全志R128适配ST7789v LCD

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描述

适配 ST7789v LCD

R128 平台提供了 SPI DBI 的 SPI TFT 接口,具有如下特点:

  • Supports DBI Type C 3 Line/4 Line Interface Mode
  • Supports 2 Data Lane Interface Mode
  • Supports data source from CPU or DMA
  • Supports RGB111/444/565/666/888 video format
  • Maximum resolution of RGB666 240 x 320@30Hz with single data lane
  • Maximum resolution of RGB888 240 x 320@60Hz or 320 x 480@30Hz with dual data lane
  • Supports tearing effect
  • Supports software flexible control video frame rate

同时,提供了 SPILCD 驱动框架以供 SPI 屏幕使用。

此次适配的SPI屏为 ZJY240S0800TG11,使用的是 SPI 进行驱动。注意请购买带 CS 引脚的 SPI 屏幕,由于 ST7789v SPI 时序问题,CS 引脚直接接地可能会导致初始化无法写入。如果很不幸SPI TFT是不带 CS 的,请飞线出来连接 CS 引脚(如图所示)

SPI接口
引脚配置如下:

R128 Devkit

TFT 模块

PA12

CS(飞线)

PA13

CLK

PA18

MOSI

PA9

BLK

PA20

RES

PA19

DC

3V3

VCC

GND

GND

悬空

MISO

载入方案

我们使用的开发板是 R128-Devkit,需要开发 C906 核心的应用程序,所以载入方案选择 r128s2_module_c906

$ source envsetup.sh 
$ lunch_rtos 1

SPI接口

设置 SPI 驱动

屏幕使用的是SPI驱动,所以需要勾选SPI驱动,运行 mrtos_menuconfig 进入配置页面。前往下列地址找到 SPI Devices

Drivers Options  --- >
    soc related device drivers  --- >
        SPI Devices --- >
        -*- enable spi driver

SPI接口

配置 SPI 引脚

打开你喜欢的编辑器,修改文件:board/r128s2/module/configs/sys_config.fex,在这里我们不需要用到 SPI HOLD与SPI WP引脚,注释掉即可。

;----------------------------------------------------------------------------------
;SPI controller configuration
;----------------------------------------------------------------------------------
;Please config spi in dts
[spi1]
spi1_used       = 1
spi1_cs_number  = 1
spi1_cs_bitmap  = 1
spi1_cs0        = port:PA12< 6 >< 0 >< 3 >< default >
spi1_sclk       = port:PA13< 6 >< 0 >< 3 >< default >
spi1_mosi       = port:PA18< 6 >< 0 >< 3 >< default >
spi1_miso       = port:PA21< 6 >< 0 >< 3 >< default >
;spi1_hold       = port:PA19< 6 >< 0 >< 2 >< default >
;spi1_wp         = port:PA20< 6 >< 0 >< 2 >< default >

SPI接口

设置 PWM 驱动

屏幕背光使用的是PWM驱动,所以需要勾选PWM驱动,运行 mrtos_menuconfig 进入配置页面。前往下列地址找到 PWM Devices

Drivers Options  --- >
    soc related device drivers  --- >
        PWM Devices --- >
        -*- enable pwm driver

SPI接口

配置 PWM 引脚

打开你喜欢的编辑器,修改文件:board/r128s2/module/configs/sys_config.fex,增加 PWM1 节点

[pwm1]
pwm_used        = 1
pwm_positive    = port:PA9< 4 >< 0 >< 3 >< default >

SPI接口

设置 SPI LCD 驱动

SPI LCD 由专门的驱动管理。运行 mrtos_menuconfig 进入配置页面。前往下列地址找到 SPILCD Devices ,注意同时勾选 spilcd hal APIs test 方便测试使用。

Drivers Options  --- >
    soc related device drivers  --- >
        [*] DISP Driver Support(spi_lcd)
        [*]   spilcd hal APIs test

SPI接口

编写 SPI LCD 显示屏驱动

获取屏幕初始化序列

首先询问屏厂提供驱动源码

SPI接口

找到 LCD 的初始化序列代码

SPI接口

找到屏幕初始化的源码

SPI接口

整理后的初始化代码如下:

LCD_WR_REG(0x11);
delay_ms(120); // Delay 120ms

// display and color format setting
LCD_WR_REG(0X36);
LCD_WR_DATA8(0x00);
LCD_WR_REG(0X3A);
LCD_WR_DATA8(0X05);

// ST7789S Frame rate setting
LCD_WR_REG(0xb2);
LCD_WR_DATA8(0x0c);
LCD_WR_DATA8(0x0c);
LCD_WR_DATA8(0x00);
LCD_WR_DATA8(0x33);
LCD_WR_DATA8(0x33);
LCD_WR_REG(0xb7);
LCD_WR_DATA8(0x35);

// ST7789S Power setting
LCD_WR_REG(0xbb);
LCD_WR_DATA8(0x35);
LCD_WR_REG(0xc0);
LCD_WR_DATA8(0x2c);
LCD_WR_REG(0xc2);
LCD_WR_DATA8(0x01);
LCD_WR_REG(0xc3);
LCD_WR_DATA8(0x13);
LCD_WR_REG(0xc4);
LCD_WR_DATA8(0x20);
LCD_WR_REG(0xc6);
LCD_WR_DATA8(0x0f);
LCD_WR_REG(0xca);
LCD_WR_DATA8(0x0f);
LCD_WR_REG(0xc8);
LCD_WR_DATA8(0x08);
LCD_WR_REG(0x55);
LCD_WR_DATA8(0x90);
LCD_WR_REG(0xd0);
LCD_WR_DATA8(0xa4);
LCD_WR_DATA8(0xa1);

// ST7789S gamma setting
LCD_WR_REG(0xe0);
LCD_WR_DATA8(0xd0);
LCD_WR_DATA8(0x00);
LCD_WR_DATA8(0x06);
LCD_WR_DATA8(0x09);
LCD_WR_DATA8(0x0b);
LCD_WR_DATA8(0x2a);
LCD_WR_DATA8(0x3c);
LCD_WR_DATA8(0x55);
LCD_WR_DATA8(0x4b);
LCD_WR_DATA8(0x08);
LCD_WR_DATA8(0x16);
LCD_WR_DATA8(0x14);
LCD_WR_DATA8(0x19);
LCD_WR_DATA8(0x20);
LCD_WR_REG(0xe1);
LCD_WR_DATA8(0xd0);
LCD_WR_DATA8(0x00);
LCD_WR_DATA8(0x06);
LCD_WR_DATA8(0x09);
LCD_WR_DATA8(0x0b);
LCD_WR_DATA8(0x29);
LCD_WR_DATA8(0x36);
LCD_WR_DATA8(0x54);
LCD_WR_DATA8(0x4b);
LCD_WR_DATA8(0x0d);
LCD_WR_DATA8(0x16);
LCD_WR_DATA8(0x14);
LCD_WR_DATA8(0x21);
LCD_WR_DATA8(0x20);
LCD_WR_REG(0x29);

用现成驱动改写 SPI LCD 驱动

选择一个现成的 SPI LCD 改写即可,这里选择 nv3029s.c 驱动来修改

SPI接口

复制这两个驱动,重命名为 st7789v.c

SPI接口

先编辑 st7789v.hnv3029s 改成 st7789v

SPI接口

#ifndef _ST7789V_H
#define _ST7789V_H

#include "panels.h"

struct __lcd_panel st7789v_panel;

#endif /*End of file*/

编辑 st7789v.cnv3029s 改成 st7789v

SPI接口

然后将屏厂提供的初始化序列复制进来

SPI接口

然后按照 spi_lcd 框架的接口改写驱动接口,具体接口如下

屏厂函数

SPILCD框架接口

LCD_WR_REG

sunxi_lcd_cmd_write

LCD_WR_DATA8

sunxi_lcd_para_write

delay_ms

sunxi_lcd_delay_ms

SPI接口

完成驱动如下

#include "st7789v.h"

static void LCD_power_on(u32 sel);
static void LCD_power_off(u32 sel);
static void LCD_bl_open(u32 sel);
static void LCD_bl_close(u32 sel);
static void LCD_panel_init(u32 sel);
static void LCD_panel_exit(u32 sel);
#define RESET(s, v) sunxi_lcd_gpio_set_value(s, 0, v)
#define power_en(sel, val) sunxi_lcd_gpio_set_value(sel, 0, val)

static struct disp_panel_para info[LCD_FB_MAX];

static void address(unsigned int sel, int x, int y, int width, int height)
{
    sunxi_lcd_cmd_write(sel, 0x2B); /* Set row address */
    sunxi_lcd_para_write(sel, (y > > 8) & 0xff);
    sunxi_lcd_para_write(sel, y & 0xff);
    sunxi_lcd_para_write(sel, (height > > 8) & 0xff);
    sunxi_lcd_para_write(sel, height & 0xff);
    sunxi_lcd_cmd_write(sel, 0x2A); /* Set coloum address */
    sunxi_lcd_para_write(sel, (x > > 8) & 0xff);
    sunxi_lcd_para_write(sel, x & 0xff);
    sunxi_lcd_para_write(sel, (width > > 8) & 0xff);
    sunxi_lcd_para_write(sel, width & 0xff);
    sunxi_lcd_cmd_write(sel, 0x2c);
}

static void LCD_panel_init(unsigned int sel)
{
    if (bsp_disp_get_panel_info(sel, &info[sel])) {
        lcd_fb_wrn("get panel info fail!n");
        return;
    }

    sunxi_lcd_cmd_write(sel, 0x11);
    sunxi_lcd_delay_ms(120);

    /* display and color format setting */
    sunxi_lcd_cmd_write(sel, 0X36);
    sunxi_lcd_para_write(sel, 0x00);
    sunxi_lcd_cmd_write(sel, 0X3A);
    sunxi_lcd_para_write(sel, 0X05);

    /* ST7789S Frame rate setting */
    sunxi_lcd_cmd_write(sel, 0xb2);
    sunxi_lcd_para_write(sel, 0x0c);
    sunxi_lcd_para_write(sel, 0x0c);
    sunxi_lcd_para_write(sel, 0x00);
    sunxi_lcd_para_write(sel, 0x33);
    sunxi_lcd_para_write(sel, 0x33);
    sunxi_lcd_cmd_write(sel, 0xb7);
    sunxi_lcd_para_write(sel, 0x35);

    /* ST7789S Power setting */
    sunxi_lcd_cmd_write(sel, 0xbb);
    sunxi_lcd_para_write(sel, 0x35);
    sunxi_lcd_cmd_write(sel, 0xc0);
    sunxi_lcd_para_write(sel, 0x2c);
    sunxi_lcd_cmd_write(sel, 0xc2);
    sunxi_lcd_para_write(sel, 0x01);
    sunxi_lcd_cmd_write(sel, 0xc3);
    sunxi_lcd_para_write(sel, 0x13);
    sunxi_lcd_cmd_write(sel, 0xc4);
    sunxi_lcd_para_write(sel, 0x20);
    sunxi_lcd_cmd_write(sel, 0xc6);
    sunxi_lcd_para_write(sel, 0x0f);
    sunxi_lcd_cmd_write(sel, 0xca);
    sunxi_lcd_para_write(sel, 0x0f);
    sunxi_lcd_cmd_write(sel, 0xc8);
    sunxi_lcd_para_write(sel, 0x08);
    sunxi_lcd_cmd_write(sel, 0x55);
    sunxi_lcd_para_write(sel, 0x90);
    sunxi_lcd_cmd_write(sel, 0xd0);
    sunxi_lcd_para_write(sel, 0xa4);
    sunxi_lcd_para_write(sel, 0xa1);

    /* ST7789S gamma setting */
    sunxi_lcd_cmd_write(sel, 0xe0);
    sunxi_lcd_para_write(sel, 0xd0);
    sunxi_lcd_para_write(sel, 0x00);
    sunxi_lcd_para_write(sel, 0x06);
    sunxi_lcd_para_write(sel, 0x09);
    sunxi_lcd_para_write(sel, 0x0b);
    sunxi_lcd_para_write(sel, 0x2a);
    sunxi_lcd_para_write(sel, 0x3c);
    sunxi_lcd_para_write(sel, 0x55);
    sunxi_lcd_para_write(sel, 0x4b);
    sunxi_lcd_para_write(sel, 0x08);
    sunxi_lcd_para_write(sel, 0x16);
    sunxi_lcd_para_write(sel, 0x14);
    sunxi_lcd_para_write(sel, 0x19);
    sunxi_lcd_para_write(sel, 0x20);
    sunxi_lcd_cmd_write(sel, 0xe1);
    sunxi_lcd_para_write(sel, 0xd0);
    sunxi_lcd_para_write(sel, 0x00);
    sunxi_lcd_para_write(sel, 0x06);
    sunxi_lcd_para_write(sel, 0x09);
    sunxi_lcd_para_write(sel, 0x0b);
    sunxi_lcd_para_write(sel, 0x29);
    sunxi_lcd_para_write(sel, 0x36);
    sunxi_lcd_para_write(sel, 0x54);
    sunxi_lcd_para_write(sel, 0x4b);
    sunxi_lcd_para_write(sel, 0x0d);
    sunxi_lcd_para_write(sel, 0x16);
    sunxi_lcd_para_write(sel, 0x14);
    sunxi_lcd_para_write(sel, 0x21);
    sunxi_lcd_para_write(sel, 0x20);
    sunxi_lcd_cmd_write(sel, 0x29);

    if (info[sel].lcd_x < info[sel].lcd_y)
        address(sel, 0, 0, info[sel].lcd_x - 1, info[sel].lcd_y - 1);
    else
        address(sel, 0, 0, info[sel].lcd_y - 1, info[sel].lcd_x - 1);
}

static void LCD_panel_exit(unsigned int sel)
{
    sunxi_lcd_cmd_write(sel, 0x28);
    sunxi_lcd_delay_ms(20);
    sunxi_lcd_cmd_write(sel, 0x10);
    sunxi_lcd_delay_ms(20);
    sunxi_lcd_pin_cfg(sel, 0);
}

static s32 LCD_open_flow(u32 sel)
{
    lcd_fb_here;
    /* open lcd power, and delay 50ms */
    LCD_OPEN_FUNC(sel, LCD_power_on, 50);
    /* open lcd power, than delay 200ms */
    LCD_OPEN_FUNC(sel, LCD_panel_init, 200);

    LCD_OPEN_FUNC(sel, lcd_fb_black_screen, 50);
    /* open lcd backlight, and delay 0ms */
    LCD_OPEN_FUNC(sel, LCD_bl_open, 0);

    return 0;
}

static s32 LCD_close_flow(u32 sel)
{
    lcd_fb_here;
    /* close lcd backlight, and delay 0ms */
    LCD_CLOSE_FUNC(sel, LCD_bl_close, 50);
    /* open lcd power, than delay 200ms */
    LCD_CLOSE_FUNC(sel, LCD_panel_exit, 10);
    /* close lcd power, and delay 500ms */
    LCD_CLOSE_FUNC(sel, LCD_power_off, 10);

    return 0;
}

static void LCD_power_on(u32 sel)
{
    /* config lcd_power pin to open lcd power0 */
    lcd_fb_here;
    power_en(sel, 1);

    sunxi_lcd_power_enable(sel, 0);

    sunxi_lcd_pin_cfg(sel, 1);
    RESET(sel, 1);
    sunxi_lcd_delay_ms(100);
    RESET(sel, 0);
    sunxi_lcd_delay_ms(100);
    RESET(sel, 1);
}

static void LCD_power_off(u32 sel)
{
    lcd_fb_here;
    /* config lcd_power pin to close lcd power0 */
    sunxi_lcd_power_disable(sel, 0);
    power_en(sel, 0);
}

static void LCD_bl_open(u32 sel)
{
    sunxi_lcd_pwm_enable(sel);
    /* config lcd_bl_en pin to open lcd backlight */
    sunxi_lcd_backlight_enable(sel);
    lcd_fb_here;
}

static void LCD_bl_close(u32 sel)
{
    /* config lcd_bl_en pin to close lcd backlight */
    sunxi_lcd_backlight_disable(sel);
    sunxi_lcd_pwm_disable(sel);
    lcd_fb_here;
}


/* sel: 0:lcd0; 1:lcd1 */
static s32 LCD_user_defined_func(u32 sel, u32 para1, u32 para2, u32 para3)
{
    lcd_fb_here;
    return 0;
}

static int lcd_set_var(unsigned int sel, struct fb_info *p_info)
{
    return 0;
}

static int lcd_set_addr_win(unsigned int sel, int x, int y, int width, int height)
{
    address(sel, x, y, width, height);
    return 0;
}

static int lcd_blank(unsigned int sel, unsigned int en)
{
    return 0;
}

struct __lcd_panel st7789v_panel = {
    /* panel driver name, must mach the name of lcd_drv_name in sys_config.fex
       */
    .name = "st7789v",
    .func = {
        .cfg_open_flow = LCD_open_flow,
        .cfg_close_flow = LCD_close_flow,
        .lcd_user_defined_func = LCD_user_defined_func,
        .blank = lcd_blank,
        .set_var = lcd_set_var,
        .set_addr_win = lcd_set_addr_win,
    },
};

对接驱动框架

完成了屏幕驱动的编写,接下来需要对接到 SPILCD 驱动框架。首先编辑 Kconfig

SPI接口

增加 st7789v 的配置

SPI接口

config LCD_SUPPORT_ST7789V
    bool "LCD support st7789v panel"
    default n
    ---help---
        If you want to support st7789v panel for display driver, select it.

然后编辑 panels.cpanel_array 里增加 st7789 驱动的引用

SPI接口

如下图

SPI接口

#ifdef CONFIG_LCD_SUPPORT_ST7789V
    &st7789v_panel,
#endif

之后编辑 panels.h 同样增加引用

SPI接口

如下图

SPI接口

#ifdef CONFIG_LCD_SUPPORT_ST7789V
extern struct __lcd_panel st7789v_panel;
#endif

最后编辑外层的 Makefile 增加编译选项

SPI接口

如下所示

SPI接口

obj-${CONFIG_LCD_SUPPORT_ST7789V} += panels/st7789v.o

选择 ST7789V 驱动

在 SPILCD 驱动选择界面可以看到 LCD_FB panels select 选择 SPI 屏幕的驱动

进入 LCD_FB panels select 选项

SPI接口

选择并勾选 [*] LCD support st7789v panel

SPI接口

配置 SPI LCD 引脚

打开你喜欢的编辑器,修改文件:board/r128s2/module/configs/sys_config.fex

[lcd_fb0]
lcd_used            = 1   
lcd_model_name      = "spilcd"   
lcd_driver_name     = "st7789v" 
lcd_x               = 240   
lcd_y               = 320  
lcd_width           = 37   
lcd_height          = 48  
lcd_data_speed      = 50
lcd_pwm_used        = 1
lcd_pwm_ch          = 1
lcd_pwm_freq        = 5000 
lcd_pwm_pol         = 0 
lcd_if              = 0
lcd_pixel_fmt       = 11 
lcd_dbi_fmt         = 2
lcd_dbi_clk_mode    = 1
lcd_dbi_te          = 1
fb_buffer_num       = 2
lcd_dbi_if          = 4
lcd_rgb_order       = 0
lcd_fps             = 60
lcd_spi_bus_num     = 1
lcd_frm             = 2
lcd_gamma_en        = 1
lcd_backlight       = 100

lcd_power_num       = 0
lcd_gpio_regu_num   = 0
lcd_bl_percent_num  = 0

lcd_spi_dc_pin      = port:PA19< 1 >< 0 >< 3 >< 0 >
;RESET Pin
lcd_gpio_0          = port:PA20< 1 >< 0 >< 2 >< 0 >

编译打包

运行命令 mp 编译打包,可以看到编译了 st7789v.o

SPI接口

测试

烧录启动之后,屏幕背光启动,但是屏幕全黑。

SPI接口

输入 test_spilcd ,屏幕显示黄色。

SPI接口

SPI接口

输入 lv_examples 1 可以显示 lvgl 界面

SPI接口

常见问题

屏幕白屏

屏幕白屏,但是背光亮起

SPI接口

白屏是因为屏幕没有初始化,需要检查屏幕初始化序列或者初始化数据是否正确。

屏幕花屏

屏幕花屏,无法控制

SPI接口

花屏一般是因为屏幕初始化后没有正确设置 addrwin,或者初始化序列错误。

LVGL 屏幕颜色不正确

出现反色,颜色异常

SPI接口

请配置 LVGL LV_COLOR_DEPTH 参数为 16,LV_COLOR_16_SWAP 为 1,这是由 SPI LCD 的特性决定的。

SPI接口

显示反色

运行 test_spilcd ,屏幕显示蓝色。

这是由于屏幕启动了 RB SWAP,一般是 0x36 寄存器修改

正常显示

sunxi_lcd_cmd_write(sel, 0X36);
sunxi_lcd_para_write(sel, 0x00);

反色显示

sunxi_lcd_cmd_write(sel, 0X36);
sunxi_lcd_para_write(sel, 0x08);
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