======================= Adafruit QT Py RP2040 ======================= The QT Py RP2040 is a tiny general purpose RP2040 board supplied by Adafruit. .. figure:: QT-Py.png :align: center Features ======== * RP2040 microcontroller chip * Dual-core ARM Cortex M0+ processor, flexible clock running up to 133 MHz * 264kB of SRAM, and 8MB of on-board Flash memory * Castellated module allows soldering direct to carrier boards * USB Host and Device support via type C connector. * Low-power sleep and dormant modes * Drag & drop programming using mass storage over USB * 13 multi-function GPIO pins (11 breakout pads and two QT pads) * 2× SPI, 2× I2C, 2× UART, 4× 12-bit ADC, 16× controllable PWM channels * Accurate clock and timer on-chip * Temperature sensor * Accelerated floating point libraries on-chip * 8 × Programmable IO (PIO) state machines for custom peripheral support Serial Console ============== By default a serial console appears on GPIO pins 20 (RX GPIO1) and pin 5 (TX GPIO1). This console runs a 115200-8N1. The board can be configured to use the USB connection as the serial console. Buttons and LEDs ================ A ws2812 (NeoPixel) smart RGB LED controlled by GPIO12 (data) and GPIO11 (power). There is a BOOT button which if held down when power is first applied or the RESET button is pressed will cause the RP2040 to boot into program mode and appear as a storage device to a USB connecter. Saving a .UF2 file to this device will replace the Flash ROM contents on the RP2040. A RESET button that allows rebooting the board without disconnecting the power. Pin Mapping =========== Pads numbered anticlockwise from USB connector. ===== ========== ========== Pad Signal Notes ===== ========== ========== 1 GPIO26 ADC0 2 GPIO27 ADC1 3 GPIO28 ADC2 4 GPIO29 ADC3 5 GPIO24 6 GPIO25 7 GPIO20 Default TX for UART1 serial console 8 GPIO5 Default RX for UART1 serial console 9 GPIO6 10 GPIO4 11 GPIO3 12 3.3V Power out to peripherals. 13 Ground 14 5V ===== ========== ========== The board has a STEMMA QT connector that is also connected to pins GPIO22 (I2C1 SDA) and GPIO23 (I2C1 SCL). Power Supply ============ The Raspberry Pi Pico can be powered via the USB connector, or by supplying +5V to pin 14. The board had a diode that prevents power from pin 14 from flowing back to the USB socket, although this can be disabled by connecting on-board solder pads if there is need to run as a usb host. The Raspberry Pi Pico chip run on 3.3 volts which is supplied by an on board regulator. Configurations ============== gpio -------- NuttShell configuration (console enabled in UART1, at 115200 bps) with GPIO examples. nsh --- Basic NuttShell configuration (console enabled in UART1, at 115200 bps). nsh-flash --------- Basic NuttShell configuration (console enabled in UART0, at 115200 bps with SMART flash filesystem. nshsram ------- NuttShell configuration (console enabled in UART1, at 115200 bps) with interrupt vectors in RAM. smp --- Basic NuttShell configuration (console enabled in UART1, at 115200 bps) with both ARM cores enabled. usbnsh ------ Basic NuttShell configuration (console enabled in USB Port, at 115200 bps). README.txt ========== .. include:: README.txt :literal: