Zoltan Hudak
3.5" inch TFT LCD Display Module 480X320 driven with FSMC.
TFT LCD Display Module 480X320 driven with FSMC
I have recently bought a 3.5" inch TFT LCD Touch Screen Display Module 480X320 with a www.mcufriend.com label on the back side. The display was equipped with an 8bit parallel interface. First I decided to test it with the UniGraphic library using the BUS_8 protocol. The display was very slow but improved when I switched to the PAR_8 protocol. Because I heard about the possibility to use a Flexible Static Memory Controller (FSMC), built into some STM MCU's, to drive LCD's (read/write to LCD's memory rather than to an external SRAM) I thought it would be a fun to try it out.
Below is the brief story of what I did:
- Created a project for my STM32F407VE board in the STM32CubeIDE
- Set the
Clock Configurationto match the one used by Mbed for the Seeed Arch Max board:
- Selected
FSMCin theConnectivitycategory and configured it as below:
- Let the
STM32CubeIDEgenerate the code (files). - Created a new program for the Seeed Arch Max target in the Mbed Online Compiler by selecting a
mbed os blinkytemplate. - Replaced the
main.cppwith themain.ccontent of theSTM32CubeIDEproject. Copy & Pastedthe other files with codes from theSTM32CubeIDEproject to the online compiler project.- Renamed and modified:
"stm32f4xx_it.h" to "stm32f4xx_it_msp.h"
"stm32f4xx_it.c" to "stm32f4xx_it_msp.c" - Added the UniGraphic library to the online compiler project.
- Extended the
UniGraphiclibrary with aFSMC_8protocol and replaced theTFT::set_orientation(int orient)function with the one used bymcufriendfor arduino. - Modified the
main.cppas needed.
 |  |
Wiring
| STM32F407VE | TFT LCD module |
|---|---|
| +3.3V | 3V3 |
| GND | GND |
| PB_12 | LCD_RST |
| GND | LCD_CS |
| PD_13 (RS) | LCD_RS |
| PD_5 (WR) | LCD_WR |
| PD_4 (RD) | LCD_RD |
| PD_14 (DB00) | LCD_D0 |
| PD_15 (DB01) | LCD_D1 |
| PD_0 (DB02) | LCD_D2 |
| PD_1 (DB03) | LCD_D3 |
| PE_7 (DB04) | LCD_D4 |
| PE_8 (DB05) | LCD_D5 |
| PE_9 (DB06) | LCD_D6 |
| PE_10 (DB07) | LCD_D7 |
Results
| Execution times | ||
|---|---|---|
| Used protocol | BUS_8 | FSMC_8 |
| Operation \ Time | ms | ms |
| Clear | 2283.980 | 38.454 |
| Plot | 192.066 | 11.365 |
| 8bit BMP | 63.805 | 41.338 |
| Large Font | 163.872 | 7.895 |
| Sparce pixels | 2072.265/1458.051 | 74.107/52.168 |
| 16bit BMP | 2288.589 | 59.904 |
UniGraphic/Inits/UC1608.cpp@0:fa952828e34c, 2020-05-10 (annotated)
- Committer:
- hudakz
- Date:
- Sun May 10 10:44:31 2020 +0000
- Revision:
- 0:fa952828e34c
3.5" inch TFT LCD Display Module 480X320 driven with FSMC.
Who changed what in which revision?
| User | Revision | Line number | New contents of line |
|---|---|---|---|
| hudakz | 0:fa952828e34c | 1 | /* mbed UniGraphic library - Device specific class |
| hudakz | 0:fa952828e34c | 2 | * Copyright (c) 2015 Giuliano Dianda |
| hudakz | 0:fa952828e34c | 3 | * Released under the MIT License: http://mbed.org/license/mit |
| hudakz | 0:fa952828e34c | 4 | */ |
| hudakz | 0:fa952828e34c | 5 | #include "Protocols.h" |
| hudakz | 0:fa952828e34c | 6 | #include "UC1608.h" |
| hudakz | 0:fa952828e34c | 7 | |
| hudakz | 0:fa952828e34c | 8 | ////////////////////////////////////////////////////////////////////////////////// |
| hudakz | 0:fa952828e34c | 9 | // display settings /////////////////////////////////////////////////////// |
| hudakz | 0:fa952828e34c | 10 | ///////////////////////////////////////////////////////////////////////// |
| hudakz | 0:fa952828e34c | 11 | #define IC_X_SEGS 240 // UC1608 SEG has range 0-239 (239-0 if MX=1), check your datasheet, important for the orientation |
| hudakz | 0:fa952828e34c | 12 | #define IC_Y_COMS 128 // UC1608 COM has range 0-127 (127-0 if MY=1), check your datasheet, important for the orientation |
| hudakz | 0:fa952828e34c | 13 | //#define LCDSIZE_X 240 // display X pixels |
| hudakz | 0:fa952828e34c | 14 | //#define LCDSIZE_Y 120 // display Y pixels, UC1608 is advertised as 240x128 but display size could be smaller |
| hudakz | 0:fa952828e34c | 15 | |
| hudakz | 0:fa952828e34c | 16 | |
| hudakz | 0:fa952828e34c | 17 | |
| hudakz | 0:fa952828e34c | 18 | UC1608::UC1608(proto_t displayproto, PortName port, PinName CS, PinName reset, PinName DC, PinName WR, PinName RD, const char *name , unsigned int LCDSIZE_X, unsigned int LCDSIZE_Y) |
| hudakz | 0:fa952828e34c | 19 | : LCD(displayproto, port, CS, reset, DC, WR, RD, LCDSIZE_X, LCDSIZE_Y, IC_X_SEGS, IC_Y_COMS, name) |
| hudakz | 0:fa952828e34c | 20 | { |
| hudakz | 0:fa952828e34c | 21 | hw_reset(); |
| hudakz | 0:fa952828e34c | 22 | BusEnable(true); |
| hudakz | 0:fa952828e34c | 23 | init(); |
| hudakz | 0:fa952828e34c | 24 | cls(); |
| hudakz | 0:fa952828e34c | 25 | set_orientation(1); |
| hudakz | 0:fa952828e34c | 26 | locate(0,0); |
| hudakz | 0:fa952828e34c | 27 | } |
| hudakz | 0:fa952828e34c | 28 | UC1608::UC1608(proto_t displayproto, int Hz, PinName mosi, PinName miso, PinName sclk, PinName CS, PinName reset, PinName DC, const char *name, unsigned int LCDSIZE_X, unsigned int LCDSIZE_Y) |
| hudakz | 0:fa952828e34c | 29 | : LCD(displayproto, Hz, mosi, miso, sclk, CS, reset, DC, LCDSIZE_X, LCDSIZE_Y, IC_X_SEGS, IC_Y_COMS, name) |
| hudakz | 0:fa952828e34c | 30 | { |
| hudakz | 0:fa952828e34c | 31 | hw_reset(); |
| hudakz | 0:fa952828e34c | 32 | BusEnable(true); |
| hudakz | 0:fa952828e34c | 33 | init(); |
| hudakz | 0:fa952828e34c | 34 | cls(); |
| hudakz | 0:fa952828e34c | 35 | set_orientation(1); |
| hudakz | 0:fa952828e34c | 36 | locate(0,0); |
| hudakz | 0:fa952828e34c | 37 | } |
| hudakz | 0:fa952828e34c | 38 | // reset and init the lcd controller |
| hudakz | 0:fa952828e34c | 39 | void UC1608::init() |
| hudakz | 0:fa952828e34c | 40 | { |
| hudakz | 0:fa952828e34c | 41 | /* Start Initial Sequence ----------------------------------------------------*/ |
| hudakz | 0:fa952828e34c | 42 | |
| hudakz | 0:fa952828e34c | 43 | // wr_cmd8(0xE2); // sw reset |
| hudakz | 0:fa952828e34c | 44 | wait_ms(15); |
| hudakz | 0:fa952828e34c | 45 | |
| hudakz | 0:fa952828e34c | 46 | wr_cmd8(0x27); // Multiplex rate :128 set temperature consenpation 0% |
| hudakz | 0:fa952828e34c | 47 | wr_cmd8(0xEA); //set bias:1/12bias |
| hudakz | 0:fa952828e34c | 48 | |
| hudakz | 0:fa952828e34c | 49 | wr_cmd8(0xC4); // set mirror MX=1,MY=0 (controller->display SEGs wiring inverted) |
| hudakz | 0:fa952828e34c | 50 | // wr_cmd8(0xA0); // ADC select seg0-seg223 |
| hudakz | 0:fa952828e34c | 51 | //wr_cmd8(0xA1); // ADC select seg223-seg0 |
| hudakz | 0:fa952828e34c | 52 | // wr_cmd8(0xC8); // SHL select com63-com0 |
| hudakz | 0:fa952828e34c | 53 | //wr_cmd8(0xC0); // SHL select com0-com63 |
| hudakz | 0:fa952828e34c | 54 | |
| hudakz | 0:fa952828e34c | 55 | wr_cmd8(0x2F); // //Power Control:internal, LCD capacitance 60nf-90nf |
| hudakz | 0:fa952828e34c | 56 | wait_ms(10); |
| hudakz | 0:fa952828e34c | 57 | |
| hudakz | 0:fa952828e34c | 58 | // wr_cmd8(0x81);//Set Gain and Potentiometer |
| hudakz | 0:fa952828e34c | 59 | // wr_cmd8(0x40|26);//Set Gain and Potentiometer xx xxxxxx |
| hudakz | 0:fa952828e34c | 60 | set_contrast(26); |
| hudakz | 0:fa952828e34c | 61 | |
| hudakz | 0:fa952828e34c | 62 | wr_cmd8(0x88); //disable colum/page address wraparound |
| hudakz | 0:fa952828e34c | 63 | wr_cmd8(0xA4); // LCD display ram (EntireDisplayOn disable) |
| hudakz | 0:fa952828e34c | 64 | wr_cmd8(0x40); // start line = 0 |
| hudakz | 0:fa952828e34c | 65 | wr_cmd8(0xA6); // display normal (1 = illuminated) |
| hudakz | 0:fa952828e34c | 66 | wr_cmd8(0xAF); // display ON |
| hudakz | 0:fa952828e34c | 67 | |
| hudakz | 0:fa952828e34c | 68 | } |
| hudakz | 0:fa952828e34c | 69 | //////////////////////////////////////////////////////////////////// |
| hudakz | 0:fa952828e34c | 70 | // functions that overrides the standard ones implemented in LCD.cpp |
| hudakz | 0:fa952828e34c | 71 | //////////////////////////////////////////////////////////////////// |
| hudakz | 0:fa952828e34c | 72 | void UC1608::mirrorXY(mirror_t mode) |
| hudakz | 0:fa952828e34c | 73 | { |
| hudakz | 0:fa952828e34c | 74 | switch (mode) |
| hudakz | 0:fa952828e34c | 75 | { |
| hudakz | 0:fa952828e34c | 76 | case(NONE): |
| hudakz | 0:fa952828e34c | 77 | wr_cmd8(0xC4); // this is in real X mirror command, but my display have SEGs wired inverted, so assume this is the default no-x-mirror |
| hudakz | 0:fa952828e34c | 78 | break; |
| hudakz | 0:fa952828e34c | 79 | case(X): |
| hudakz | 0:fa952828e34c | 80 | wr_cmd8(0xC0); |
| hudakz | 0:fa952828e34c | 81 | break; |
| hudakz | 0:fa952828e34c | 82 | case(Y): |
| hudakz | 0:fa952828e34c | 83 | wr_cmd8(0xCC); |
| hudakz | 0:fa952828e34c | 84 | break; |
| hudakz | 0:fa952828e34c | 85 | case(XY): |
| hudakz | 0:fa952828e34c | 86 | wr_cmd8(0xC8); |
| hudakz | 0:fa952828e34c | 87 | break; |
| hudakz | 0:fa952828e34c | 88 | } |
| hudakz | 0:fa952828e34c | 89 | } |
| hudakz | 0:fa952828e34c | 90 | void UC1608::set_contrast(int o) |
| hudakz | 0:fa952828e34c | 91 | { |
| hudakz | 0:fa952828e34c | 92 | contrast = o; |
| hudakz | 0:fa952828e34c | 93 | // wr_cmd8(0x81); // set volume |
| hudakz | 0:fa952828e34c | 94 | // wr_cmd8(0x40|(o&0x3F)); |
| hudakz | 0:fa952828e34c | 95 | wr_cmd16(0x8140|(o&0x3F)); |
| hudakz | 0:fa952828e34c | 96 | } |
| hudakz | 0:fa952828e34c | 97 | void UC1608::BusEnable(bool enable) |
| hudakz | 0:fa952828e34c | 98 | { |
| hudakz | 0:fa952828e34c | 99 | LCD::BusEnable(!enable); // crap IC has CS not inverted (active HIGH) |
| hudakz | 0:fa952828e34c | 100 | } |