Early Bird Discount

countdown
00Years00Months00Weeks00Days00Hours00Minutes00Seconds

Early Bird Discount

Early Bird Discount

countdown
00 Years 00 Months 00 Weeks 00 Days 00 Hours 00 Minutes 00 Seconds
Course Description Video (Must Watch)

Environmental Sensing Drivers: A Bare-Metal Approach

Complete Source Code Included

Mastering Environmental Sensor Integration for Advanced Embedded Systems
Imagine a world where your home automatically adjusts its temperature and humidity for optimal comfort, where the air quality is continuously monitored and purified, ...

where smart irrigation systems ensure your garden is always perfectly watered, and where light intensity is managed seamlessly for energy efficiency. 

This is the future of smart homes, IoT, and AI-driven environments—a future built on the bedrock of advanced environmental sensing.

Welcome to our course on Environmental Sensing Drivers, where you'll learn to master the creation of bare-metal drivers for a variety of critical environmental sensors.

This course provides the hands-on, practical knowledge that will elevate your skills and prepare you to be at the forefront of modern sensing technology.

Course Outline:

Module 1: Intro to Environmental Sensing

  • Importance of Environmental Sensing: Discover how environmental sensing is revolutionizing industries, from smart homes to agriculture.
  • What Can Be Sensed? Explore the myriad of environmental parameters that can be measured and monitored.
  • ​Sensors vs. Transducers: Learn the difference and importance of these essential components.

Module 2: Air Quality Sensing

  • Introduction to Air Quality Sensors: Understand the importance of monitoring and maintaining air quality.
  • ​Overview of SGP30 eCO2 Detector: Explore the features and functionalities of the SGP30 sensor.
  • ​Interfacing and Reading Data from SGP30: Learn to extract accurate data from the SGP30 sensor.
  • Understanding the Data Format: Decode the sensor's data output.
  • Writing the Driver Code: Write robust driver code for the SGP30 sensor.
  • ​Data Interpretation: Techniques for interpreting air quality data.
  • ​Case Study: Indoor Air Quality Monitoring System: Develop a system to monitor and improve indoor air quality.

Module 3: Temperature and Humidity Sensing

  • Overview of DHT11 Sensor: Get to know the capabilities and specifications of the DHT11 sensor.
  • ​Interfacing and Reading Data from DHT11: Step-by-step guide to integrating the DHT11 sensor into your projects.
  • ​Understanding the Data Format: Learn to decode the data provided by the sensor.
  • ​Writing the Driver Code: Develop efficient driver code for the DHT11 sensor.
  • ​Case Study: Real-Time Temperature and Humidity Monitoring System

Module 4: Pressure and Altitude Sensing

  • Overview of GY-BME280 Sensor: Detailed exploration of the GY-BME280 sensor's capabilities.
  • ​Interfacing and Reading Data from GY-BME280: Learn to interface with and read data from the sensor.
  • ​Understanding the Data Format: Understand how to interpret the data provided by the sensor.
  • ​Writing the Driver Code: Develop driver code for the GY-BME280 sensor.

Module 5: Soil Moisture Sensing

  • Overview of Moisture Sensor Hygrometer: Explore the features and applications of the Moisture Sensor Hygrometer.
  • ​Interfacing and Reading Data from Moisture Sensor
  • ​Understanding the Data Format: Learn to interpret the moisture data format.
  • ​Writing the Driver Code: Write efficient driver code for the Moisture Sensor Hygrometer.
  • ​Case Study: Automated Irrigation System: Develop a smart irrigation system to optimize water usage.

Module 6: Light Intensity Sensing

  • Overview of BH1750 Digital Light Intensity Sensor: Get to know the capabilities of the BH1750 sensor.
  • ​Interfacing and Reading Data from BH1750: Learn to interface with and read data from the BH1750.
  • ​Understanding the Data Format: Decode the light intensity data format.
  • ​Writing the Driver Code: Develop robust driver code for the BH1750 sensor.

Enroll Now

Join us in this journey to master the art of writing bare-metal drivers for environmental sensors. 
This course is your gateway to creating innovative solutions in embedded systems, sensor fusion, IoT, and AI-driven smart environments.
By the end of this course, you will possess the skills and confidence to develop robust, efficient drivers for various environmental sensors, laying the foundation for the smart technologies of tomorrow.
A little about me : Israel Ninsaw Gbati
Some of you may have taken some of my embedded systems courses from other online platforms. 
This is my private channel. 

I have been writing embedded firmware for years, I have built embedded devices like consumer products and robotic arms.
Till date I have 
trained over 100,000 students in embedded
 firmware development online till date
...including third year undergraduate university students in-person.

Our courses have been reviewed by 1000+ students
Here are some of the reviews

 30 Day Money Back Guarantee

      Environmental Sensing Drivers: A Bare-Metal Approach
      ($79.78 Value)

      Total Value: $79.78
      For Today Only: $29.75
               Your free gift is on its way to your inbox (it may take a few minutes to arrive), but before you go, 
      check out this very special offer, just for you!
      I have got an "ethical bribe" or bonus that I
       want to give you to make sure you take action TODAY.

      Super Cool Bonus 

      Micrium uC/OS-III RTOS Programming From Ground Up on ARM

      This course teaches you how to build real-time applications using Micrium's uC /OS-III, one of the most popular industry grade real-time operating systems for embedded systems.  

      The course gives a detailed overview of the characteristics of the uC/OS real-time kernel, provides a detailed tutorial of the API's to implement the various features of the uC/OS RTOS and then goes on to build some real-time projects .
      (value = $97)