This repo provides Python drivers for the Holtek HT16K33 controller chip and various display devices based upon it, such as the Adafruit 0.8-inch 8x16 LED Matrix FeatherWing and the Raspberry Pi Pico.
The library also supports generic seven-segment displays wired up to an HT16K33, which can drive up to eight these LEDs. The HT16K33 may be on a board of your own design, or on a third-part one, such as the Adafruit 16x8 LED Matrix Driver Backpack . LED units you can connect range from single digits up to combinations of multi-digit units.
Connect your HT16K33 column pins to each LED's digit selection pin, and its row pins to the LED's segment selection pins.
The drivers support both CircuitPython and MicroPython applications. They communicate using I²C.
Further drivers may be added in due course.
The driver package comprises a parent generic HT16K33 class and child classes for various displays themselves. All your code needs to do is import
the latter. For example:
from ht16k33segment import HT16K33Segment
You can then instantiate the driver object. This requires a configured I2C bus object.
You will need both the display driver file and ht16k33.py
in your project folder.
Use the pyboard
or mpremote
command line tools to copy the ht16k33.py
and your required device-specific driver to your board.
From version 3.5.2, you can install the drivers using MicroPython's MIP module. This requires a board running MicroPython 1.20 or above and connected to the Internet. Add the following to your code:
import mip
mip.install('github:smittytone/HT16K33-Python')
If your board is not Internet-capable, you can install locally using the mpremote
tool:
mpremote mip install github:smittytone/HT16K33-Python
Copy ht16k33.py
and your required driver .py
file(s) to the mounted board's lib
folder.
Adding the driver code may prove too much for certain CircuitPython devices which have limited amounts of memory. To overcome this, use MicroPython’s mpy-cross
compiler. This will compile the raw Python into a highly compact form as a .mpy
file. Copy ht16k33.mpy
and the device-specific .mpy
file to your device in place of the .py
versions.
./mpy-cross ht16k33.py ht16k33matrixcolour.py
You can find documentation for all of the drivers at smittytone.net.
This code is now available via the Python Package Index for folks using Thonny and other code-pulling IDEs.
- 3.5.3 15 January 2024
- Remove the
.mpy
versions and provide instructions instead. - Fix incorrect selection of blink rate 0.5Hz — thanks,
@Karrp
.
- Remove the
- 3.5.2 11 December 2023
- Add
mip
support — thanks,@ubidefeo
(no code changes).
- Add
- 3.5.1 30 October 2023
- Add provisional PyPI support (no code changes).
- 3.5.0 2 September 2023
- Add
HT16K33SegmentGen
a generic, 1-8 digit 7-segment driver — thanks,@vader7071
.
- Add
- 3.4.2 14 February 2023
- Fix an error when a space is shown as a zero — thanks,
@asasine
.
- Fix an error when a space is shown as a zero — thanks,
- 3.4.1 14 November 2022
- Correct VK16K33 naming.
- Fix VK16K33 colon setting and unsetting — thanks, Dietmar Schüller.
- 3.4.0 6 October 2022
- Allow the colon and decimal point on SparkFun Qwiic Alphanumeric Display).
- 3.3.1 13 September 2022
- 14-segment character-set numerals now match 7-segment equivalents.
- Assorted code tweaks.
- Wrangle and extend examples.
- Remove old docs.
- Big thanks to
@akbiocca
for assistance with this release.
- 3.3.0 5 August 2022
- Add
rotate()
method to HT16K33Segment.
- Add
- 3.2.0 26 July 2022
- Support the Adafruit 0.54in Alphanumeric Display via
ht16k33segment14.py
. - Bug fixes.
- Support the Adafruit 0.54in Alphanumeric Display via
- 3.1.0 16 February 2022
- Add
ht16k33segment14.py
to support the SparkFun Qwiic Alphanumeric Display.
- Add
- 3.0.2 23 November 2020
- Refactor out some
ht16k33matrix.py
code.
- Refactor out some
- 3.0.1 7 November 2020
- Correct variable name in
ht16k33matrix.py
.
- Correct variable name in
- 3.0.0 6 November 2020
- Initial public release.
This repository’s source code and documentation is copyright © 2024, Tony Smith (@smittytone).
The HTK16K33 driver and subsidiary display drivers are licensed under the MIT License.