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NodeMcu Lua WIFI Board Based on ESP8266 CP2102 Module
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The NodeMCU R2 is a Wi-Fi development board based on the ESP8266 (ESP-12E module), featuring a CP2102 USB-to-UART bridge for reliable programming and debuggi...
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The NodeMCU R2 is a Wi-Fi development board based on the ESP8266 (ESP-12E module), featuring a CP2102 USB-to-UART bridge for reliable programming and debugging. It integrates GPIO, PWM, I2C, 1-Wire, and ADC on a single breadboard-friendly board, and can be programmed with the Arduino IDE or NodeMCU Lua firmware.
The R2 version improves on the original with a CP2102 USB chip (replacing CH341) for better driver compatibility, higher current support, and a slimmer form factor that fits directly on a standard breadboard.
Key Features
- ESP-12E Wi-Fi Module – ESP8266 with 6 extra GPIOs compared to the ESP-12
- CP2102 USB-to-UART – Reliable USB interface, no CH341 driver needed
- Arduino IDE Compatible – Program directly using the Arduino ecosystem
- NodeMCU Lua Firmware – Pre-flashed, ready to use out of the box
- Breadboard Friendly – Slim design fits standard breadboards
- Micro USB Power – 5 V power, programming, and debugging via micro USB
- GPIO Access – 2× 15-pin headers (2.54 mm) with GPIO, SPI, UART, ADC, and power pins
- Reset and Flash Buttons – On-board buttons for easy firmware flashing
Specifications
- Chip – ESP8266 (ESP-12E module)
- USB Bridge – CP2102
- Power – 5 V via micro USB
- Dimensions – 49 × 24.5 × 13 mm
Tip: Use a high-quality USB cable capable of supplying sufficient current. Low-quality cables may prevent the board from being recognised by your computer.
Ideal For
- IoT and Wi-Fi connected projects
- Home automation and sensor networks
- Rapid prototyping with Arduino IDE or Lua
- Learning ESP8266 development
Resources
Jargon buster
Plain-language definitions for the technical terms used above.
- 1-Wire
- 1-Wire is a communication method where devices share a single data line, often with each device having its own address. It matters because several temperature modules can be connected to one microcontroller pin instead of needing a separate pin for each probe.
- ADC
- An analogue-to-digital converter reads a changing voltage and turns it into a number the microcontroller can use. It matters when connecting analogue sensors such as light, sound, or variable-resistor sensors.
- GPIO
- General-purpose input/output pins are microcontroller pins you can set in software to read signals, switch devices on and off, or connect to peripherals. The number of GPIO pins matters because it limits how many buttons, LEDs, sensors, and other parts you can wire directly to the board.
- Headers
- Rows of metal pins used to plug a module into a breadboard or connect it with jumper wires. Pre-soldered headers make the module easier to use straight away without needing to solder the pins yourself.
- I2C
- I2C is a two-wire communication bus used by many sensors and small modules. It matters because several I2C devices can share the same two wires, but each device needs a compatible address and your controller must support I2C.
- IDE
- Short for Integrated Development Environment, a program used to write, run and manage code. It matters because some learners prefer a traditional coding workspace instead of a guided notebook-style lesson.
- IoT
- Short for Internet of Things, meaning physical devices that connect to networks or the internet to send data or be controlled remotely. It matters if you want projects such as connected sensors, remote controls or classroom data-logging activities.
- PWM
- Pulse Width Modulation is a way for a digital pin to simulate variable output power by switching on and off very quickly. It matters for controlling things like LED brightness, motor speed, or servo-style signals from a microcontroller pin.
- SPI
- A fast serial communication bus often used for displays, memory cards, and sensors. It matters because SPI devices need specific pins for clock and data, plus a separate chip-select line for each device.
- UART
- UART is a simple serial connection that sends data over separate transmit and receive wires, often labelled TX and RX. It matters because this module is designed to replace a wired UART cable with a wireless link while keeping the same serial data format.
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