Research & Development Department, Author at LK-Tronics https://lk-tronics.com/author/research-and-development-department/ Components for the Future Wed, 22 May 2024 07:29:54 +0000 en-US hourly 1 https://wordpress.org/?v=6.7 https://i0.wp.com/lk-tronics.com/wp-content/uploads/2023/11/cropped-Main-Logo-lktronics-2023-512-x-512-px-1.png?fit=32%2C32&ssl=1 Research & Development Department, Author at LK-Tronics https://lk-tronics.com/author/research-and-development-department/ 32 32 153475254 MQ-135 Air Quality Gas Smoke Detection Sensor with Arduino https://lk-tronics.com/mq-135-air-quality-gas-smoke-detection-sensor-with-arduino/ https://lk-tronics.com/mq-135-air-quality-gas-smoke-detection-sensor-with-arduino/#respond Wed, 22 May 2024 07:29:49 +0000 https://lk-tronics.com/?p=16058 LK-Tronics
MQ-135 Air Quality Gas Smoke Detection Sensor with Arduino

The MQ-135 is a popular gas sensor used for detecting a variety of gases including ammonia (NH3), nitrogen oxides (NOx), alcohol, benzene, smoke, and carbon dioxide (CO2). It is widely

MQ-135 Air Quality Gas Smoke Detection Sensor with Arduino
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MQ-135 Air Quality Gas Smoke Detection Sensor with Arduino

The MQ-135 is a popular gas sensor used for detecting a variety of gases including ammonia (NH3), nitrogen oxides (NOx), alcohol, benzene, smoke, and carbon dioxide (CO2). It is widely used in air quality monitoring applications due to its broad detection range and sensitivity to several gases. Here’s an overview of the MQ-135 sensor:

Features

  1. High Sensitivity: The sensor is highly sensitive to ammonia, NOx, alcohol, benzene, smoke, and CO2.
  2. Wide Detection Range: It can detect concentrations from 10 ppm (parts per million) to 1000 ppm.
  3. Fast Response and Recovery: The sensor has a quick response time and can recover quickly after exposure to target gases.
  4. Analog Output: The MQ-135 provides an analog output proportional to the concentration of the detected gas.

Specifications

  • Operating Voltage: 5V
  • Load Resistance: Adjustable
  • Heater Consumption: <800 mW
  • Sensing Resistance: 10 kΩ – 60 kΩ (in clean air)
  • Preheat Time: 20 seconds
  • Operating Temperature: -10°C to 50°C
  • Humidity: 95% RH

Pin Configuration

  • VCC: Power supply pin (5V)
  • GND: Ground pin
  • DO: Digital output pin
  • AO: Analog output pin

Applications

  • Air quality monitoring
  • Gas leak detection systems
  • Industrial safety systems
  • Portable air quality meters

How to Use the MQ-135 Sensor

  1. Wiring: Connect the VCC to a 5V power supply, GND to ground, AO to an analog input pin of a microcontroller, and DO to a digital input pin if digital readout is needed.
  2. Calibration: It is crucial to calibrate the sensor in a clean-air environment to establish a baseline resistance. This allows for accurate readings.
  3. Reading Data: The sensor provides an analog voltage output that varies with the concentration of gases. This output can be read using an ADC (Analog-to-Digital Converter) on a microcontroller like Arduino.
  4. Interpreting Readings: Convert the analog value to a gas concentration using the sensor’s datasheet and the specific calibration curve provided.
/***********************************************
* Company Name:LK Tronics
* Author: Research & Development Department
EXPERT GUIDANCE TO BRING YOUR DREAM PROJECT TO LIFE
* Date: 2023/03/10
* https://lk-tronics.com/
***********************************************
* All rights reserved. No part of this code may be reproduced, distributed,
* or transmitted in any form or by any means, including photocopying, recording,
* or other electronic or mechanical methods, without the prior written permission
* of LK Tronics, except in the case of brief quotations embodied in
* critical reviews and certain other noncommercial uses permitted by copyright law.

************************************************/
const int analogPin = A0;  // Analog input pin that the sensor is attached to
int sensorValue = 0;       // Variable to store the value coming from the sensor

void setup() {
  Serial.begin(9600);      // Initialize serial communication at 9600 bits per second
}

void loop() {
  sensorValue = analogRead(analogPin);  // Read the analog value from the sensor
  Serial.print("Gas Concentration: ");
  Serial.println(sensorValue);          // Print the value to the serial monitor
  delay(1000);                          // Wait for 1 second before the next reading
}

Considerations

  • Environmental Factors: Temperature and humidity can affect sensor readings, so it’s important to consider these factors in the application.
  • Interference: The sensor can detect multiple gases, which might lead to interference and affect the accuracy for a specific gas detection.

The MQ-135 is a versatile and cost-effective solution for detecting a variety of gases, making it ideal for environmental monitoring and safety applications. Proper calibration and understanding of its characteristics are crucial for accurate measurements.

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OLED Display with Arduino https://lk-tronics.com/oled-display-with-arduino/ https://lk-tronics.com/oled-display-with-arduino/#respond Wed, 17 Jan 2024 14:54:34 +0000 https://lk-tronics.com/?p=14623 LK-Tronics
OLED Display with Arduino

An Organic Light light-emitting diode (OLED) display is a type of flat-panel display technology that uses organic compounds to emit light when an electric current is applied. OLEDs are known

OLED Display with Arduino
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OLED Display with Arduino

An Organic Light light-emitting diode (OLED) display is a type of flat-panel display technology that uses organic compounds to emit light when an electric current is applied. OLEDs are known for their vibrant colors, high contrast ratios, fast response times, and flexibility. Unlike traditional liquid crystal displays (LCDs) that require a backlight, OLEDs are “emissive” displays, meaning each pixel generates its light. This allows for more accurate and dynamic color reproduction, as well as deeper blacks since individual pixels can be turned off completely to achieve true black.

Here are some key features and advantages of OLED displays:

  1. Thin and Flexible: OLED displays can be made very thin and flexible, making them suitable for applications such as curved or rollable screens.
  2. Wide Viewing Angles: OLEDs offer wide viewing angles, maintaining color accuracy and brightness even when viewed from different angles.
  3. Faster Response Time: OLEDs have faster response times compared to traditional LCDs, resulting in smoother motion and reduced motion blur.
  4. High Contrast Ratios: OLEDs can achieve high contrast ratios, as individual pixels emit their light, allowing for better differentiation between light and dark areas on the screen.
  5. Energy Efficiency: OLEDs are generally more energy-efficient than traditional displays because they don’t require a constant backlight. Power is consumed only when the pixels are emitting light.
  6. Better Color Reproduction: OLED displays can produce more vibrant and accurate colors due to their ability to emit light directly.

Despite their advantages, OLEDs also have some challenges, including potential issues with long-term durability (especially for blue OLEDs), susceptibility to water damage, and manufacturing costs. Researchers and manufacturers are continually working to address these challenges and improve the technology.

OLED displays are commonly used in various electronic devices, such as smartphones, televisions, computer monitors, and wearable devices. As technology advances, OLEDs continue to play a significant role in the evolution of display technologies.

***************************************************************************************************************

***************************************************************************************************************

* Company Name:LK Tronics
* Author: Research & Development Department
EXPERT GUIDANCE TO BRING YOUR DREAM PROJECT TO LIFE
* Date: 2023/ 12/21
* https://lk-tronics.com/
***********************************************
* All rights reserved. No part of this code may be reproduced, distributed,
* or transmitted in any form or by any means, including photocopying, recording,
* or other electronic or mechanical methods, without the prior written permission
* of LK Tronics, except in the case of brief quotations embodied in
* critical reviews and certain other noncommercial uses permitted by copyright law.

************************************************/
#include <Wire.h>
#include <Adafruit_GFX.h>
#include <Adafruit_SSD1306.h>

#define SCREEN_WIDTH 128
#define SCREEN_HEIGHT 64


Adafruit_SSD1306 display(SCREEN_WIDTH, SCREEN_HEIGHT, &Wire);

void setup() {
  Serial.begin(9600);
  display.begin(SSD1306_I2C, 0x3C);
  display.clearDisplay(); // Clear the buffer
}

void loop() {
  display.setTextSize(3); 
  display.setTextColor(SSD1306_WHITE);  // Draw white text
  display.setCursor(30,30);     // Start at top-left corner
  display.print(F("LK Tronics"));

  display.display();   // Show the display buffer on the screen
  delay(2000);
  display.clearDisplay();
}

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L298N Motor Driver with Arduino https://lk-tronics.com/l298n-motor-driver-with-arduino/ https://lk-tronics.com/l298n-motor-driver-with-arduino/#respond Mon, 08 Jan 2024 06:47:04 +0000 https://lk-tronics.com/?p=14562 LK-Tronics
L298N Motor Driver with Arduino

The L298N is a popular dual H-bridge motor driver integrated circuit commonly used in robotics and other projects to control DC motors or stepper motors. It allows you to control

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L298N Motor Driver with Arduino


The L298N is a popular dual H-bridge motor driver integrated circuit commonly used in robotics and other projects to control DC motors or stepper motors. It allows you to control the direction and speed of two DC motors independently.

Features and Connections:

  1. Dual H-Bridge: The L298N has two H-bridges, allowing it to control two motors independently.
  2. Motor Power Supply: It requires an external power supply for the motors, typically 7V to 35V. Ensure the voltage matches your motor specifications.
  3. Logic Power Supply: It also needs a separate power supply (usually 5V) for its logic circuitry.
  4. Motor Connections: Connect your motors to the OUT1/OUT2 and OUT3/OUT4 pins for Motor 1 and Motor 2, respectively.
  5. Control Pins: The control pins are used to control the direction and speed of the motors. The logic inputs IN1, IN2, IN3, and IN4 control the direction, while PWM (Pulse Width Modulation) signals applied to the ENA and ENB pins control the motor speed.
  6. Enable Pins (ENA and ENB): To control the speed of the motors, you can apply a PWM signal to these pins. The higher the PWM value, the faster the motor spins.
  7. Direction Pins (IN1, IN2, IN3, IN4): These pins determine the direction of the motor. For instance, setting IN1=HIGH and IN2=LOW might make the motor turn in one direction, while reversing those values will change the motor’s direction.

Remember to use appropriate heat sinks if the motor driver gets hot during prolonged usage, and always handle the connections carefully to prevent short circuits.

***************************************************************************************************************

***************************************************************************************************************

Replace the PINs (enA, in1, and in2) with the actual pins you’ve connected the L298N to on your Arduino board. The code demonstrates how to control the direction and speed of the motor. Adjust the analogWrite(enA, 200) value to change the motor speed (values between 0-255).

Make sure to power the L298N separately with an appropriate voltage source, connect the motor to the outputs of the L298N, and connect the control pins (IN1, IN2, ENA) to the Arduino as specified in the code.

This code is a simple demonstration. For a more sophisticated control scheme or for incorporating inputs like potentiometers or sensors, you’d modify the loop() function accordingly.

Arduino Code

* Company Name:LK Tronics
* Author: Research & Development Department
EXPERT GUIDANCE TO BRING YOUR DREAM PROJECT TO LIFE
* Date: 2022/ 01/20
* https://lk-tronics.com/
***********************************************
* All rights reserved. No part of this code may be reproduced, distributed,
* or transmitted in any form or by any means, including photocopying, recording,
* or other electronic or mechanical methods, without the prior written permission
* of LK Tronics, except in the case of brief quotations embodied in
* critical reviews and certain other noncommercial uses permitted by copyright law.

************************************************/
int enA = 9;
int in1 = 8;
int in2 = 7;

void setup() {
  pinMode(enA, OUTPUT);
  pinMode(in1, OUTPUT);
  pinMode(in2, OUTPUT);

  // Set initial rotation direction
  digitalWrite(in1, LOW);
  digitalWrite(in2, HIGH);

  // Initialize serial communication
  Serial.begin(9600);
}

void loop() {
  // Motor speed control using PWM on enable pin (enA)
  analogWrite(enA, 200); // Change this value (0-255) for speed control
  
  // Move the motor in one direction for some time
  Serial.println("Motor rotating in one direction");
  delay(2000); // 2 seconds delay

  // Change rotation direction
  digitalWrite(in1, HIGH);
  digitalWrite(in2, LOW);

  // Move the motor in the opposite direction for some time
  Serial.println("Motor rotating in the opposite direction");
  delay(2000); // 2 seconds delay

  // Stop the motor
  digitalWrite(in1, LOW);
  digitalWrite(in2, LOW);
  
  Serial.println("Motor stopped");
  delay(2000); // 2 seconds delay
}

L298N Motor Driver Module (lk-tronics.com)

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What is 801S Vibration Sensor with Arduino https://lk-tronics.com/801s-vibration-sensor-with-arduino/ https://lk-tronics.com/801s-vibration-sensor-with-arduino/#respond Wed, 08 Nov 2023 10:02:13 +0000 https://lk-tronics.com/?p=13888 LK-Tronics
What is 801S Vibration Sensor with Arduino

The 801S Vibration Sensor is a module use to detect vibration or mechanical movements. It is commonly employe in various projects and applications where the detection of physical vibrations is

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What is 801S Vibration Sensor with Arduino

The 801S Vibration Sensor is a module use to detect vibration or mechanical movements. It is commonly employe in various projects and applications where the detection of physical vibrations is required. This sensor can used for purposes such as security systems, impact detection, and vibration monitoring. Here are some key features and information about the 801S Vibration Sensor:

  • Operating Principle: The 801S Vibration Sensor is typically based on a piezoelectric crystal. When the sensor experiences a mechanical vibration or impact, it generates a small voltage signal due to the deformation of the crystal. This signal can used to detect the vibration.
  • Output: The sensor typically provides a digital output signal. When a vibration is detect, the sensor output goes from a LOW to a HIGH state. It can interface with microcontrollers or other digital devices.
  • Sensitivity Adjustment: Some versions of the 801S sensor come with a sensitivity adjustment potentiometer. This allows you to adjust the sensor’s sensitivity to different levels of vibration.
  • Operating Voltage: The sensor usually operates at a low voltage, typically around 3.3V to 5V, making it compatible with most microcontrollers.
  • Applications: This sensor is often use in applications where the detection of movement or vibration is essential, such as in burglar alarms, motion-activated lights, or as part of a system to monitor the integrity of structures or machinery.
  • Wiring: The sensor typically has three pins: VCC (power supply), GND (ground), and OUT (output). Connect VCC and GND to your power supply, and the OUT pin to a digital input pin on your microcontroller.

***************************************************************************************************************

/* Company Name:LK Tronics
* Author: Research & Development Department
EXPERT GUIDANCE TO BRING YOUR DREAM PROJECT TO LIFE
* Date: 2020/ 08/ 25
* https://lk-tronics.com/
***********************************************
* All rights reserved. No part of this code may be reproduced, distributed,
* or transmitted in any form or by any means, including photocopying, recording,
* or other electronic or mechanical methods, without the prior written permission
* of LK Tronics, except in the case of brief quotations embodied in
* critical reviews and certain other noncommercial uses permitted by copyright law.

************************************************/
const int vibrationPin = 3;  // Define the pin

void setup() {
  pinMode(vibrationPin, INPUT);  // Set the sensor pin as an input
  Serial.begin(9600);
}

void loop() {
  int vibrationState = digitalRead(vibrationPin);  // Read the state of the sensor
  
  if (vibrationState == HIGH) {
  Serial.println("Vibration detected!");//Print a message when vibration is detected

  }
}

***************************************************************************************************************

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What is MLX9014 IR Temperature Sensor with Arduino https://lk-tronics.com/mlx9014-ir-temperature-sensor-with-arduino/ https://lk-tronics.com/mlx9014-ir-temperature-sensor-with-arduino/#respond Wed, 08 Nov 2023 09:50:22 +0000 https://lk-tronics.com/?p=13883 LK-Tronics
What is MLX9014 IR Temperature Sensor with Arduino

The MLX9014 is an infrared (IR) temperature sensor manufacture by Melexis. It is a non-contact temperature sensor that can accurately measure the temperature of an object without physical contact. The

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What is MLX9014 IR Temperature Sensor with Arduino

The MLX9014 is an infrared (IR) temperature sensor manufacture by Melexis. It is a non-contact temperature sensor that can accurately measure the temperature of an object without physical contact. The MLX9014 is often use in various applications, including industrial temperature measurement, automotive systems, and consumer electronics. Here are some key features and information about the MLX9014 IR temperature sensor:

What are the Feature

  • Operating Principle: The MLX9014 is based on the principles of infrared thermometry. It detects the thermal radiation emitted by an object and converts it into a temperature reading.
  • Measurement Range: The MLX9014 typically has a wide temperature measurement range, making it suitable for various applications. The specific measurement range may vary depending on the model.
  • Accuracy: Melexis give different versions of the MLX9014 with varying levels of accuracy, you can choose a model that your application’s requirements. The accuracy is typically specified in terms of temperature resolution and measurement error.
  • Analog Output: The MLX9014 usually provides an analog output signal, as a voltage or current, that corresponds to the measured temperature. The output is typically linear and can interfaced with microcontrollers or other analog electronics.
  • Digital Interface: Some versions of the MLX9014 come with a digital interface, as I2C or SPI, which simplifies communication with microcontrollers and provides digital temperature readings.
  • Emissivity Correction: The sensor can calibrated for different types of surfaces with varying emissivity to ensure accurate temperature readings. Emissivity is a measure of how efficiently an object emits thermal radiation.
  • Field of View: The field of view (FOV) or spot size of the sensor can vary between models. It determines the area on the object from which the sensor collects thermal radiation for temperature measurement.
  • Supply Voltage: The MLX9014 typically operates on a low supply voltage, making it suitable for battery-powered and low-power applications.
  • Applications: The MLX9014 is use in a wide range of applications, including industrial temperature monitoring, automotive climate control, medical devices, and consumer electronics like non-contact thermometers.
  • Mounting Options: The sensor can mounted in various ways, through-hole or surface-mount (SMD) options, depending on your application’s requirements.

The datasheet will contain information about the pin configuration, operating conditions, calibration procedures, and other details necessary to correctly interface and use the sensor in your project.

Arduino Code

***************************************************************************************************************

/* Company Name:LK Tronics
* Author: Research & Development Department
EXPERT GUIDANCE TO BRING YOUR DREAM PROJECT TO LIFE
* Date: 2020/ 08/ 16
* https://lk-tronics.com/
***********************************************
* All rights reserved. No part of this code may be reproduced, distributed,
* or transmitted in any form or by any means, including photocopying, recording,
* or other electronic or mechanical methods, without the prior written permission
* of LK Tronics, except in the case of brief quotations embodied in
* critical reviews and certain other noncommercial uses permitted by copyright law.

************************************************/
#include <Wire.h>
#include <MLX9014.h>

MLX9014 mlx;

void setup() {
  Serial.begin(9600);
  Wire.begin();
  mlx.begin();
}

void loop() {
  float objectTemperature = mlx.readObjectTemperatureCelsius();
  float ambientTemperature = mlx.readAmbientTemperatureCelsius();
  
  Serial.print("Object Temperature: ");
  Serial.print(objectTemperature);
  Serial.println(" °C");
  
  Serial.print("Ambient Temperature: ");
  Serial.print(ambientTemperature);
  Serial.println(" °C");
  
  delay(1000);
}

***************************************************************************************************************

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What is TTP223 Touch Sensor with Arduino https://lk-tronics.com/ttp223-touch-sensor-with-arduino/ https://lk-tronics.com/ttp223-touch-sensor-with-arduino/#respond Wed, 08 Nov 2023 09:38:39 +0000 https://lk-tronics.com/?p=13878 LK-Tronics
What is TTP223 Touch Sensor with Arduino

The TTP223 is a popular touch sensor module that can detect human touch or capacitive touch. It is widely use in various electronics projects and applications. Here are some key

What is TTP223 Touch Sensor with Arduino
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What is TTP223 Touch Sensor with Arduino

The TTP223 is a popular touch sensor module that can detect human touch or capacitive touch. It is widely use in various electronics projects and applications. Here are some key features and information about the TTP223 touch sensor:

Key point

  • Operating Principle: The TTP223 touch sensor module uses capacitive touch technology to detect a touch. When a user touches the surface of the sensor, it changes the capacitance of the touchpad, and the module can sense this change.
  • Operating Voltage: TTP223 modules typically operate at a voltage of 2.0V to 5.5V, making them compatible with a wide range of microcontrollers and digital devices.
  • Output Modes: The TTP223 module usually provides two output modes, which can select using a jumper or solder bridge on the module:
  • Toggle Mode: In this mode, a single touch will toggle the output state between HIGH and LOW. Another touch will toggle it back to the previous state.
  • Momentary Mode: In this mode, the output is HIGH as long as there is a touch detect, and it goes LOW as soon as the touch is removed.
  • Sensitivity Adjustment: Some TTP223 modules come with a sensitivity adjustment potentiometer, allowing you to adjust the touch sensitivity according to your requirements.
  • Output Signal: The module typically provides a digital output signal (HIGH or LOW) that can read by a microcontroller or other digital devices.
  • Application: TTP223 touch sensors are use in various applications, such as touch-sensitive lamps, interactive displays, and DIY electronics projects. They are a simple way to add touch functionality to your projects.
  • Wiring: To use a TTP223 module, you need to connect it to your microcontroller or digital device using its VCC, GND, and OUT pins. The specific pinout may vary depending on the module’s manufacturer, so be sure to check the datasheet or documentation provided with your particular module.
  • Interfacing: When interfacing with a microcontroller, you can use the digital output to trigger actions or responses in your project whenever a touch is detect.
  • Libraries and Code: Depending on your microcontroller platform, you may find libraries or code examples that make it easier to interface with the TTP223 touch sensor module. This can save you time in setting up and using the sensor in your projects.

It’s important to refer to the datasheet and documentation provided by the manufacturer of the specific TTP223 module you are using, as pin configurations and features may vary between different models. Additionally, it’s essential to handle the sensor module with care to avoid damage and ensure proper functionality.

Arduino code

***************************************************************************************************************

/* Company Name:LK Tronics
* Author: Research & Development Department
EXPERT GUIDANCE TO BRING YOUR DREAM PROJECT TO LIFE
* Date: 2020/ 08/ 10
* https://lk-tronics.com/
***********************************************
* All rights reserved. No part of this code may be reproduced, distributed,
* or transmitted in any form or by any means, including photocopying, recording,
* or other electronic or mechanical methods, without the prior written permission
* of LK Tronics, except in the case of brief quotations embodied in
* critical reviews and certain other noncommercial uses permitted by copyright law.

************************************************/

const int touchSensorPin = 8; // Define the pin where the TTP223 module is connected

void setup() {
  pinMode(touchSensorPin, INPUT); // Set the sensor pin as an input
  Serial.begin(9600);
}

void loop() {
  int touchState = digitalRead(touchSensorPin); // Read the state of the Sensor

  if (touchState == HIGH) {
    Serial.println("Touch detected!"); // Print a message when touch is detected
    // You can perform any actions or logic here when a touch is detected
  }

  delay(100);
}

***************************************************************************************************************

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What is Analog TDS Sensor with Arduino https://lk-tronics.com/analog-tds-sensor-with-arduino/ https://lk-tronics.com/analog-tds-sensor-with-arduino/#respond Wed, 25 Oct 2023 09:04:27 +0000 https://lk-tronics.com/?p=13713 LK-Tronics
What is Analog TDS Sensor with Arduino

An analog TDS sensor measures the stuff dissolved in water. It gives a signal showing how much solid stuff, like salts and minerals, is in the water. People use these

What is Analog TDS Sensor with Arduino
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What is Analog TDS Sensor with Arduino

An analog TDS sensor measures the stuff dissolved in water. It gives a signal showing how much solid stuff, like salts and minerals, is in the water. People use these sensors to check if the water is clean, like in gardens or for treating water. They sometimes turn the analog signal into a digital number for better studying and managing.

To use an analog TDS (Total Dissolved Solids) with an Arduino, you can follow these steps:

  1. Components Needed:
    • Arduino board (e.g., Arduino Uno, Arduino Nano)
    • Analog TDS sensor module
    • Jumper wires
    • Breadboard (optional)
  2. Wiring Connections:
    • Connect the VCC pin of the TDS sensor to the 5V pin on the Arduino.
    • Connect the GND pin of the TDS sensor to the GND on the Arduino.
    • Connect the analog output pin of the TDS sensor to one of the analog pins on the Arduino (e.g., A1).
  3. Upload Code:
    • Use the following sample code to read data from the analog TDS sensor and display it on the serial monitor:
  4. Calibration
    • Depending on your specific TDS sensor model and the TDS scale you’re interested in (measured in parts per million – ppm), you may need to calibrate the sensor to convert the raw analog readings to the desired unit of measurement. Adjust the mapping and scaling accordingly in the code.
  5. Testing:
    • Open the Arduino IDE, upload the code to your Arduino, and open the serial monitor (Ctrl+Shift+M). You should see real-time TDS readings displayed in ppm.
    • This setup allows you to interface an analog TDS sensor with an Arduino and obtain TDS measurements, which can be useful for water quality monitoring and analysis, particularly in applications like hydroponics and water treatment.
What is Analog TDS Sensor

***************************************************************************************************************

/* Company Name:LK Tronics
* Author: Research & Development Department
EXPERT GUIDANCE TO BRING YOUR DREAM PROJECT TO LIFE
* Date: 2020/ 05/ 20
* https://lk-tronics.com/
***********************************************
* All rights reserved. No part of this code may be reproduced, distributed,
* or transmitted in any form or by any means, including photocopying, recording,
* or other electronic or mechanical methods, without the prior written permission
* of LK Tronics, except in the case of brief quotations embodied in
* critical reviews and certain other noncommercial uses permitted by copyright law.

************************************************/
int tdsSensorPin = A1;  // Analog pin where the TDS sensor is connected

void setup() {
  Serial.begin(9600);
}

void loop() {
  int tdsValue = analogRead(tdsSensorPin);
  
  // You may need to map the raw value to your TDS scale
  // For example, if your sensor output is 0-1023 and your TDS scale is 0-500 ppm:
  float ppm = map(tdsValue, 0, 1023, 0, 500);
  
  Serial.print("TDS Value: ");
  Serial.print(ppm);
  Serial.println(" ppm");
  
  delay(1000);
}

***************************************************************************************************************

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What is MPU6050 Sensor (Accelerometer and Gyroscope Sensor) with Arduino https://lk-tronics.com/mpu6050-accelerometer-and-gyroscope-sensor-with-arduino/ https://lk-tronics.com/mpu6050-accelerometer-and-gyroscope-sensor-with-arduino/#respond Wed, 25 Oct 2023 08:44:16 +0000 https://lk-tronics.com/?p=13708 LK-Tronics
What is MPU6050 Sensor (Accelerometer and Gyroscope Sensor) with Arduino

The MPU6050 sensor combines an accelerometer and gyroscope, measuring acceleration and angular velocity in multiple axes. It’s widely used for motion sensing, orientation tracking, and stabilization control in devices like

What is MPU6050 Sensor (Accelerometer and Gyroscope Sensor) with Arduino
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What is MPU6050 Sensor (Accelerometer and Gyroscope Sensor) with Arduino

The MPU6050 sensor combines an accelerometer and gyroscope, measuring acceleration and angular velocity in multiple axes. It’s widely used for motion sensing, orientation tracking, and stabilization control in devices like drones, robots, and virtual reality systems, providing essential data for precise 3D positioning.

To use the MPU6050 accelerometer and gyroscope sensor with an Arduino, follow these steps:

  1. Components Needed:
    • Arduino board (e.g., Arduino Uno or Arduino Nano)
    • MPU6050 sensor module
    • Jumper wires
    • Breadboard (optional)
  2. Wiring Connections:
    • Connect the VCC pin of the MPU6050 to 5V on the Arduino.
    • Connect the GND pin of the MPU6050 to the GND on the Arduino.
    • Connect the SDA pin of the MPU6050
    • Connect the SCL pin of the MPU6050
  3. Install Libraries:
    • To interface with the sensor, you’ll need to install the “Adafruit MPU6050” library. You can do this through the Arduino Library Manager.
  4. Upload Code:
    • Use the following sample code to read data from the sensor and display it on the serial monitor:
  5. Testing:
    • Open the Arduino IDE, upload the code to your Arduino, and open the serial monitor (Ctrl+Shift+M). You should see real-time data from the this sensor, including acceleration and gyroscope readings.
    • This setup allows you to interface the MPU6050 accelerometer and gyroscope sensor with an Arduino and read the motion and orientation data for various applications, including robotics and motion-controlled devices.
Arduino Code

Arduino Code

***************************************************************************************************************

/* Company Name:LK Tronics
* Author: Research & Development Department
EXPERT GUIDANCE TO BRING YOUR DREAM PROJECT TO LIFE
* Date: 2020/ 05/ 14
* https://lk-tronics.com/
***********************************************
* All rights reserved. No part of this code may be reproduced, distributed,
* or transmitted in any form or by any means, including photocopying, recording,
* or other electronic or mechanical methods, without the prior written permission
* of LK Tronics, except in the case of brief quotations embodied in
* critical reviews and certain other noncommercial uses permitted by copyright law.

************************************************/
#include <Wire.h>
#include <Adafruit_MPU6050.h>

Adafruit_MPU6050 mpu;

void setup(void) {
  Serial.begin(9600);
  if (!mpu.begin()) {
    Serial.println("MPU6050 sensor, check wiring!");
    while (1);
  }
}

void loop() {
  sensors_event_t a, g, temp;
  mpu.getEvent(&a, &g, &temp);

  Serial.print("Acceleration: ");
  Serial.print(a.acceleration.x);
  Serial.print(" m/s^2\t");
  Serial.print(a.acceleration.y);
  Serial.print(" m/s^2\t");
  Serial.print(a.acceleration.z);
  Serial.println(" m/s^2");

  Serial.print("Rotation: ");
  Serial.print(g.gyro.x);
  Serial.print(" rad/s\t");
  Serial.print(g.gyro.y);
  Serial.print(" rad/s\t");
  Serial.print(g.gyro.z);
  Serial.println(" rad/s");

  delay(1000);
}

***************************************************************************************************************

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What is Load Cell 5 kg Module with Arduino? https://lk-tronics.com/load-cell-5-kg-module-with-arduino/ https://lk-tronics.com/load-cell-5-kg-module-with-arduino/#respond Wed, 25 Oct 2023 08:16:16 +0000 https://lk-tronics.com/?p=13689 LK-Tronics
What is Load Cell 5 kg Module with Arduino?

A Load Cell 5 kg Module a transducer that converts mechanical force or load into an electrical signal. It crucially measures force, weight, tension, compression, and more in diverse applications.

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What is Load Cell 5 kg Module with Arduino?

A Load Cell 5 kg Module a transducer that converts mechanical force or load into an electrical signal. It crucially measures force, weight, tension, compression, and more in diverse applications. Load cells include strain gauge, hydraulic, pneumatic, and capacitive types, with strain gauge being the most common and versatile.

The working principle of strain gauge Load Cell 5 kg Module is based on the principle of strain.
This strain alters the resistance in attached strain gauges. This change in resistance is proportional to the applied force and can measure as an electrical signal.

Load cells uses in various fields, including industrial scales, quality control, force measurement, structural analysis, and more.

The accuracy and sensitivity of load cells vary based on their load capacities and specifications. High-quality load cells offer accurate and repeatable measurements, and calibration is often necessary to ensure their precision.

Proper installation and mounting are crucial for ensuring accurate measurements with load cells, and they come in various capacities, ranging from a few grams to several tons, depending on the specific requirements of the application. Signal conditioning is often performed to effectively use the load cell’s output, which can involve amplification, filtering, and digitization of the analog signal produced by the load cell.

***************************************************************************************************************

/* Company Name:LK Tronics
* Author: Research & Development Department
EXPERT GUIDANCE TO BRING YOUR DREAM PROJECT TO LIFE
* Date: 2020/ 01/ 07
* https://lk-tronics.com/
***********************************************
* All rights reserved. No part of this code may be reproduced, distributed,
* or transmitted in any form or by any means, including photocopying, recording,
* or other electronic or mechanical methods, without the prior written permission
* of LK Tronics, except in the case of brief quotations embodied in
* critical reviews and certain other noncommercial uses permitted by copyright law.

************************************************/

include "HX711.h"

HX711 scale;

void setup() {
  Serial.begin(9600);
  scale.begin(D2, D3);  // Define the data and clock pins
}

void loop() {
  if (scale.is_ready()) {
  long weight = scale.get_units(10);  // Read the weight from the scale (10 measurements for averaging)
  Serial.print("Weight: ");
  Serial.print(weight);
  Serial.println(" grams");
} else {
   Serial.println("Error: Unable to detect the HX711.");
}
  delay(1000); 
}

***************************************************************************************************************

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What is MC38 Wired Door Magnetic Read Sensor with Arduino https://lk-tronics.com/mc38-wired-door-magnetic-read-sensor-with-arduino/ https://lk-tronics.com/mc38-wired-door-magnetic-read-sensor-with-arduino/#respond Mon, 16 Oct 2023 10:42:00 +0000 https://lk-tronics.com/?p=13569 LK-Tronics
What is MC38 Wired Door Magnetic Read Sensor with Arduino

The MC38 wired door sensor is a magnetic reed switch sensor used to detect the opening and closing of doors or windows. It is a commonly used component in security

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What is MC38 Wired Door Magnetic Read Sensor with Arduino

The MC38 wired door sensor is a magnetic reed switch sensor used to detect the opening and closing of doors or windows. It is a commonly used component in security systems, home automation, and various other applications where monitoring access or detecting intrusion is necessary. The sensor consists of two main components: a reed switch and a magnet.

How the MC-38 Wired Door Sensor Works:

  1. Reed Switch: The MC-38 sensor contains a reed switch, which is a type of electrical switch operated by an applied magnetic field. The reed switch is made up of two thin, flexible, and magnetizable metal reeds sealed within a glass envelope.
  2. Magnet: A small magnet is typically attached to the moving part of the door (like the door or window frame), while the reed switch is installed on the stationary part (like the door or window itself). When the door or window is closed, the magnet is close enough to the reed switch, creating a magnetic field that causes the reed switch to close, completing an electrical circuit.
  3. Open State: When the door or window is opened, the magnet moves away from the reed switch, and the magnetic field diminishes. As a result, the reed switch opens, breaking the electrical circuit. This change in the reed switch’s state is used to trigger an alarm or signal that the door or window has been opened.

Wiring the MC-38 Sensor:

To use the MC38 wired door sensor with a microcontroller, security system, or other applications, you need to wire it properly:

  1. Common Connection: Connect one of the reed switch’s wires to the ground (GND) or 0V of your circuit.
  2. Signal Connection: Connect the other wire from the reed switch to a digital input pin on your microcontroller or alarm system. When the door is opened or closed, the change in the sensor’s state is detected as a digital HIGH (door closed) or LOW (door opened) signal by your device.
  3. Magnet Placement: Install the magnet on the moving part (e.g., the door or window) and ensure it aligns with the reed switch when the door is closed.
  4. Reed Switch Placement: Securely mount the reed switch on the stationary part (e.g., the door frame) so that it aligns with the magnet when the door is closed.
MC38 Wired Door Magnetic Read Sensor

***************************************************************************************************************

/* Company Name:LK Tronics
* Author: Research & Development Department
EXPERT GUIDANCE TO BRING YOUR DREAM PROJECT TO LIFE
* Date: 2020/ 01/ 03
* https://lk-tronics.com/
***********************************************
* All rights reserved. No part of this code may be reproduced, distributed,
* or transmitted in any form or by any means, including photocopying, recording,
* or other electronic or mechanical methods, without the prior written permission
* of LK Tronics, except in the case of brief quotations embodied in
* critical reviews and certain other noncommercial uses permitted by copyright law.

************************************************/
const int doorSensorPin = 13;
const int LED = 2;
int doorState;

void setup() {
  pinMode(doorSensorPin, INPUT);
  pinMode(LED, OUTPUT);
  Serial.begin(9600);
}

void loop() {
  doorState = digitalRead(doorSensorPin);

  if (doorState == LOW) {
    digitalWrite(LED, HIGH);
    delay(500);
    Serial.println("Door is open");
  } else {
    digitalWrite(LED, LOW);
    delay(500);
    Serial.println("Door is closed");
  }

  delay(1000);
}

***************************************************************************************************************

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