QT Py
Contents
- 1 Two Versions of the QT Py
- 2 Pins
- 2.1 3V
- 2.2 5V
- 2.3 A0 / D0 - Digital/analog GPIO pin 0
- 2.4 A1 / D1 - Digital/analog GPIO pin 1
- 2.5 A2 / D2 - Digital/analog GPIO pin 2
- 2.6 A3 / D3 - Digital/analog GPIO pin 3
- 2.7 SDA / D4
- 2.8 SCL / D5
- 2.9 TX / A6 / D6
- 2.10 RX / A7 / D7
- 2.11 SCK / A8 / D8
- 2.12 MISO / A9 / D9
- 2.13 MOSI / A10 / D10
- 2.14 NeoPixel
- 3 Programming
- 4 Flash EEPROM 2 MB
- 5 QT Py Breakout Board
- 6 QTPy49 Board
- 7 Videos
Two Versions of the QT Py
- AdaFruit has SAMD21 and RP2040 versions of the QT Py
- Same pinouts/form factors
- RP2040 vs SAM version
- RP2040 is faster (125 MHz vs 48 MHz)
- RP2040 has 2 cores vs 1
- RP2040 has more Flash
- RP2040 has more SRAM
- The RP2040 version is more expensive, but about the same cost if the SAM version is used with an external Flash
SAMD21 QT Py
- Adafruit QT Py SAMD21 Product Page Seeeduino XIAO
- ATSAMD21E18 32-bit Cortex M0+ version
- 48 MHz, 32-bit processor
- 256KB Flash
- 32 KB RAM
- Native USB supported by every OS
- Can be used in Arduino or CircuitPython as USB serial console, MIDI, Keyboard/Mouse HID, even a little disk drive for storing Python scripts.
- Built in RGB NeoPixel LED
- 11 GPIO pins:
- True analog output on one I/O pin
- Can be used to play 10-bit quality audio clips in Arduino
- CircuitPython does not have storage for audio clips
- Can be used to play 10-bit quality audio clips in Arduino
- 9 x 12-bit analog inputs (SDA/SCL do not have analog inputs)
- 1 x Optional AREF on A1
- 9 x PWM outputs (A0 is analog out, A1 is not PWM capable)
- Hardware I2C port with STEMMA QT plug-n-play connector
- Hardware UART
- Hardware SPI
- Hardware I2S
- 6 x Capacitive Touch with no additional components required
- True analog output on one I/O pin
- 3.3V regulator with 600mA peak output AP2112
- Optional SOIC-8 SPI Flash chip on bottom (Adafruit board - not Seeedstudio part)
- Can't use castellated pins if Flash on bottom is installed
- GD25Q16
- Access the SPI flash in Arduino on SPI1 and chip select pin 17
- In CircuitPython, a 'haxpress' version of the runtime will need to be installed, so it knows to look for the larger filesystem
- There is more hardware support in the haxpress CircuitPython build because we can add more code to the internal flash instead of using it for a filesystem
- Built-in modules available: adafruit_pixelbuf, analogio, audiobusio, audiocore, audioio, board, busio, digitalio, displayio, errno, fontio, math, microcontroller, neopixel_write, nvm, onewireio, os, paralleldisplay, pulseio, pwmio, rainbowio, random, rotaryio, rtc, storage, struct, supervisor, terminalio, time, touchio, traceback, usb_cdc, usb_hid, usb_midi
- Reset switch for starting your project code over or entering bootloader mode
- USB Type C connector
RP2040 QT Py
- Adafruit QT Py RP2040 Product page or Seeed XIAO RP2040
- USB Type C connector
- RP2040 32-bit Cortex M0+ dual-core
- Runs at ~125 MHz
- 264 KB RAM
- 8 MB SPI FLASH chip for storing files and CircuitPython/MicroPython code storage. No EEPROM
- Can be used with MicroPython or CircuitPython
- Built-in RGB NeoPixel LED
- 13 GPIO pins (11 breakout pads and two QT pads):
- Four 12 bit ADCs (one more than Pico)
- Two I2C ports (one on the QT connector, one on the breakout pads)
- SPI and UART peripherals, in standard QT Py locations,
- PWM outputs on every IO pin - for servos, LEDs, etc
- There are 6 GPIO in consecutive order for PIO compatibility
- 3.3V logic and power 600 mA
- Both Reset button and Bootloader select buttons for quick restarts (no unplugging-replugging to relaunch code)
Links
Pins
3V
- Regulated output from the onboard regulator. You can draw 500mA
5V
- 5v out from the USB port.
- Voltage input
- Requires external diode
- Schottky, signal, power
- Between external power source and this pin
- Cannot power the USB port by supplying 5V to this pin
- There is a protection diode that prevents the 5V from reaching the USB connector.
- This is to protect host computer USB ports, etc.
- Requires external diode
A0 / D0 - Digital/analog GPIO pin 0
- Digital I/O 0
- Analog In 0
- True analog output with 10 bit precision
- Does not have PWM
- Capacitive touch input.
A1 / D1 - Digital/analog GPIO pin 1
- Digital I/O 1
- Analog In 1
- Capacitive touch input
- AREF pin.
A2 / D2 - Digital/analog GPIO pin 2
- Digital I/O 2
- Analog In 2
- PWM
- Capacitive touch input.
A3 / D3 - Digital/analog GPIO pin 3
- Digital I/O 3
- Analog In 3
- PWM output
- Capacitive touch input.
SDA / D4
- Digital I/O 4
- I2C SDA pin
- PWM output
- No analog on this pin
- No pull up on this pin
- When using with I2C requires an external 2.2K-10K pullup to 3.3V.
SCL / D5
- Digital I/O 5
- I2C SCL
- No analog on this pin
- No pull up on this pin
- When using with I2C requires an external 2.2K-10K pullup to 3.3V.
TX / A6 / D6
- Digital I/O 6
- Transmit (output) for Serial1
- Analog 6
- PWM output
- Capacitive touch input
RX / A7 / D7
- Digital I/O 7
- Receive (input) for Serial1
- Analog 7
- PWM output
- Capacitive touch input
SCK / A8 / D8
- Digital I/O 8
- SPI SCK pin
- Analog 8
- PWM output
MISO / A9 / D9
- Digital I/O 8
- SPI MISO pin
- Analog 8
- PWM output
MOSI / A10 / D10
- Digital I/O 10
- SPI MOSI pin
- Analog 10
- PWM output
NeoPixel
- Connected to digital pin 11 for signal
- Set pin 12 low for low power usage
- By default pin 12 is set high by Arduino/CircuitPython
- Code example
import board import neopixel pixels = neopixel.NeoPixel(board.NEOPIXEL, 1) # fill((rVal, gVal, bVal)) # rVal, gVal, bVal = red/green/blue values (0-255) pixels.fill((255, 0, 0)) # Note double parens
Programming
- C/C++ or CircuitPython
C/C++
MicroPython
CircuitPython
CircuitPython for SAMD
- Adafruit CircuitPython 7.3.0 on 2021-01-21
- CircuitPython is a derivative of MicroPython
- CircuitPython looks for a code file on the board to run
- There are four options: code.txt, code.py, main.txt and main.py
- CircuitPython looks for those files, in that order, and then runs the first one it finds
- QT_Py_blink.py
- QT Py Haxpress used with 2MB Flash EEPROM
- Mu code editor
- Free memory
- Reports 17,776 bytes of free space
import gc gc.mem_free()
Updating CircuitPython
- Save the contents of CIRCUITPY, just in case
- Double-click the reset button to show the BOOT drive
- Drag the update-bootloader .uf2 file to the BOOT drive
- Wait a few tens of seconds for the bootloader to update; the BOOT drive will reappear
- Check INFO_UF2.TXT to verify that the bootloader version has been updated. Then you will need to reload CircuitPython.
- Update mpy files
Land Boards CircuitPython Code
I2CIO-8 (MCP23008) Drivers
- GitHub Repo
- I2CIO8.py Demo code - Bounce an LED across MCP23008 card output pins
- I2CIO8_RW.py - Read jumpers, write back LEDs
SWLEDX8-I2C (MCP23017) Drivers
- SWLEDX8.py = Control the SWLEDX8-I2C card
PROTO16-I2C (MCP23017) Drivers
- PROTO16_Blink.py - Control the PROTO16-I2C card
Digital I/O Example
import board import digitalio import time led = digitalio.DigitalInOut(board.D13) led.direction = digitalio.Direction.OUTPUT while True: led.value = True time.sleep(0.1) led.value = False time.sleep(0.5)
Flash EEPROM 2 MB
QT Py Breakout Board
- Built onto GRID49 card
- Socket for QT Py
- QT Py pins brought to header strips
- 3.3V power distribution on 2x8 header
Pins (CCW direction)
- S12 = A0
- R12 = A1
- Q12 = A2
- P12 = A3
- N12 = SDA
- M12 = SCL
- L12 = TX
- L1 = RX
- M1 = SCK
- N1 = MI
- P1 = MO
- Q1 = 3.3V
- R1 = GND
- S1 = 5V
- A6=B6=C6=D6=E6=F6=G6=H6 = GND
- A7=B7=C7=D7=E7=F7=G7=H7 = 3.3V
QTPy49 Board
Videos