stm32f4 tft display factory

You can refer to the examples under STM32CubeF4 package to see their structure and get inspired from them to configure your files: STM32Cube_FW_F4_V1.21.0\Projects\STM32F429I-Discovery\Applications\STemWin

We have many years of production and sales experience, we have accumulated rich strength in the 15.6 Inch VGA TFT Display, 15.6 Inch LCD Screen, 10.1 Inch LCD Display field. Since introduced the part overseas vanguard technology and the craft and formed the powerful technical support system, it has poured into the vigor for our development. We are strict with every part of our work.

This LCD panel has a built-in EK9716BB3+EK73002 controller, a 40pin 24-bit RGB Interface, can support All View full viewing angle with IPS technology. It is composed with 10 LEDs connected 2 in parallel and 1 in serial l, with backlight voltage 16.5V/current 20mA and 16:9 aspect ratio. Optional with 4 wire resistive touch panel (RTP) and projected capacitive touch screen (PCAP.). Sharing controller board same hardware with 5” TFT LCD 800x480 resolution and 7” 800x480 resolution.

I have tried to compile the example file GxTFT_FSMC_BlackSTM32F407V.ino. The necessary assisting files should be in place including STM32GENERIC in the hardware folder. After having worked for quite some time Arduino IDE stops with an error message. I list the last page of the verbose output:

"C:\Users\Peas\AppData\Local\Arduino15\packages\arduino\tools\arm-none-eabi-gcc\4.8.3-2014q1/bin/arm-none-eabi-g++" -mcpu=cortex-m4 -mfpu=fpv4-sp-d16 -mfloat-abi=hard -DF_CPU=168000000L -mthumb -DSTM32GENERIC -DRAM_LENGTH=131072 -DFLASH_LENGTH=524288 -c -g -Os -w -std=gnu++11 -ffunction-sections -fdata-sections -nostdlib -fno-threadsafe-statics --param max-inline-insns-single=500 -fno-rtti -fno-exceptions -Dprintf=iprintf -MMD -DSTM32F4 -DARDUINO=10807 -DARDUINO_BLACK_F407VE -DARDUINO_ARCH_STM32 -DSTM32F407VE -DHSE_VALUE=8000000 -DMENU_SERIAL_AUTO=SerialUSB "-IC:\Users\Peas\Documents\Arduino\hardware\STM32GENERIC-master\STM32\cores\arduino/stm32" "-IC:\Users\Peas\Documents\Arduino\hardware\STM32GENERIC-master\STM32\cores\arduino/usb" "-IC:\Users\Peas\Documents\Arduino\hardware\STM32GENERIC-master\STM32\system/CMSIS" "-IC:\Users\Peas\Documents\Arduino\hardware\STM32GENERIC-master\STM32\system/STM32F4/CMSIS_Inc" "-IC:\Users\Peas\Documents\Arduino\hardware\STM32GENERIC-master\STM32\system/STM32F4/CMSIS_Src" "-IC:\Users\Peas\Documents\Arduino\hardware\STM32GENERIC-master\STM32\system/STM32F4/HAL_Inc" "-IC:\Users\Peas\Documents\Arduino\hardware\STM32GENERIC-master\STM32\system/STM32F4/HAL_Src" "-IC:\Users\Peas\Documents\Arduino\hardware\STM32GENERIC-master\STM32\system/STM32F4/stm32_chip" "-IC:\Users\Peas\Documents\Arduino\hardware\STM32GENERIC-master\STM32\cores\arduino" "-IC:\Users\Peas\Documents\Arduino\hardware\STM32GENERIC-master\STM32\variants\BLACK_F407VE" "-IC:\Users\Peas\Documents\Arduino\libraries\GxTFT\src" "-IC:\Users\Peas\Documents\Arduino\hardware\STM32GENERIC-master\STM32\libraries\SPI\src" "-IC:\Users\Peas\Documents\Arduino\libraries\Adafruit_GFX_Library" "-IC:\Users\Peas\Documents\Arduino\hardware\STM32GENERIC-master\STM32\libraries\stm32_dma\src" "C:\Users\Peas\Documents\Arduino\libraries\GxTFT\src\GxIO\STM32GENERIC\GxIO_STM32F407ZGM4_FSMC\GxIO_STM32F407ZGM4_FSMC.cpp" -o "C:\Users\Peas\AppData\Local\Temp\arduino_build_724464\libraries\GxTFT\GxIO\STM32GENERIC\GxIO_STM32F407ZGM4_FSMC\GxIO_STM32F407ZGM4_FSMC.cpp.o"

C:\Users\Peas\Documents\Arduino\libraries\GxTFT\src\GxIO\STM32GENERIC\GxIO_STM32F407ZGM4_FSMC\GxIO_STM32F407ZGM4_FSMC.cpp: In constructor "GxIO_STM32F407ZGM4_FSMC::GxIO_STM32F407ZGM4_FSMC(bool)":

C:\Users\Peas\Documents\Arduino\libraries\GxTFT\src\GxIO\STM32GENERIC\GxIO_STM32F407ZGM4_FSMC\GxIO_STM32F407ZGM4_FSMC.cpp:97:11: error: "PG12" was not declared in this scope

C:\Users\Peas\Documents\Arduino\libraries\GxTFT\src\GxIO\STM32GENERIC\GxIO_STM32F407ZGM4_FSMC\GxIO_STM32F407ZGM4_FSMC.cpp:98:11: error: "PG0" was not declared in this scope

NUCLEO-F446RE board for STM32F446RET6 MCU with 180 MHz Cortex-M4F core, 512 KB flash, 128 KB SRAM, external quad-SPI memory interface, external flexible memory interface.

NUCLEO-F412ZG board for STM32F412ZGT6 MCU with 100 MHz Cortex-M4F core, 1024 KB flash, 256 KB SRAM, external quad-SPI memory interface, external static memory interface.

NUCLEO-F429ZI board for STM32F429ZIT6 MCU with 180 MHz Cortex-M4F core, 2048 KB flash, 256 KB SRAM, 4 KB battery-back SRAM, external flexible memory interface, ethernet.

NUCLEO-F439ZI board for STM32F439ZIT6 MCU with 180 MHz Cortex-M4F core, 2048 KB flash, 256 KB SRAM, 4 KB battery-back SRAM, external flexible memory interface, ethernet, cryptographic acceleration.

NUCLEO-F446ZE board for STM32F446ZET6 MCU with 180 MHz Cortex-M4F core, 512 KB flash, 128 KB SRAM, 4 KB battery-back SRAM, external quad-SPI memory interface, external flexible memory interface.

A discovery board for STM32F429ZIT6 microcontroller with 180 MHz ARM Cortex-M4F core, 2048 KB flash, 256 KB RAM, 4 KB battery-backed RAM in LQFP144 package.

This board includes an integrated ST-LINK/V2 debugger via Mini-B USB connector, 8 MB SDRAM (IS42S16400J), 2.4-inch 320x200 TFT LCD color display (SF-TC240T), touchscreen controller (STMPE811), gyroscope (L3GD20), 2 user LEDs, user button, reset button, Full-Speed USB OTG to second Micro-AB USB connector, and two 32x2 male pin headers.

A discovery board for STM32F407VGT6 microcontroller with 168 MHz ARM Cortex-M4F core, 1024 KB flash, 192 KB RAM, 4 KB battery-backed RAM in LQFP100 package.

A prototyping environment for a variety of STM32 variants, which allows users to create their applications using an application programming interface (API) to implement device peripherals and a range of evaluation features on the EvoPrimer base including TFT color touchscreen, graphical user interface, joy stick, codec-based audio, SD card, IrDA and standard peripherals such as USB, USART, SPI, I2C, CAN, etc.

Library for ILI932x display controllers and common resistive touch screen controllers like XPT2046, ADS7843, etc. The library codes are written for STM32 family with MikroC for ARM but with simple GPIO changes the codes can be implemented for other MCUs as well.

The MIPI Alliance specifications do not specify a maximum resolution or frame rate. It is up to you to negotiate and decide that with the display attached to the DSI host.

Also, because control traffic is also carried by the MIPI DSI interface itself, you have to make sure that there is no significant control traffic interrupting the graphic data stream. If there is, the display benefits from having a frame buffer. Ultimately, depending on the timing parameters specified in the LCD display datasheet, the maximum resolution and frame rate can be determined and it strongly depends on the display controller.

Note that the STM32 DSI host is capable of halting transmission, i.e. if your display has a frame buffer, you can save some power by deactivating constant streaming of the video buffer through the DSI host. If you are interfacing to an non-framebuffer type display, it could be a good idea to allocate the display data into external SDRAM connected to the STM32 and let the LTDC stream it out to the LCD via the MIPI DSI host interface.