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Wireless Power for Your ProjectsThe Raspberry Pi Pico 2 W takes the performance of the Pico 2 series to the next level with built-in wireless capabilities. S...
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Wireless Power for Your Projects
The Raspberry Pi Pico 2 W takes the performance of the Pico 2 series to the next level with built-in wireless capabilities. Starting at just $12.05 the Pico 2 W combines high performance, comprehensive connectivity, and advanced security features, making it perfect for IoT applications, smart devices, and wireless projects.
Key Features
- Built-in Wireless: Equipped with 2.4GHz 802.11n Wi-Fi and Bluetooth 5.2, including an onboard antenna for reliable connectivity.
- Powerful RP2350 Microcontroller: Dual-core processors with options for Arm Cortex-M33 or Hazard3 RISC-V cores running at 150MHz.
- Enhanced Memory: 520 KB SRAM and 4 MB onboard QSPI flash for handling larger data sets and more complex tasks.
- Expanded GPIO Options: 26 multi-purpose GPIO pins, including 4 for ADC, to support diverse interfacing needs.
- Advanced Security: Arm TrustZone, secure boot, cryptographic accelerators, and glitch detectors ensure your data and devices remain secure.
Specifications
- CPU: Dual-core Arm Cortex-M33 or Hazard3 RISC-V processors
- Memory: 520 KB SRAM, 4 MB flash
- Connectivity: Wi-Fi 802.11n, Bluetooth 5.2
- Peripherals: USB 1.1, UART, SPI, I2C, PWM, and 12 PIO state machines
- Power Input: 1.8–5.5V DC
- Operating Temperature: -20°C to +85°C
Why Choose the Pico 2 WH?
The Pico 2 W brings wireless connectivity to the trusted Pico platform, making it ideal for applications requiring remote communication and control. With its robust documentation and active community, the Pico 2 W is equally suited to beginners and professionals developing next-gen solutions. This unit has soldered on headers so you can drop it straight into your breadboard!
Jargon buster
Plain-language definitions for the technical terms used above.
- 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.
- Arm Cortex-M33
- A 32-bit, low-power Arm microcontroller core designed for real-time, timing-sensitive control tasks such as reading sensors or driving motors. It can act as a chip's main controller, or in some systems-on-chip run alongside larger application cores that handle an operating system like Linux.
- DC
- DC means direct current, where electricity flows in one constant direction, as supplied by batteries, USB ports and many plug-pack power supplies. When a product specifies DC, it runs from a DC supply rather than mains AC, so you need to provide the correct voltage and polarity.
- 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 connector contacts on a fixed pitch (commonly 2.54 mm) used to link a board to a breadboard, jumper wires, or another board. They come as male pin headers and female socket headers; when a module ships with pre-soldered headers it can be used straight away, whereas bare pads require soldering 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.
- 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.
- microcontroller
- A microcontroller is a small computer on a single chip that runs a stored program and controls connected inputs and outputs such as buttons, sensors, displays and communication interfaces. In a device built around one, it is the part that executes the code and coordinates the device's behaviour.
- 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.
- RISC-V
- RISC-V is an open, royalty-free processor instruction-set architecture used in chips ranging from tiny microcontrollers to Linux-capable application processors. The choice of RISC-V determines which compilers, software tools, and performance or low-power features are available, separate from the more common Arm or x86 architectures.
- RP2350
- A microcontroller chip from Raspberry Pi used as the main processor on some development boards. Knowing the board is built around an RP2350 helps you check software support, pin capabilities and whether it suits MicroPython projects.
- 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.
- SRAM
- Fast temporary memory used by a processor while a program is running. More SRAM helps with projects that handle larger data buffers, networking, displays, or more complex code.
- UART
- UART is a simple asynchronous serial interface that sends data over separate transmit and receive wires, usually labelled TX and RX, with both ends set to the same baud rate. It is a common way for microcontrollers and other serial devices to exchange data.
- USB 1.1
- USB 1.1 is an older USB standard with much slower data transfer than USB 2.0 and later versions. Compatibility with it allows connection to very old computers, though data-heavy tasks such as video may be limited at that speed.
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