不韋 呂 / F446_AD_DA_Multirate

 Nucleo-F446RE 内蔵の AD/DA を使うためのライブラリ.DA からの出力は,標本化周波数の4倍のレートで行う.  このライブラリを登録した際のプログラム: Demo_F446_AD_DA_Multirate. Library for built-in ADC and DAC in Nucleo-F446RE. Sampling rate for DAC is four times of that for ADC.

Dependencies:   Array_Matrix

Dependents:   F446_UpSampling_GraphicEqualizer F446_UpSampling_ReverbSystem F446_UpSampling_FrqShifter_Weaver Demo_F446_AD_DA_Multirate ... more

F446_DAC.hpp@9:75bc15678d1b, 2020-02-09 (annotated)

Committer:
MikamiUitOpen
Date:
Sun Feb 09 02:16:39 2020 +0000
Revision:
9:75bc15678d1b
Parent:
8:9429fb179c38 
10

Who changed what in which revision?

UserRevisionLine numberNew contents of line
MikamiUitOpen 0:2447a7d225b1 1 //--------------------------------------------------------
MikamiUitOpen 0:2447a7d225b1 2 // Class for buit-in single DAC on STM32F446 ---- Header
MikamiUitOpen 0:2447a7d225b1 3 //
MikamiUitOpen 0:2447a7d225b1 4 // STM32F446 内蔵の DAC 用のクラス(ヘッダ)
MikamiUitOpen 0:2447a7d225b1 5 // 選択可能な入力端子:
MikamiUitOpen 0:2447a7d225b1 6 // A2 (PA_4): ---- デフォルト
MikamiUitOpen 0:2447a7d225b1 7 // D13 (PA_5): このポートはマイコンボードの LED もドライブするので
MikamiUitOpen 0:2447a7d225b1 8 // このポートは使わない方がよい
MikamiUitOpen 0:2447a7d225b1 9 //
MikamiUitOpen 8:9429fb179c38 10 // 2018/11/28, Copyright (c) 2018 MIKAMI, Naoki
MikamiUitOpen 0:2447a7d225b1 11 //--------------------------------------------------------
MikamiUitOpen 0:2447a7d225b1 12
MikamiUitOpen 0:2447a7d225b1 13 #include "mbed.h"
MikamiUitOpen 0:2447a7d225b1 14
MikamiUitOpen 0:2447a7d225b1 15 #ifndef STM32F446xx
MikamiUitOpen 0:2447a7d225b1 16 #error Not NUCLEO-F446RE.
MikamiUitOpen 0:2447a7d225b1 17 #endif
MikamiUitOpen 0:2447a7d225b1 18
MikamiUitOpen 0:2447a7d225b1 19 #ifndef F446_DAC_SINGLE_HPP
MikamiUitOpen 0:2447a7d225b1 20 #define F446_DAC_SINGLE_HPP
MikamiUitOpen 0:2447a7d225b1 21
MikamiUitOpen 0:2447a7d225b1 22 namespace Mikami
MikamiUitOpen 0:2447a7d225b1 23 {
MikamiUitOpen 0:2447a7d225b1 24 class DacF446
MikamiUitOpen 0:2447a7d225b1 25 {
MikamiUitOpen 0:2447a7d225b1 26 public:
MikamiUitOpen 0:2447a7d225b1 27 // Constructor
MikamiUitOpen 0:2447a7d225b1 28 explicit DacF446(PinName pin = A2);
MikamiUitOpen 0:2447a7d225b1 29
MikamiUitOpen 0:2447a7d225b1 30 virtual ~DacF446() {}
MikamiUitOpen 0:2447a7d225b1 31
MikamiUitOpen 0:2447a7d225b1 32 // -1.0f <= data <= 1.0f
MikamiUitOpen 0:2447a7d225b1 33 void Write(float data) { WriteDac(ToUint16(data)); }
MikamiUitOpen 0:2447a7d225b1 34
MikamiUitOpen 8:9429fb179c38 35 // 0 <= data <= 4095
MikamiUitOpen 0:2447a7d225b1 36 void Write(uint16_t data) { WriteDac(__USAT(data, BIT_WIDTH_)); }
MikamiUitOpen 0:2447a7d225b1 37
MikamiUitOpen 0:2447a7d225b1 38 private:
MikamiUitOpen 0:2447a7d225b1 39 void (DacF446::*fpWriteDac)(uint16_t);
MikamiUitOpen 0:2447a7d225b1 40
MikamiUitOpen 0:2447a7d225b1 41 static const int BIT_WIDTH_ = 12;
MikamiUitOpen 0:2447a7d225b1 42 AnalogOut da_;
MikamiUitOpen 0:2447a7d225b1 43
MikamiUitOpen 0:2447a7d225b1 44 // DAC の片方のチェンネルへ出力する
MikamiUitOpen 8:9429fb179c38 45 void WriteDac1(uint16_t val) { DAC->DHR12R1 = val; } // CH1 へ
MikamiUitOpen 8:9429fb179c38 46 void WriteDac2(uint16_t val) { DAC->DHR12R2 = val; } // CH2 へ
MikamiUitOpen 0:2447a7d225b1 47
MikamiUitOpen 0:2447a7d225b1 48 void WriteDac(uint16_t val) { (this->*fpWriteDac)(val); }
MikamiUitOpen 0:2447a7d225b1 49
MikamiUitOpen 0:2447a7d225b1 50 // 飽和処理を行い uint16_t 型のデータを戻り値とする
MikamiUitOpen 0:2447a7d225b1 51 uint16_t ToUint16(float val)
MikamiUitOpen 0:2447a7d225b1 52 { return __USAT((val + 1.0f)*2048.0f, BIT_WIDTH_); }
MikamiUitOpen 0:2447a7d225b1 53
MikamiUitOpen 0:2447a7d225b1 54 // for inhibition of copy constructor
MikamiUitOpen 0:2447a7d225b1 55 DacF446(const DacF446&);
MikamiUitOpen 0:2447a7d225b1 56 // for inhibition of substitute operator
MikamiUitOpen 0:2447a7d225b1 57 DacF446& operator=(const DacF446&);
MikamiUitOpen 0:2447a7d225b1 58 };
MikamiUitOpen 0:2447a7d225b1 59 }
MikamiUitOpen 0:2447a7d225b1 60 #endif // F446_DAC_SINGLE_HPP
MikamiUitOpen 8:9429fb179c38 61