Prototype program of AD and DA using classes in UIT_ADDA. This program uses interrupt of ADC. Second channnel input is used to control volume of output for ST Nucleo F401RE. UIT_ADDA のクラスを使った AD および DA のためのプログラムの雛形.ADC の割り込みを使うバージョン.2番目のチャンネルの ADC の入力は,出力信号の大きさをコントロールするために使う.ST Nucleo F401 用.
Dependencies: UIT_ACM1602NI UIT_ADDA mbed
main.cpp
- Committer:
- MikamiUitOpen
- Date:
- 2014-10-20
- Revision:
- 0:494ae18d3b30
- Child:
- 1:43a38eaed0fc
File content as of revision 0:494ae18d3b30:
//-------------------------------------------------------------- // 割り込みを使って AD DA を行う場合の雛形2 // Analog Input : A0 // Analog Output: MCP4922 using SPI // 2014/10/20, Copyright (c) 2014 MIKAMI, Naoki //-------------------------------------------------------------- #include "mbed.h" #include "ADC_Interrupt.hpp" // for ADC using interrupt #include "DAC_MCP4922.hpp" // for DAC MCP4922 #include "ScfClockTim3.hpp" // for clock supplied to SCF using namespace Mikami; const int FS_ = 10000; // Sampling frequency: 24 kHz ADC_Intr adc_(A0, FS_, A1, A2); // for AD DAC_MCP4922 myDac_(DAC_MCP4922::DAC_A); // for DA uint16_t a2_ = 0; uint16_t a21_ = 0; float vol_ = 1.0f; // Interrupt service routine for ADC void AdcIsr() { float xn = adc_.Read(); // Read from A0 adc_.Select3rdChannel(); // Enable A2 adc_.SoftStart(); // ADC start for A2 input float yn = vol_*xn; // Volume control by VR myDac_.Write(yn); // to DAC // Read value which controls volume a2_ = adc_.ReadWait_u16(); adc_.Select1stChannel(); // Enable A0 adc_.ClearPending_EnableIRQ(); // Clear pending interrupt } int main() { ScfClockTim3(420000); // cutoff frequency: 4.2 kHz adc_.SetIntrVec(AdcIsr); // Assign ISR for ADC interrupt while (true) { if (abs(a2_ - a21_) > 10) { vol_ = ((float)a2_)/4095.0f; a21_ = a2_; } wait(0.1f); } }