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Board definitions for the Sunton Smart display boards (CYD Cheap Yellow Display). These definitions contain not only contain the CPU information but also the connections and devices present on the board.

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Sunton CYD (Cheap Yellow Display) PlatformIo Board definitions

This repo contains definitions for the CPU and board information about the hardware

These json files are to be used in cooperation with PlatformIO and contain defines that specify the type, presence and specifics the hardware. PlatformIO detects automatically these boards when this repository is used as a git submodule in the directory <project>/boards.

These defines are used by the LVGL drivers for these boards: esp32-smartdisplay.

Supported boards

Type USB CPU Flash PSRAM Cores/Speed Display Size Display interface Display controller Touch interface Touch controller Audio Flash LED CdS Relay Link
ESP32_1732S019C USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 170x320 1.9" SPI ST7789 I2C GT911 Ali Express
ESP32_1732S019N USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 170x320 1.9" SPI ST7789 Ali Express
ESP32-2424S012C USB-C ESP32-C3-MINI-1U-XXN4 4Mb 1 x 160Mhz 240x240 1.2" round SPI GC9A01A I2C CST816S Ali Express
ESP32-2424S012N USB-C ESP32-C3-MINI-1U-XXN4 4Mb 1 x 160Mhz 240x240 1.2" round SPI GC9A01A Ali Express
ESP32-2432S022C USB-C ESP32-WROOM-32 4Mb 2 x 240Mhz 240x320 2.2" SPI ST7789 I2C CST816S FM8002A Ali Express
ESP32-2432S022N USB-C ESP32-WROOM-32 4Mb 2 x 240Mhz 240x320 2.2" SPI ST7789 FM8002A Ali Express
ESP32-2432S024N micro USB ESP32-WROOM-32 4Mb 2 x 240Mhz 240x320 2.4" SPI ILI9341 FM8002A W25Q32JV RGB GT36516 Ali Express
ESP32-2432S024R micro USB ESP32-WROOM-32 4Mb 2 x 240Mhz 240x320 2.4" SPI ILI9341 SPI XPT2046 FM8002A W25Q32JV RGB GT36516 Ali Express
ESP32-2432S024C micro USB ESP32-WROOM-32 4Mb 2 x 240Mhz 240x320 2.4" SPI ILI9341 SPI CST820 FM8002A W25Q32JV RGB GT36516 Ali Express
ESP32-2432S028R micro USB ESP32-WROOM-32 4Mb 2 x 240Mhz 240x320 2.8" SPI ILI9341 SPI XPT2046 FM8002A W25Q32JV RGB GT36516 Ali Express
ESP32-2432S028Rv2 USB-C ESP32-WROOM-32 4Mb 2 x 240Mhz 240x320 2.8" SPI ILI9341 SPI XPT2046 FM8002A W25Q32JV RGB GT36516 Ali Express
ESP32-2432S028Rv3 USB-C + micro USB ESP32-WROOM-32 4Mb 2 x 240Mhz 240x320 2.8" SPI ST7789 SPI XPT2046 FM8002A W25Q32JV RGB GT36516 Ali Express
ESP32-2432S032C micro USB ESP32-WROOM-32 4Mb 2 x 240Mhz 240x320 3.2" SPI ST7789 I2C GT911 FM8002A W25Q32JV RGB GT36516 Ali Express
ESP32-2432S032N micro USB ESP32-WROOM-32 4Mb 2 x 240Mhz 240x320 3.2" SPI ST7789 FM8002A W25Q32JV RGB GT36516 Ali Express
ESP32-2432S032R micro USB ESP32-WROOM-32 4Mb 2 x 240Mhz 240x320 3.2" SPI ST7789 SPI XPT2046 FM8002A W25Q32JV RGB GT36516 Ali Express
ESP32-2432W328C micro USB ESP32-WROOM-32 4Mb 2 x 240Mhz 240x320 2.8" SPI ST7789 SPI CST816S FM8002A W25Q32JV RGB GT36516 Ali Express
ESP32-3248S035C micro USB ESP32-WROOM-32 4Mb 2 x 240Mhz 320x480 3.5" SPI ST7796 I2C GT911 FM8002A W25Q32JV RGB GT36516 Ali Express
ESP32-3248S035R micro USB ESP32-WROOM-32 4Mb 2 x 240Mhz 320x480 3.5" SPI ST7796 SPI XPT2046 FM8002A W25Q32JV RGB GT36516 Ali Express
ESP32-4827S043C USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 480x272 4.3" Direct 16 bits ST7262 I2C GT911 Ali Express
ESP32-4827S043R USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 480x272 4.3" Direct 16 bits ST7262 SPI XPT2046 Ali Express
ESP32-8048S043C USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 800x480 4.3" Direct 16 bits ST7262 I2C GT911 Ali Express
ESP32-8048S043N USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 800x480 4.3" Direct 16 bits ST7262 Ali Express
ESP32-8048S043R USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 800x480 4.3" Direct 16 bits ST7262 SPI XPT2046 Ali Express
ESP32-4848S040CIY1 USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 240x240 4.0" Direct 16 bits + 3 wire SPI ST7701 I2C GT911 NS4168 1 Ali Express
ESP32-4848S040CIY3 USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 240x240 4.0" Direct 16 bits + 3 wire SPI ST7701 I2C GT911 NS4168 1-3 Ali Express
ESP32-8048S050C USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 800x480 5.0" Direct 16 bits ST7262 I2C GT911 Ali Express
ESP32-8048S050N USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 800x480 5.0" Direct 16 bits ST7262 Ali Express
ESP32-8048S050R USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 800x480 5.0" Direct 16 bits ST7262 SPI XPT2046 Ali Express
ESP32-8048S070C USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 800x480 7.0" Direct 16 bits ST7262 I2C GT911 Ali Express
ESP32-8048S070N USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 800x480 7.0" Direct 16 bits ST7262 Ali Express
ESP32-8048S070R USB-C ESP32-S3-WROOM-1-MCN16R8 16Mb 8Mb 2 x 240Mhz 800x480 7.0" Direct 16 bits ST7262 SPI XPT2046 Ali Express
ESP32-JC8048W550C USB-C ESP32-S3-WROOM-1 16Mb 8Mb 2 x 240Mhz 800x480 7.0" Direct 16 bits ST7262 SPI GT911 Ali Express
ESP32-S3-Touch-LCD-7 USB-C ESP32-S3-WROOM-1-MCN8R8 8Mb 8Mb 2 x 240Mhz 800x480 7.0" Direct 16 bits ST7262 I2C GT911 Waveshare

[!NOTES]

  • The additional flash chip (W25Q32JV) is not always mounted on the board.
  • Some boards have different revisions/versions and require a different definition or custom initialization display vendor string. e.g. 2432S028R/v2 and 8048S070Cv11!

Board defines

Besides the normal PlatformIO defines, there are the defines below that allow to make software for all these boards using only one source. This is used by the esp32-smartdisplay project to have one abstraction for these boards.

The table below provides some explanation of the variable names. These definitions might still be incomplete.

Define Description
ESP32_wwhhS0ddN/R/C The board name, e.g. 2423S012C
BOARD_HAS_PSRAM The boards has PSRAM
BUTTON_BOOT GPIO of the BOOT pushbutton
DISPLAY_ST7701_PAR Display uses the ST7701 driver (Parallel)
DISPLAY_ST7789_SPI Display uses the ST7789 driver (SPI)
DISPLAY_ST7789_I80 Display uses the ST7789 driver (I80 mode)
DISPLAY_ST7796_SPI Display uses the ST7796 driver (SPI)
DISPLAY_GC9A01_SPI Display uses the GC9A01 driver (SPI)
DISPLAY_ILI9341_SPI Display uses the ILI9341 driver (SPI)
DISPLAY_ST7262_PAR Display uses the ST7262 driver (Parallel)
DISPLAY_WIDTH The width of the display panel in pixels
DISPLAY_HEIGHT The height of the display panel in pixels
BCKL_GPIO GPIO of the backlight
type_SPI_HOST The SPI host to use for the display driver, eg. ST7789_SPI_HOST
type_SPI_MOSI SPI MOSI
type_SPI_MISO SPI MISO
type_SPI_SCLK SPI SCLK
type_CS GPIO for the Chip Select
type_DC GPIO for the Data or Command
type_RST GPIO for the ReSeT
ST7262_HSYNC_PULSE_WIDTH Horizontal pulse width
ST7262_HSYNC_BACK_PORCH Horizontal back porch
ST7262_HSYNC_FRONT_PORCH Horizontal front porch
ST7262_VSYNC_PULSE_WIDTH Vertical pulse width
ST7262_VSYNC_BACK_PORCH Vertical back porch
ST7262_VSYNC_FRONT_PORCH Vertical front porch
ST7262_HSYNC GPIO of the horizontal synch
ST7701_HSYNC_IDLE_LOW 1 if the horizontal sync is low on idle
ST7262_VSYNC GPIO of the vertical synch
ST7701_VSYNC_IDLE_LOW 1 if the vertical sync is low on idle
ST7262_DE GPIO for the Data Enable
ST7262_PCLK GPIO for the Pixel CLocK
ST7701_PCLK_ACTIVE_NEG 1 if the Pixel clock is active when negative
ST7701_PCLK_IDLE_HIGH 1 if the pixel clock is idle when high
ST7701_PCLK_HZ Frequency in Hertz of the pixel clock
ST7262_R0 GPIO for the red bit 0
ST7262_R1 GPIO for the red bit 1
ST7262_R2 GPIO for the red bit 2
ST7262_R3 GPIO for the red bit 3
ST7262_R4 GPIO for the red bit 4
ST7262_G0 GPIO for the green bit 0
ST7262_G1 GPIO for the green bit 1
ST7262_G2 GPIO for the green bit 2
ST7262_G3 GPIO for the green bit 3
ST7262_G4 GPIO for the green bit 4
ST7262_G5 GPIO for the green bit 5
ST7262_B0 GPIO for the blue bit 0
ST7262_B1 GPIO for the blue bit 1
ST7262_B2 GPIO for the blue bit 2
ST7262_B3 GPIO for the blue bit 3
ST7262_B4 GPIO for the blue bit 4
DISPLAY_SWAP_XY Swap the X and Y axes for the panel
DISPLAY_MIRROR_X Mirror the panel horizontally
DISPLAY_MIRROR_Y Mirror the panel vertically
DISPLAY_GAP_X The horizontal gap in pixels before the panel
DISPLAY_GAP_Y The vertical gap in pixels before the panel
DISPLAY_SOFTWARE_ROTATION No hardware rotation in driver so use software rotation
BOARD_HAS_TOUCH The panel has a touch interface
TOUCH_USES_GT911 Touch uses the GT911 capacitive touch controller
TOUCH_USES_CST816S Touch uses the CST816S capacitive touch controller
TOUCH_USES_XPT2046 Touch uses the XPT2046 resistive touch controller
type_I2C_HOST The I2C host to use for the touch controller eg. GT911_i2C_HOST
type_I2C_SDA I2C Data
type_I2C_SCL I2C Clock
type_RST GPIO for the ReSeT
type_INT GPIO for the INTerrupt
type_SPI_HOST The SPI host to use for the touch driver, eg. XPT2046_SPI_HOST
type_SPI_MOSI SPI MOSI
type_SPI_MISO SPI MISO
type_SPI_SCLK SPI SCLK
type_CS GPIO for the Chip Select
type_DC GPIO for the Data or Command
type_RST GPIO for the Reset
type_RST GPIO for the Reset
type_INT GPIO for the INTerrupt
TOUCH_SWAP_XY Swap horizontally and vertically
TOUCH_MIRROR_X Swap the touch horizontally
TOUCH_MIRROR_Y Swap the touch vertically
BOARD_HAS_TF The board has a TF slot
TF_CS GPIO for the TF slot Chip Select
TF_SPI_MOSI SPI MOSI for the TF slot
TF_SPI_MISO SPI MISO for the TF slot
TF_SPI_SCLK SPI SCLK for the TF slot
BOARD_HAS_RGB_LED The board has an RGB led
RGB_LED_R GPIO for the red LED
RGB_LED_G GPIO for the green LED
RGB_LED_B GPIO for the blue LED
BOARD_HAS_CDS The board has a CdS resistive light resistor
CDS Analogue GPIO input of the CDS sensor
BOARD_HAS_SPEAK The board has an onboard amplifier for a speaker
SPEAK GPIO of the SPEAKer
BOARD_HAS_RELAY1 The board has relay 1
RELAY_1 GPIO of the first relay
BOARD_HAS_RELAY2 The board has relay 1
RELAY_2 GPIO of the second relay
BOARD_HAS_RELAY3 The board has relay 1
RELAY_3 GPIO of the third relay

PSRAM

At boot the ESP32 has approx 315Kb usable memory (from the 520Kb present). Displays with a controller do not have an internal frame buffer to save the state of the display. However, if the display is using the direct 16bits parallel connection, there is no controller and the contents of the RAM is copied to the display at a fast rate. This buffer is allocated from the memory of the ESP32.

If using the normal SRAM, this would (for the ESP32_4827S043 with a 480x270 pixels) snoop away 480x270x2 = 261120 bytes, leaving only 54140 bytes for the application. This can be done and works. However, the other boards with a resolution of 800x480, 800x480x2 = 768000 bytes are required. This is more than the available RAM.

This is the reason for boards with a direct 16bits parallel connection 8Mb of PSRAM is added and should be used to store this buffer.

The standard definition of the esp32-s3-devkitc-1.json does not have any configuration for the increases flash size and PSRAM. This is corrected in the board definitions.

Controlling the RGB led

Note

Not all boards have a LED. Refer to the supported boards to see if this is available.

If the board has an RGB led, the define BOARD_HAS_RGB_LED is defined. Additionally, the following defines are present for the definition of the GPIO pins:

  • RGB_LED_R
  • RGB_LED_G
  • RGB_LED_B

Before using the RGB LEDs, the GPIOs must be defined as output.

  pinmode(RGB_LED_R, OUTPUT);
  pinmode(RGB_LED_G, OUTPUT);
  pinmode(RGB_LED_B, OUTPUT);

The LEDs are connected between the GPIO pin and the 3.3V. So the LED will light up if the GPIO is set to LOW (inverted).

For example: set the RGB led to red is done by the following code:

  digitalWrite(RGB_LED_R, false);
  digitalWrite(RGB_LED_G, true);
  digitalWrite(RGB_LED_B, true);

To have more colors than the 8 RGB combinations, PWM can be used to mix the colors. To do this, attach a PWM channel to each GPIO pin to modulate the intensity.

Warning

The number of PWM channels is limited and some channels are reserved for some functions e.g. channel 0 is used by the tone() function but can be used if this function is not called.

Example: Set PWM channel 0 to 5000Hz with a resolution of 8 bits (256 levels) and attach it to the red LED. Next, set the level to 25%. This is 192 (256 - 25%) because of the inverted output.

Caution

The functions for using PWM will change in the upcoming release of the IDF and will break the usage of the PWM functions!

ESP_ARDUINO_VERSION_MAJOR < 3:

  ledcSetup(0, 5000, 8);
  ledcAttachPin(RGB_LED_R, 0);
  ledcWrite(0, 192);

ESP_ARDUINO_VERSION_MAJOR >= 3

  ledcAttach(RGB_LED_R, 0, 8);
  ledcWrite(RGB_LED_R, 192);

Reading the CdS photo resistor (light sensor)

Note

Not all boards have a CdS photo resistor. Refer to the supported boards to see if this is available.

If the board has a CdS photo resistor (Cadmium Sulfide, CdS), the define BOARD_HAS_CDS is defined. The resistor is attached to the analogue input of the ESP32 with two resistors between the GND and the VCC. When the CDS is covered, it's resistance is in the order of megaΩ but in bright light can drop to a few 1kΩ.

To use the sensor, the define CDS indicates the analogue port.

Before reading the analogue voltage the GPIO must be defined as input.

  analogSetAttenuation(ADC_0db); // 0dB(1.0x) 0~800mV
  pinMode(CDS, INPUT);

Next, read the value using:

  auto value = analogReadMilliVolts(CDS);

See the GT36516 specs:

  • Dark = 0.3MΩ
  • Light 5kΩ

Theory: The voltage is between 1.28V (dark) and 16mV (light). The ESP32 has a threshold of ~15mV so below 15mV the value is 0.

Controlling the speaker

Note

Not all boards have a speaker. Refer to the Refer to the supported boards to see if this is available.

An 8Ω speaker can be connected to the output marked SPEAK. This is a 1.25 JST connector.

Before writing to the speaker, the GPIO must be defined as output.

pinmode(SPEAK, OUTPUT)

Beeps can be generated by generating a PWM signal on the SPEAK or using the tone function:

// Uses PWM Channel 0
tone(SPEAK, frequency, duration);

To produce "real" audio connect the internal 8 bits D2A converter in the ESP32. The speaker is connected to GPIO26 so can be connected to the DAC2 (Left Channel) of the I2S.

Tip

Make sure the I2S connection is only to the LEFT channel. GPIO25, the right channel, is connected on some boards to the GT911 touch controller and creates strange results.

The audio is a bit distorted. HexeguitarDIY has a fix for that by changing the resistor values to prevent distortion. HexeguitarDIY Audio mod

Appendix: Board details

ESP32_1732S019 N/C

  • USB-C
  • ST7789
  • GT911

esp32-1732S019 esp32-1732S019

ESP32-2424S012 N/C

  • Round
  • USB-C
  • GC9A01
  • CST816S
  • Switch
  • Serial + Power: SH1.0 4p
  • Lithium Battery interface: JST 1.25 2p

ESP32-2424S012 front ESP32-2424S012 back

ESP32-2432S022 N/C

  • USB-C
  • ST7789
  • CST816S
  • TF card interface
  • Power + Serial: JST1.25 4p
  • Speaker: JST1.25 2p
  • Battery interface JST 1.25 2p

ESP32-2432S022 front ESP32-2432S022 back

ESP32-2432S024 N/R/C

  • USB-C
  • ILI9341
  • XPT2046 / CST816S
  • TF card interface
  • I2C: 2 x JST1.0 4p
  • Power + Serial: JST1.25 4p
  • Speaker: JST1.25 2p
  • Battery interface JST 1.25 2p

The touch controller is in fact a CST820 but this is upward compatible with the CST816S

ESP32-2432S024 front

ESP32-2432S028R

  • Micro USB
  • ILI9341
  • XPT2046
  • TF card interface
  • I2C: 2 x JST1.0 4p
  • Power + Serial: JST1.25 4p
  • Speaker: JST1.25 2p
  • Battery interface JST 1.25 2p

[!NOTES] There is a special variant (USB-C connector) that has a different screen init sequence, the ESP32-2432S028Rv2. There are also clone boards with the marking 7789 on the box. This is the v3 variant that has a ST7789 controller instead of the ILI9341!

ESP32-2432S028R back

ESP32-3248S032 N/R/C

  • Micro USB
  • ST7789
  • XPT2046 / GT911
  • TF card interface
  • I2C: 2 x JST1.0 4p
  • Power + Serial: JST 1.25 4p
  • Speaker: JST1.25 2p
  • Battery interface JST 1.25 2p

ESP32-2432S032 back

ESP32-3248S035 R/C

  • Micro USB
  • ST7796
  • XPT2046 / GT911
  • TF card interface
  • I2C: 2 x JST1.0 4p
  • Power + Serial: JST1.25 4p
  • Speaker: JST1.25 2p

ESP32-3248S035 front ESP32-3248S035 back

ESP32-4827S043 N/R/C

  • USB-C
  • ST7262 / 16 bit parallel interface
  • GT911 / XPT2046
  • TF card interface
  • I2C: JST1.0 4p
  • Power + Serial: JST1.25 4p

ESP32-4827S043 front ESP32-4827S043 back

ESP32-8048s043 N/R/C

  • USB-C
  • ST7262 / 16 bit parallel interface
  • GT911
  • TF card interface
  • I2C: JST1.0 4p
  • Power + Serial: JST1.25 4p

ESP32-4848S040 C

  • USB-C
  • ST7701 / 16 bit parallel interface + 3 wire SPI
  • GT911
  • Two versions; with one or three relays
  • 110V - 320V power supply build in!

[!NOTES] The ESP32-4848S040C relays and I2S audio are shared IO ports (IO1, IO2, IO40). If audio is needed, the 0 ohm resistors R25, R26, and R27 should be moved to R21, R22, and R23

ESP32-4848S040C front ESP32-4848S040C back

ESP32-8048S050 N/R/C

  • USB-C
  • ST7262 / 16 bit parallel interface
  • GT911
  • TF card interface
  • I2C: JST1.0 4p
  • Power + Serial: JST1.25 4p

ESP32-8048S050 front ESP32-8048S050 back

ESP32-8048S070 N/R/C

  • USB-C
  • ST7262 / 16 bit parallel interface
  • GT911 / XPT2046
  • TF card interface
  • I2C: JST1.0 4p
  • Power + Serial: JST1.25 4p

[!NOTES] There are different versions present with a difference in the mapping for the colors from the GPIOs to RGB. Known versions are 1.1 and 1.3.

ESP32-8048S070 front ESP32-8048S070 back

ESP32-S3-Touch-LCD-7

  • USB-C
  • ST7262 / 16 bit parallel interface
  • GT911 / XPT2046
  • CAN interface
  • RS485 interface
  • TF card interface
  • I2C
  • PH2.0 battery Interface

ESP32-S3-Touch-LCD-7

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Board definitions for the Sunton Smart display boards (CYD Cheap Yellow Display). These definitions contain not only contain the CPU information but also the connections and devices present on the board.

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