In this video lesson we introduce you to creating Graphical User Interfaces (GUI) to control your arduino project over WiFi using PyQt5. For this first introduction, we show you how to create the PyQt5 Widget on your PC using Python. Then your homework will be to control your arduino using the widget over WiFi. For your convenience, the code we developed in the lesson is presented below.

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

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;")
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;")
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;")
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;")
        
    if not checked:
        label.setText("Red Toggle OFF")
        label.setStyleSheet(" font-size: 24px;color: red; padding:10;")

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;")
        
    if not checked:
        label.setText("Green Toggle OFF")
        label.setStyleSheet(" font-size: 24px;color: green; padding:10;")

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;")
        
    if not checked:
        label.setText("Blue Toggle OFF")
        label.setStyleSheet(" font-size: 24px;color: bllue; padding:10;")

toggleButtonBlue.toggled.connect(toggleBlue)
toggleButtonLayout.addWidget(toggleButtonBlue)

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

100

101

102

103

104

105

from PyQt5.QtWidgets import *

from PyQt5.QtCore import *

import sys

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;")

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;")

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;")

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;")

if not checked:

label.setText("Red Toggle OFF")

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

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;")

if not checked:

label.setText("Green Toggle OFF")

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

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;")

if not checked:

label.setText("Blue Toggle OFF")

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

toggleButtonBlue.toggled.connect(toggleBlue)

toggleButtonLayout.addWidget(toggleButtonBlue)

mainLayout.addStretch()

window.show()

sys.exit(app.exec_())

Raspberry Pi Pico

Getting Geared Up for the Ultimate GPS Tracker with Raspberry Pi Pico W

May 22, 2025 admin

GPS Project — Gearing Up for the Ultimate GPS Challenge

Guys in this class we will be building the Ultimate GPS Tracker. This will build on all you learned in our most excellent Raspberry Pi Pico W class, and now we will begin working on a real project. Hopefully most of the gear you will already have from the various kits you already have, but I give amazon links to the gear we will be using in the project. You Will Need:

Raspberry Pi Pico W: ORDER HERE
Adafruit Ultimate GPS: ORDER HERE
External Antenna (OPTIONAL): ORDER HERE
Button Battery For Quicker Fix: ORDER HERE
Soldering Iron: ORDER HERE
Solder Practice Components: ORDER HERE
Extra Solder: ORDER HERE
Safety Glasses: ORDER HERE
Breadvolt Power Supply (OPTIONAL): ORDER HERE
Charging Cable (If You Don’t Have): ORDER HERE
OLED SSD1306: (ORDER HERE)
Breadboard and Wires (If You Don’t Have): ORDER HERE

MicroPython, Raspberry Pi Pico

RFID Project to Lock and Unlock Control of Servo

May 20, 2025 admin

In this video lesson we explore a project where control access to a servo is activated by an RDID tag. In order to position the servo with the pushbuttons, the system must be unlocked by a RDID tag. When the system is locked, the LED is red, when the system is unlocked, the LED is green.

RFID-SERVO — This schematic allows servo control to be granted via RFID tag

For your convenience, this is the code we developed below.

from mfrc522 import SimpleMFRC522
import time
import ujson
from machine import Pin, PWM
unlockTime = 5
decPin = 20
incPin = 21
servoPin=0
decBut=Pin(decPin,Pin.IN,Pin.PULL_UP)
incBut=Pin(incPin,Pin.IN,Pin.PULL_UP)

redPin=15
greenPin=14
bluePin=13
redLED=Pin(redPin,Pin.OUT)
greenLED=Pin(greenPin,Pin.OUT)
blueLED=Pin(bluePin,Pin.OUT)
redLED.on()
greenLED.off()
blueLED.off()

incButState=1
incButStateOld=1

decButState=1
decButStateOld=1

myServo=PWM(Pin(servoPin))
myServo.freq(50)
servoAngle=0

reader=SimpleMFRC522(spi_id=0,sck=18,miso=16,mosi=19,cs=17,rst=9)

try:
    f=open("/dict.json","r")
    servoDict=ujson.load(f)
    f.close()
except:
    myDict={}
    f=open('dict.json','w')
    ujson.dump(myDict,f)
    f.close()
def readRFID():
    global cardID,servoAngle
    print()
    print("System LOCKED")
    print("Reading . . . Please Place the Card")
    cardID,readText = reader.read()
    print()
    print("ID: ",cardID)
    try:
        f=open('/dict.json','r')
        servoDict = ujson.load(f)
        f.close()
        servoAngle=servoDict[cardID]
        print(servoAngle)
        moveServo()
    except:
        f=open('/dict.json','r')
        myDict=ujson.load(f)
        f.close()
        myDict[cardID]=servoAngle
        f = open('/dict.json','w')
        ujson.dump(myDict,f)
        f.close()
        moveServo()

def moveServo():
    writeVal = 6553/180*servoAngle + 1638
    myServo.duty_u16(int(writeVal))
    f=open('/dict.json','r')
    myDict =ujson.load(f)
    f.close()
    myDict[cardID]=servoAngle
    f=open('/dict.json','w')
    ujson.dump(myDict, f)
    f.close()
while True:
    redLED.on()
    greenLED.off()
    blueLED.off()
    readRFID()
    print("System Unlocked by Card: ",cardID)
    unlockStart= time.time()
    while time.time()-unlockStart<unlockTime:
        redLED.off()
        greenLED.on()
        incButState=incBut.value()
        decButState=decBut.value()
        if incButState==0 and incButStateOld==1:
            servoAngle=servoAngle + 10
            if servoAngle>180:
                servoAngle=180
            if servoAngle<0:
                servoAngle=0
            moveServo()
            unlockStart=time.time()
            time.sleep(.2)
        if decButState==0 and decButStateOld==1:
            servoAngle=servoAngle - 10
            if servoAngle>180:
                servoAngle=180
            if servoAngle<0:
                servoAngle=0
            moveServo()
            unlockStart=time.time()
            time.sleep(.2)
        incButStateOld=incButState
        decButStateOld=decButState

100

101

102

103

104

105

106

107

108

109

from mfrc522 import SimpleMFRC522

import time

import ujson

from machine import Pin, PWM

unlockTime = 5

decPin = 20

incPin = 21

servoPin=0

decBut=Pin(decPin,Pin.IN,Pin.PULL_UP)

incBut=Pin(incPin,Pin.IN,Pin.PULL_UP)

redPin=15

greenPin=14

bluePin=13

redLED=Pin(redPin,Pin.OUT)

greenLED=Pin(greenPin,Pin.OUT)

blueLED=Pin(bluePin,Pin.OUT)

redLED.on()

greenLED.off()

blueLED.off()

incButState=1

incButStateOld=1

decButState=1

decButStateOld=1

myServo=PWM(Pin(servoPin))

myServo.freq(50)

servoAngle=0

reader=SimpleMFRC522(spi_id=0,sck=18,miso=16,mosi=19,cs=17,rst=9)

try:

f=open("/dict.json","r")

servoDict=ujson.load(f)

f.close()

except:

myDict={}

f=open('dict.json','w')

ujson.dump(myDict,f)

f.close()

def readRFID():

global cardID,servoAngle

print()

print("System LOCKED")

print("Reading . . . Please Place the Card")

cardID,readText = reader.read()

print()

print("ID: ",cardID)

try:

f=open('/dict.json','r')

servoDict = ujson.load(f)

f.close()

servoAngle=servoDict[cardID]

print(servoAngle)

moveServo()

except:

f=open('/dict.json','r')

myDict=ujson.load(f)

f.close()

myDict[cardID]=servoAngle

f = open('/dict.json','w')

ujson.dump(myDict,f)

f.close()

moveServo()

def moveServo():

writeVal = 6553/180*servoAngle + 1638

myServo.duty_u16(int(writeVal))

f=open('/dict.json','r')

myDict =ujson.load(f)

f.close()

myDict[cardID]=servoAngle

f=open('/dict.json','w')

ujson.dump(myDict, f)

f.close()

while True:

redLED.on()

greenLED.off()

blueLED.off()

readRFID()

print("System Unlocked by Card: ",cardID)

unlockStart= time.time()

while time.time()-unlockStart<unlockTime:

redLED.off()

greenLED.on()

incButState=incBut.value()

decButState=decBut.value()

if incButState==0 and incButStateOld==1:

servoAngle=servoAngle + 10

if servoAngle>180:

servoAngle=180

if servoAngle<0:

servoAngle=0

moveServo()

unlockStart=time.time()

time.sleep(.2)

if decButState==0 and decButStateOld==1:

servoAngle=servoAngle - 10

if servoAngle>180:

servoAngle=180

if servoAngle<0:

servoAngle=0

moveServo()

unlockStart=time.time()

time.sleep(.2)

incButStateOld=incButState

decButStateOld=decButState

Arduino, Arduino with Python, Python

Improved Client Server Framework for Arduino

May 16, 2025 admin

In this lesson, we show an improved framework for creating a Client/Server connection between your Arduino and your desktop PC over WiFi. This will serve as the basis for our WiFi projects moving forward. On the arduino side, we have the following code to create the Server:

#include <WiFiS3.h>
#include "secrets.h"
WiFiUDP udp;
int PORT = 12345;
String myString;
String stringArray[10];
String response = "ACK";
void setup() {
  Serial.begin(9600);
  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();
  }
}

#include <WiFiS3.h>

#include "secrets.h"

WiFiUDP udp;

int PORT = 12345;

String myString;

String stringArray[10];

String response = "ACK";

void setup() {

Serial.begin(9600);

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();

}

Remember, you must create a new tab, and include the following as your ‘secrets.h’ file

#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 Desktop side, this will be your python ‘Client’ code:

import socket

# Arduino’s IP address (from Arduino Serial Monitor)
HOST = "192.168.88.33"  # 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

print("UDP Client started. Enter Data (or 'quit' to exit).")

while True:
    # Prompt for Data
    myData = input("Enter Data String: ") 
    if myData.lower() == 'quit':  # Exit condition
        break
    # Send Data to the server
    myData=myData+'\n'
    myDataEncoded=myData.encode()
    mySocket.sendto(myDataEncoded, (HOST, PORT))
    print('Sent '+myData+' to HOST',HOST,PORT)

    # Try to get a response, skip on timeout
    try:
        response, server_address = mySocket.recvfrom(1024)
        print("Server response:", response.decode())
    except socket.timeout:
        print("No response received from server within 5 seconds")

# Close the socket
mySocket.close()
print("Socket closed")

import socket

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

HOST = "192.168.88.33" # 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

print("UDP Client started. Enter Data (or 'quit' to exit).")

while True:

# Prompt for Data

myData = input("Enter Data String: ")

if myData.lower() == 'quit': # Exit condition

break

# Send Data to the server

myData=myData+'\n'

myDataEncoded=myData.encode()

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

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

# Try to get a response, skip on timeout

try:

response, server_address = mySocket.recvfrom(1024)

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

except socket.timeout:

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

# Close the socket

mySocket.close()

print("Socket closed")

MicroPython, Raspberry Pi Pico

RFID Lock and Unlock Demonstration Project Raspberry Pi Pico W

May 13, 2025 admin

In this video lesson we explore using an RFID-RC522 and an RFID tag to lock and unlock our raspberry pi project. This demonstration will include an RGB LED which remains red while the system is locked, and then turns green when the system is unlocked by the RFID tag. Absence of user input, the system will lock again after 5 seconds. The following is the circuit diagram for the project:

For your convenience, the code for the project is included below:

from mfrc522 import SimpleMFRC522
import time
from machine import Pin, PWM
unlockTime = 5
decPin = 20
incPin = 21
decBut=Pin(decPin,Pin.IN,Pin.PULL_UP)
incBut=Pin(incPin,Pin.IN,Pin.PULL_UP)

redPin=15
greenPin=14
bluePin=13
redLED=Pin(redPin,Pin.OUT)
greenLED=Pin(greenPin,Pin.OUT)
blueLED=Pin(bluePin,Pin.OUT)
redLED.on()
greenLED.off()
blueLED.off()

incButState=1
incButStateOld=1

decButState=1
decButStateOld=1

butCount = 0

reader=SimpleMFRC522(spi_id=0,sck=18,miso=16,mosi=19,cs=17,rst=9)

def readRFID():
    global cardID
    print()
    print("System LOCKED")
    print("Reading . . . Please Place the Card")
    cardID,readText = reader.read()
    print()
    print("ID: ",cardID)
while True:
    redLED.on()
    greenLED.off()
    blueLED.off()
    readRFID()
    print("System Unlocked by Card: ",cardID)
    unlockStart= time.time()
    while time.time()-unlockStart<unlockTime:
        redLED.off()
        greenLED.on()
        incButState=incBut.value()
        decButState=decBut.value()
        if incButState==0 and incButStateOld==1:
            butCount=butCount+1
            print("Button Count: ",butCount)
            unlockStart=time.time()
            time.sleep(.2)
        if decButState==0 and decButStateOld==1:
            butCount=butCount-1
            print("Button Count: ",butCount)
            unlockStart=time.time()
            time.sleep(.2)
        incButStateOld=incButState
        decButStateOld=decButState

from mfrc522 import SimpleMFRC522

import time

from machine import Pin, PWM

unlockTime = 5

decPin = 20

incPin = 21

decBut=Pin(decPin,Pin.IN,Pin.PULL_UP)

incBut=Pin(incPin,Pin.IN,Pin.PULL_UP)

redPin=15

greenPin=14

bluePin=13

redLED=Pin(redPin,Pin.OUT)

greenLED=Pin(greenPin,Pin.OUT)

blueLED=Pin(bluePin,Pin.OUT)

redLED.on()

greenLED.off()

blueLED.off()

incButState=1

incButStateOld=1

decButState=1

decButStateOld=1

butCount = 0

reader=SimpleMFRC522(spi_id=0,sck=18,miso=16,mosi=19,cs=17,rst=9)

def readRFID():

global cardID

print()

print("System LOCKED")

print("Reading . . . Please Place the Card")

cardID,readText = reader.read()

print()

print("ID: ",cardID)

while True:

redLED.on()

greenLED.off()

blueLED.off()

readRFID()

print("System Unlocked by Card: ",cardID)

unlockStart= time.time()

while time.time()-unlockStart<unlockTime:

redLED.off()

greenLED.on()

incButState=incBut.value()

decButState=decBut.value()

if incButState==0 and incButStateOld==1:

butCount=butCount+1

print("Button Count: ",butCount)

unlockStart=time.time()

time.sleep(.2)

if decButState==0 and decButStateOld==1:

butCount=butCount-1

print("Button Count: ",butCount)

unlockStart=time.time()

time.sleep(.2)

incButStateOld=incButState

decButStateOld=decButState

Technology Tutorials

Use PyQt5 to Create a Graphical User Interface for Arduino Project Over WiFi

Getting Geared Up for the Ultimate GPS Tracker with Raspberry Pi Pico W

RFID Project to Lock and Unlock Control of Servo

Improved Client Server Framework for Arduino

RFID Lock and Unlock Demonstration Project Raspberry Pi Pico W

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