M5Stack Core2 ESP32 IoT Development Kit V1.1 User Manual

Okwu mmalite

The M5Stack Core2 ESP32 IoT Development Kit V1.1 is a versatile, open-source development platform designed for Internet of Things (IoT) projects. It integrates a powerful ESP32-D0WDQ6-V3 dual-core processor, a 2.0-inch capacitive touchscreen, and a suite of integrated sensors and peripherals. This manual provides essential information for setting up, operating, and maintaining your Core2 V1.1 device.

Kedu ihe dị na Igbe ahụ

Mgbe imepechara ngwugwu ahụ, chọpụta na agụnyere ihe niile ndị a:

1x Core2 V1.1 device
1x USB Type-C cable (20cm)
1x HEX KEY

Contents of the M5Stack Core2 V1.1 package, showing the device, a USB-C cable, and a hex key.

Image: Contents of the M5Stack Core2 V1.1 package, including the main device, a USB Type-C cable, and a hex key.

Ngwaahịa gafereview

The M5Stack Core2 V1.1 is built around the ESP32-D0WDQ6-V3 chip, featuring dual Xtensa 32-bit LX6 processors operating at up to 240MHz. This provides robust performance for complex applications. The device includes a 2.0-inch capacitive touchscreen with three virtual touch buttons for interactive user experiences.

N'ihu view of the M5Stack Core2 V1.1, highlighting its 2-inch LCD, touchscreen, USB-C port, power button, Micro SD card slot, LED, and system reset button.

Foto: N'ihu view of the M5Stack Core2 V1.1, illustrating key features such as the 2-inch LCD, capacitive touchscreen, USB-C port, power button, Micro SD card slot, LED indicator, and system reset button.

Enhanced power management is provided by the AXP2101 chip and INA3221 current meter, improving energy efficiency and enabling accurate power monitoring. Connectivity options include built-in Wi-Fi and a Type-C interface for program downloading. A MicroSD card slot supports up to 16GB of storage for various IoT projects.

Akụkụ view of the M5Stack Core2 V1.1, showing the power button, USB-C port, and Port.A I2C connector.

Foto: Akụkụ view of the M5Stack Core2 V1.1, detailing the power button, USB-C port, and Port.A I2C connector for external modules.

The device also integrates a 6-axis IMU sensor, a speaker, a vibration motor, and a PDM microphone, offering comprehensive functionality for interactive and sensory applications. Its compact design measures 2.13 x 2.13 x 0.65 inches and weighs approximately 2.89 ounces.

Dimensions of the M5Stack Core2 V1.1, showing 54mm by 54mm by 16.5mm.

Image: Dimensions of the M5Stack Core2 V1.1, indicating its compact size.

M5Stack Core2 V1.1 on a digital scale, displaying a net weight of 54.8g.

Image: M5Stack Core2 V1.1 on a digital scale, showing its net weight.

The Core2 V1.1 supports multiple development platforms, including UIFlow and Arduino, providing flexibility for developers.

M5Stack Core2 V1.1 with logos for UIFlow and Arduino, indicating multi-platform support.

Image: M5Stack Core2 V1.1 demonstrating compatibility with UIFlow and Arduino development environments.

Melite

Ebube mbụ: Connect the Core2 V1.1 to a power source using the provided USB Type-C cable. Ensure the device is fully charged before first use.
Ike Na: Press and hold the power button (labeled "PWR" on the side) for approximately 6 seconds to power on the device.
Ntọala ngwanrọ: To begin development, you will need to install the appropriate development environment (e.g., Arduino IDE with M5Stack libraries or UIFlow). Refer to the official M5Stack documentation for detailed installation instructions.
MicroSD Card Insertion: If using a MicroSD card for storage, gently insert it into the MicroSD card slot on the side of the device until it clicks into place.

M5Stack Core2 V1.1 with labels for USB-C port and Micro SD card slot.

Image: M5Stack Core2 V1.1 highlighting the USB-C port for charging and data transfer, and the Micro SD card slot.

For detailed tutorials and development guides, visit the official M5Stack website. The following image illustrates how to access these resources:

Flowchart showing steps to access M5Stack tutorials: Visit m5stack.com, click 'DOCUMENT', search for products, and scroll to 'Tutorial'.

Image: Steps to find tutorials on the M5Stack websaịtị.

Ntuziaka ọrụ

The Core2 V1.1 features a capacitive touchscreen for interaction. The default firmware often includes a test program that demonstrates various functionalities such as Wi-Fi scanning, timer functions, and sensor readings.

M5Stack Core2 V1.1 display showing a system test interface with options for Wi-Fi scan, timer, and sensor data.

Image: The Core2 V1.1 display showing a system test interface, demonstrating various functions.

To explore the device's capabilities and learn how to program it, refer to the official M5Stack documentation and examples. The embedded video below provides a visual overview of the device's features and basic operation:

Video: An official M5Stack video demonstrating the unboxing, features, and basic operational tests of the Core2 ESP32 IoT Development Kit V1.1, including touchscreen interaction, Wi-Fi scanning, and sensor feedback.

Nkọwapụta

Key technical specifications for the M5Stack Core2 ESP32 IoT Development Kit V1.1:

Njirimara	Oke
Nhazi	ESP32-D0WDQ6-V3 (240 MHz, Dual-Core)
Ebe nchekwa Flash	16MB
PSRAM	8MB
Ntinye Voltage	5V @ 500mA
Ọbịa Interface	Type-C x 1, GROVE (I2C+I/O+UART) x 1
Ikanam	Blue power indicator light
Bọtịnụ	Power button, RST button, 3 virtual screen buttons
Njikere ịma jijiji	moto ịma jijiji
Ụdị ikuku	802.11n (Wi-Fi)
Sistemụ nrụọrụ	Linux (underlying OS for ESP32)
Ibu Ibu	2.89 ounces (ihe dị ka 82g)
Akụkụ ngwaahịa	2.13 x 2.13 x 0.65 sentimita (54 x 54 x 16.5 mm)

Table of M5Stack Core2 V1.1 specifications including SoC, Flash, PSRAM, Input Voltage, Host Interface, LED, Buttons, and Vibration Alert.

Image: Detailed specifications table for the M5Stack Core2 V1.1.

Nlekọta

Nhicha: Use a soft, dry cloth to clean the device. Avoid using liquid cleaners or solvents, as they may damage the screen or internal components.
Nchekwa: Store the Core2 V1.1 in a cool, dry place away from direct sunlight and extreme temperatures.
Nlekọta batrị: To prolong battery life, avoid fully discharging the device frequently. If storing for extended periods, charge the battery to approximately 50% and recharge every few months.
Mmelite femụwe: Regularly check the official M5Stack websaịtị maka mmelite firmware iji hụ na arụmọrụ kacha mma yana ịnweta atụmatụ ọhụrụ.

Nchọpụta nsogbu

Q: How to connect an extension module?: A: You must remove the original bottom casing and battery of the Core2 V1.1 to stack another module extension.
Q: The memory card fails to read.: A: You can add specific code during initialization to enhance the host's memory card reading capability. For example, in Arduino, you might use: for (auto gpio: (const uint8_t[]){18, 19, 23}) (*(volatile uint32_t*)GPIO_PIN_MUX_REG[gpio]) |= FUN_DRV_M; gpio_pulldown_dis((gpio_num_t)gpio); gpio_pullup_en((gpio_num_t)gpio);} This code snippet is intended for advanced users familiar with ESP32 GPIO configuration.

FAQ section from M5Stack documentation, showing questions about extension modules and SD card reading issues.

Image: Frequently Asked Questions (FAQ) section from M5Stack, addressing common issues.

Akwụkwọ ikike na nkwado

For warranty information, technical support, and additional resources, please visit the official M5Stack websaịtị ma ọ bụ kpọtụrụ ndị ahịa ha ọrụ. Debe akwụkwọ nnata ịzụrụ maka akwụkwọ ikike.

Official M5Stack Websaịtị: www.m5stack.com