Added one channel mode
Dependents: CW_Decoder_using_FFT_on_F446
Fork of F446_AD_DA by
F446_ADC_Interrupt.hpp
- Committer:
- MikamiUitOpen
- Date:
- 2016-11-11
- Revision:
- 0:c945b4fe9a48
- Child:
- 1:6b9f2af6613d
File content as of revision 0:c945b4fe9a48:
//---------------------------------------------------------- // Simultanuous AD Conversion by interrupt using // ADC2 and ADC3 on STM32F446 ---- Header // // STM32F446 の ADC2, ADC3 を使って同時に AD 変換を開始し, // 割り込みによりアナログ信号を入力するクラス(ヘッダ) // AdcDual クラスの派生クラス // // 2016/11/11, Copyright (c) 2016 MIKAMI, Naoki //---------------------------------------------------------- #ifndef F446_ADC_DUAL_INTERRUPT_HPP #define F446_ADC_DUAL_INTERRUPT_HPP #include "F446_ADC.hpp" namespace Mikami { class AdcDual_Intr : public AdcDual { public: AdcDual_Intr(int frequency) : AdcDual(frequency) { ADC2->CR1 |= ADC_CR1_EOCIE; } // -1.0f <= data1, data2 <= 1.0f virtual void Read(float &ad2, float &ad1) { ad1 = ToFloat(ADC2->DR); ad2 = ToFloat(ADC3->DR); } // 0 <= data1, data2 <= 4095 virtual void Read(uint16_t &ad2, uint16_t &ad1) { ad1 = ADC2->DR; ad2 = ADC3->DR; } // Set interrupt vector and enable IRQ of ADC void SetIntrVec(void (*Func)()) { NVIC_SetVector(ADC_IRQn, (uint32_t)Func); // See "cmsis_nvic.h" NVIC_EnableIRQ(ADC_IRQn); // See "core_cm4.h" } void DisableAdcIntr() { NVIC_DisableIRQ(ADC_IRQn); } private: // for inhibition of copy constructor AdcDual_Intr(const AdcDual_Intr&); // for inhibition of substitute operator AdcDual_Intr& operator=(const AdcDual_Intr&); }; } #endif // F446_ADC_DUAL_INTERRUPT_HPP