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Pycom WiPy 2.0 - WiFi+Bluetooth MicroPython IoT Platform
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The Pycom WiPy 2.0 is a compact, MicroPython-enabled IoT development platform built on the Espressif ESP32 chipset. With dual processors, 1 km WiFi range, an...
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The Pycom WiPy 2.0 is a compact, MicroPython-enabled IoT development platform built on the Espressif ESP32 chipset. With dual processors, 1 km WiFi range, and Bluetooth Low Energy, it delivers enterprise-grade wireless connectivity in a breadboard-friendly form factor.
Pycom's intuitive Python API makes it easy to leverage every hardware feature, from WiFi and BLE networking to deep-sleep power management. Regular firmware updates ensure you always have the latest ESP32 IDF improvements.
Key Features
- ESP32 Dual-Processor SoC – Dedicated network processor handles WiFi/IPv6, leaving the main processor free for your application
- 1 km WiFi Range – 802.11b/g/n at up to 16 Mbps for extended-range IoT deployments
- Bluetooth LE & Classic – Flexible wireless connectivity for sensors, beacons, and peripherals
- MicroPython Enabled – Write and deploy Python code directly on the device with multi-threading support
- Ultra-Low Power – ULP co-processor monitors GPIOs, ADCs, and peripherals in deep-sleep mode at just 25 µA
- Rich I/O – 2× UART, 2× SPI, I2C, I2S, micro-SD, 8× 12-bit ADCs, 4× 16-bit timers with PWM, up to 24 GPIOs
- Hardware Security – SSL/TLS, WPA Enterprise, SHA, MD5, DES, and AES encryption
- Breadboard Compatible – Fits standard breadboards when headers are soldered
Specifications
- Processor – Espressif ESP32 dual-core with hardware floating point
- WiFi – 802.11b/g/n, 16 Mbps, 1 km range
- Bluetooth – Low Energy and Classic
- RAM – 512 KB
- Flash – 4 MB external
- RTC – 32 KHz
- Input Voltage – 3.3 V to 5.5 V
- 3V3 Output – Up to 550 mA
- Dimensions – 42 × 20 × 2.5 mm (excluding headers)
- Weight – 5 g (29 g packaged)
Certifications
- FCC – 2AJMTWIPY2R
- CE 0700
Ideal For
- IoT prototyping and connected device development
- Remote sensor networks requiring extended WiFi range
- Battery-powered applications needing ultra-low-power sleep modes
- Python developers moving into embedded and IoT projects
Note: The WiPy 2.0 firmware is regularly updated as the ESP32 IDF matures. Check Pycom's documentation for the latest firmware releases.
Jargon buster
Plain-language definitions for the technical terms used above.
- API
- An API is a software interface that lets a program control hardware or features provided by the operating system. In this product, API support matters if you want your software to adjust display settings such as brightness or contrast automatically.
- BLE
- BLE stands for Bluetooth Low Energy, a Bluetooth mode designed for lower power use and modern phone compatibility. It matters because BLE support can make the module easier to use with Apple devices and battery-powered projects, though it may behave differently from classic serial Bluetooth.
- ESP32
- ESP32 is a family of microcontroller modules with built-in wireless features such as Bluetooth and WiFi. Knowing this product uses an ESP32-based module helps explain how it provides wireless serial communication and firmware update features.
- 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.
- I2S
- I2S is a digital audio interface used to send sound data between chips, such as from a microcontroller to an audio amplifier or DAC. It matters if your project needs cleaner digital audio output than a basic buzzer or PWM signal can provide.
- 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.
- MicroPython
- A version of the Python programming language made to run on microcontrollers. It matters because it lets beginners write readable code to control LEDs, sensors, motors and displays without needing to start with lower-level languages.
- 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.
- RAM
- RAM is temporary memory used while a device is running, and its contents are lost when power is removed. A “Run in RAM” mode is useful for testing settings without permanently programming the module, but it may not support every feature.
- RTC
- A Real-Time Clock keeps track of time even when the main processor is asleep or powered down, usually with a small backup battery. It matters for data logging and tracking projects that need accurate timestamps.
- 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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