platform = teensy
Teensy is a complete USB-based microcontroller development system, in a very small footprint, capable of implementing many types of projects. All programming is done via the USB port. No special programmer is needed, only a standard USB cable and a PC or Macintosh with a USB port.
For more detailed information please visit vendor site.
(valid only for Teensy LC, Teensy 3.0-3.6)
You can control firmware optimization via special macro/define using build_flags in “platformio.ini” (Project Configuration File):
-D TEENSY_OPT_FASTER
, default
-D TEENSY_OPT_FASTER_LTO
-D TEENSY_OPT_FAST
-D TEENSY_OPT_FAST_LTO
-D TEENSY_OPT_FASTEST
-D TEENSY_OPT_FASTEST_LTO
-D TEENSY_OPT_FASTEST_PURE_CODE
, valid only for Teensy 3.5-3.6
-D TEENSY_OPT_FASTEST_PURE_CODE_LTO
, valid only for Teensy 3.5-3.6
-D TEENSY_OPT_DEBUG
-D TEENSY_OPT_DEBUG_LTO
-D TEENSY_OPT_SMALLEST_CODE
-D TEENSY_OPT_SMALLEST_CODE_LTO
The only one macro can be used in per one build environment. Also, you can see
verbose build using -v, --verbose
option for platformio run command.
Example:
Let’s set optimization for the smallest code
[env:teensy_hid_device]
platform = teensy
framework = arduino
board = teensy36
build_flags = -D TEENSY_OPT_SMALLEST_CODE
If you want to use Teensy USB Features, you need to add special macro/define using build_flags:
-D USB_SERIAL
-D USB_KEYBOARDONLY
-D USB_TOUCHSCREEN
-D USB_HID_TOUCHSCREEN
-D USB_HID
-D USB_SERIAL_HID
-D USB_MIDI
-D USB_MIDI4
-D USB_MIDI16
-D USB_MIDI_SERIAL
-D USB_MIDI4_SERIAL
-D USB_MIDI16_SERIAL
-D USB_AUDIO
-D USB_MIDI_AUDIO_SERIAL
-D USB_MIDI16_AUDIO_SERIAL
-D USB_MTPDISK
-D USB_RAWHID
-D USB_FLIGHTSIM
-D USB_FLIGHTSIM_JOYSTICK
-D USB_EVERYTHING
-D USB_DISABLED
A default macro is set to -D USB_SERIAL
if no one is specified.
Example:
[env:teensy_hid_device]
platform = teensy
framework = arduino
board = teensy20
build_flags = -D USB_RAWHID
See Teensy USB Examples.
Examples are listed from Teensy development platform repository:
PIO Unified Debugger - “1-click” solution for debugging with a zero configuration.
Supported debugging tools are listed in “Debug” column. For more detailed information, please scroll table by horizontal. You can switch between debugging Tools & Debug Probes using debug_tool option in “platformio.ini” (Project Configuration File).
Warning
You will need to install debug tool drivers depending on your system. Please click on compatible debug tool below for the further instructions.
Boards listed below are compatible with PIO Unified Debugger but DEPEND ON external debug probe. They ARE NOT READY for debugging. Please click on board name for the further details.
Name |
MCU |
Frequency |
Flash |
RAM |
---|---|---|---|---|
MK20DX256 |
72MHz |
256KB |
64KB |
|
MK64FX512 |
120MHz |
512KB |
255.99KB |
|
MK66FX1M0 |
180MHz |
1MB |
256KB |
|
IMXRT1062 |
600MHz |
1.94MB |
512KB |
|
IMXRT1062 |
600MHz |
7.75MB |
512KB |
|
MKL26Z64 |
48MHz |
62KB |
8KB |
You can switch between stable releases of Teensy development platform and the latest upstream version using platform option in “platformio.ini” (Project Configuration File) as described below.
; Latest stable version
[env:latest_stable]
platform = teensy
board = ...
; Custom stable version
[env:custom_stable]
platform = teensy@x.y.z
board = ...
[env:upstream_develop]
platform = https://github.com/platformio/platform-teensy.git
board = ...
Name |
Description |
---|---|
Arduino Wiring-based Framework |
|
mbed Framework |
|
SEGGER J-Link Software and Documentation Pack |
|
Teensy Loader |
|
avr-gcc |
|
gcc-arm-embedded |
Warning
Linux Users:
Install “udev” rules 99-platformio-udev.rules
Raspberry Pi users, please read this article Enable serial port on Raspberry Pi.
Windows Users:
Teensy programming uses only Windows built-in HID drivers. When Teensy is programmed to act as a USB Serial device, Windows XP, Vista, 7 and 8 require this serial driver is needed to access the COM port your program uses. No special driver installation is necessary on Windows 10.
Name |
Description |
---|---|
Arduino Wiring-based Framework allows writing cross-platform software to control devices attached to a wide range of Arduino boards to create all kinds of creative coding, interactive objects, spaces or physical experiences. |
|
The mbed framework The mbed SDK has been designed to provide enough hardware abstraction to be intuitive and concise, yet powerful enough to build complex projects. It is built on the low-level ARM CMSIS APIs, allowing you to code down to the metal if needed. In addition to RTOS, USB and Networking libraries, a cookbook of hundreds of reusable peripheral and module libraries have been built on top of the SDK by the mbed Developer Community. |
Note
You can list pre-configured boards by platformio boards command or PlatformIO Boards Explorer
For more detailed board
information please scroll the tables below by
horizontally.
Name |
Debug |
MCU |
Frequency |
Flash |
RAM |
---|---|---|---|---|---|
No |
ATMEGA32U4 |
16MHz |
31.50KB |
2.50KB |
|
No |
MK20DX128 |
48MHz |
128KB |
16KB |
|
External |
MK20DX256 |
72MHz |
256KB |
64KB |
|
External |
MK64FX512 |
120MHz |
512KB |
255.99KB |
|
External |
MK66FX1M0 |
180MHz |
1MB |
256KB |
|
External |
IMXRT1062 |
600MHz |
1.94MB |
512KB |
|
External |
IMXRT1062 |
600MHz |
7.75MB |
512KB |
|
External |
MKL26Z64 |
48MHz |
62KB |
8KB |
|
No |
AT90USB1286 |
16MHz |
127KB |
8KB |