全志R128适配ST7789v LCD
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)
引脚配置如下:
R128 Devkit
TFT 模块
PA12
CS(飞线)
PA13
CLK
PA18
MOSI
PA9
BLK
PA20
RES
PA19
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
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
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 >
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
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 >
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
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
找到 LCD 的初始化序列代码
找到屏幕初始化的源码
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
复制这两个驱动,重命名为 st7789v.c
先编辑 st7789v.h 将 nv3029s 改成 st7789v
#ifndef _ST7789V_H
#define _ST7789V_H
#include "panels.h"
struct __lcd_panel st7789v_panel;
#endif /*End of file*/
编辑 st7789v.c 将 nv3029s 改成 st7789v
然后将屏厂提供的初始化序列复制进来
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
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
增加 st7789v 的配置
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.c 在 panel_array 里增加 st7789 驱动的引用
如下图
#ifdef CONFIG_LCD_SUPPORT_ST7789V
&st7789v_panel,
#endif
之后编辑 panels.h 同样增加引用
如下图
#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
如下所示
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
选择并勾选 [*] LCD support st7789v panel
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
测试
烧录启动之后,屏幕背光启动,但是屏幕全黑。
输入 test_spilcd ,屏幕显示黄色。
输入 lv_examples 1 可以显示 lvgl 界面
常见问题
屏幕白屏
屏幕白屏,但是背光亮起
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
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
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。
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);
声明:本文内容及配图由入驻作者撰写或者入驻合作网站授权转载。文章观点仅代表作者本人,不代表电子发烧友网立场。文章及其配图仅供工程师学习之用,如有内容侵权或者其他违规问题,请联系本站处理。
举报投诉
-
SPI接口
+关注
关注
0文章
251浏览量
33934 -
LCD显示屏
+关注
关注
0文章
88浏览量
13048 -
TFT模块
+关注
关注
0文章
4浏览量
6449 -
ST7789V
+关注
关注
3文章
6浏览量
6706 -
PWM驱动
+关注
关注
0文章
26浏览量
1130 -
R128
+关注
关注
0文章
41浏览量
28
发布评论请先 登录
相关推荐
全志R128使用SPI驱动ST7789V1.47寸LCD
的 SPI LCD 改写即可,这里选择 nv3029s.c 驱动来修改
复制这两个驱动,重命名为 st7789v.c
先编辑 st7789v.h 将 nv3029s 改成 st7789v
发表于 01-02 09:45
全志R128硬件设计指南①
。添加按键时保证按键按下后,ADC网络电压范围为 0~1.08V,最小间隔大于 200mV。
LCD电路接口R128 支持一路 RGB屏接口和一路 SPI屏接口。其中 RGB屏接口可支持并行
发表于 01-04 09:23
全志R128 SDK架构与目录结构
R128 S2 是全志提供的一款 M33(ARM)+C906(RISCV-64)+HIFI5(Xtensa) 三核异构 SoC,同时芯片内部 SIP 有 1M SRAM、8M LSPSRAM、8M
发表于 01-05 10:05
全志R128 Devkit开发板原理图模块介绍及使用说明
:CH341SER.EXE
购买链接
百问科技淘宝店 - 全志R128 DevKit
原理图模块介绍R128 模组R128 模组使用 SMT
发表于 01-17 09:45
请问一下三线SPI如何驱动ST7789V呢
三线SPI驱动ST7789V最近在做项目的过程中,公司采购了一款由ST7789V驱动的屏幕。由于考虑到FPC形状,又本着节约开模定制的钱,故而买了三线SPI接口模式的屏幕。三线SPI,即硬件接口只有
发表于 02-17 06:16
全志R128适配 ST7789v LCD
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 Int
发表于 10-23 09:58
全志R128应用开发案例——适配SPI驱动ST7789V2.4寸LCD
SPI驱动ST7789V1.47寸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
发表于 11-02 13:36
全志R128应用开发案例——SPI驱动ST7789V1.3寸LCD
SPI驱动ST7789V1.3寸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
发表于 11-06 10:16
全志R128应用开发案例——DBI驱动ST7789V1.3寸LCD屏
DBI驱动ST7789V1.3寸LCD
之前介绍了 R128 平台使用 SPI 驱动显示屏 ST7789V1.3寸 LCD,接下来介绍的是使
发表于 11-06 11:12
全志R128平台SPI与DBI点屏性能大对比
320x240
22
30
26
36
1.47 寸 172x320
33
50
38
67
测试数据
ST7789v 1.3 寸 240x240 屏幕测试
DBI 模式
lv_music_demo 跑分
发表于 11-13 15:58
全志R128点屏SPI LCD颜色相关问题
:
SPI 接口
因为SPI接口的通讯效率不高,所以建议使用RGB565的显示,以 jlt35031c 显示屏为例,他的显示驱动芯片是 ST7789v,设置显示格式的方式是往 3a 寄存器写入0x55
发表于 12-06 09:50
全志R128使用RGB LCD移植方法教程
的 r128-devkit-100ask-rgb 方案,仓库地址:
Gitee: https://gitee.com/weidongshan/100ask_r128_demos/tree/master/other/RGB_LCD
发表于 12-18 17:03
工商网监
评论