AITEWIN ROBOT ESP32 Devkitc Core Board
Whakatakotoranga
| Processor (MCU) | Dual-core Tensilica LX6 microprocessor |
| Tere Karaka | Tae atu ki te 240 MHz |
| Mahara Kohiko | 4 MB standard (some variants may include 8 MB) |
| PSRAM | Optional external 4 MB (depending on model) |
| SRAM roto | Approximately 520 KB |
| Hononga Ahokore | Wi-Fi 802.11 b/g/n and Bluetooth (Classic + BLE) |
| GPIO Pins | Multiple digital I/O pins supporting ADC, DAC, PWM, I²C, SPI, I²S, UART, and touch sensors |
| Mahinga Mahi Voltage | 3.3 V logic level |
| Tuku Hiko | 5 V via USB input (regulated to 3.3 V onboard) |
| Atanga USB | USB-to-UART for programming and serial communication |
| Mana Whakahaere | EN (reset) button and BOOT (flash/download) button |
| Tohutohu | Power LED and possible status LED for debugging |
| Ahu Poari | Approximately 52 mm × 28 mm |
| Hanga | Compact, breadboard-friendly layout with labeled pin headers |
| Nga waahanga taapiri | Integrated LDO regulator, stable operation for IoT and robotics projects |
Whakaahuatanga
A Guide to Getting Started with ESP32-DevKitC V4 [] The ESP32-DevKitC V4 development board can be used as demonstrated in this tutorial. See the ESP32 Hardware Reference for a description of additional ESP32-DevKitC variants. What You Require: The board ESP32-DevKitC V4 Micro USB B/USB cable, Windows, Linux, or macOS computer. You can proceed straight to Section Start Application Development and bypass the introduction sections. Summary Espressif manufactures the tiny ESP32-based development board known as the ESP32-DevKitC V4. For ease of interfacing, the majority of the I/O pins are broken out to the pin headers on both sides. Developers have two options: put the ESP32-DevKitC V4 on a breadboard or use jumper wires to connect peripherals. The ESP32-DevKitC V4 variants listed below are available to meet a variety of user needs: various ESP32 modules, ESP32-WROO, M-32 ESP32-WRO, M-32D ESP32-WR, OM-32U ESP32-SOLO-1, ESP32-WROVE, ESP32-WROVER-B, ESP2-WROVER-II headers for the male or female pins of the ESP32-WROVER-B (IPEX). Please see the Espressif Product Ordering Information for further information. Description of Function The main parts, interfaces, and controls of the ESP32-DevKitC V4 board are shown in the following image and table.
| Wae Matua | Whakaahuatanga |
|---|---|
| ESP32-WROOM-32 | He kōwae me te ESP32 i tona uho. |
| EN | Patene Tautuhi. |
| Puta | Patene tango. Ko te pupuri i te Boot ka pehi i te EN ka timata te aratau Tikiake Firmware mo te tango i te firmware ma te tauranga rangatū. |
| Piriti USB-ki-UART | Single USB-UART bridge chip provides transfer rates of up to 3 Mbps. |
| Waea USB USB | Atanga USB. Te tuku hiko mo te poari me te atanga korero i waenga i te rorohiko me te waahanga ESP32. |
| 5V Hiko i runga LED | Turns on when the USB or an external 5 V power supply is connected to the board. |
| I/O | Most of the pins on the ESP module are broken out to the pin headers on the board. You can program ESP32 to enable multiple functions such as PWM, ADC, DAC, I²C, I²S, SPI, etc. |
Power Supply Options There are three mutually exclusive ways to provide power to the board: Micro USB port, default power supply, 5V / GND header pin,s 3V3 / GND header pin.s Warning The power supply must be provided using one and only one of the options above; otherwise, the board and/or the power supply source can be damaged. Note on C15: The component C15 may cause the following issues on earlier ESP32-DevKitC V4 boards: The board may boot into Download mode If you output clock on GPIO0, C15 may impact the signal. In case these issues occur, please remove the component. The figure below shows C15 highlighted in yellow.
Tiaki & Tiaki
Te Whakahaere me te Rokiroki
- Always handle the board with clean, dry hands to avoid static discharge and corrosion.
- Store the board in an anti-static bag or container when not in use.
- Avoid bending or applying pressure on the PCB or pin headers.
Haumaru Mana
- Only use regulated 5V power supplies or USB ports to prevent overvoltage kino.
- Do not connect power to both the USB port and the external 5V pin simultaneously unless verified by schematic.
- Always disconnect power before wiring or removing components from the board.
Te horoi
- If dust accumulates, clean gently using a soft brush or compressed air.
- Never use water, alcohol, or cleaning solutions on the board.
- Avoid touching the metal contacts and microcontroller chip directly.
Connection Care
- Use a high-quality Micro USB cable for programming and power.
- Ensure all jumper wires and connectors are properly seated to prevent shorts or loose connections.
- Double-check pin connections before powering on, especially when connecting sensors or modules.
Tiaki Taiao
- Keep the board away from moisture, humidity, and direct sunlight.
- Avoid exposing the board to extreme temperatures (below 0°C or above 60°C).
- Ensure proper ventilation when used in enclosed project cases to prevent overheating.
Software & Firmware Maintenance
- Keep your ESP32 board drivers and firmware updated for the best performance.
- When uploading new code, ensure that the correct COM port and board type are selected in your IDE.
- Avoid interrupting firmware uploads to prevent boot issues.
Nga Tohu Kia Ora
- Do not leave the board powered continuously for long periods without cooling.
- Handle with care when inserting or removing from a breadboard to avoid pin bending or cracking.
- Regularly inspect USB and power ports for dust or wear.
FAQ
What is the main purpose of the ESP32 DevKitC Core Board?
The board is designed for developing and prototyping IoT, robotics, and embedded system projects using Wi-Fi and Bluetooth connectivity.
How do I upload code to the ESP32 board?
Connect the board to your computer via the Micro USB port and use the Arduino IDE or ESP-IDF. Select the correct COM port and ESP32 board type before uploading.
Tuhinga / Rauemi
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