点阵式LED“0-9”数字显示技术

来源:本站
导读:目前正在解读《点阵式LED“0-9”数字显示技术》的相关信息,《点阵式LED“0-9”数字显示技术》是由用户自行发布的知识型内容!下面请观看由(电工技术网 - www.9ddd.net)用户发布《点阵式LED“0-9”数字显示技术》的详细说明。
简介: 实验任务利用8X8点阵显示数字0到9的数字。有电路图、硬件系统连线及相关程序介绍。简单易懂,容易学习。


1. 电路原理图

点阵式LED“0-9”数字显示技术

图4.25.1

2. 硬件系统连线

(1). 把“单片机系统”区域中的P1端口用8芯排芯连接到“点阵模块”区域中的“DR1-DR8”端口上;

(2). 把“单片机系统”区域中的P3端口用8芯排芯连接到“点阵模块”区域中的“DC1-DC8”端口上;

4. 程序设计内容

(1). 数字0-9点阵显示代码的形成

如下图所示,假设显示数字“0”

123 45 6 7 8

●●●●●●●●●●●●●●●●

00 00 3E 41 41 41 3E 00

因此,形成的列代码为00H,00H,3EH,41H,41H,3EH,00H,00H;只要把这些代码分别送到相应的列线上面,即可实现“0”的数字显示。

送显示代码过程如下所示

送第一列线代码到P3端口,同时置第一行线为“0”,其它行线为“1”,延时2ms左右,送第二列线代码到P3端口,同时置第二行线为“0”,其它行线为“1”,延时2ms左右,如此下去,直到送完最后一列代码,又从头开始送。

数字“1”代码建立如下图所示123 45 6 7 8

●●●●●●●●●●

其显示代码为00H,00H,00H,00H,21H,7FH,01H,00H

数字“2”代码建立如下图所示

123 45 6 7 8

●●●●●●●●●●●●●●●●●

00H,00H,27H,45H,45H,45H,39H,00H

数字“3”代码建立如下图所示

123 45 6 7 8

●●●●●●●●●●●●●●●

00H,00H,22H,49H,49H,49H,36H,00H

数字“4”代码建立如下图所示

123 45 6 7 8

●●●●●●●●●●●●●●

00H,00H,0CH,14H,24H,7FH,04H,00H

数字“5”代码建立如下图所示

123 45 6 7 8

●●●●●●●●●●●●●●●●●

00H,00H,72H,51H,51H,51H,4EH,00H

数字“6”代码建立如下图所示

123 45 6 7 8

●●●●●●●●●●●●●●●●●

00H,00H,3EH,49H,49H,49H,26H,00H

数字“7”代码建立如下图所示

123 45 6 7 8

●●●●●●●●●●●

00H,00H,40H,40H,40H,4FH,70H,00H

数字“8”代码建立如下图所示

123 45 6 7 8

●●●●●●●●●●●●●●●●●

00H,00H,36H,49H,49H,49H,36H,00H

数字“9”代码建立如下图所示

123 45 6 7 8

●●●●●●●●●●●●●●●●●

00H,00H,32H,49H,49H,49H,3EH,00H

5. 汇编源程序

TIM EQU 30H

CNTA EQU 31H

CNTB EQU 32H

ORG 00H

LJMP START

ORG 0BH

LJMP T0X

ORG 30H

START: MOV TIM,#00H

MOV CNTA,#00H

MOV CNTB,#00H

MOV TMOD,#01H

MOV TH0,#(65536-4000)/256

MOV TL0,#(65536-4000) MOD 256

SETB TR0

SETB ET0

SETB EA

SJMP $

T0X:

MOV TH0,#(65536-4000)/256

MOV TL0,#(65536-4000) MOD 256

MOV DPTR,#TAB

MOV A,CNTA

MOVC A,@A+DPTR

MOV P3,A

MOV DPTR,#DIGIT

MOV A,CNTB

MOV B,#8

MUL AB

ADD A,CNTA

MOVC A,@A+DPTR

MOV P1,A

INC CNTA

MOV A,CNTA

CJNE A,#8,NEXT

MOV CNTA,#00H

NEXT: INC TIM

MOV A,TIM

CJNE A,#250,NEX

MOV TIM,#00H

INC CNTB

MOV A,CNTB

CJNE A,#10,NEX

MOV CNTB,#00H

NEX: RETI

TAB: DB 0FEH,0FDH,0FBH,0F7H,0EFH,0DFH,0BFH,07FH

DIGIT: DB 00H,00H,3EH,41H,41H,41H,3EH,00H

DB 00H,00H,00H,00H,21H,7FH,01H,00H

DB 00H,00H,27H,45H,45H,45H,39H,00H

DB 00H,00H,22H,49H,49H,49H,36H,00H

DB 00H,00H,0CH,14H,24H,7FH,04H,00H

DB 00H,00H,72H,51H,51H,51H,4EH,00H

DB 00H,00H,3EH,49H,49H,49H,26H,00H

DB 00H,00H,40H,40H,40H,4FH,70H,00H

DB 00H,00H,36H,49H,49H,49H,36H,00H

DB 00H,00H,32H,49H,49H,49H,3EH,00H

END

6. C语言源程序

#include <AT89X52.H>

unsigned char code tab[]={0xfe,0xfd,0xfb,0xf7,0xef,0xdf,0xbf,0x7f};

unsigned char code digittab[10][8]={ {0x00,0x00,0x3e,0x41,0x41,0x41,0x3e,0x00}, //0

{0x00,0x00,0x00,0x00,0x21,0x7f,0x01,0x00}, //1

{0x00,0x00,0x27,0x45,0x45,0x45,0x39,0x00}, //2

{0x00,0x00,0x22,0x49,0x49,0x49,0x36,0x00}, //3

{0x00,0x00,0x0c,0x14,0x24,0x7f,0x04,0x00}, //4

{0x00,0x00,0x72,0x51,0x51,0x51,0x4e,0x00}, //5

{0x00,0x00,0x3e,0x49,0x49,0x49,0x26,0x00}, //6

{0x00,0x00,0x40,0x40,0x40,0x4f,0x70,0x00}, //7

{0x00,0x00,0x36,0x49,0x49,0x49,0x36,0x00}, //8

{0x00,0x00,0x32,0x49,0x49,0x49,0x3e,0x00} //9

};

unsigned int timecount;

unsigned char cnta;

unsigned char cntb;

void main(void)

{

TMOD=0x01;

TH0=(65536-3000)/256;

TL0=(65536-3000)%256;

TR0=1;

ET0=1;

EA=1;

while(1)

{;

}

}

void t0(void) interrupt 1 using 0

{

TH0=(65536-3000)/256;

TL0=(65536-3000)%256;

P3=tab[cnta];

P1=digittab[cntb][cnta];

cnta++;

if(cnta==8)

{

cnta=0;

}

timecount++;

if(timecount==333)

{

timecount=0;

cntb++;

if(cntb==10)

{

cntb=0;

}

}

}

提醒:《点阵式LED“0-9”数字显示技术》最后刷新时间 2024-03-14 01:15:05,本站为公益型个人网站,仅供个人学习和记录信息,不进行任何商业性质的盈利。如果内容、图片资源失效或内容涉及侵权,请反馈至,我们会及时处理。本站只保证内容的可读性,无法保证真实性,《点阵式LED“0-9”数字显示技术》该内容的真实性请自行鉴别。