軟件部分的主要工作有:底層驅(qū)動SDK框架��、ADC濾波算法�����、波形數(shù)據(jù)處理、人機交互界面����。SDK提供基本的模塊和外設(shè)驅(qū)動支持,濾波算法去除噪聲和毛刺���,波形處理計算電壓值和頻率�,并為波形顯示做準備�;人機交互界面提供屏幕顯示(OLED屏)和操作方式(旋鈕和按鍵)。
首先打開Rtt studio創(chuàng)建AB32VG1開發(fā)板的工程��,如下圖所示:
由此已經(jīng)創(chuàng)建好基于這款A(yù)B32VG1芯片開發(fā)板的基礎(chǔ)工程��,點擊編譯看看是否有沒有配置的選項導(dǎo)致編譯失敗。
在建立好基礎(chǔ)工程并且編譯完成無錯后�����,下一步驟先添加官方ADC驅(qū)動����,第一步打開軟件包中心,點擊更多配置找到使用ADC設(shè)備驅(qū)動程序選項點擊添加����,如下圖所示:
然后點擊保存,由此官方ADC驅(qū)動添加完成���。
在adc_config.h文件添加如下代碼:
#ifndef LIBRARIES_HAL_DRIVERS_CONFIG_ADC_CONFIG_H_
#define LIBRARIES_HAL_DRIVERS_CONFIG_ADC_CONFIG_H_
#include
在drv_adc.c文件中添加如下代碼:
#include "drv_gpio.h"
#ifdef BSP_USING_ADC9
#include "adc_config.h"
#define LOG_TAG "drv.adc"
#include
在ab32vg1_hal_conf.h中開啟使用adc:
#define HAL_ADC_MODULE_ENABLED
#ifdef HAL_ADC_MODULE_ENABLED
#include "ab32vg1_hal_adc.h"
#endif
由此我們添加完成了ADC的所以驅(qū)動�����,下一步驟編寫上層ADC應(yīng)用�����,在application文件新建一個.c文件�,并在里面添加如下代碼:
#include
#include "chart.h"
//#include "stdio.h"
uint16 *pADCSampling; //指向ADC實時采樣的指針
uint16 waveBuf[SAMPLE_NUM]; //經(jīng)過計算整理后的波形數(shù)據(jù)
uint8 triPre; //觸發(fā)位置前方等值點
uint8 triAft; //觸發(fā)位置后方等值點
uint16 plotADCMax, plotADCMin;
void GetWaveData()
{
pADCSampling = GetWaveADC(ADC_DSO, ScaleH);
}
/*@note
#define ADC_DSO ADC_CHS_06 ADC采樣通道設(shè)置
int8 ScaleH = 2; //時間區(qū)間,0-11對應(yīng)500ms-100us
*/
/* 獲得自動量程縱軸上下限
Calculate voltage range for Auto Range*/
void getRulerV()
{
//自動量程�,根據(jù)采樣點的最大最小值,按500mV擴大范圍取整����,作為垂直標尺范圍mV
if (ScaleV_Auto == 1)
{
if (VMax / 100 % 10 >= 5)
RulerVMax = (VMax + 500) / 1000 * 1000;
else
RulerVMax = VMax / 1000 * 1000 + 500;
if (VMin / 100 % 10 >= 5)
RulerVMin = VMin / 1000 * 1000 + 500;
else
RulerVMin = VMin / 1000 * 1000;
if (RulerVMax > MAX_V)
RulerVMax = MAX_V;
if (RulerVMin < MIN_V)
RulerVMin = MIN_V;
}
}
/* 計算波長
Calculate wave length*/
bit getWaveLength(uint16 triLevel, bit right_or_left)
{
int16 i;
uint8 tri_pre = 255;
uint8 tri_aft = 255;
uint8 triPos_tmp;
bit triSlope_tmp;
bit triFail = 1;
/* 查找距離屏幕中心最近的觸發(fā)點
Search the trigger poiont closest to the center of chart */
if (right_or_left) //向右查找臨時觸發(fā)點 / Search right side
{
for (i = TriPos + TriPosOffset; i < SAMPLE_NUM - 2; i++)
{
if (GetTriggerPos(*(ADCbuf + i), *(ADCbuf + i + 1), triLevel, 1)) //按上升沿查找 / Search on rising edge
{
triPos_tmp = i;
triSlope_tmp = 1;
triFail = 0;
break;
}
else if (GetTriggerPos(*(ADCbuf + i), *(ADCbuf + i + 1), triLevel, 0)) //按下降沿查找 / Search on falling edge
{
triPos_tmp = i;
triSlope_tmp = 0;
triFail = 0;
break;
}
}
}
else //向左查找臨時觸發(fā)點 / Search left side
{
for (i = TriPos + TriPosOffset; i > 0; i--)
{
if (GetTriggerPos(*(ADCbuf + i), *(ADCbuf + i + 1), triLevel, 1)) //按上升沿查找 / Search on rising edge
{
triPos_tmp = i;
triSlope_tmp = 1;
triFail = 0;
break;
}
else if (GetTriggerPos(*(ADCbuf + i), *(ADCbuf + i + 1), triLevel, 0)) //按下降沿查找 / Search on falling edge
{
triPos_tmp = i;
triSlope_tmp = 0;
triFail = 0;
break;
}
}
}
if (!triFail)
{
for (i = triPos_tmp; i >= 0; i--) //查詢觸發(fā)位置左側(cè)的等值點 / Search equal point left side
{
if (triSlope_tmp) //上升觸發(fā),查找下降點 / Trigger on rising edge, search on falling edge
{
if (*(ADCbuf + i) >= triLevel && *(ADCbuf + i + 1) <= triLevel)
{
tri_pre = i;
break;
}
}
else //下降觸發(fā),查找上升點 / Trigger on falling edge, search on rising edge
{
if (*(ADCbuf + i) <= triLevel && *(ADCbuf + i + 1) >= triLevel)
{
tri_pre = i;
break;
}
}
}
for (i = triPos_tmp; i < SAMPLE_NUM - 1; i++) //查詢觸發(fā)位置右側(cè)的等值點 / Search equal point right side
{
if (triSlope_tmp) //上升觸發(fā),查找下降點 / Trigger on rising edge, search on falling edge
{
if (*(ADCbuf + i) >= triLevel && *(ADCbuf + i + 1) <= triLevel)
{
tri_aft = i;
break;
}
}
else //下降觸發(fā)�����,查找上升點 / Trigger on falling edge, search on rising edge
{
if (*(ADCbuf + i) <= triLevel && *(ADCbuf + i + 1) >= triLevel)
{
tri_aft = i;
break;
}
}
}
}
if (tri_pre == 255 || tri_aft == 255 || (tri_pre == tri_aft))
{
WaveLength = 0;
return 0;
}
else
{
WaveLength = tri_aft - tri_pre;
return 1;
}
}
/* 計算波形頻率
Calculate the wave frequency*/
void getWaveFreq()
{
uint16 m_num; //求和次數(shù)
uint8 n_num; //求平均值右移位數(shù)
//ADC停止采樣時�,每次動作都會顯示波形頻率,因此不求平均值
if (!ADCRunning)
{
WaveLengthSumNum = 0;
WaveLengthSum = 0;
}
//自動模式下為了讓頻率不頻繁變動�,取平均值,大于等于100ms區(qū)間不取平均值��,一個原因是100ms波形變化慢��,所以頻率跳動不頻繁,
//另一方面越長的時間區(qū)間取平均值的延遲越高,影響使用體驗
else if (TriMode == 0 && ScaleH > 2)
{
switch (ScaleH)
{
case 3: //50ms
m_num = 2;
n_num = 1;
break;
case 4: //20ms
m_num = 4;
n_num = 2;
break;
default: //<10ms
m_num = 8;
n_num = 3;
break;
}
WaveLengthSum += WaveLength;
//達到求和次數(shù)后
if (++WaveLengthSumNum >= m_num)
{
WaveLength = WaveLengthSum >> n_num; //求波長平均值
WaveLengthSumNum = 0; //清零波長求和次數(shù)
WaveLengthSum = 0; //清零波長總和
}
//沒達到求和次數(shù),則返回��,WaveFreq保持不變
else
return;
}
switch (ScaleH)
{
case 0: //500ms
WaveFreq = (float)50 / WaveLength + 0.5; //WaveFreq=25000/(500*WaveLength);
break;
case 1: //200ms
WaveFreq = 125 / WaveLength; //WaveFreq=25000/(200*WaveLength);
break;
case 2: //100ms
WaveFreq = 250 / WaveLength; //WaveFreq=25000/(100*WaveLength);
break;
case 3: //50ms
WaveFreq = 500 / WaveLength; //WaveFreq=25000/(50*WaveLength);
break;
case 4: //20ms
WaveFreq = 1250 / WaveLength; //WaveFreq=25000/(20*WaveLength);
break;
case 5: //10ms
WaveFreq = 2500 / WaveLength; //WaveFreq=25000/(10*WaveLength);
break;
case 6: //5ms
WaveFreq = 5000 / WaveLength; //WaveFreq=25000/(5*WaveLength);
break;
case 7: //2ms
WaveFreq = 12500 / WaveLength; //WaveFreq=25000/(2*WaveLength);
break;
case 8: //1ms
WaveFreq = 25000 / WaveLength; //WaveFreq=25000/(1*WaveLength);
break;
case 9: //500us
WaveFreq = 50000 / WaveLength; //WaveFreq=25000000/(500*WaveLength);
break;
case 10: //200us
WaveFreq = 125000 / WaveLength; //WaveFreq=25000000/(200*WaveLength);
break;
case 11: //100us
WaveFreq = 250000 / WaveLength; //WaveFreq=25000000/(100*WaveLength);
break;
}
}
/* 將mv轉(zhuǎn)換為ADC
Convert voltage in mV to ADC*/
uint16 Convert_mv_ADC(uint16 mv, uint16 *BGV, uint16 ADCbg, uint16 lsb)
{
uint16 ADC;
ADC = (uint32)mv * ADCbg * 100 / (*BGV) / lsb;
return ADC;
}
/* 將mv轉(zhuǎn)換為ADC
Convert ADC to voltage in mV */
uint16 c_ADC_mv(uint16 ADC, uint16 *BGV, uint16 BGADC, uint16 lsb)
{
uint16 mv;
mv = (uint32)ADC * *BGV * lsb / BGADC / 100;
return mv;
}
/* 將uint16格式的mV轉(zhuǎn)化為字符型V
Convert voltage in mV to string*/
uint8 *c_mv_V(uint16 v)
{
static uint8 s[5];
if (v < 10000)
{
s[0] = v / 1000 + '0';
s[1] = '.';
s[2] = v / 100 % 10 + '0';
s[3] = v / 10 % 10 + '0';
s[4] = '\0';
}
else
{
s[0] = v / 10000 + '0';
s[1] = v / 1000 % 10 + '0';
s[2] = '.';
s[3] = v / 100 % 10 + '0';
s[4] = '\0';
}
return s;
}
/* 轉(zhuǎn)換波形頻率為字符
Convert frequency to string */
uint8 *c_WaveFreq_Str()
{
static uint8 s[5];
if (WaveFreq == 0)
{
s[0] = '*';
s[1] = '*';
s[2] = '*';
s[3] = '*';
s[4] = '\0';
}
else if (WaveFreq >= 10000000)
{
s[0] = WaveFreq / 10000000 + '0';
s[2] = ((WaveFreq) / 1000000) % 10 + '0';
s[3] = 'M';
s[4] = '\0';
}
else if (WaveFreq >= 1000000)
{
s[0] = WaveFreq / 1000000 + '0';
s[1] = '.';
s[2] = ((WaveFreq) / 100000) % 10 + '0';
s[3] = 'M';
s[4] = '\0';
}
else if (WaveFreq >= 100000)
{
s[0] = WaveFreq / 100000 + '0';
s[1] = (WaveFreq / 10000) % 10 + '0';
s[2] = ((WaveFreq) / 1000) % 10 + '0';
s[3] = 'k';
s[4] = '\0';
}
else if (WaveFreq >= 10000)
{
s[0] = WaveFreq / 10000 + '0';
s[1] = ((WaveFreq) / 1000) % 10 + '0';
s[2] = 'k';
s[3] = '\0';
}
else if (WaveFreq >= 1000)
{
s[0] = WaveFreq / 1000 + '0';
s[1] = '.';
if ((WaveFreq / 10) % 10 > 5)
s[2] = ((WaveFreq) / 100) % 10 + '0';
else
s[2] = ((WaveFreq) / 100) % 10 + '0';
s[3] = 'k';
s[4] = '\0';
}
else if (WaveFreq >= 100)
{
s[0] = WaveFreq / 100 + '0';
s[1] = (WaveFreq / 10) % 10 + '0';
s[2] = (WaveFreq) % 10 + '0';
s[3] = '\0';
}
else if (WaveFreq >= 10)
{
s[0] = WaveFreq / 10 + '0';
s[1] = (WaveFreq) % 10 + '0';
s[2] = '\0';
}
else if (WaveFreq >= 1)
{
s[0] = (WaveFreq) % 10 + '0';
s[1] = '\0';
}
return s;
}
/* 將采樣值的映射到屏幕的顯示范圍���,并反轉(zhuǎn)
Remap sampling data to display range and inverse */
uint16 remap(uint16 val, uint16 rangeMax, uint16 rangeMin, uint16 rangeMaxNew, uint16 rangeMinNew)
{
if (val > rangeMax)
val = rangeMax;
else if (val < rangeMin)
val = rangeMin;
val = rangeMinNew + (uint32)(rangeMax - val) * (rangeMaxNew - rangeMinNew) / (rangeMax - rangeMin);
return val;
}
/* 獲取觸發(fā)點位置
Get Trigger Position */
bit GetTriggerPos(uint16 d1, uint16 d2, uint16 dTrigger, bit triSlope)
{
/* 上升沿觸發(fā)
Trigger on Rising Edge */
if (triSlope)
{
if (d1 <= dTrigger && d2 >= dTrigger)
{
return 1;
}
}
/* 下降沿觸發(fā)
Trigger on Falling Edge */
else
{
if (d1 >= dTrigger && d2 <= dTrigger)
{
return 1;
}
}
return 0;
}
/* 分析采樣數(shù)據(jù)
Analyse sampling date */
void AnalyseData()
{
int16 i;
uint16 tmp;
uint16 adcMax = 0;
uint16 adcMin = 4095;
uint16 adcMid = 0;
uint16 plotADCMid = 0;
if (ADCComplete)
{
ScaleH_tmp = ScaleH; //記錄完成采樣的時間區(qū)間�,由于采樣點的數(shù)量較少���,因此不支持實時根據(jù)時間區(qū)間縮放波形���,時間區(qū)間改變則清空波形
//將采樣點復(fù)制到另一個數(shù)組,避免采樣中斷造成數(shù)據(jù)混亂
//若采樣被中斷�����,則使用緩存中舊采樣點顯示波形
for (i = 0; i < SAMPLE_NUM; i++)
{
*(ADCbuf + i) = *(pADCSampling + i);
}
//計算觸發(fā)點位置
//ADC采樣停止時����,TriPos不變,所以不進行下列計算
TriPos = SAMPLE_NUM / 2;
TriFail = 1; //置位觸發(fā)失敗標志
for (i = ((CHART_H_MAX - CHART_H_MIN) >> 1); i < SAMPLE_NUM - ((CHART_H_MAX - CHART_H_MIN) >> 1); i++)
{
if (GetTriggerPos(*(ADCbuf + i), *(ADCbuf + i + 1), TriggerADC, TriSlope))
{
TriPos = i;
TriFail = 0; //清零觸發(fā)失敗標志
break;
}
}
TriPosOffset = 0;
}
/* 獲取屏幕顯示波形的最大和最小值
Get the MAX and MIN value of waveform on display*/
for (i = 0; i <= 100; i++)
{
tmp = *(ADCbuf + TriPos + TriPosOffset - 50 + i);
if (tmp > adcMax)
adcMax = tmp;
else if (tmp < adcMin)
adcMin = tmp;
}
//將采樣點的最大最小采樣值轉(zhuǎn)換成電壓值mV
VMax = c_ADC_mv(adcMax, BGV, ADCbg, Lsb);
VMin = c_ADC_mv(adcMin, BGV, ADCbg, Lsb);
//獲得垂直標尺的上下限
getRulerV();
//用垂直標尺mV范圍反求出ADC值的范圍作為圖表的顯示上下限
plotADCMax = Convert_mv_ADC(RulerVMax, BGV, ADCbg, Lsb);
plotADCMin = Convert_mv_ADC(RulerVMin, BGV, ADCbg, Lsb);
//計算波形的頻率
//如果當前的時間區(qū)間和采樣數(shù)據(jù)的時間間隔一致則進行頻率計算
//為避免ADC采樣出錯時頻率跳變厲害����,計算波長時使用電壓標尺的中點和波幅中點的較小值
//如果遇到頻率跳變無法讀取,將自動量程切換至合適的手動量程即可
adcMid = (adcMax + adcMin) >> 1;
plotADCMid = (plotADCMax + plotADCMin) >> 1;
if (getWaveLength(adcMid < plotADCMid ? adcMid : plotADCMid, 1) || getWaveLength(adcMid < plotADCMid ? adcMid : plotADCMid, 0))
{
getWaveFreq();
}
else
{
WaveFreq = 0;
}
//映射采樣值至屏幕的顯示范圍
for (i = 0; i < SAMPLE_NUM; i++)
{
waveBuf[i] = remap(*(ADCbuf + i), plotADCMax, plotADCMin, CHART_V_MAX, CHART_V_MIN);
}
}
/* 繪制主界面
Draw main interface */
void PlotChart(void)
{
uint8 i;
uint8 *s;
if (ClearDisplay)
{
ClearDisplay = 0;
OLED_Clear();
/* 圖表邊框
波形橫向繪圖區(qū)101格,26~126
波形縱向繪圖區(qū)45格,8~52
Frame of chart 45x101*/
OLED_DrawHLine(CHART_H_MIN, CHART_V_MIN, 4);
OLED_DrawHLine(CHART_H_MIN, CHART_V_MAX, 4);
OLED_DrawHLine(CHART_H_MAX - 3, CHART_V_MIN, 4);
OLED_DrawHLine(CHART_H_MAX - 3, CHART_V_MAX, 4);
OLED_DrawHLine(CHART_H_MIN + 25 - 2, CHART_V_MIN, 5);
OLED_DrawHLine(CHART_H_MIN + 25 - 2, CHART_V_MAX, 5);
OLED_DrawHLine(CHART_H_MIN + 50 - 2, CHART_V_MIN, 5);
OLED_DrawHLine(CHART_H_MIN + 50 - 2, CHART_V_MAX, 5);
OLED_DrawHLine(CHART_H_MIN + 75 - 2, CHART_V_MIN, 5);
OLED_DrawHLine(CHART_H_MIN + 75 - 2, CHART_V_MAX, 5);
OLED_DrawVLine(CHART_H_MIN - 1, CHART_V_MIN, CHART_V_MAX - CHART_V_MIN + 1);
OLED_DrawVLine(CHART_H_MAX + 1, CHART_V_MIN, CHART_V_MAX - CHART_V_MIN + 1);
/* 圖表虛線網(wǎng)格
Grid of chart */
for (i = 0; i < 15; i++)
{
OLED_DrawHLine(CHART_H_MIN + 7 * i, CHART_V_MIN + ((CHART_V_MAX - CHART_V_MIN) >> 1), 3);
}
for (i = 0; i < 6; i++)
{
OLED_DrawVLine(CHART_H_MIN + 25, CHART_V_MIN + 1 + i * 8, 3);
OLED_DrawVLine(CHART_H_MIN + 50, CHART_V_MIN + 1 + i * 8, 3);
OLED_DrawVLine(CHART_H_MIN + 75, CHART_V_MIN + 1 + i * 8, 3);
}
/* 波形位置標尺
Ruler for waveform position*/
OLED_DrawHLine(0, 62, 25);
OLED_DrawVLine(0, 60, 3);
OLED_DrawVLine(24, 60, 3);
OLED_DrawVLine((TriPos + TriPosOffset - 50) * 24 / 119, 58, 4);
/* 波形電壓范圍
Voltage range of waveform*/
OLED_Set_Pos(26, 56);
s = c_mv_V(VMin);
OLED_DrawString(s);
OLED_DrawString("-");
s = c_mv_V(VMax);
OLED_DrawString(s);
OLED_DrawString("V");
}
OLED_Overlap(0); //設(shè)置繪圖模式為覆蓋
/* 頻率
Frequency */
OLED_Set_Pos(92, 0);
OLED_DrawString(" ");
OLED_Set_Pos(92, 0);
s = c_WaveFreq_Str();
OLED_DrawString(s);
OLED_DrawString("Hz");
/* 自動量程標志
Flag for Auto Range*/
if (ScaleV_Auto == 1)
{
OLED_Set_Pos(0, 0);
OLED_DrawString("Auto");
}
else
{
OLED_Set_Pos(0, 0);
OLED_DrawString(" ");
}
/* 觸發(fā)值
Trigger Level */
OLED_Set_Pos(33, 0);
if (OptionInChart == 2 && !WaveScroll)
{
OLED_DrawVLine(69, 0, 8);
OLED_Reverse(1);
}
else
{
OLED_Reverse(1);
OLED_DrawVLine(69, 0, 8);
OLED_Reverse(0);
}
s = c_mv_V(TriLevel);
OLED_DrawString("T");
OLED_DrawString(s);
OLED_DrawString("V");
OLED_Reverse(0);
/* 觸發(fā)方向標志
Trigger Slope */
if (OptionInChart == 3 && !WaveScroll)
{
OLED_DrawVLine(71, 0, 8);
OLED_DrawVLine(78, 0, 8);
OLED_Reverse(1);
}
else
{
OLED_Reverse(1);
OLED_DrawVLine(71, 0, 8);
OLED_DrawVLine(78, 0, 8);
OLED_Reverse(0);
}
if (TriSlope)
{
OLED_DrawChar(72, 0, 123); //123上箭頭�,上升沿觸發(fā)
}
else
{
OLED_DrawChar(72, 0, 124); //124下箭頭,下降沿觸發(fā)
}
OLED_Reverse(0);
/* 觸發(fā)方式標志
Trigger Mode */
if (OptionInChart == 4 && !WaveScroll)
{
OLED_DrawVLine(86, 0, 8);
OLED_Reverse(1);
}
else
{
OLED_Reverse(1);
OLED_DrawVLine(86, 0, 8);
OLED_Reverse(0);
}
OLED_Set_Pos(80, 0);
if (TriMode == 0)
{
OLED_DrawString("A");
}
else if (TriMode == 1)
{
OLED_DrawString("N");
}
else if (TriMode == 2)
{
OLED_DrawString("S");
}
OLED_Reverse(0);
/* 觸發(fā)失敗標志
Flag for Trigger Fail*/
if (TriFail)
{
OLED_Set_Pos(0, 24);
OLED_DrawString("Fail");
}
//繪制運行/停止標志
// if (TriS && ADCRuning)
// {
// OLED_Set_Pos(0, 16);
// OLED_DrawString("Wait");
// }
if (ADCRunning)
{
OLED_Set_Pos(0, 16);
OLED_DrawString("Run ");
}
else
{
OLED_Set_Pos(0, 16);
OLED_DrawString("Stop");
}
/* 橫軸時間區(qū)間
Seconds per division */
OLED_Set_Pos(97, 56);
OLED_DrawString(" ");
if (OptionInChart == 0 && !WaveScroll)
{
OLED_Reverse(1);
}
OLED_Set_Pos(97, 56);
OLED_DrawString(ScaleHTxt[ScaleH]);
OLED_Reverse(0);
/* 縱軸電壓區(qū)間
Ruler for Voltage */
OLED_Set_Pos(0, 8);
OLED_DrawString(" ");
if (OptionInChart == 1 && !WaveScroll)
{
OLED_Reverse(1);
}
s = c_mv_V(RulerVMax);
OLED_Set_Pos(0, 8);
OLED_DrawString(s);
OLED_Reverse(0);
s = c_mv_V(RulerVMin);
OLED_Set_Pos(0, 46);
OLED_DrawString(s);
OLED_Overlap(1); //恢復(fù)繪圖模式為疊加
}
/* 繪制波形
Draw waveform*/
void PlotWave(void)
{
uint8 i;
//Vector Mode
if (PlotMode == 0)
{
for (i = 0; i < (CHART_H_MAX - CHART_H_MIN); i++)
{
OLED_DrawLine(
i + CHART_H_MIN,
waveBuf[TriPos + TriPosOffset - ((CHART_H_MAX - CHART_H_MIN) >> 1) + i],
i + CHART_H_MIN + 1,
waveBuf[TriPos + TriPosOffset - ((CHART_H_MAX - CHART_H_MIN) >> 1) + i + 1]);
}
}
//Dots Mode
if (PlotMode == 1)
{
for (i = 0; i <= (CHART_H_MAX - CHART_H_MIN); i++)
{
OLED_DrawPixel(i + CHART_H_MIN, waveBuf[TriPos + TriPosOffset - ((CHART_H_MAX - CHART_H_MIN) >> 1) + i]);
}
}
}
/* 繪制設(shè)置界面
Draw settings */
void PlotSettings()
{
if (ClearDisplay)
{
ClearDisplay = 0;
OLED_Clear();
//LOGO
OLED_DrawBMP(18, 24, 18 + 82 - 1, 24 + 13 - 1, MINIDSO, sizeof(MINIDSO) / sizeof(MINIDSO[0]));
//Version
OLED_Set_Pos(102, 30);
OLED_DrawString("V0.3");
//CopyRight
OLED_Set_Pos(30, 39);
OLED_DrawString("By Creative Lau");
OLED_Set_Pos(44, 48);
OLED_DrwCHS_16x16(0);
OLED_DrwCHS_16x16(1);
OLED_DrwCHS_16x16(2);
OLED_DrwCHS_16x16(3);
OLED_DrwCHS_16x16(4);
}
OLED_Overlap(0);
/* 選項
Options */
/* DrawMode */
OLED_Set_Pos(0, 0);
&nbs
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