修改FLASH數(shù)據(jù)通常需要很長(zhǎng)時(shí)間,不像RAM那樣可以實(shí)時(shí)操作����。而且擦除���、編程或讀取FLASH數(shù)據(jù)需要遵循相當(dāng)復(fù)雜的時(shí)序步驟����。N76E003提供方便FALSH編程方式,可以幫助用戶通過IAP方式�����,重新編程FLASH內(nèi)容��。IAP就是通過軟件實(shí)現(xiàn)在線電擦除和編程的方法�。
通過設(shè)置IAPEN(CHPCON.0受TA保護(hù))使能IAP,并且設(shè)置IAPUEN寄存器的相應(yīng)位�,使能需要升級(jí)的FLASH區(qū)域(CONFIG、LDROM�����、APROM)����,用戶將16位操作地址寫入IAPAH和IAPAL,數(shù)據(jù)寫入IAPFD�,命令寫入IAPCN。然后通過設(shè)置觸發(fā)位IAPGO(IAPTRG.0)���,去執(zhí)行IAP�����。注意:IAPTRG也受TA保護(hù)��。此時(shí)��,CPU保持程序計(jì)數(shù)器�����,內(nèi)嵌IAP自動(dòng)控制內(nèi)部充電泵提高電壓和信號(hào)時(shí)序��。擦除和編程時(shí)間是內(nèi)部控制的���,與工作電壓和頻率無關(guān)����。通常頁(yè)擦除時(shí)間是5ms�,字節(jié)編程時(shí)間是 3.5μs。IAP動(dòng)作完成后���,程序計(jì)數(shù)器繼續(xù)運(yùn)行之后的指令�����,IAPGO位將自動(dòng)清零����。IAPFF (CHPCON.6)是IAP錯(cuò)誤標(biāo)志�����,可以用來檢查之前IAP操作成功與否��。通過這些純軟件的設(shè)置���,用戶可以很方便對(duì)FLASH存儲(chǔ)器進(jìn)行擦除�、編程和校驗(yàn)����。
IAP可以方便用戶更新FLASH內(nèi)容,不過用戶必須遵循一定規(guī)則�����,以確保IAP正確執(zhí)行,否則可能引起不確定的結(jié)果���,甚至損壞器件����。此外�����,下文對(duì)于正確執(zhí)行IAP有很好建議�。
(1)沒有IAP操作時(shí),用戶必須清IAPEN (CHPCON.0)位�������?梢苑乐瓜到y(tǒng)意外觸發(fā)IAP�。此外,IAP需要使用內(nèi)部HIRC振蕩器�����。如果選擇外部時(shí)鐘源�����,禁止IAP將停止內(nèi)部HIRC,可以達(dá)到省電的目的�����。注:寫IAPEN受TA保護(hù)����。
(2)當(dāng)LOCK位(CONFIG0.1) 被激活���,IAP讀���、寫或擦除仍然有效。
在進(jìn)行IAP時(shí)�,如果中斷打開應(yīng)該臨時(shí)清除EA位
擦除或編程的頁(yè)不能是當(dāng)前代碼執(zhí)行的頁(yè)。否則會(huì)出現(xiàn)不可預(yù)計(jì)程序動(dòng)作�����,甚至破壞存儲(chǔ)的數(shù)據(jù)
使用flash存儲(chǔ)器作為數(shù)據(jù)存儲(chǔ)
在一般應(yīng)用中���,有時(shí)需要一些數(shù)據(jù)在斷電情況下不能丟失���,以便用戶讀回或更新�����,作為系統(tǒng)控制的參數(shù)����。N76E003支持IAP功能并且存儲(chǔ)在flash中的字節(jié)都可以用MOVC指令讀取�����,所以很適合作為非易失數(shù)據(jù)存儲(chǔ)器�。Flash寫次數(shù)為100,000次,以下參考應(yīng)用代碼:
匯編例程如下:
;******************************************************************************
; This code illustrates how to use IAP to make APROM 201h as a byte of
; Data Flash when user code is executed in APROM.
;******************************************************************************
PAGE_ERASE_AP EQU 00100010b
BYTE_PROGRAM_AP EQU 00100001b
ORG 0000h
MOV TA,#0Aah ;CHPCON is TA protected
MOV TA,#55h
ORL CHPCON,#00000001b ;IAPEN = 1, enable IAP mode
MOV TA,#0Aah ;IAPUEN is TA protected
MOV TA,#55h
ORL IAPUEN,#00000001b ;APUEN = 1, enable APROM update
MOV IAPCN,#PAGE_ERASE_AP ;Erase page 200h~27Fh
MOV IAPAH,#02h
MOV IAPAL,#00h
MOV IAPFD,#0FFh
MOV TA,#0Aah ;IAPTRG is TA protected
MOV TA,#55h
ORL IAPTRG,#00000001b ;write ‘1’ to IAPGO to trigger IAP process
MOV IAPCN,#BYTE_PROGRAM_AP ;Program 201h with 55h
MOV IAPAH,#02h
MOV IAPAL,#01h
MOV IAPFD,#55h
MOV TA,#0Aah
MOV TA,#55h
ORL IAPTRG,#00000001b
MOV TA,#0Aah
MOV TA,#55h
ANL IAPUEN,#11111110b ;APUEN = 0, disable APROM update
MOV TA,#0Aah
MOV TA,#55h
ANL CHPCON,#11111110b ;IAPEN = 0, disable IAP mode
MOV DPTR,#201h
CLR A
MOVC A,@A+DPTR ;Read content of address 201h
MOV P0,A
SJMP $
C 語言例程如下:
//******************************************************************************
// This code illustrates how to use IAP to make APROM 201h as a byte of
// Data Flash when user code is executed in APROM.
//******************************************************************************
#define PAGE_ERASE_AP 0x22
#define BYTE_PROGRAM_AP 0x21
/*Data Flash, as part of APROM, is read by MOVC. Data Flash can be defined as
128-element array in “code” area from absolute address 0x0200 */
volatile unsigned char code Data_Flash[128] _at_ 0x0200;
Main (void)
{
TA = 0xAA; //CHPCON is TA protected
TA = 0x55;
CHPCON |= 0x01; //IAPEN = 1, enable IAP mode
TA = 0xAA; //IAPUEN is TA protected
TA = 0x55;
IAPUEN |= 0x01; //APUEN = 1, enable APROM update
IAPCN = PAGE_ERASE_AP; //Erase page 200h~27Fh
IAPAH = 0x02;
IAPAL = 0x00;
IAPFD = 0xFF;
TA = 0xAA; //IAPTRG is TA protected
TA = 0x55;
IAPTRG |= 0x01; //write ‘1’ to IAPGO to trigger IAP process
IAPCN = BYTE_PROGRAM_AP; // Program 201h with 55h
IAPAH = 0x02;
IAPAL = 0x01;
IAPFD = 0x55;
TA = 0xAA;
TA = 0x55;
IAPTRG |= 0x01; //write ‘1’ to IAPGO to trigger IAP process
TA = 0xAA; //IAPUEN is TA protected
TA = 0x55;
IAPUEN &= ~0x01; //APUEN = 0, disable APROM update
TA = 0xAA; //CHPCON is TA protected
TA = 0x55;
CHPCON &= ~0x01; //IAPEN = 0, disable IAP mode
P0 = Data_Flash[1]; //Read content of address 200h+1
while(1);
}
N76E003 APROM程序DATAFLASH為EEPROM方式
#include <stdio.h>
#include "N76E003.h"
#include "Common.h"
#include "Delay.h"
#include "SFR_Macro.h"
#include "Function_Define.h"
bit BIT_TMP;
//-------------------------------------------------------------------------
UINT8 read_APROM_BYTE(UINT16 code *u16_addr)
{
UINT8 rdata;
rdata = *u16_addr>>8;
return rdata;
}
//-------------------------------------------------------------------------
/*****************************************************************************************************************
write_DATAFLASH_BYTE :
user can copy all this subroutine into project, then call this function in main.
******************************************************************************************************************/
void write_DATAFLASH_BYTE(UINT16 u16_addr,UINT8 u8_data)
{
UINT8 looptmp=0,u8_addrl_r;
unsigned char code *cd_longaddr;
unsigned char xdata *xd_tmp;
//Check page start address
u8_addrl_r = u16_addr;
if (u8_addrl_r<0x80)
{
u8_addrl_r = 0;
}
else
{
u8_addrl_r = 0x80;
}
//Save APROM data to XRAM
xd_tmp = 0x80;
cd_longaddr = (u16_addr&0xff00)+u8_addrl_r;
while (xd_tmp !=0x100)
{
*xd_tmp = *cd_longaddr;
looptmp++;
xd_tmp++;
cd_longaddr++;
}
// Modify customer data in XRAM
u8_addrl_r = u16_addr;
if (u8_addrl_r<0x80)
{
xd_tmp = u8_addrl_r+0x80;
}
else
{
xd_tmp = u8_addrl_r+0;
}
*xd_tmp = u8_data;
//Erase APROM DATAFLASH page
IAPAL = u16_addr;
IAPAH = u16_addr>>8;
IAPFD = 0xFF;
set_IAPEN;
set_APUEN;
IAPCN = 0x22;
set_IAPGO;
//Save changed RAM data to APROM DATAFLASH
u8_addrl_r = u16_addr;
if (u8_addrl_r<0x80)
{
u8_addrl_r =0;
}
else
{
u8_addrl_r = 0x80;
}
xd_tmp = 0x80;
IAPAL = u8_addrl_r;
IAPAH = u16_addr>>8;
set_IAPEN;
set_APUEN;
IAPCN = 0x21;
while (xd_tmp !=0xFF)
{
IAPFD = *xd_tmp;
set_IAPGO;
IAPAL++;
xd_tmp++;
}
clr_APUEN;
clr_IAPEN;
}
/******************************************************************************************************************/
void main (void)
{
UINT8 datatemp;
/* -------------------------------------------------------------------------*/
/* Dataflash use APROM area */
/* APROM 0x3800~0x38FF demo as dataflash */
/* Please use Memory window key in C:0x3800 to check earse result */
/* -------------------------------------------------------------------------*/
//call write byte
write_DATAFLASH_BYTE (0x3881,0x55);
write_DATAFLASH_BYTE (0x3882,0x56);
write_DATAFLASH_BYTE (0x3855,0xaa);
write_DATAFLASH_BYTE (0x3856,0x66);
//call read byte
datatemp = read_APROM_BYTE(0x3882);
while(1);
}下面針對(duì)每一個(gè)調(diào)用函數(shù)進(jìn)行講解
void write_DATAFLASH_BYTE(UINT16 u16_addr,UINT8 u8_data)
{
UINT8 looptmp=0,u8_addrl_r;
unsigned char code *cd_longaddr;
unsigned char xdata *xd_tmp;
//Check page start address
u8_addrl_r = u16_addr;
if (u8_addrl_r<0x80)
{
u8_addrl_r = 0;
}
else
{
u8_addrl_r = 0x80;
}
//Save APROM data to XRAM
xd_tmp = 0x80;
cd_longaddr = (u16_addr&0xff00)+u8_addrl_r;
while (xd_tmp !=0x100)
{
*xd_tmp = *cd_longaddr;
looptmp++;
xd_tmp++;
cd_longaddr++;
}
// Modify customer data in XRAM
u8_addrl_r = u16_addr;
if (u8_addrl_r<0x80)
{
xd_tmp = u8_addrl_r+0x80;
}
else
{
xd_tmp = u8_addrl_r+0;
}
*xd_tmp = u8_data;
//Erase APROM DATAFLASH page
IAPAL = u16_addr;
IAPAH = u16_addr>>8;
IAPFD = 0xFF;
set_IAPEN;
set_APUEN;
IAPCN = 0x22;
set_IAPGO;
//Save changed RAM data to APROM DATAFLASH
u8_addrl_r = u16_addr;
if (u8_addrl_r<0x80)
{
u8_addrl_r =0;
}
else
{
u8_addrl_r = 0x80;
}
xd_tmp = 0x80;
IAPAL = u8_addrl_r;
IAPAH = u16_addr>>8;
set_IAPEN;
set_APUEN;
IAPCN = 0x21;
while (xd_tmp !=0xFF)
{
IAPFD = *xd_tmp;
set_IAPGO;
IAPAL++;
xd_tmp++;
}
clr_APUEN;
clr_IAPEN;
} 上面這個(gè)函數(shù)����,是對(duì)DATAFLASH EEPROM進(jìn)行讀寫,有主函數(shù)給出地址和數(shù)據(jù)�����,由該函數(shù)進(jìn)行處理
void write_DATAFLASH_BYTE(UINT16 u16_addr,UINT8 u8_data)
{
UINT8 looptmp=0,u8_addrl_r;
unsigned char code *cd_longaddr;
unsigned char xdata *xd_tmp;
//Check page start address
u8_addrl_r = u16_addr;
if (u8_addrl_r<0x80)
{
u8_addrl_r = 0;
}
else
{
u8_addrl_r = 0x80;
}
//Save APROM data to XRAM
xd_tmp = 0x80;
cd_longaddr = (u16_addr&0xff00)+u8_addrl_r;
while (xd_tmp !=0x100)
{
*xd_tmp = *cd_longaddr;
looptmp++;
xd_tmp++;
cd_longaddr++;
}
// Modify customer data in XRAM
u8_addrl_r = u16_addr;
if (u8_addrl_r<0x80)
{
xd_tmp = u8_addrl_r+0x80;
}
else
{
xd_tmp = u8_addrl_r+0;
}
*xd_tmp = u8_data;
//Erase APROM DATAFLASH page
IAPAL = u16_addr;
IAPAH = u16_addr>>8;
IAPFD = 0xFF;
set_IAPEN;
set_APUEN;
IAPCN = 0x22;
set_IAPGO;
//Save changed RAM data to APROM DATAFLASH
u8_addrl_r = u16_addr;
if (u8_addrl_r<0x80)
{
u8_addrl_r =0;
}
else
{
u8_addrl_r = 0x80;
}
xd_tmp = 0x80;
IAPAL = u8_addrl_r;
IAPAH = u16_addr>>8;
set_IAPEN;
set_APUEN;
IAPCN = 0x21;
while (xd_tmp !=0xFF)
{
IAPFD = *xd_tmp;
set_IAPGO;
IAPAL++;
xd_tmp++;
}
clr_APUEN;
clr_IAPEN;
} 標(biāo)紅部分涉及到兩個(gè)寄存器IAPL與IAPH����,這起什么作用呢��?看一下手冊(cè)
由此可知�����,這兩個(gè)寄存器是寫入16位地址字節(jié)的�����,也就是說u8_addrl_r這個(gè)變量的含義是給寄存器提供地址��,因此�,需要一些數(shù)據(jù)的分析和處理�����,
u8_addrl_r = u16_addr;
if (u8_addrl_r<0x80)
{
u8_addrl_r = 0;
}
else
{
u8_addrl_r = 0x80;
}
//Save APROM data to XRAM
xd_tmp = 0x80;
cd_longaddr = (u16_addr&0xff00)+u8_addrl_r;
while (xd_tmp !=0x100)
{
*xd_tmp = *cd_longaddr;
looptmp++;
xd_tmp++;
cd_longaddr++;
}Save APROM data to XRAM
首先查看N76E003的數(shù)據(jù)手冊(cè)得知這顆芯片的XRAM的大小為:768字節(jié)i ���,即大小為0x300,另外還可知道Flash每一頁(yè)的大小為128字節(jié)即0x80����。這段歷程劃分區(qū)域到0X100(256)。
// Modify customer data in XRAM
u8_addrl_r = u16_addr;
if (u8_addrl_r<0x80)
{
xd_tmp = u8_addrl_r+0x80;
}
else
{
xd_tmp = u8_addrl_r+0;
}
*xd_tmp = u8_data;
//Erase APROM DATAFLASH page
IAPAL = u16_addr;
IAPAH = u16_addr>>8;
IAPFD = 0xFF;
set_IAPEN;
set_APUEN;
IAPCN = 0x22;
set_IAPGO;
Modify customer data in XRAM
在XRAM中修改客戶數(shù)據(jù)
//Save changed RAM data to APROM DATAFLASH
u8_addrl_r = u16_addr;
if (u8_addrl_r<0x80)
{
u8_addrl_r =0;
}
else
{
u8_addrl_r = 0x80;
}
xd_tmp = 0x80;
IAPAL = u8_addrl_r;
IAPAH = u16_addr>>8;
set_IAPEN;
set_APUEN;
IAPCN = 0x21;
while (xd_tmp !=0xFF)
{
IAPFD = *xd_tmp;
set_IAPGO;
IAPAL++;
xd_tmp++;
}
clr_APUEN;
clr_IAPEN;
} 這部分比較復(fù)雜����,我后續(xù)會(huì)有更新���,如果有什么意見或建議,歡迎評(píng)論
知識(shí)沒有學(xué)完的時(shí)候����,我只能保證明天的自己跟今天不一樣,各個(gè)方面��,無論是做人還是做事�����,無論是專業(yè)素質(zhì)�����,還是為人處世����,待人接物。
