有木有大神帮忙,我的毕设是关于DSP数字锁相放大器的设计,我现在编程编不好,达不到效果,很是愁人,望大神解决啊。。。。QQ 870612404
/*****************head file********************/
#include "DSP2833x_Device.h" // DSP2833x Headerfile Include File
#include "DSP2833x_Examples.h" // DSP2833x Examples Include File
#include "math.h"
#include "stdio.h"
#include "stdlib.h"
// Determine when the shift to right justify the data takes place
// Only one of these should be defined as 1.
// The other two should be defined as 0.
#define POST_SHIFT 0 // Shift results after the entire sample table is full
#define INLINE_SHIFT 1 // Shift results as the data is taken from the results regsiter
#define NO_SHIFT 0 // Do not shift the results
// ADC start parameters
#if (CPU_FRQ_150MHZ) // Default - 150 MHz SYSCLKOUT
#define ADC_MODCLK 0x3 // HSPCLK = SYSCLKOUT/2*ADC_MODCLK2 = 150/(2*3) = 25.0 MHz
#endif
#if (CPU_FRQ_100MHZ)
#define ADC_MODCLK 0x2 // HSPCLK = SYSCLKOUT/2*ADC_MODCLK2 = 100/(2*2) = 25.0 MHz
#endif
#define ADC_CKPS 0x0 // ADC module clock = HSPCLK/1 = 25.5MHz/(1) = 25.0 MHz
#define ADC_SHCLK 0x1 // S/H width in ADC module periods = 2 ADC cycle
#define AVG 1000 // Average sample limit
#define ZOFFSET 0x00 // Average Zero offset
#define BUF_SIZE 512 // Sample buffer size
#define N 180
#define M 140
#define pi 3.1416
#define b 34 //h(n)的序列长度
#define a 40 //h(n)的序列长度
#define c 2*N+b-1
float array_sin[180];
float array_cos[180];
float SampleTable1[BUF_SIZE]={0};
float SampleTable2[BUF_SIZE]={0};
float SampleTable3[BUF_SIZE]={0};
Uint16 SampleTable[BUF_SIZE];
float SampleValue[BUF_SIZE];
float y1[N-1]={0.0}; //输出序列
float y2[c]={0.0};
void InitEPwm1Example();
volatile unsigned int adconvover=0;
interrupt void epwm1_timer_isr(void);
Uint16 EPwm1TimerIntCount;
Uint16 array_index;
const float L[34] = {
0, 0.0002864978729488, 0.001264624162909, 0.003083310527426,
0.005841204980407, 0.009575017244339, 0.01425214897781, 0.01976834915372,
0.02595074975146, 0.03256621452731, 0.03933450837311, 0.0459454018102,
0.05207849738032, 0.05742432989344, 0.06170517100719, 0.06469397151492,
0.06623000282249, 0.06623000282249, 0.06469397151492, 0.06170517100719,
0.05742432989344, 0.05207849738032, 0.0459454018102, 0.03933450837311,
0.03256621452731, 0.02595074975146, 0.01976834915372, 0.01425214897781,
0.009575017244339, 0.005841204980407, 0.003083310527426, 0.001264624162909,
0.0002864978729488,0
};
const float H[40] = {
-0.001305096054213,-0.001478350963911, -0.00188527402024,-0.002559610054874,
-0.003537780947164,-0.004860232357888,-0.006573547322234,-0.008733738690038,
-0.01141141434653, -0.01470003343206, -0.01872949362692, -0.02368939446207,
-0.02987095372283, -0.03774760142235, -0.0481434027665, -0.06262584473804,
-0.08457160676635, -0.1227895346972, -0.2096342344354, -0.6364784631899,
0.6364784631899, 0.2096342344354, 0.1227895346972, 0.08457160676635,
0.06262584473804, 0.0481434027665, 0.03774760142235, 0.02987095372283,
0.02368939446207, 0.01872949362692, 0.01470003343206, 0.01141141434653,
0.008733738690038, 0.006573547322234, 0.004860232357888, 0.003537780947164,
0.002559610054874, 0.00188527402024, 0.001478350963911, 0.001305096054213
};
void LinearConvolution();
void sin_start()
{
int n=0;
float interval =2*pi/180;
for (n=0;n<180;n++)
{
array_sin[n]=sin(interval*n);
array_cos[n]=cos(interval*n);
}
}
/***************main function**********************/
main()
{
Uint16 i;
// Clear SampleTable
for (i=0; i<200; i++)
{
SampleTable[i] = 0;
// SampleValue[i] = 0;
}
InitSysCtrl(); //初始化系统函数
InitGpio(); // 该例中跳过
DINT;
IER = 0x0000; //禁止CPU中断
IFR = 0x0000; //清除CPU中断标志
InitPieCtrl(); //初始化PIE控制寄存器
InitPieVectTable(); //初始化PIE中断向量表
//服务程序
EALLOW; // This is needed to write to EALLOW protected register
//PieVectTable.ADCINT = &adc_isr;
PieVectTable.EPWM1_INT = &epwm1_timer_isr;
EDIS;
InitAdc(); //初始化ADC模块
InitEPwm1Example();//初始化EPwm1模块
array_index=0;
EPwm1TimerIntCount=0;
//开中断
PieCtrlRegs.PIEIER3.bit.INTx1 = 1;//使能PIE中断,EPWM-T1定时器中断位于INT3.1
IER |= M_INT3; //开CPU中断
EINT; // 使能全局中断
ERTM; // 使能实时中断
// 等待ADC中断
for(;;)
{
}
}
void InitEPwm1Example()
{
EALLOW;
SysCtrlRegs.PCLKCR0.bit.TBCLKSYNC = 0;// 在系统初始化函数中已经使能
//EPWM模块,此处只需设置禁止同步。
EDIS; //1.设置TB模块
EPwm1Regs.TBPRD = 12; //1/(5k*140)ms //设置计数周期=600TBCLK
EPwm1Regs.CMPA.half.CMPA = 12500; // 比较器A = 400TBCLK
EPwm1Regs.CMPB = 500; //比较器 B = 500 TBCLK
EPwm1Regs.TBPHS.half.TBPHS = 0x0000; // 设置相位寄存器置零
EPwm1Regs.TBCTR = 0x0000; // 清除TB计数器
// Setup TBCLK = SYSCLKOUT / (HSPCLKDIV * CLKDIV)=150/4*4
EPwm1Regs.TBCTL.bit.CTRMODE = TB_COUNT_UPDOWN;
//计数方式设置00 //Up-count mode;01Down- count mode;10 Up-down-count mode
EPwm1Regs.TBCTL.bit.PHSEN = TB_DISABLE; // 禁止相位加载
EPwm1Regs.TBCTL.bit.PRDLD = TB_SHADOW; //从阴影寄存器加载计数值
EPwm1Regs.TBCTL.bit.SYNCOSEL = TB_SYNC_DISABLE;//禁用同步输出,在头文
//件DSP2833x-ePwm-defines.h中有定义
EPwm1Regs.TBCTL.bit.HSPCLKDIV =TB_DIV4;
EPwm1Regs.TBCTL.bit.CLKDIV = TB_DIV4;
//设置比较模块
EPwm1Regs.CMPCTL.bit.SHDWAMODE = CC_SHADOW; // 映射模式Load registers
//every ZERO
EPwm1Regs.CMPCTL.bit.SHDWBMODE = CC_SHADOW;
EPwm1Regs.CMPCTL.bit.LOADAMODE = CC_CTR_ZERO; // load on CTR = Zero
EPwm1Regs.CMPCTL.bit.LOADBMODE = CC_CTR_ZERO;
// 设置动作模块
EPwm1Regs.AQCTLA.bit.CAU = AQ_SET;
EPwm1Regs.AQCTLA.bit.CAD = AQ_CLEAR;
EPwm1Regs.AQCTLB.bit.CBU = AQ_SET;
EPwm1Regs.AQCTLB.bit.CBD = AQ_CLEAR;
//事件触发子模块设置
//1.开始转换脉冲SOCA设置
EPwm1Regs.ETSEL.bit.SOCAEN = 1; // 使能ADC开始转换A(EPWMxSOCA)脉冲
EPwm1Regs.ETSEL.bit.SOCASEL = 2; //设置EPWMxSOCA何时生成,2,TBCTR=TBPRD
EPwm1Regs.ETPS.bit.SOCAPRD = 3; //第三个中断事件A发生,即EPWMxSOCA生成
//2.EPWM中断设置
EPwm1Regs.ETSEL.bit.INTSEL = ET_CTR_PRD;//EPWM中断设置,此处设置为周期中断
EPwm1Regs.ETSEL.bit.INTEN = 1; //使能EPWM中断
EPwm1Regs.ETPS.bit.INTPRD = ET_1ST;//第一个事件发生时产生中断
EALLOW;
SysCtrlRegs.PCLKCR0.bit.TBCLKSYNC = 1;// Enable TBCLK within the ePWM
EDIS;
}
void InitAdc(void)
{
Uint16 i;
AdcRegs.ADCTRL1.bit.RESET=1; //复位AD 模块
for(i=0;i<9;i++)
{asm(" NOP");}
AdcRegs.ADCTRL1.bit.RESET=0;
AdcRegs.ADCTRL1.bit.SUSMOD=0; //仿真暂停方式,0为忽略。
AdcRegs.ADCTRL1.bit.ACQ_PS=15; //设定窗口大小SC=ADCTRL1[11:8] + 1 ;
//16ADC CLOCKS
AdcRegs.ADCTRL1.bit.CPS=1; //内核时钟预定标器,1为二分频
AdcRegs.ADCTRL1.bit.CONT_RUN=1;//连续运行方式,0:启停方式.1:连续转换方式.
AdcRegs.ADCTRL1.bit.SEQ_CASC=1; //**级联序列发生器工作方式:0 双序列模
//式;1 级联模式
//ADCTRL3对电源和采样方式进行设置
AdcRegs.ADCTRL3.bit.ADCBGRFDN=3;//带隙参考电路上电
for(i=0;i<10000;i++)
{asm(" NOP");}
AdcRegs.ADCTRL3.bit.ADCPWDN=1;//除带隙慰嫉缏吠獾钠渌鸄DC模块上电
for(i=0;i<5000;i++)
{asm(" NOP");}
AdcRegs.ADCTRL3.bit.ADCCLKPS=7; // ADC Core clock divider ://nSPCLK/[2*(ADCTRL1[7]: //CPS+ 1)]=12.5MnZ
AdcRegs.ADCTRL3.bit.SMODE_SEL=1; //采样方式。顺序采样0/同步采样1
AdcRegs.ADCMAXCONV.bit.MAX_CONV1=0x07; //设定转换数量,共8同步采样(每
//次采样两个通道),共采样16路
AdcRegs.ADCCHSELSEQ1.bit.CONV00 = 0x0; //采样ADCINA0和ADCINB0
AdcRegs.ADCCHSELSEQ1.bit.CONV01 = 0x1; //采样ADCINA1和ADCINB1
AdcRegs.ADCCHSELSEQ1.bit.CONV02 = 0x2; //采样ADCINA2和ADCINB2
AdcRegs.ADCCHSELSEQ1.bit.CONV03 = 0x3; //采样ADCINA3和ADCINB3
AdcRegs.ADCCHSELSEQ3.bit.CONV08 = 0x4; //采样ADCINA4和ADCINB4
AdcRegs.ADCCHSELSEQ3.bit.CONV09 = 0x5; //采样ADCINA5和ADCINB5
AdcRegs.ADCCHSELSEQ3.bit.CONV10 = 0x6; //采样ADCINA6和ADCINB6
AdcRegs.ADCCHSELSEQ3.bit.CONV11 = 0x7; //采样ADCINA7和ADCINB7
//ADC状态和标志寄存器ADCST(清除中断标志)
AdcRegs.ADCST.bit.INT_SEQ1_CLR=1;//中断清除位
AdcRegs.ADCST.bit.INT_SEQ2_CLR=1;
//AdcRegs.ADCTRL2.all=0x2800;
AdcRegs.ADCTRL2.bit.EPWM_SOCB_SEQ=0;
AdcRegs.ADCTRL2.bit.RST_SEQ1=0;// 复位序列发生器1
//SEQ1
AdcRegs.ADCTRL2.bit.INT_ENA_SEQ1=0;//SEQ1中断使能:0禁止,1使能
AdcRegs.ADCTRL2.bit.INT_MOD_SEQ1=0;//SEQ1中断方式:0每个SEQ1序列转换
//束,置位SEQ1的中断标志
AdcRegs.ADCTRL2.bit.EPWM_SOCA_SEQ1=1;//SEQ1的EPWM SOCA使能位,1使能
AdcRegs.ADCTRL2.bit.EXT_SOC_SEQ1=0;//SEQ1的外部SOC信号位
//SEQ2
AdcRegs.ADCTRL2.bit.RST_SEQ2=0; //复位SEQ2
AdcRegs.ADCTRL2.bit.SOC_SEQ2=0; //启动SEQ2的转换触发。仅适用于双序
//列发生器模式
AdcRegs.ADCTRL2.bit.INT_ENA_SEQ2=0;
AdcRegs.ADCTRL2.bit.INT_MOD_SEQ2=0;
AdcRegs.ADCTRL2.bit.EPWM_SOCB_SEQ2=0;
}
//**********EPWM1的定时器中断****************
interrupt void epwm1_timer_isr(void)//1S 采样
{
Uint16 j,k,mode;
float temp1 = 0;
float temp2 = 0;
// EPwm1TimerIntCount++; //中断次数
//if(EPwm1TimerIntCount==50)
// {
//EPwm1TimerIntCount=0;
//DELAY_US(5L);
sin_start();
SampleTable[array_index]= ( (AdcRegs.ADCRESULT0)>>4);
SampleValue[array_index] = SampleTable[array_index]*3.0/4096;
// If 40 conversions have been logged, start over
if(array_index == 140)
{
LinearConvolution(M,a,SampleValue,H,y1);//线性卷积
mode=0;
for(k = 0;k <N;k++)
{
for(j = 0;j <N-k;j++)
{
temp1 += y1[j]*array_sin[j+k];
temp2 += y1[j]*array_cos[j+k];
}
if(mode==0)
{
SampleTable1[N-1-k] = temp1/(N-k);
SampleTable2[N-1-k] = temp2/(N-k);
}
else
{
SampleTable1[N-1-k] = temp1/N;
SampleTable2[N-1-k] = temp2/N;
}
}
temp1 = 0;
temp2 = 0;
for(k=0;k<N;k++)
{
SampleTable3[N-1-k]=2*sqrt(pow(SampleTable1[N-1-k],2)+pow(SampleTable2[N-1-k],2));
}
for(k = 0;k < N-1;k++)
{
for(j = 0;j < N-k;j++)
{
temp1 += y1[j+k]*array_sin[j];
temp2 += y1[j+k]*array_cos[j];
}
if(mode==0)
{
SampleTable1[N-1+k] = temp1/(N-k);
SampleTable2[N-1+k] = temp2/(N-k);
}
else
{
SampleTable1[N-1+k] = temp1/N;
SampleTable2[N-1+k] = temp2/N;
}
}
for(k=0;k<N;k++)
{
SampleTable3[N-1+k]=2*sqrt(pow(SampleTable1[N-1+k],2)+pow(SampleTable2[N-1+k],2));
}
LinearConvolution(2*N-1,b,SampleTable3,L,y2);//线性卷积
array_index= 0;
}
else array_index++;
//AdcRegs.ADCTRL2.bit.SOC_SEQ1=0;
//EPwm1Regs.ETSEL.bit.SOCAEN = 0;
// Reinitialize for next ADC sequence
AdcRegs.ADCTRL2.bit.RST_SEQ1 = 1; // Reset SEQ1
//清除定时器中断标志,并使能中断
EPwm1Regs.ETCLR.bit.INT = 1;
PieCtrlRegs.PIEACK.all = PIEACK_GROUP3;
// AdcRegs.ADCST.bit.INT_SEQ1_CLR = 1; // Clear INT SEQ1 bit
//PieCtrlRegs.PIEACK.all = PIEACK_GROUP1; // Acknowledge interrupt toPIE
return;
}
void LinearConvolution(Uint16 xn,Uint16 hn,float *x,float *h,float *y)
{
Uint16 i,j,k,l;
Uint16 yn; //输出序列y的长度
yn=xn+hn-1;
for(i=0;i<yn;i++) y[i]=0; //输出数组初始化
k=yn-1;
for(i=hn-1;i>0;i--) //将*h作为被乘数
{
l=k;
for(j=xn-1;j>0;j--) //数组x[n]的1~(xn-1)与h[i]逐一相乘
{
y[l]+=h[i]*x[j];
l--;
}
y[l]+=x[0]*h[i];
k--;
}
l=k;
for(j=xn-1;j>0;j--)
{
y[l]+=h[0]*x[j];
l--;
}
y[l]+=x[0]*h[0];
}
//===========================================================================
// No more.
//===========================================================================
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