Hardware requirements
Micro USB cable
TFT Proto 5” CAPACITIVE board HW REV 1.01 by Mikroelektronika. (Named as SSD1963 panel in project. Not necessary if use MIPI panel)
MIMXRT700-EVK
Personal Computer
RK055AHD091 MIPI panel (Not necessary if use other panel)
RK055IQH091 MIPI panel (Not necessary if use other panel)
RK055MHD091 MIPI panel (Not necessary if use other panel)
RM67162 smart MIPI panel (Not necessary if use other panel)
RaspberryPi Panel (Not necessary if use other panel)
Board settings
To use SSD1963 panel: Connect SSD1963 panel to J4. Make sure to connect JP7 2&3 to use 3.3v FLEXIO interface.
To use MIPI panel: Connect MIPI panel to J52.
To use Raspberry panel: Connect the panel to J8. Then connect the panel’s 5V pin to JP43-1, GND pin to JP43-2. Make sure the R75, R76, R79, R80 are connected.
Prepare the Demo
The demo use MIPI RK055MHD091 panel by default. To use MIPI RK055AHD091 panel, change the macro DEMO_PANEL to DEMO_PANEL_RK055AHD091 in display_support.h. To use MIPI RK055IQH091 panel, change the macro DEMO_PANEL to DEMO_PANEL_RK055IQH091 in display_support.h. To use RM67162 MIPI smart panel, change the macro DEMO_PANEL to DEMO_PANEL_RM67162 and set the macro RM67162_USE_LCDIF to 0 in display_support.h. To use MIPI RK055MHD091 panel, change the macro DEMO_PANEL to DEMO_PANEL_RK055MHD091 in display_support.h. To use RaspberryPi, change the macro DEMO_PANEL to DEMO_PANEL_RASPI_7INCH in display_support.h. To use SSD1963 DBI panel, change the macro DEMO_PANEL to DEMO_PANEL_TFT_PROTO_5 in display_support.h.
Connect a USB cable between the host PC and the OpenSDA USB port on the target board.
Open a serial terminal with the following settings:
115200 baud rate
8 data bits
No parity
One stop bit
No flow control
Download the program to the target board.
Either press the reset button on your board or launch the debugger in your IDE to begin running the demo.
Running the demo
When the example runs, you can see a polygon vector graphic with high render quality on a black buffer.