原创 【连载】NIOSII那些事儿--LCD驱动及图片显示(二十一)

2010-8-2 00:14 5769 7 7 分类: FPGA/CPLD

黑金动力社区

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简介     

      这一节,我们来讲解与点阵LCD相关的内容,主要介绍硬件结构及其驱动编写。

      做我们这行的,我相信很少有人不知道点阵LCD的,就算没用过也应该见过(俗话说,没吃过猪肉还没见过猪跑啊,呵呵)。不用我多说,大家也知道这东西是做什么用的。不过可能很多人对他的结构还不是很熟悉。通常我们所见到的LCD模块具有LCM(玻璃)、背光、PCB板。其实这三样只有一样是必须要有的,那就是LCM(玻璃)。大家就有点疑问了,没有背光无所谓了,那没有PCB板,就一块玻璃有啥用啊。大家接着听我说,点阵的LCD模块按驱动控制器的集成方式,分为两种:COB和COG,COG就是将驱动控制芯片集成到了玻璃里面,我们只需要在电路板上加上无法集成的电容电阻就可以了;而COB是那种需要将驱动芯片焊接在LCD模块后面的PCB板上的。这回大家应该明白为什么只有一块玻璃就能显示了吧。

      在我们黑金开发板上使用的LCD就是128*64的COG液晶,它将驱动控制IC集成到了LCM上,这样就省去了PCB底板,给我们节省了很大的空间。下面,我简单介绍一下这款液晶的一些参数,如下图所示,它的驱动芯片为ST7565P。支持三种接口方式,我们采用的是串行时序方式,接口简单,使用方便,相比其他两种,也节省了很多的管脚。

clip_image002

      下图为LCD的串行接口原理图,大家可以看到,仅四根线就可以搞定了。

clip_image004

      对于LCD而言,需要清楚的了解驱动控制IC的显存与LCD上的点的对应关系,这一点非常重要。通过下图,我们可以了解到,LCD的显存中存在8(page)*8+1行,即65行,s0-s131,即132列,而液晶只有64*128个点。因此显存上的一些数据是不能显示的。通过实验测试得知,最后一行(page8中的D0)和最后三列(ADC为正常时,s129、s130、s131;ADC为反向时,s0、s1、s2)是不能显示的,而显存上其他数据与LCD上的点一一对应。如下图的红圈处所示的区域。

clip_image006

      显示屏上的每一个点都对应有控制器片内的显示缓存RAM中的一个位, 显示屏上64*128个点分别对应着显示RAM的8个Page, 每一个Page有128个byte的空间对应,如下表所示

clip_image008

      大家如要点亮 LCD 屏上的某一个点时,实际上就是对该点所对应的显示 RAM 区中的某一个位进行置 1 操作;所以就要确定该点所处的行地址、列地址。从上图中可以看出,液晶的行地址实际上就是 Page 的信息,每一个 Page应有 8 行;而列地址则表示该点的横坐标,在屏上为从左到右排列,Page 中的一个 Byte 对应的是一列(8行,即 8 个点) ,达 128列。 可以根据这样的关系在程序中控制 LCD显示屏的显示。

硬件设置     

      下面我们来看,如果如何在NIOS下驱动液晶屏。首先,我们需要在软核中四个PIO口,分别对应LCD的四个引脚。如下图所示,四个PIO模块全部为输出。

clip_image010

      建好以后,自动分配地址,中断,编译…

      然后,我们回到Quartus中,通过TCL脚本分配好管脚疑惑,LCD部分如下图示是

clip_image012

      接着又是编译,完成以后,硬件部分的设置就结束了。

软件开发

      接下来,我们打开NIOS IDE软件。

      第一步做的还是需要进行一次完全编译,Ctrl+b,漫长的等待…

      编译完成后,我们进入system.h,查看是否有我们想要得到的LCD部分,如下表所示

/*
* LCD_SI configuration
*
*/
#define LCD_SI_NAME "/dev/LCD_SI"
#define LCD_SI_TYPE "altera_avalon_pio"
#define LCD_SI_BASE 0x000018b0

/*
* LCD_A0 configuration
*
*/
#define LCD_A0_NAME "/dev/LCD_A0"
#define LCD_A0_TYPE "altera_avalon_pio"
#define LCD_A0_BASE 0x000018c0

/*
* LCD_SCL configuration
*
*/
#define LCD_SCL_NAME "/dev/LCD_SCL"
#define LCD_SCL_TYPE "altera_avalon_pio"
#define LCD_SCL_BASE 0x000018d0

/*
* LCD_CS configuration
*
*/
#define LCD_CS_NAME "/dev/LCD_CS"
#define LCD_CS_TYPE "altera_avalon_pio"
#define LCD_CS_BASE 0x000018e0

接下来,我们需要在sopc.h中添加LCD部分的代码

typedef struct
{
unsigned long int DATA;
unsigned long int DIRECTION;
unsigned long int INTERRUPT_MASK;
unsigned long int EDGE_CAPTURE;

}PIO_STR;
#define _LCD
#ifdef _LCD
#define LCD_CS ((PIO_STR *) LCD_CS_BASE)
#define LCD_SCL ((PIO_STR *) LCD_SCL_BASE)
#define LCD_A0 ((PIO_STR *) LCD_A0_BASE)
#define LCD_SI ((PIO_STR *) LCD_SI_BASE)
#endif /* _LCD */

接下来,我们根据LCD串行方式的时序图来编写LCD的驱动,时序图如下图所示

clip_image014

      我们需要在工程目录中的driver下建立lcd.c文件,代码如下

/*
* =================================================================
* Filename: lcd.c
* Description: LCD驱动
* Version: 1.0.0
* Created: 2010.4.16
* Revision: none
* Compiler: Nios II 9.0 IDE
* Author: 马瑞 (AVIC)
* Email: avic633@gmail.com
* ==================================================================
*/
/*-------------------------------------------------------------------
* Include
*-----------------------------------------------------------------*/
#include "system.h"
#include <unistd.h>
#include "../inc/sopc.h"
/*------------------------------------------------------------------
* Variable
*-----------------------------------------------------------------*/
unsigned char buf[]={
//这是一张128*64的图片转换而成
/*-- 宽度x高度=128x64 --*/
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};
//-----------------Function Prototype--------------------//
void initialize_lcd(void);
void draw_screen(unsigned char *p);
void clear(void);
void write_data(unsigned char dat);
void data_send(unsigned char dat);
void write_command(unsigned char com);
/*
* === FUNCTION ==================================================
* Name: data_send
* Description: 发送一个字节数据
* =================================================================
*/
void data_send(unsigned char dat)
{
unsigned char i;
LCD_CS->DATA=0;
LCD_SCL->DATA=0;
for(i=0;i<8;i++){
if(dat&0x80)LCD_SI->DATA=1;
else LCD_SI->DATA=0;

dat<<=1;
LCD_SCL->DATA=0;
LCD_SCL->DATA=1;
}
LCD_CS->DATA=1;
}
/*
* === FUNCTION ===================================================
* Name: write_command
* Description: A0为低时,写命令字,
* =================================================================
*/
void write_command(unsigned char com)
{
LCD_A0->DATA=0;
data_send(com);
}
/*
* === FUNCTION ===================================================
* Name: write_data
* Description: A0为高时,写数据
* =================================================================
*/
void write_data(unsigned char dat)
{
LCD_A0->DATA = 1;
data_send(dat);
}
/*
* === FUNCTION ===================================================
* Name: set_x
* Description: 设置列地址
* =================================================================
*/
void set_x(unsigned char x)
{
write_command(x>>4|0x10);
write_command(x&0xf);
}
/*
* === FUNCTION ===================================================
* Name: set_y
* Description: 设置页地址 一共8页
* =================================================================
*/
void set_y(unsigned char y)
{
write_command(y|0xb0);
}
/*
* === FUNCTION ===================================================
* Name: clear
* Description: 清屏
* =================================================================
*/
void clear(void)
{
int seg;
int page;
for(page=0;page<8;page++) {
set_y(page);//设置页地址,一共8页
set_x(0x00);//设置列地址为0
for(seg=0;seg<128;seg++){
write_data(0);
}
}
}
/*
* === FUNCTION ===================================================
* Name: draw_screen
* Description: 显示一张128*64的图片
* =================================================================
*/
void draw_screen(unsigned char *p)
{
int seg;
int page;
for(page=0;page<8;page++) {
set_y(page);//设置页地址,一共8页
set_x(0x00);//设置列地址为0
for(seg=0;seg<128;seg++){
write_data(*p++);
}
}
}
/*
* === FUNCTION ===================================================
* Name: initialize_lcd
* Description: LCD初始化,初始化函数由厂商提供,相关设置请查询datasheet
* =================================================================
*/
void initialize_lcd(void)
{
write_command(0xaf); //ON DISPLAY
write_command(0x40); //STAR DISPLAY
write_command(0xa0); //ADC NORMAL
write_command(0xa6); //Display Normal
write_command(0xa4); //CLEAR
write_command(0xa2); //1/9BIAS
write_command(0xc8); //COMMON OUTPUT DIRECTION
write_command(0x2f); //POWER CONTROL
write_command(0x24); //RESISTER RATIO
write_command(0x81); //VOLUM MODE SET
write_command(0x24); //RESISTER RATIO
}

写好驱动以后,我们还需要在工程目录的inc下建立lcd.h函数,代码如下:

/*
* =================================================================
* Filename: lcd.h
* Description:
* Version: 1.0.0
* Created: 2010.4.16
* Revision: none
* Compiler: Nios II 9.0 IDE
* Author: 马瑞 (AVIC)
* Email: avic633@gmail.com
* =================================================================
*/
#ifndef _lcd_h_
#define _lcd_h_
extern void initialize_lcd(void);
extern void draw_screen(unsigned char *p);
extern void clear(void);
extern unsigned char buf[];
#endif //_lcd_h_

接下来,需要做的就是写个测试函数,在main.c中添加如下代码

/*
* =================================================================
* Filename: main.c
* Description: LCD试验,在LCD上打印128*64图片
* Version: 1.0.0
* Created: 2010.4.16
* Revision: none
* Compiler: Nios II 9.0 IDE
* Author: 马瑞 (AVIC)
* Email: avic633@gmail.com
* =================================================================
*/
/*------------------------------------------------------------------
* Include
*-----------------------------------------------------------------*/
#include "../inc/lcd.h"
/*
* === FUNCTION ===================================================
* Name: main
* Description:
* =================================================================
*/
int main(void)
{
initialize_lcd();
clear();
draw_screen(buf);

}

      OK,代码就全部写好了。编译之后将程序下载进去,我们就可以看出效果了,如下图所示,显示的效果还是很不错的。

image

      上面涉及到了一个放置图片的数组,这个数组是通过点阵液晶取模软件生成的。我下面简单介绍一下它的使用方法。

      首先打开点阵液晶取模软件,如下图所示

clip_image016

如果想显示128*64的图片,首先就要有一个分辨率为128*64的图片,然后按打开图像图标,如下图所示红圈处,将图片载入

clip_image018

然后按下图所示红圈1,点击取模方式。然后点击红圈2,这时在红圈3处就会生成我们需要的16进制的代码了。操作很简单,软件里面还有很多功能,大家可以自行研究一下。

clip_image020

好了,这一节我们就讲完了。下一节,我们将在这一节的基础上,研究有关中文显示和英文变宽字体显示的方法,敬请期待…

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