AM中波放送用SDR.CICフィルタと通常のFIRフィルタを組み合わせて使用.CQ出版社「トランジスタ技術」誌に掲載予定

Dependencies:   mbed

Committer:
tza
Date:
Sat Jul 31 09:11:29 2021 +0000
Revision:
1:ca43ee5ea802
Parent:
0:9c28f5905a1a
a

Who changed what in which revision?

UserRevisionLine numberNew contents of line
MikamiUitOpen 0:9c28f5905a1a 1 //--------------------------------------------------------------
MikamiUitOpen 0:9c28f5905a1a 2 // IIR フィルタを利用する直交信号発生器のクラス
MikamiUitOpen 0:9c28f5905a1a 3 //
MikamiUitOpen 0:9c28f5905a1a 4 // 2020/07/30, Copyright (c) 2020 MIKAMI, Naoki
MikamiUitOpen 0:9c28f5905a1a 5 //--------------------------------------------------------------
MikamiUitOpen 0:9c28f5905a1a 6
MikamiUitOpen 0:9c28f5905a1a 7 #include "mbed.h"
MikamiUitOpen 0:9c28f5905a1a 8
MikamiUitOpen 0:9c28f5905a1a 9 #ifndef QUAD_PHASE_OSC_IIR_HPP
MikamiUitOpen 0:9c28f5905a1a 10 #define QUAD_PHASE_OSC_IIR_HPP
MikamiUitOpen 0:9c28f5905a1a 11
MikamiUitOpen 0:9c28f5905a1a 12 namespace Mikami
MikamiUitOpen 0:9c28f5905a1a 13 {
MikamiUitOpen 0:9c28f5905a1a 14 class QuadOscIir
MikamiUitOpen 0:9c28f5905a1a 15 {
MikamiUitOpen 0:9c28f5905a1a 16 public:
MikamiUitOpen 0:9c28f5905a1a 17 // コンストラクタ
MikamiUitOpen 0:9c28f5905a1a 18 // f0 周波数,単位:Hz
MikamiUitOpen 0:9c28f5905a1a 19 // ts 標本化間隔,単位:μs
MikamiUitOpen 0:9c28f5905a1a 20 // amp 振幅
MikamiUitOpen 0:9c28f5905a1a 21 QuadOscIir(float f0, float ts, float amp = 1)
MikamiUitOpen 0:9c28f5905a1a 22 : TS_(ts*1.0E-6f), A0_(amp) { Set(f0); }
MikamiUitOpen 0:9c28f5905a1a 23
MikamiUitOpen 0:9c28f5905a1a 24 // sin/cos 発生
MikamiUitOpen 0:9c28f5905a1a 25 void Generate(float &sinX, float &cosX)
MikamiUitOpen 0:9c28f5905a1a 26 {
MikamiUitOpen 0:9c28f5905a1a 27 float vn = a1_*vn1_ - vn2_;
MikamiUitOpen 0:9c28f5905a1a 28 sinX = b1S_*vn1_;
MikamiUitOpen 0:9c28f5905a1a 29 cosX = A0_*vn + b1C_*vn1_;
MikamiUitOpen 0:9c28f5905a1a 30
MikamiUitOpen 0:9c28f5905a1a 31 vn2_ = vn1_; // v[n-2] ← v[n-1]
MikamiUitOpen 0:9c28f5905a1a 32 vn1_ = vn; // v[n-1] ← v[n]
MikamiUitOpen 0:9c28f5905a1a 33 }
MikamiUitOpen 0:9c28f5905a1a 34
MikamiUitOpen 0:9c28f5905a1a 35 // 出力周波数の設定,周波数を変更し再スタートする場合も使える
MikamiUitOpen 0:9c28f5905a1a 36 // f0:周波数,単位:Hz
MikamiUitOpen 0:9c28f5905a1a 37 void Set(float f0)
MikamiUitOpen 0:9c28f5905a1a 38 {
MikamiUitOpen 0:9c28f5905a1a 39 static const float PI2 = 6.283185f;
MikamiUitOpen 0:9c28f5905a1a 40 a1_ = 2.0f*cosf(PI2*f0*TS_);
MikamiUitOpen 0:9c28f5905a1a 41 b1S_ = A0_*sinf(PI2*f0*TS_);
MikamiUitOpen 0:9c28f5905a1a 42 b1C_ = -A0_*cosf(PI2*f0*TS_);
MikamiUitOpen 0:9c28f5905a1a 43 vn1_ = 1.0f;
MikamiUitOpen 0:9c28f5905a1a 44 vn2_ = 0.0f;
MikamiUitOpen 0:9c28f5905a1a 45 }
MikamiUitOpen 0:9c28f5905a1a 46
MikamiUitOpen 0:9c28f5905a1a 47 private:
MikamiUitOpen 0:9c28f5905a1a 48 const float TS_; // 標本化間隔
MikamiUitOpen 0:9c28f5905a1a 49 const float A0_; // 振幅
MikamiUitOpen 0:9c28f5905a1a 50 float a1_, b1S_, b1C_;
MikamiUitOpen 0:9c28f5905a1a 51 float vn1_, vn2_;
MikamiUitOpen 0:9c28f5905a1a 52
MikamiUitOpen 0:9c28f5905a1a 53 // コピー・コンストラクタ,代入演算子の禁止のため
MikamiUitOpen 0:9c28f5905a1a 54 QuadOscIir(const QuadOscIir&);
MikamiUitOpen 0:9c28f5905a1a 55 QuadOscIir& operator=(const QuadOscIir&);
MikamiUitOpen 0:9c28f5905a1a 56 };
MikamiUitOpen 0:9c28f5905a1a 57 }
MikamiUitOpen 0:9c28f5905a1a 58 #endif // QUAD_PHASE_OSC_IIR_HPP