This ESP32 terminal is a microcontroller based on the ESP32 master. It adopts Xtensa 32-bit LX7 dual-core processor with a main frequency of up to 240 Mhz, supports 2.4 GHz Wi-Fi and Bluetooth 5 (LE), and can easily handle common edge terminal device application scenarios, such as industrial control, agricultural production environment detection and processing, intelligent logistics monitoring, smart home scenarios and more.
The ESP32 module also has a 3.5-inch parallel RGB interface capacitive touch screen with a resolution of 320x480 to ensure perfect image output at a frame rate 60 FPS. The 4 Crowtail interfaces on the back of this terminal can be used with Crowtail series sensors, plug and play, and create more interesting projects quickly and conveniently. In addition, it is also equipped with an SD card slot for extended storage (SPI leads) and a buzzer function.
The ESP32 touchscreen supports ESP-IDF and Arduino IDE development and is compatible with Python/MicroPython/Arduino. It also supports LVGL, which is the most popular free and open-source embedded graphics library to create beautiful UIs for any MCU, MPU, and display type. Now it has also obtained the official certification of LVGL. LVGL's board certificate shows that the boards can be easily used with LVGL and has decent performance for UI applications. The onboard charging circuit and lithium battery interface can use the type-C power supply interface to supply power and charge the battery at the same time, providing more outdoor scene expansion possibilities.
Features
Integrated ESP32-S3 module, which is support 2.4 GHz Wi-Fi and Bluetooth 5 (LE)
LCD 3.5 inches parallel TFT-LCD with 320x480 resolution
Compatible with Arduino/Python/MicrmoPython
Mature software support, support ESP-IDF and Arduino IDE development
Support open-source Graphics Library-LVGL
Support 1T1R mode, data rate up to 150 Mbps, Wireless Multimedia (WMM)
Perfect security mechanism, support AES-128/256, Hash, RSA, HMAC, digital signatures and secure boot
Onboard charging chip and interface, use type-C interface to charge
With 4 Crowtail interfaces (HY2.0-4P connector), plug and play with various Crowtail sensor
Applications
Smart Home
Industrial Control
Medical Monitor
Home Appliance Display
Logistics Monitoring
Specifications
ESP32-S3 module with 16 MB Flash and 8 MB PSRAM
Wi-Fi Protocol: 802.11b/g/n (802.11n up to 150 Mbps) Wi-Fi Frequency Range: 2.402-2.483 Ghz
Support Bluetooth 5
With 4 Crowtail interfaces (HY2.0-4P connector) and onboard Micro TF card slot
3.5-inch TFT LCD RGB true color LCD screen with 320x480 resolution
Driver chip: ILI9488 (16-bit parallel line)
Capacitive touch panel controller IC FT6236 series
Operating Voltage: DC 5 V-500 mA
Sleep current:
USB power supply: 6.86 mA
Lithium battery power supply: 3.23 mA
LiPo Battery Interface: PH2.0
Operating temperature: -10°C ~ 65°C
Active Area: 73.63 x 49.79 mm (L x W)
Dimensions: 106 x 66 x 13 mm (L x W x H)
Included
1x 3.5-inch ESP RGB Display with Acrylic Shell
1x USB-C Cable
Downloads
Wiki
Schematic Diagram
16 learning Lessons for LVGL
Source code
Lesson code
LVGL Reference
ESP32-S3 Datasheet
ILI9488 Datasheet
Capacitive Touch Display Data
59 Experiments with Arduino IDE and Python
The main aim of this book is to teach the Arduino IDE and MicroPython programming languages in ESP32 based projects, using the highly popular ESP32 DevKitC development board. Many simple, basic, and intermediate level projects are provided in the book using the Arduino IDE with ESP32 DevKitC. All projects have been tested and work. Block diagrams, circuit diagrams, and complete program listings of all projects are given with explanations. In addition, several projects are provided for programming the ESP32 DevKitC using MicroPython. The projects provided in this book are designed to teach the following features of the ESP32 processor:
GPIOs
Touch sensors
External interrupts
Timer interrupts
I²C and I²S
SPI
PWM
ADC
DAC
UART
Hall sensor
Temperature sensor
Infrared controller
Reading and writing to SD card
Reading and writing to flash memory
RTC timer
Chip ID
Security and encryption
Wi-Fi and network programming
Bluetooth BLE programming
Communication mobile devices
Low power design
ESP-IDF programming
The projects have been organized with increasing levels of difficulty. Readers are encouraged to tackle the projects in the order given. A specially prepared hardware kit is available from Elektor. With the help of this hardware, it should be easy and fun to build the projects in this book.
This development board (also known as "Cheap Yellow Display") is powered by the ESP-WROOM-32, a dual-core MCU with integrated Wi-Fi and Bluetooth capabilities. It operates at a main frequency of up to 240 MHz, with 520 KB SRAM, 448 KBROM, and a 4 MB Flash memory. The board features a 2.8-inch display with a resolution of 240x320 and resistive touch.
Furthermore, the board includes a backlight control circuit, touch control circuit, speaker drive circuit, photosensitive circuit, and RGB-LED control circuit. It also provides a TF card slot, serial interface, DHT11 temperature and humidity sensor interface, and additional IO ports.
The module supports development in Arduino IDE, ESP-IDE, MicroPython, and Mixly.
Applications
Image transmission for Smart Home device
Wireless monitoring
Smart agriculture
QR wireless recognition
Wireless positioning system signal
And other IoT applications
Specifications
Microcontroller
ESP-WROOM-32 (Dual-core MCU with integrated Wi-Fi and Bluetooth)
Frequency
Up to 240 MHz (computing power is up to 600 DMIPS)
SRAM
520 KB
ROM
448 KB
Flash
4 MB
Operating voltage
5 V
Power consumption
approx. 115 mA
Display
2.8-inch color TFT screen (240x320)
Touch
Resistive Touch
Driver chip
ILI9341
Dimensions
50 x 86 mm
Weight
50 g
Included
1x ESP32 Dev Board with 2.8" Display and acrylic Shell
1x Touch pen
1x Connector cable
1x USB cable
Downloads
GitHub
Easy and Affordable Digital Signal Processing
The aim of this book is to teach the basic principles of Digital Signal Processing (DSP) and to introduce it from a practical point of view using the bare minimum of mathematics. Only the basic level of discrete-time systems theory is given, sufficient to implement DSP applications in real time. The practical implementations are described in real time using the highly popular ESP32 DevKitC microcontroller development board. With the low cost and extremely popular ESP32 microcontroller, you should be able to design elementary DSP projects with sampling frequencies within the audio range. All programming is done using the popular Arduino IDE in conjunction with the C language compiler.
After laying a solid foundation of DSP theory and pertinent discussions on the main DSP software tools on the market, the book presents the following audio-based sound and DSP projects:
Using an I²S-based digital microphone to capture audio sound
Using an I²S-based class-D audio amplifier and speaker
Playing MP3 music stored on an SD card through an I²S-based amplifier and speaker
Playing MP3 music files stored in ESP32 flash memory through an I²S-based amplifier and speaker
Mono and stereo Internet radio with I²S-based amplifiers and speakers
Text-to-speech output with an I²S-based amplifier and speaker
Using the volume control in I²S-based amplifier and speaker systems
A speaking event counter with an I²S-based amplifier and speaker
An adjustable sinewave generator with I²S-based amplifier and speaker
Using the Pmod I²S2 24-bit fast ADC/DAC module
Digital low-pass and band-pass real-time FIR filter design with external and internal A/D and D/A conversion
Digital low-pass and band-pass real-time IIR filter design with external and internal A/D and D/A conversion
Fast Fourier Transforms (FFT)
The Elektor ESP32 Energy Meter is a device designed for real-time energy monitoring and smart home integration. Powered by the ESP32-S3 microcontroller, it offers robust performance with modular and scalable features.
The device uses a 220 V-to-12 V step-down transformer for voltage sampling, ensuring galvanic isolation and safety. Its compact PCB layout includes screw-type terminal blocks for secure connections, a Qwiic connector for additional sensors, and a programming header for direct ESP32-S3 configuration. The energy meter is compatible with single-phase and three-phase systems, making it adaptable for various applications.
The energy meter is simple to set up and integrates with Home Assistant, offering real-time monitoring, historical analytics, and automation capabilities. It provides accurate measurements of voltage, current, and power, making it a valuable tool for energy management in homes and businesses.
Features
Comprehensive Energy Monitoring: Get detailed insights into your energy usage for smarter management and cost savings.
Customizable Software: Tailor functionality to your needs by programming and integrating custom sensors.
Smart Home Ready: Compatible with ESPHome, Home Assistant, and MQTT for full Smart Home integration.
Safe & Flexible Design: Operates with a 220 V-to-12 V step-down transformer and features a pre-assembled SMD board.
Quick Start: Includes one Current Transformer (CT) sensor and access to free setup resources.
Specifications
Microcontroller
ESP32-S3-WROOM-1-N8R2
Energy Metering IC
ATM90E32AS
Status Indicators
4x LEDs for power consumption indication2x Programmable LEDs for custom status notifications
User Input
2x Push buttons for user control
Display Output
I²C OLED display for real-time power consumption visualization
Input Voltage
110/220 V AC (via step-down transformer)
Input Power
12 V (via step-down transformer or DC input)
Clamp Current Sensor
YHDC SCT013-000 (100 A/50 mA) included
Smart Home Integration
ESPHome, Home Assistant, and MQTT for seamless connectivity
Connectivity
Header for programming, Qwiic for sensor expansion
Applications
Supports single-phase and three-phase energy monitoring systems
Dimensions
79.5 x 79.5 mm
Included
1x Partly assembled board (SMDs are pre-mounted)
2x Screw terminal block connerctors (not mounted)
1x YHDC SCT013-000 current transformer
Required
Power transformer not included
Downloads
Datasheet (ESP32-S3-WROOM-1)
Datasheet (ATM90E32AS)
Datasheet (SCT013-000)
Frequently Asked Questions (FAQ)
From Prototype to Finished Product
What started as an innovative project to create a reliable and user-friendly energy meter using the ESP32-S3 microcontroller has evolved into a robust product. Initially developed as an open-source project, the ESP32 Energy Meter aimed to provide precise energy monitoring, smart home integration and more. Through meticulous hardware and firmware development, the energy meter now stands as a compact, versatile solution for energy management.
The Arduino Nano ESP32 (with and without headers) is a Nano form factor board based on the ESP32-S3 (embedded in the NORA-W106-10B from u-blox). This is the first Arduino board to be based fully on an ESP32, and features Wi-Fi, Bluetooth LE, debugging via native USB in the Arduino IDE as well as low power. The Nano ESP32 is compatible with the Arduino IoT Cloud, and has support for MicroPython. It is an ideal board for getting started with IoT development. Features
Tiny footprint: Designed with the well-known Nano form factor in mind, this board's compact size makes it perfect for embedding in standalone projects.
Wi-Fi and Bluetooth: Harness the power of the ESP32-S3 microcontroller, well-known in the IoT realm, with full Arduino support for wireless and Bluetooth connectivity.
Arduino and MicroPython support: Seamlessly switch between Arduino and MicroPython programming with a few simple steps.
Arduino IoT Cloud compatible: Quickly and easily create IoT projects with just a few lines of code. The setup takes care of security, allowing you to monitor and control your project from anywhere using the Arduino IoT Cloud app.
HID support: Simulate human interface devices, such as keyboards or mice, over USB, opening up new possibilities for interacting with your computer. Specifications Microcontroller u-blox NORA-W106 (ESP32-S3) USB connector USB-C Pins Built-in LED pins 13 Built-in RGB LED pins 14-16 Digital I/O pins 14 Analog input pins 8 PWM pins 5 External interrupts All digital pins Connectivity Wi-Fi u-blox NORA-W106 (ESP32-S3) Bluetooth u-blox NORA-W106 (ESP32-S3) Communication UART 2x I²C 1x, A4 (SDA), A5 (SCL) SPI D11 (COPI), D12 (CIPO), D13 (SCK). Use any GPIO for Chip Select (CS) Power I/O Voltage 3.3 V Input voltage (nominal) 6-21 V Source Current per I/O pin 40 mA Sink Current per I/O pin 28 mA Clock speed Processor Up to 240 MHz Memory ROM 384 kB SRAM 512 kB External Flash 128 Mbit (16 MB) Dimensions 18 x 45 mm Downloads Datasheet Schematics
Take control of your smart environment with the compact and powerful 4-inch ESP32-S3 IPS Touchscreen Control Panel. Designed for high performance and versatility, this sleek 86-box format panel integrates advanced connectivity, intuitive touch control, and real-time environmental sensing.
Features
Powerful Core Module WT32-S3-WROVER-N16R8
4-inch IPS full-screen display
Resolution: 480 x 480 pixels (RGB565 format)
Screen Driver IC: GC9503V
Touch Controller IC: FT6336U
Equipped with an SHT20 Temperature and Humidity Sensor for real-time monitoring of environmental conditions.
RS485 Interface using an automatic transceiver circuit
Built-in WiFi and Bluetooth
Applications
Smart Home Control Panels
Industrial Automation Interfaces
Environmental Monitoring Systems
IoT Projects and Custom Smart Solutions
With the availability of free and open source C/C++ compilers today, you might wonder why someone would be interested in assembler language. What is so compelling about the RISC-V Instruction Set Architecture (ISA)? How does RISC-V differ from existing architectures? And most importantly, how do we gain experience with the RISC-V without a major investment? Is there affordable hardware available?
The availability of the Espressif ESP32-C3 chip provides a way to get hands-on experience with RISC-V. The open sourced QEMU emulator adds a 64-bit experience in RISC-V under Linux. These are just two ways for the student and enthusiast alike to explore RISC-V in this book.
The projects in this book are boiled down to the barest essentials to keep the assembly language concepts clear and simple. In this manner you will have “aha!” moments rather than puzzling about something difficult. The focus in this book is about learning how to write RISC-V assembly language code without getting bogged down. As you work your way through this tutorial, you’ll build up small demonstration programs to be run and tested. Often the result is some simple printed messages to prove a concept. Once you’ve mastered these basic concepts, you will be well equipped to apply assembly language in larger projects.
Learn how to use the ESP32 Microcontroller and MicroPython programming in your future projects!
The project book, written by well-known Elektor author Dogan Ibrahim, holds many software- and hardware-based projects especially developed for the MakePython ESP32 Development Kit. The kit comes with several LEDs, sensors, and actuators. The kit will help you acquire the basic knowledge to create IoT projects.
The book’s fully evaluated projects feature all the supplied components. Each project includes a block diagram, a circuit diagram, a full program listing, and a complete program description.
Included in the kit
1x MakePython ESP32 development board with color LCD
1x Ultrasonic ranging module
1x Temperature and humidity sensor
1x Buzzer module
1x DS18B20 module
1x Infrared module
1x Potentiometer
1x WS2812 module
1x Sound sensor
1x Vibration sensor
1x Photosensitive resistance module
1x Pulse sensor
1x Servo motor
1x USB cable
2x Button
2x Breadboard
45x Jumper wire
10x Resistor 330R
10x LED (Red)
10x LED (Green)
1x Project book (206 pages)
46 Projects in the Book
LED Projects
Blinking LED
Flashing SOS
Blinking LED – using a timer
Alternately flashing LEDs
Button control
Changing the LED flashing rate using pushbutton interrupts
Chasing-LEDs
Binary-counting LEDs
Christmas lights (random-flashing 8 LEDs)
Electronic dice
Lucky day of the week
Pulsewidth Modulation (PWM) Projects
Generate a 1000-Hz PWM waveform with 50% duty cycle
LED brightness control
Measuring the frequency and duty cycle of a PWM waveform
Melody maker
Simple electronic organ
Servo motor control
Servo motor DS18B20 thermometer
Analog To Digital Converter (ADC) Projects
Voltmeter
Plotting the analog input voltage
ESP32 internal temperature sensor
Ohmmeter
Photosensitive resistance module
Digital To Analog Converter (DAC) Projects
Generating fixed voltages
Generating a sawtooth-wave signal
Generating a triangular-wave signal
Arbitrary periodic waveform
Generating a sinewave signal
Generating accurate sinewave signal using timer interrupts
Using The OLED Display
Seconds counter
Event counter
DS18B20 OLED based digital thermometer
ON-OFF temperature controller
Measuring the temperature and humidity
Ultrasonic distance measurement
Height of a person (stadiometer)
Heart rate (pulse) measurement
Other Sensors Supplied with the Kit
Theft alarm
Sound-activated light
Infrared obstacle avoidance with buzzer
WS2812 RGB LED ring
Timestamping temperature and humidity readings
Network Programming
Wi-Fi scanner
Remote control from the Internet browser (using a smartphone or PC) – Web Server
Storing temperature and humidity data in the Cloud
Low-Power Operation
Using a timer to wake up the processor
The Arduino Nano ESP32 is a Nano form factor board based on the ESP32-S3 (embedded in the NORA-W106-10B from u-blox). This is the first Arduino board to be based fully on an ESP32, and features Wi-Fi, Bluetooth LE, debugging via native USB in the Arduino IDE as well as low power.
The Nano ESP32 is compatible with the Arduino IoT Cloud, and has support for MicroPython. It is an ideal board for getting started with IoT development.
Features
Tiny footprint: Designed with the well-known Nano form factor in mind, this board's compact size makes it perfect for embedding in standalone projects.
Wi-Fi and Bluetooth: Harness the power of the ESP32-S3 microcontroller, well-known in the IoT realm, with full Arduino support for wireless and Bluetooth connectivity.
Arduino and MicroPython support: Seamlessly switch between Arduino and MicroPython programming with a few simple steps.
Arduino IoT Cloud compatible: Quickly and easily create IoT projects with just a few lines of code. The setup takes care of security, allowing you to monitor and control your project from anywhere using the Arduino IoT Cloud app.
HID support: Simulate human interface devices, such as keyboards or mice, over USB, opening up new possibilities for interacting with your computer.
Specifications
Microcontroller
u-blox NORA-W106 (ESP32-S3)
USB connector
USB-C
Pins
Built-in LED pins
13
Built-in RGB LED pins
14-16
Digital I/O pins
14
Analog input pins
8
PWM pins
5
External interrupts
All digital pins
Connectivity
Wi-Fi
u-blox NORA-W106 (ESP32-S3)
Bluetooth
u-blox NORA-W106 (ESP32-S3)
Communication
UART
2x
I²C
1x, A4 (SDA), A5 (SCL)
SPI
D11 (COPI), D12 (CIPO), D13 (SCK). Use any GPIO for Chip Select (CS)
Power
I/O Voltage
3.3 V
Input voltage (nominal)
6-21 V
Source Current per I/O pin
40 mA
Sink Current per I/O pin
28 mA
Clock speed
Processor
Up to 240 MHz
Memory
ROM
384 kB
SRAM
512 kB
External Flash
128 Mbit (16 MB)
Dimensions
18 x 45 mm
Downloads
Datasheet
Schematics
LILYGO T-Display ESP32 WiFi and Bluetooth Module Development Board 1.14-inch LCD Control BoardSpecifications
Chipset
Espressif-ESP32 240 MHz Xtensa single-/dual-core 32-bit LX6 microprocessor
Flash
QSPI flash 16 MB
SRAM
520 kB SRAM
Button
Reset
USB to TTL
CP2104
Modular interface
UART, SPI, SDIO, I²C, LED PWM, TV PWM, I²S, IRGPIO, ADC, capacitor touch sensor, DACLNA pre-amplifier
Display
IPS ST7789V 1.14 Inch
Working voltage
2.7-4.2 V
Working current
About 67 MA
Sleep current
About 350 uA
Working temperature range
-40°C ~ +85°C
Size & Weight
51.52 x 25.04 x 8.54 mm (7.81 g)
Power Supply
USB 5 V/1 A
Charging current
500 mA
Battery
3.7 V lithium battery
JST Connector
2-Pin 1.25 mm
USB
Type-C
WiFi
Standard
FCC/CE-RED/IC/TELEC/KCC/SRRC/NCC (ESP32 chip)
Protocol
802.11 b/g/n (802.11n, speed up to 150 Mbps) A-MPDU and A-MSDU polymerization, support 0.4μS Protection interval
Frequency range
2.4~2.5 GHz (2400~2483.5 M)
Transmit Power
22 dBm
Communication distance
300 m
Bluetooth
Protocol
Meet bluetooth v4.2BR/EDR and BLE standard
Radio frequency
With -97 dBm sensitivity NZIF receiver Class-1, Class-2 & Class-3 emitter AFH
Audio frequency
CVSD&SBC audio frequency
Software
Wi-Fi Mode
Station/SoftAP/SoftAP+Station/P2P
Security mechanism
WPA/WPA2/WPA2-Enterprise/WPS
Encryption Type
AES/RSA/ECC/SHA
Firmware upgrade
UART download/OTA (Through network/host to download and write firmware)
Software Development
Support cloud server development /SDK for user firmware development
Networking protocol
IPv4, IPv6, SSL, TCP/UDP/HTTP/FTP/MQTT
User Configuration
AT + Instruction set, cloud server, Android/iOS app
OS
FreeRTOS
Included
1x T-Display (16 MB)
1x Charging Cable
2x Pin
