WiFi.begin(mySSID, myPASS);
  while (WiFi.status() != WL_CONNECTED) {
    delay(100);
    Serial.print(".");
  }
  Serial.println("\nConnected to WiFi");
  Serial.println(WiFi.localIP());
  udp.begin(PORT);
  Serial.print("UDP Server started on port ");
  Serial.print(PORT);
  // put your setup code here, to run once:
}
void splitString() {
  int startIndex = 0;
  int indexCount = 0;
  int i;
  int j;
  myString = myString + ':';
  for (i = 0; i < myString.length(); i = i + 1) {
    if (myString[i] == ':') {
      stringArray[indexCount] = myString.substring(startIndex, i);
      indexCount = indexCount + 1;
      startIndex = i + 1;
    }
  }
  for (j = 0; j < indexCount; j = j + 1) {
    Serial.println(stringArray[j]);
  }
}

void loop() {
  // put your main code here, to run repeatedly:
  if (udp.parsePacket()) {
    myString = udp.readStringUntil('\n');
    Serial.println("Received : " + myString);
    udp.beginPacket(udp.remoteIP(), udp.remotePort());
    udp.print(response);
    udp.endPacket();
    Serial.println("SENT: " + response);
    splitString();
    if (stringArray[0]=="redblink"){
      for (int i =0; i<stringArray[1].toInt();i=i+1){
        Serial.println("Blink Red");
        digitalWrite(redPin,HIGH);
        delay(stringArray[2].toInt());
          digitalWrite(redPin,LOW);
        delay(stringArray[2].toInt());
      }      
    }
        if (stringArray[0]=="greenblink"){
      for (int i =0; i<stringArray[1].toInt();i=i+1){
        Serial.println("Blink Green");
        digitalWrite(greenPin,HIGH);
        delay(stringArray[2].toInt());
          digitalWrite(greenPin,LOW);
        delay(stringArray[2].toInt());
      }      
    }    if (stringArray[0]=="blueblink"){
      for (int i =0; i<stringArray[1].toInt();i=i+1){
        Serial.println("Blink Blue");
        digitalWrite(bluePin,HIGH);
        delay(stringArray[2].toInt());
          digitalWrite(bluePin,LOW);
        delay(stringArray[2].toInt());
      }      
    }
    if (stringArray[0]=="redOn"){
      digitalWrite(redPin,HIGH);
    }
        if (stringArray[0]=="redOff"){
      digitalWrite(redPin,LOW);
    }
        if (stringArray[0]=="greenOn"){
      digitalWrite(greenPin,HIGH);
    }
        if (stringArray[0]=="greenOff"){
      digitalWrite(greenPin,LOW);
    }
        if (stringArray[0]=="blueOn"){
      digitalWrite(bluePin,HIGH);
    }
        if (stringArray[0]=="blueOff"){
      digitalWrite(bluePin,LOW);
    }
  }
}

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#include <WiFiS3.h>

#include "secrets.h"

WiFiUDP udp;

int PORT = 12345;

String myString;

String stringArray[10];

String response = "ACK\n";

int redPin = 9;

int greenPin = 10;

int bluePin = 11;

void setup() {

Serial.begin(9600);

pinMode(redPin,OUTPUT);

pinMode(greenPin,OUTPUT);

pinMode(bluePin,OUTPUT);

Serial.print("Connecting to ");

Serial.println(mySSID);

WiFi.begin(mySSID, myPASS);

while (WiFi.status() != WL_CONNECTED) {

delay(100);

Serial.print(".");

}

Serial.println("\nConnected to WiFi");

Serial.println(WiFi.localIP());

udp.begin(PORT);

Serial.print("UDP Server started on port ");

Serial.print(PORT);

// put your setup code here, to run once:

}

void splitString() {

int startIndex = 0;

int indexCount = 0;

int i;

int j;

myString = myString + ':';

for (i = 0; i < myString.length(); i = i + 1) {

if (myString[i] == ':') {

stringArray[indexCount] = myString.substring(startIndex, i);

indexCount = indexCount + 1;

startIndex = i + 1;

}

for (j = 0; j < indexCount; j = j + 1) {

Serial.println(stringArray[j]);

}

void loop() {

// put your main code here, to run repeatedly:

if (udp.parsePacket()) {

myString = udp.readStringUntil('\n');

Serial.println("Received : " + myString);

udp.beginPacket(udp.remoteIP(), udp.remotePort());

udp.print(response);

udp.endPacket();

Serial.println("SENT: " + response);

splitString();

if (stringArray[0]=="redblink"){

for (int i =0; i<stringArray[1].toInt();i=i+1){

Serial.println("Blink Red");

digitalWrite(redPin,HIGH);

delay(stringArray[2].toInt());

digitalWrite(redPin,LOW);

delay(stringArray[2].toInt());

}

if (stringArray[0]=="greenblink"){

for (int i =0; i<stringArray[1].toInt();i=i+1){

Serial.println("Blink Green");

digitalWrite(greenPin,HIGH);

delay(stringArray[2].toInt());

digitalWrite(greenPin,LOW);

delay(stringArray[2].toInt());

}

} if (stringArray[0]=="blueblink"){

for (int i =0; i<stringArray[1].toInt();i=i+1){

Serial.println("Blink Blue");

digitalWrite(bluePin,HIGH);

delay(stringArray[2].toInt());

digitalWrite(bluePin,LOW);

delay(stringArray[2].toInt());

}

if (stringArray[0]=="redOn"){

digitalWrite(redPin,HIGH);

}

if (stringArray[0]=="redOff"){

digitalWrite(redPin,LOW);

}

if (stringArray[0]=="greenOn"){

digitalWrite(greenPin,HIGH);

}

if (stringArray[0]=="greenOff"){

digitalWrite(greenPin,LOW);

}

if (stringArray[0]=="blueOn"){

digitalWrite(bluePin,HIGH);

}

if (stringArray[0]=="blueOff"){

digitalWrite(bluePin,LOW);

}

Remember you will need the secrets.h tab in order to have your WiFi login credentials.

#define mySSID "YOUR WIFI NAME"
#define myPASS "YOUR WIFI PASSWORD"

1 2	#define mySSID "YOUR WIFI NAME" #define myPASS "YOUR WIFI PASSWORD"

The code below creates a PyQt widget with three slider bars. In this code, we are just demonstrating use of Slider Bars. Next week we will connect the Slider bars to the Arduino over WiFi for controlling RGB Color.

from PyQt5.QtWidgets import *
from PyQt5.QtCore import *
import sys
import socket
 
# Arduino’s IP address (from Arduino Serial Monitor)
HOST = "192.168.88.120"  # Use Your Arduino's IP. It will print when
                        #You Run the Arduino Server Program
PORT = 12345            # Must match Arduino’s UDP port
 
# Create a UDP socket
mySocket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
mySocket.settimeout(5.0)  # 5 seconds timeout for responses

app = QApplication([])

window = QMainWindow()
window.setWindowTitle('Welcome to GUI World')
window.setGeometry(100,100,500,300)

widgetContainer = QWidget()
window.setCentralWidget(widgetContainer)
mainLayout = QVBoxLayout(widgetContainer)

label = QLabel("Welcome to PyQt5!")
label.setAlignment(Qt.AlignCenter)
label.setStyleSheet("font-size: 24px; color: blue; padding: 10px;")
label.setFixedHeight(50)
mainLayout.addWidget(label)

pushButtonLayout = QHBoxLayout()
mainLayout.addLayout(pushButtonLayout)

pushButtonRed = QPushButton("Blink Red!")
pushButtonRed.setStyleSheet("background-color: red; color: white; font-size: 24px; padding:10;")
pushButtonRed.setFixedSize(150,50)
def pushButtonRedClicked():
    label.setText("Blink Red!")
    label.setStyleSheet(" font-size: 24px;color: red; padding:10;")
    cmd ="redblink:5:100\n"
    cmdEncoded=cmd.encode()
    mySocket.sendto(cmdEncoded, (HOST,PORT))
    print('Sent '+cmd+' to HOST',HOST,PORT)
    try:
        response, server_address = mySocket.recvfrom(1024)
        print("Server response:", response.decode())
    except socket.timeout:
        print("No response received from server within 5 seconds")
pushButtonRed.clicked.connect(pushButtonRedClicked)
pushButtonLayout.addWidget(pushButtonRed)

pushButtonGreen = QPushButton("Blink Green!")
pushButtonGreen.setStyleSheet("background-color: green; color: white; font-size: 24px; padding:10;")
pushButtonGreen.setFixedSize(150,50)
def pushButtonGreenClicked():
    label.setText("Blink Green!")
    label.setStyleSheet(" font-size: 24px;color: green; padding:10;")
    cmd ="greenblink:5:100\n"
    cmdEncoded=cmd.encode()
    mySocket.sendto(cmdEncoded, (HOST,PORT))
    print('Sent '+cmd+' to HOST',HOST,PORT)
    try:
        response, server_address = mySocket.recvfrom(1024)
        print("Server response:", response.decode())
    except socket.timeout:
        print("No response received from server within 5 seconds")
    
pushButtonGreen.clicked.connect(pushButtonGreenClicked)
pushButtonLayout.addWidget(pushButtonGreen)

pushButtonBlue = QPushButton("Blink Blue!")
pushButtonBlue.setStyleSheet("background-color: blue; color: white; font-size: 24px; padding:10;")
pushButtonBlue.setFixedSize(150,50)
def pushButtonBlueClicked():
    label.setText("Blink Blue!")
    label.setStyleSheet(" font-size: 24px;color: blue; padding:10;")
    cmd ="blueblink:5:100\n"
    cmdEncoded=cmd.encode()
    mySocket.sendto(cmdEncoded, (HOST,PORT))
    print('Sent '+cmd+' to HOST',HOST,PORT)
    try:
        response, server_address = mySocket.recvfrom(1024)
        print("Server response:", response.decode())
    except socket.timeout:
        print("No response received from server within 5 seconds")
 
pushButtonBlue.clicked.connect(pushButtonBlueClicked)
pushButtonLayout.addWidget(pushButtonBlue)

toggleButtonLayout = QHBoxLayout()
mainLayout.addLayout(toggleButtonLayout)


toggleButtonRed = QPushButton("Toggle Red")
toggleButtonRed.setCheckable(True)
toggleButtonRed.setStyleSheet("background-color: red; color: white; font-size: 18px; padding:10;")
toggleButtonRed.setFixedSize(150,50)
def toggleRed(checked):
    if checked:
        label.setText("Red Toggle ON")
        label.setStyleSheet(" font-size: 24px;color: red; padding:10;")
        cmd="redOn\n"
        cmdEncoded=cmd.encode()
        mySocket.sendto(cmdEncoded, (HOST,PORT))
        print('Sent '+cmd+' to HOST',HOST,PORT)
        try:
            response, server_address = mySocket.recvfrom(1024)
            print("Server response:", response.decode())
        except socket.timeout:
            print("No response received from server within 5 seconds")
    if not checked:
        label.setText("Red Toggle OFF")
        label.setStyleSheet(" font-size: 24px;color: red; padding:10;")
        cmd="redOff\n"
        cmdEncoded=cmd.encode()
        mySocket.sendto(cmdEncoded, (HOST,PORT))
        print('Sent '+cmd+' to HOST',HOST,PORT)
        try:
            response, server_address = mySocket.recvfrom(1024)
            print("Server response:", response.decode())
        except socket.timeout:
            print("No response received from server within 5 seconds") 
        

toggleButtonRed.toggled.connect(toggleRed)
toggleButtonLayout.addWidget(toggleButtonRed)

toggleButtonGreen = QPushButton("Toggle Green")
toggleButtonGreen.setCheckable(True)
toggleButtonGreen.setStyleSheet("background-color: green; color: white; font-size: 18px; padding:10;")
toggleButtonGreen.setFixedSize(150,50)
def toggleGreen(checked):
    if checked:
        label.setText("Green Toggle ON")
        label.setStyleSheet(" font-size: 24px;color: green; padding:10;")
        cmd="greenOn\n"
        cmdEncoded=cmd.encode()
        mySocket.sendto(cmdEncoded, (HOST,PORT))
        print('Sent '+cmd+' to HOST',HOST,PORT)
        try:
            response, server_address = mySocket.recvfrom(1024)
            print("Server response:", response.decode())
        except socket.timeout:
            print("No response received from server within 5 seconds")
    if not checked:
        label.setText("Green Toggle OFF")
        label.setStyleSheet(" font-size: 24px;color: green; padding:10;")
        cmd="greenOff\n"
        cmdEncoded=cmd.encode()
        mySocket.sendto(cmdEncoded, (HOST,PORT))
        print('Sent '+cmd+' to HOST',HOST,PORT)
        try:
            response, server_address = mySocket.recvfrom(1024)
            print("Server response:", response.decode())
        except socket.timeout:
            print("No response received from server within 5 seconds") 
   
toggleButtonGreen.toggled.connect(toggleGreen)
toggleButtonLayout.addWidget(toggleButtonGreen)

toggleButtonBlue = QPushButton("Toggle Blue")
toggleButtonBlue.setCheckable(True)
toggleButtonBlue.setStyleSheet("background-color: blue; color: white; font-size: 18px; padding:10;")
toggleButtonBlue.setFixedSize(150,50)
def toggleBlue(checked):
    if checked:
        label.setText("Blue Toggle ON")
        label.setStyleSheet(" font-size: 24px;color: blue; padding:10;")
        cmd='blueOn\n'
        cmdEncoded=cmd.encode()
        mySocket.sendto(cmdEncoded, (HOST,PORT))
        print('Sent '+cmd+' to HOST',HOST,PORT)
        try:
            response, server_address = mySocket.recvfrom(1024)
            print("Server response:", response.decode())
        except socket.timeout:
            print("No response received from server within 5 seconds")
    if not checked:
        label.setText("Blue Toggle OFF")
        label.setStyleSheet(" font-size: 24px;color: blue; padding:10;")
        cmd="blueOff\n"
        cmdEncoded=cmd.encode()
        mySocket.sendto(cmdEncoded, (HOST,PORT))
        print('Sent '+cmd+' to HOST',HOST,PORT)
        try:
            response, server_address = mySocket.recvfrom(1024)
            print("Server response:", response.decode())
        except socket.timeout:
            print("No response received from server within 5 seconds") 
   
toggleButtonBlue.toggled.connect(toggleBlue)
toggleButtonLayout.addWidget(toggleButtonBlue)

redSlider = QSlider(Qt.Horizontal)
redSlider.setMinimum(0)
redSlider.setMaximum(100)
redSlider.setValue(100)
redSlider.setStyleSheet("""
QSlider::groove:horizontal {background: lightpink; height:20px;border-radius:5px;}
QSlider::handle:horizontal {background: red; margin-top: -10px; margin-bottom: -10px ; height: 40;width: 20px;border-radius: 5px;} 
""")
redSlider.setFixedHeight(50)
def updateRedSlider():
    global redStrength
    label.setText("Red Slider: "+str(redSlider.value()))
    label.setStyleSheet("font-size: 24px; color: red; padding:10;")
    redStrength = redSlider.value()/100*255
    print("Red Strength: ",redStrength)
    
redSlider.valueChanged.connect(updateRedSlider)
mainLayout.addWidget(redSlider)

greenSlider = QSlider(Qt.Horizontal)
greenSlider.setMinimum(0)
greenSlider.setMaximum(100)
greenSlider.setValue(100)
greenSlider.setStyleSheet("""
QSlider::groove:horizontal {background: lightgreen; height:20px;border-radius:5px;}
QSlider::handle:horizontal {background: green; margin-top: -10px; margin-bottom: -10px ; height: 40;width: 20px;border-radius: 5px;} 
""")
greenSlider.setFixedHeight(50)
def updateGreenSlider():
    global greenStrength
    label.setText("Green Slider: "+str(greenSlider.value()))
    label.setStyleSheet("font-size: 24px; color: green; padding:10;")
    greenStrength = greenSlider.value()/100*255
    print("Red Strength: ",greenStrength)
    
greenSlider.valueChanged.connect(updateGreenSlider)
mainLayout.addWidget(greenSlider)

blueSlider = QSlider(Qt.Horizontal)
blueSlider.setMinimum(0)
blueSlider.setMaximum(100)
blueSlider.setValue(100)
blueSlider.setStyleSheet("""
QSlider::groove:horizontal {background: lightblue; height:20px;border-radius:5px;}
QSlider::handle:horizontal {background: blue; margin-top: -10px; margin-bottom: -10px ; height: 40;width: 20px;border-radius: 5px;} 
""")
blueSlider.setFixedHeight(50)
def updateBlueSlider():
    global blueStrength
    label.setText("Blue Slider: "+str(blueSlider.value()))
    label.setStyleSheet("font-size: 24px; color: blue; padding:10;")
    blueStrength = blueSlider.value()/100*255
    print("Blue Strength: ",blueStrength)
    
blueSlider.valueChanged.connect(updateBlueSlider)
mainLayout.addWidget(blueSlider)

mainLayout.addStretch()
window.show()
sys.exit(app.exec_())

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from PyQt5.QtWidgets import *

from PyQt5.QtCore import *

import sys

import socket

# Arduino’s IP address (from Arduino Serial Monitor)

HOST = "192.168.88.120" # Use Your Arduino's IP. It will print when

#You Run the Arduino Server Program

PORT = 12345 # Must match Arduino’s UDP port

# Create a UDP socket

mySocket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)

mySocket.settimeout(5.0) # 5 seconds timeout for responses

app = QApplication([])

window = QMainWindow()

window.setWindowTitle('Welcome to GUI World')

window.setGeometry(100,100,500,300)

widgetContainer = QWidget()

window.setCentralWidget(widgetContainer)

mainLayout = QVBoxLayout(widgetContainer)

label = QLabel("Welcome to PyQt5!")

label.setAlignment(Qt.AlignCenter)

label.setStyleSheet("font-size: 24px; color: blue; padding: 10px;")

label.setFixedHeight(50)

mainLayout.addWidget(label)

pushButtonLayout = QHBoxLayout()

mainLayout.addLayout(pushButtonLayout)

pushButtonRed = QPushButton("Blink Red!")

pushButtonRed.setStyleSheet("background-color: red; color: white; font-size: 24px; padding:10;")

pushButtonRed.setFixedSize(150,50)

def pushButtonRedClicked():

label.setText("Blink Red!")

label.setStyleSheet(" font-size: 24px;color: red; padding:10;")

cmd ="redblink:5:100\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

pushButtonRed.clicked.connect(pushButtonRedClicked)

pushButtonLayout.addWidget(pushButtonRed)

pushButtonGreen = QPushButton("Blink Green!")

pushButtonGreen.setStyleSheet("background-color: green; color: white; font-size: 24px; padding:10;")

pushButtonGreen.setFixedSize(150,50)

def pushButtonGreenClicked():

label.setText("Blink Green!")

label.setStyleSheet(" font-size: 24px;color: green; padding:10;")

cmd ="greenblink:5:100\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

pushButtonGreen.clicked.connect(pushButtonGreenClicked)

pushButtonLayout.addWidget(pushButtonGreen)

pushButtonBlue = QPushButton("Blink Blue!")

pushButtonBlue.setStyleSheet("background-color: blue; color: white; font-size: 24px; padding:10;")

pushButtonBlue.setFixedSize(150,50)

def pushButtonBlueClicked():

label.setText("Blink Blue!")

label.setStyleSheet(" font-size: 24px;color: blue; padding:10;")

cmd ="blueblink:5:100\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

pushButtonBlue.clicked.connect(pushButtonBlueClicked)

pushButtonLayout.addWidget(pushButtonBlue)

toggleButtonLayout = QHBoxLayout()

mainLayout.addLayout(toggleButtonLayout)

toggleButtonRed = QPushButton("Toggle Red")

toggleButtonRed.setCheckable(True)

toggleButtonRed.setStyleSheet("background-color: red; color: white; font-size: 18px; padding:10;")

toggleButtonRed.setFixedSize(150,50)

def toggleRed(checked):

if checked:

label.setText("Red Toggle ON")

label.setStyleSheet(" font-size: 24px;color: red; padding:10;")

cmd="redOn\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

if not checked:

label.setText("Red Toggle OFF")

label.setStyleSheet(" font-size: 24px;color: red; padding:10;")

cmd="redOff\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

toggleButtonRed.toggled.connect(toggleRed)

toggleButtonLayout.addWidget(toggleButtonRed)

toggleButtonGreen = QPushButton("Toggle Green")

toggleButtonGreen.setCheckable(True)

toggleButtonGreen.setStyleSheet("background-color: green; color: white; font-size: 18px; padding:10;")

toggleButtonGreen.setFixedSize(150,50)

def toggleGreen(checked):

if checked:

label.setText("Green Toggle ON")

label.setStyleSheet(" font-size: 24px;color: green; padding:10;")

cmd="greenOn\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

if not checked:

label.setText("Green Toggle OFF")

label.setStyleSheet(" font-size: 24px;color: green; padding:10;")

cmd="greenOff\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

toggleButtonGreen.toggled.connect(toggleGreen)

toggleButtonLayout.addWidget(toggleButtonGreen)

toggleButtonBlue = QPushButton("Toggle Blue")

toggleButtonBlue.setCheckable(True)

toggleButtonBlue.setStyleSheet("background-color: blue; color: white; font-size: 18px; padding:10;")

toggleButtonBlue.setFixedSize(150,50)

def toggleBlue(checked):

if checked:

label.setText("Blue Toggle ON")

label.setStyleSheet(" font-size: 24px;color: blue; padding:10;")

cmd='blueOn\n'

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

if not checked:

label.setText("Blue Toggle OFF")

label.setStyleSheet(" font-size: 24px;color: blue; padding:10;")

cmd="blueOff\n"

cmdEncoded=cmd.encode()

mySocket.sendto(cmdEncoded, (HOST,PORT))

print('Sent '+cmd+' to HOST',HOST,PORT)

try:

response, server_address = mySocket.recvfrom(1024)

print("Server response:", response.decode())

except socket.timeout:

print("No response received from server within 5 seconds")

toggleButtonBlue.toggled.connect(toggleBlue)

toggleButtonLayout.addWidget(toggleButtonBlue)

redSlider = QSlider(Qt.Horizontal)

redSlider.setMinimum(0)

redSlider.setMaximum(100)

redSlider.setValue(100)

redSlider.setStyleSheet("""

QSlider::groove:horizontal {background: lightpink; height:20px;border-radius:5px;}

QSlider::handle:horizontal {background: red; margin-top: -10px; margin-bottom: -10px ; height: 40;width: 20px;border-radius: 5px;}

""")

redSlider.setFixedHeight(50)

def updateRedSlider():

global redStrength

label.setText("Red Slider: "+str(redSlider.value()))

label.setStyleSheet("font-size: 24px; color: red; padding:10;")

redStrength = redSlider.value()/100*255

print("Red Strength: ",redStrength)

redSlider.valueChanged.connect(updateRedSlider)

mainLayout.addWidget(redSlider)

greenSlider = QSlider(Qt.Horizontal)

greenSlider.setMinimum(0)

greenSlider.setMaximum(100)

greenSlider.setValue(100)

greenSlider.setStyleSheet("""

QSlider::groove:horizontal {background: lightgreen; height:20px;border-radius:5px;}

QSlider::handle:horizontal {background: green; margin-top: -10px; margin-bottom: -10px ; height: 40;width: 20px;border-radius: 5px;}

""")

greenSlider.setFixedHeight(50)

def updateGreenSlider():

global greenStrength

label.setText("Green Slider: "+str(greenSlider.value()))

label.setStyleSheet("font-size: 24px; color: green; padding:10;")

greenStrength = greenSlider.value()/100*255

print("Red Strength: ",greenStrength)

greenSlider.valueChanged.connect(updateGreenSlider)

mainLayout.addWidget(greenSlider)

blueSlider = QSlider(Qt.Horizontal)

blueSlider.setMinimum(0)

blueSlider.setMaximum(100)

blueSlider.setValue(100)

blueSlider.setStyleSheet("""

QSlider::groove:horizontal {background: lightblue; height:20px;border-radius:5px;}

QSlider::handle:horizontal {background: blue; margin-top: -10px; margin-bottom: -10px ; height: 40;width: 20px;border-radius: 5px;}

""")

blueSlider.setFixedHeight(50)

def updateBlueSlider():

global blueStrength

label.setText("Blue Slider: "+str(blueSlider.value()))

label.setStyleSheet("font-size: 24px; color: blue; padding:10;")

blueStrength = blueSlider.value()/100*255

print("Blue Strength: ",blueStrength)

blueSlider.valueChanged.connect(updateBlueSlider)

mainLayout.addWidget(blueSlider)

mainLayout.addStretch()

window.show()

sys.exit(app.exec_())

Technology Tutorials

Category Archives: Arduino

Add an MPU6050 Accelerometer to your Arduino Project

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Plot Live Data in Python Using PyQt5

PyQt5 Project to Control Arduino RGB LED Over WiFi

Adding Slider Bars to Your PyQt Arduino Project

Making The World a Better Place One High Tech Project at a Time. Enjoy!