Спецификације

• Назив производа: Programming Microcontrollers in C/C++ Using Arduino
• Аутор: Clemens Valens
• Подржане платформе: Arduino UNO, Raspberry Pi Pico, ESP32
• ИСБН: 978-3-89576-720-3 (Print), 978-3-89576-721-0 (eBook)

Увод

The book starts with an introduction to programming ESP32 microcontrollers using the Arduino IDE. It outlines:

• The scope and capabilities of ESP32 boards.
• Setting up a programming environment.
• Applications of microcontrollers in IoT, robotics, home automation, and sensor-based systems.
• Guidance for beginners to transition from simple sketches to full-fledged embedded projects.

Упутства

The Arduino IDE
This chapter focuses on setting up and using the Arduino IDE for ESP32 development. Key sections include:

Готовоview of the Arduino IDE

• Explains the IDE interface: menus, toolbars, and workspace.
• Highlights key features for coding, compiling, and debugging.

Installing and Launching the IDE

• Step-by-step installation on Windows, macOS, and Linux.
• Adding ESP32 board support via the Board Manager.

Using the Boards Manager

• Installing ESP32 support.
• Selecting the correct board for your project (DevKit, NodeMCU, etc.).

Upload Programs

• Compiling sketches and uploading them to the ESP32.
• Troubleshooting upload errors (common COM port or driver issues).

Using the Library Manager

• Adding essential libraries for sensors, displays, and communication modules.
• Example: Adafruit_Sensor, Wire, SPI.

Using the Serial Monitor

• Viewing output for debugging.
• Sending commands to ESP32 via Serial.

Using the Serial Plotter

• Real-time visualization of data, such as analog sensor readings.
• Platform Notes & Best Practices

Optimizing workflow.

• Keeping libraries updated.
• Saving and organizing sketches.

Brief Introduction to C/C++ Programming
This chapter is for readers who are new to programming:

• Типови података
  • int, float, char, boolean, and their ESP32 memory considerations.
• Variables and Constants
  • How to declare, initialize, and use variables in ESP32 sketches.
  • Разлика између const и #define.
• Control Structures
  • if, else, switch, loops (for, while, do-while) for decision-making.

Функције

• Creating reusable code blocks.
• Passing arguments, return types, and scope of variables.

Hello-World Exampлес

• Simple “Blink” LED project.
• Serial.print() examples to display messages.

Writing and Running Your First Arduino Program
Practical introduction to writing code:

• Arduino IDE Workflow
  • Stepwise approach: writing → compiling → uploading → testing.
• Creating Your First Program
  • Writing a simple sketch (LED blink or serial output).
• Uploading the Program
  • Selecting the correct port and board type.
  • Common errors and solutions.
• Running on Different Target Platforms
  • ESP32 DevKit, NodeMCU, or WROVER boards.
• Testing Serial Communication
  • Serial monitor output for debugging.
  • Using Serial.read() and Serial.println().

Working with Digital Signals
Focuses on digital electronics concepts:

• What Are Digital Signals?
  • HIGH/LOW logic, 0/1 representation.
• Configuring Digital Pins
  • pinMode(pin, INPUT/OUTPUT).
  • Internal pull-up/pull-down resistors.
• Controlling an LED
  • Example: blinking LED with digitalWrite().
• Reading a Pushbutton
  • Using digitalRead() to detect button presses.
  • Debouncing strategies.
• Pushbutton-Controlled LED Sequence
  • Example project combining multiple inputs and outputs.

Working with Analog Signals
Analog signals and conversion:

• What Are Analog Signals?
  • Цонтинуоус волtage signals vs discrete digital signals.
• Measuring Analog Signals
  • Using ADC (Analog-to-Digital Converter) on ESP32.
• Displaying Voltage on Serial Port
  • Example: reading a potentiometer and printing values.
• Generating Analog-like Signals
  • PWM (Pulse Width Modulation) to simulate analog output.
• Контролисање ЛЕД осветљења
  • Using analogWrite() / ledcWrite() for ESP32.
• Using a Potentiometer
  • Adjusting LED brightness or motor speed interactively.
• True Analog Output (DAC)
  • Using DAC channels on ESP32 for precise analog signals.

Working with the Serial Port
Serial communication essentials:

• What Is Serial Communication
  • UART basics and connection to PC or peripherals.
• Брзина преноса и формат података
  • Choosing correct baud rate (9600, 115200).
• Opening a Serial Connection
  • Serial.begin(), Serial.available().
• Serial.print() vs Serial.println()
  • Differences for formatting data.
• Sending Numbers and Text
  • Коришћење String or numeric types.
• Receiving Data Over Serial
  • Serial.read(), parsing commands.
• Controlling an LED via Serial
  • Turning outputs ON/OFF remotely.

Working with I²C
I²C communication protocol:

• What Is I²C?
  • Master-slave protocol for multiple devices.
• Pull-Up Resistors
  • Required for I²C lines.
• ²C Pins on ESP32
  • Default: SDA, SCL (can be reconfigured).
• Using Wire Library
  • scan() devices, read(), write() functions.
• Exampлес
  • Reading temperature sensors, OLED displays.
• Platform Notes & Common Pitfalls
  • Волtage compatibility, bus speed considerations.

Working with SPI
SPI communication:

• What Is SPI?
  • Faster alternative to I²C for single master devices.
• SPI Pins on ESP32
  • MOSI, MISO, SCLK, CS pins.
• Using SPI Library
  • SPI.begin(), SPI.transfer().
• SPI Modes and Timing
  • CPOL/CPHA, clock polarity and phase.
• Comparison with I²C and Serial
  • Trade-offs in speed, wiring, and device support.

Working with Time
Timing and scheduling tasks:

• delay() vs millis()
  • Blocking vs non-blocking code.
• Measuring Short Intervals
  • micros() function for precise timing.
• Hardware Timers
  • ESP32 has multiple timers for periodic events.

Working with Interrupts
Handling asynchronous events:

• What Is an Interrupt?
  • Immediate response to GPIO or timers.
• Writing ISRs
  • Best practices, avoiding long delays.
• Debouncing Buttons
  • Ensuring stable input readings.
• Sharing Data Between ISR and loop()
  • Using volatile variables.

Interacting with the Real World
Connecting sensors and actuators:

• Transducers and Sensors
  • Temperature, humidity, distance, motion sensors.
• Key Sensor Characteristics
  • Accuracy, resolution, response time.
• Interfacing Sensors
  • Using analog/digital/I²C/SPI signals.
• Ацтуаторс
  • Relays, motors, servos, LEDs.
• Safety & Power Considerations
  • Пропер волtage, current, and protection measures.

Ово је публикација Електора. Електор је медијски бренд компаније Електор Интернатионал Медиа БВ

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Декларација

• The author and publisher have made every effort to ensure the accuracy of the information contained in this book. They do not assume, or hereby disclaim, any liability to any party for any loss or damage caused by errors or omissions in this book, whether such errors or omissions result from negligence, accident, or any other cause.

ISBN 978-3-89576-720-3 Print

• ISBN 978-3-89576-721-0 eBook
• ввв.електор.цом
• Editor: Clemens Valens
• Припрема за штампу: Д-Висион, Јулиан ван ден Берг
• Штампачи: Ipskamp, Еншеде, Холандија

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