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HyperSerialESP32

Exposes USB high speed serial port at 2Mb baud for driving led strip using NeoPixelBus library. It's intended to replace slow Arduino solutions (level shifter 3.3V to 5v may be required). Data integrity check (Fletcher's checksum) included in new 'Awa' protocol for HyperHDR. So no more random flashing caused by serial transmission errors. That option must be checked in HyperHDR to make system works as on the screen below.

Make sure that your serial chip on the ESP32 can handle 2Mb speed: for example CP2102 can't as its max speed is 1Mb and you can compile a version for that speed but I think that's not the point, cheap CH340G can do it without any problems. CH9102x also should work for you, even at 4Mb speed.

There is also my fork named HyperSerialWLED available with the support for the AWA serial protocol at @2Mb speed for both ESP8266 and ESP32: https://github.com/awawa-dev/HyperSerialWLED Can't guarantee it will work as stable as HyperSerialESP32 because WLED has a lot of other things to do in the backgrounds (ex. handling Wifi) and timing control for the serial port could be at danger for larger number of LEDs. But you don't need to abandon all the benefits offered by the WLED which can be a big advantage for some users.

RGB to RGBW conversion is calibrated for the neutral white channel BTF SK6812 but it can be easily changed (for cool and warm temperature) in the code. Search for "color calibration". In HyperHDR use "1.5" gamma for red, blue and green for best effect in the "Image Processing" tab.

LED strip / Device HyperSerialESP32
SK6812 cold white yes
SK6812 neutral white yes
WS281x yes
SPI (APA102, SK9812, HD107...) yes

Example of supported boards

ESP32 MH-ET Live (CP2104 or CH9102x: 4Mb speed) and ESP32-S2 Lolin mini (CDC: 5Mb speed)

Data integrity check

Why the data integrity check was introduced which causes incompatibility with other software? Because at 2Mb speed many chip-makers allow few percent error in the transmission. And we do not want to have any distracting flashes. Broken frames are abandon without showing them. At 100Hz for 250 leds approximately 1-5% of the frames are broken.

Flashing

There are two versions of the firmware for ESP32 and ESP32-S2. The 'factory' (in the recovery_firmware.zip archive) and the 'base' one. Factory firmware should be flashed to offset 0x0, base firmware to offset 0x10000.

ESP32-S2 Lolin mini:

Requires using esptool.py to flash the firmware e.g.

  • esptool.py write_flash 0x10000 firmware_esp32_s2_mini_SK6812_RGBW_COLD.bin or
  • esptool.py write_flash 0x0 firmware_esp32_s2_mini_SK6812_RGBW_COLD.factory.bin

Troubleshooting: ESP32-S2 Lolin mini recovery procedure if the board is not detected or is malfunctioning.

  1. Put the board into dfu mode using board buttons: press Rst + 0 buttons, then release Rst, next release 0
    Do not reset or disconnect the board until the end of the recovery procedure.
  2. Execute esptool.py erase_flash
  3. Flash 'factory' version of the firmware e.g.
    esptool.py write_flash 0x0 firmware_esp32_s2_mini_SK6812_RGBW_COLD.factory.bin
  4. Reset the board manually with the Rst button. The board should be detected as a COM port in the system.

Generic ESP32:

Recommend to use esphome-flasher

For RGBW LED strip like RGBW SK6812 NEUTRAL white choose: firmware_esp32_SK6812_RGBW_NEUTRAL.bin

For RGBW LED strip like RGBW SK6812 COLD white choose: firmware_esp32_SK6812_RGBW_COLD.bin

For RGB LED strip like WS8212b or RGB SK6812 variant choose: firmware_esp32_WS281x_RGB.bin

For SPI driven RGB LED strip APA102: firmware_esp32_SPI_APA102_SK9822_HD107.bin, WS8201: firmware_esp32_SPI_WS2801.bin

If you want to disable your first LED because it's used as a sacrificial level shifter, please use HyperHDR v19

For the RGBW firmware the white channel is automatically calculated and R,G,B channels are corrected.

Usage in HyperHDR

In HyperHDR Image Processing→Smoothing→Update frequency you should do not exceed the maximum capacity of the device. Read more here: how to get statistics

To test the maximum performance in HyperHDR, enable Image Processing→Smoothing→Continuous output, set a high value for Update Frequency in the same tab and set any color in the Remote Control tab as the active effect. Get the statistics and optionally adjust Update Frequency. After testing, you need to disable Continuous outputand set Update frequency" according to your results.

Configuring HyperHDR v19beta2 or above.

  • set Refresh time to zero
  • set Baudrate to 2000000
  • enabled HyperHDR's AWA protocol.

Enabling White channel calibration is optional, if you want to fine tune the white channel balance of your sk6812 RGBW LED strip.
ESP8266/ESP32 handshake could help you to properly initialize the ESP device and enables statistics output to the logs (you must stop the LED device first to get them).

obraz

Compiling

Currently we use PlatformIO to compile the project. Install Visual Studio Code and add PlatformIO plugin. This environment will take care of everything and compile the firmware for you. Low-level LED strip support is provided by my highly optimizated (pre-fill I2S DMA modes, turbo I2S parallel mode for up to 2 segments etc) version of Neopixelbus library: link.

But there is also an alternative and an easier way. Just fork the project and enable its Github Action. Use the online editor to make changes to the platformio.ini file, for example change default pin-outs/speed or enable multi-segments support, and save it. Github Action will compile new firmware automatically in the Artifacts archive. It has never been so easy!

Tutorial: https://github.com/awawa-dev/HyperSerialESP32/wiki

Pinout

ESP32:
LED output (non-SPI): GPIO 2
LED output (SPI): GPIO 4 for Clock, GPIO 2 for Data

Multi-Segment Wiring

Using parallel multi-segment allows you to double your Neopixel (e.g. sk6812 RGBW) LED strip refresh rate by dividing it into two smaller equal parts. Both smaller segments are perfectly in sync so you don't need to worry about it. Proposed example of building a multisegment:

  • Divide a long or dense strip of LEDs into 2 smaller equal parts. So SECOND_SEGMENT_START_INDEX in the HyperSerialESP32 firmware is the total number of LEDs divided by 2.
  • Build your first segment traditional way e.g. clockwise, so it starts somewhere in middle of the bottom of frame/TV and ends in the middle of the top of frame/TV
  • Start the second segment in the opposite direction to the first one e.g. counterclockwise (SECOND_SEGMENT_REVERSED option in the HyperSerialESP32 firmware configuration must be enabled). So it starts somewhere in the middle of the bottom of the frame/TV and ends in the middle of the top of the TV/frame. Both segments could be optionally connected if possible at the top but only 5v and ground ( NOT the data line).
  • The data line starts for both segments somewhere in the middle of the bottom of the TV/frame (where each of the LED strips starts)
  • Configuration in HyperHDR does not change! It's should be configured as one, single continues segment. All is done in HyperSerialESP32 firmware transparently and does not affect LED strip configuration in HyperHDR.

You also must configure data pin (and clock pin for SPI LEDs) in the platformio.ini. Review the comments at the top of the file:

  • SECOND_SEGMENT_DATA_PIN - These is data pin for your second strip
  • SECOND_SEGMENT_CLOCK_PIN - These is clock pin for your second strip (SPI LEDs only, not for sk6812/ws2812b etc)

You add these to your board's config. Be sure to put -D in front of each setting.

Examples of final build_flags for 288 LEDs divided into 2 equal segments in the platformio.ini:

[env:SK6812_RGBW_COLD]
build_flags = -DNEOPIXEL_RGBW -DCOLD_WHITE -DDATA_PIN=2 ${env.build_flags} -DSECOND_SEGMENT_START_INDEX=144 -DSECOND_SEGMENT_DATA_PIN=4 -DSECOND_SEGMENT_REVERSED
...
[env:WS281x_RGB]
build_flags = -DNEOPIXEL_RGB -DDATA_PIN=2 ${env.build_flags} -DSECOND_SEGMENT_START_INDEX=144 -DSECOND_SEGMENT_DATA_PIN=4 -DSECOND_SEGMENT_REVERSED
...

Implementation example:

  • The diagram of the board for WS2812b/SK6812 including ESP32 and the SN74AHCT125N 74AHCT125 level shifter.

HyperSPI

External relay power control

You can configure LED power pin in the platformio.ini to power off LEDs while not in use. Review the comments at the top of the file:

  • LED_POWER_PIN - This is the data pin external power control
  • LED_POWER_INVERT - This inverts the output of the exernal power control pin. If set to false, the pin state will be low when the relay is turned off. If set to true, the pin state will be high when the relay is off. If not defined, default is false.

Note: For static color configuration this mechanism will turn off the LEDs. To counter this enable "Continuous Output" in HyperHDR "Smoothing" module. For esp32 and relay control, you may want to disable the "Handshake" option in the Adalight HyperHDR driver to avoid the relay immediately shutting down when resetting the device while initializing the connection.

Some benchmark results

ESP32 MH-ET LIVE mini is capable of 4Mb serial port speed and ESP32-S2 lolin mini is capable of 5Mb. But to give equal chances for a single-segment mode all models were tested using the default speed of 2Mb which should saturate Neopixel data line. Parallel multi-segment mode uses the highest option available because communication performance is critical here.

Parallel multi-segments can double your large sk6812/ws2812b setup refresh rate for free. All you need is to properly project & construct the LED strip and use HyperSerialESP32 v9. Parallel communication provides perfect synchronization between Neopixel segments.

ESP32 / ESP32-S2 multi segments

Parallel multi-segment mode / Device ESP32
MH-ET LIVE mini @ 4Mb speed
ESP32-S2
Lolin mini @ 5Mb speed
300LEDs RGBW
Refresh rate/continues output=100Hz
SECOND_SEGMENT_START_INDEX=150
100 100
600LEDs RGBW
Refresh rate/continues output=83Hz
SECOND_SEGMENT_START_INDEX=300
83 83
900LEDs RGBW
Refresh rate/continues output=55Hz
SECOND_SEGMENT_START_INDEX=450
55 55

ESP32 / ESP32-S2 single segment

Single RGBW LED strip / Device ESP32 MH-ET LIVE mini generic ESP32 (CH340C) ESP32-S2 lolin mini
300LEDs RGBW
Refresh rate / continues output=83Hz
83 83 83
600LEDs RGBW
Refresh rate / continues output=42Hz
42 42 42
900LEDs RGBW
Refresh rate / continues output=28Hz
28 28 28

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