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278 lines
12 KiB
278 lines
12 KiB
4 years ago
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/*
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* RadioFMDetector_F32
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* 22 March 2020 Bob Larkin
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* With much credit to:
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* Chip Audette (OpenAudio) Feb 2017
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* Building from AudioFilterFIR from Teensy Audio Library
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* (AudioFilterFIR credited to Pete (El Supremo))
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* and of course, to PJRC for the Teensy and Teensy Audio Library
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*
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* Copyright (c) 2020 Bob Larkin
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in all
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* copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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* SOFTWARE.
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*/
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/* This consists of a single input at some frequency, such as 10 to 20 kHz and
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* an output, such as 0 to 5 kHz. The output level is linearly dependent on the
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* frequency of the input sine wave frequency, i.e., an it is an FM detector.
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* The input needs to be band limited below the lower frequency side of the
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* input, typically 10 kHz. This is not part of this block.
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*
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* NOTE: Due to the sample frequencies we are working with, like 44.1 kHz, this
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* detector cannot handle full FM broadcast bandwidths. It is suitable for
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* NBFM as used in communications, marine radio, ham radio, etc.
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*
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* The output can be FIR filtered using default parameters,
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* or using coefficients from an array. A separate single pole de-emphasis filer
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* is included that again can be programmed.
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*
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* Internally, the detector uses a pair of mixers (multipliers) that generate the
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* in-phase and quadrature inputs to a atan2 type of phase detector. These
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* mixers have two output signals at the difference (desired) and sum (undesired)
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* frequencies. The high frequency sum signal can be filtered (For a 15 kHz center,
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* with an input band of 10 to 20 kHz the sum signal will be from 25 to 35 kHz that
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* wraps around the 22 kHz half-sample point to produce 19 to 9 kHz. This needs to
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* be removed before the atan2. A pair of FIR filters, using FIR_IQ_Coeffs
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* are used. These are again programmable and default to a 29-tap LPF with
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* a 5 kHz cutoff.
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*
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* Status: Tested static, tested with FM modulated Fluke 6061B.
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* An input of about 60 microvolts to the SGTL5000 gave 12 dB SINAD.
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* The output sounded good. Tested T3.6 and T4.0. No known bugs
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*
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* Output: Float, sensitivity is 2*pi*(f - fCenter)*sample_rate_Hz
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* For 44117Hz samplerate, this is 0.000142421 per Hz
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*
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* Accuracy: The function used is precise. However, the approximations, such
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* fastAtan2, slightly limit the accuracy. A 200 point sample of a
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* 14 kHz input had an average error of 0.03 Hz
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* and a standard deviation of 0.81 Hz.
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* The largest errors in this sample were about +/- 1.7 Hz. This is
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* with the default filters.
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*
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* Functions:
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* frequency(float fCenter ) sets the center frequency in Hz, default 15000.
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*
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* filterOut(float *firCoeffs, uint nFIR, float Kdem) sets output filtering where:
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* float32_t* firCoeffs is an array of coefficients
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* uint nFIR is the number of coefficients
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* float32_t Kdem is the de-emphasis frequency factor, where
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* Kdem = 1/(0.5+(tau*fsample)) and tau is the de-emphasis
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* time constant, typically 0.0005 second and fsample is
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* the sample frequency, typically 44117.
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*
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* filterIQ(float *fir_IQ_Coeffs, uint nFIR_IQ) sets output filtering where:
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* float32_t* fir_IQ_Coeffs is an array of coefficients
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* uint nFIR_IQ is the number of coefficients, max 60
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*
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* setSampleRate_Hz(float32_t _sampleRate_Hz) allows dynamic changing of
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* the sample rate (experimental as of May 2020).
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*
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* returnInitializeFMError() Returns the initialization errors.
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* B0001 (value 1) is an error in the IQ FIR Coefficients or quantity.
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* B0010 (value 2) is an error in the Output FIR Coefficients or quantity.
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* B0100 (value 4) is an error in the de-emphasis constant
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* B1000 (value 8) is center frequency above half-sample frequency.
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* All for debug.
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*
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* showError(uint16_t e) Turns error printing in the update function on (e=1)
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* or off (e=0). For debug only.
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*
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* Time: For T3.6, an update of a 128 sample block, 370 microseconds, or
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* 2.9 microseconds per data point.
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* For T4.0, 87 microseconds, or 0.68 microseconds per data point.
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*
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* Error checking: See functions setSampleRate_Hz() and returnInitializeFMError()
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* above.
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*/
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#ifndef _radioFMDetector_f32_h
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#define _radioFMDetector_f32_h
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#include "mathDSP_F32.h"
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#include "AudioStream_F32.h"
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#include "arm_math.h"
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#define MAX_FIR_IQ_COEFFS 100
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#define MAX_FIR_OUT_COEFFS 120
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#define TEST_TIME_FM 0
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class RadioFMDetector_F32 : public AudioStream_F32 {
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//GUI: inputs:1, outputs:1 //this line used for automatic generation of GUI node
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//GUI: shortName: FMDetector
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public:
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// Default block size and sample rate:
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RadioFMDetector_F32(void) : AudioStream_F32(1, inputQueueArray_f32) {
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initializeFM();
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}
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// Option of AudioSettings_F32 change to block size and/or sample rate:
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RadioFMDetector_F32(const AudioSettings_F32 &settings) : AudioStream_F32(1, inputQueueArray_f32) {
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sampleRate_Hz = settings.sample_rate_Hz;
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block_size = settings.audio_block_samples;
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initializeFM();
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}
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// Provide for changing input center frequency, in Hz
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void frequency(float32_t _fCenter) {
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fCenter = _fCenter;
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phaseIncrement = 512.0f * fCenter / sampleRate_Hz;
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}
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// Provide for user FIR for I and Q signals to user supplied array
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void filterIQ(float32_t* _fir_IQ_Coeffs, int _nFIR_IQ) {
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if( fir_IQ_Coeffs==NULL || nFIR_IQ<4 || nFIR_IQ>MAX_FIR_IQ_COEFFS ) {
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initializeFMErrors |= 1;
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return;
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}
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fir_IQ_Coeffs = _fir_IQ_Coeffs;
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nFIR_IQ = _nFIR_IQ;
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initializeFM();
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}
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// Provide for changing to user FIR for detector output, (and user de-emphasis)
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void filterOut(float32_t *_fir_Out_Coeffs, int _nFIR_Out, float32_t _Kdem) {
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if( _fir_Out_Coeffs==NULL || _nFIR_Out<4 || _nFIR_Out>MAX_FIR_OUT_COEFFS) {
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initializeFMErrors |= 2;
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return;
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}
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if( _Kdem<0.0001 || _Kdem>1.0 ) {
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initializeFMErrors |= 4;
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return;
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}
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fir_Out_Coeffs = _fir_Out_Coeffs;
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nFIR_Out = _nFIR_Out;
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Kdem = _Kdem;
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OneMinusKdem = 1.0f - Kdem;
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initializeFM();
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}
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void setSampleRate_Hz(float32_t _sampleRate_Hz) {
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if (fCenter > _sampleRate_Hz/2.0f) { // Check freq range
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initializeFMErrors |= 8;
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return;
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}
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sampleRate_Hz = _sampleRate_Hz;
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// update phase increment for new frequency
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phaseIncrement = 512.0f * fCenter / sampleRate_Hz;
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}
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void showError(uint16_t e) {
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errorPrintFM = e;
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}
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uint16_t returnInitializeFMError(void) {
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return initializeFMErrors;
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}
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void update(void);
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private:
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// One input data pointer
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audio_block_f32_t *inputQueueArray_f32[1];
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float32_t fCenter = 15000.0f;
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float32_t phaseS = 0.0f;
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float32_t phaseS_C = 128.00f;
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float32_t phaseIncrement = 512.0f*15000.0f/AUDIO_SAMPLE_RATE_EXACT;
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float32_t sampleRate_Hz = AUDIO_SAMPLE_RATE_EXACT;
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uint16_t block_size = AUDIO_BLOCK_SAMPLES;
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// De-emphasis constant
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float32_t Kdem = 0.045334f;
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float32_t OneMinusKdem = 0.954666f;
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// Save last data point of atan2 for differentiator
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float32_t diffLast = 0.0f;
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// Save last data point for next update of de-emphasis filter
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float32_t dLast = 0.0f;
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// Control error printing in update(), normally off
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uint16_t errorPrintFM = 0;
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// Monitor constructor errors
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uint16_t initializeFMErrors = 0;
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uint16_t nFIR_IQ = 29;
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float32_t* fir_IQ_Coeffs = fir_IQ29;
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uint16_t nFIR_Out = 39;
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float32_t* fir_Out_Coeffs = fir_Out39;
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#if TEST_TIME_FM
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elapsedMicros tElapse;
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int32_t iitt = 999000; // count up to a million during startup
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#endif
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// ARM CMSIS FIR filter instances and State vectors, sized for max, max
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arm_fir_instance_f32 FMDet_I_inst;
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float32_t State_I_F32[AUDIO_BLOCK_SAMPLES + MAX_FIR_IQ_COEFFS]; // 228
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arm_fir_instance_f32 FMDet_Q_inst;
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float32_t State_Q_F32[AUDIO_BLOCK_SAMPLES + MAX_FIR_IQ_COEFFS]; // 248
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arm_fir_instance_f32 FMDet_Out_inst;
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float32_t State_Out_F32[AUDIO_BLOCK_SAMPLES + MAX_FIR_OUT_COEFFS];
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// Initialize the FM Detector, part of setting up and changing parameters
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void initializeFM(void) {
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if (fir_IQ_Coeffs && nFIR_IQ <= MAX_FIR_IQ_COEFFS) {
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/* the instance setup call
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* void arm_fir_init_f32(
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* arm_fir_instance_f32* S, points to instance of floating-point FIR filter structure.
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* uint16_t numTaps, Number of filter coefficients in the filter.
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* float32_t* pCoeffs, points to the filter coefficients buffer.
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* float32_t* pState, points to the state buffer.
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* uint32_t blockSize) Number of samples that are processed per call.
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*/
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arm_fir_init_f32(&FMDet_I_inst, nFIR_IQ, (float32_t*)fir_IQ_Coeffs, &State_I_F32[0], (uint32_t)block_size);
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arm_fir_init_f32(&FMDet_Q_inst, nFIR_IQ, (float32_t*)fir_IQ_Coeffs, &State_Q_F32[0], (uint32_t)block_size);
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}
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else initializeFMErrors |= B0001;
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if (fir_Out_Coeffs && nFIR_Out <= MAX_FIR_OUT_COEFFS) {
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arm_fir_init_f32(&FMDet_Out_inst, nFIR_Out, (float32_t*)fir_Out_Coeffs, &State_Out_F32[0], (uint32_t)block_size);
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}
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else initializeFMErrors |= B0010;
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dLast = 0.0;
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}
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/* FIR filter designed with http://t-filter.appspot.com
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* fs = 44100 Hz, < 5kHz ripple 0.29 dB, >9 kHz, -62 dB, 29 taps
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*/
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float32_t fir_IQ29[29] = {
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-0.000970689f, -0.004690292f, -0.008256345f, -0.007565650f,
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0.001524420f, 0.015435011f, 0.021920240f, 0.008211937f,
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-0.024286413f, -0.052184700f, -0.040532507f, 0.031248107f,
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0.146902412f, 0.255179564f, 0.299445269f, 0.255179564f,
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0.146902412f, 0.031248107f, -0.040532507f, -0.052184700f,
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-0.024286413f, 0.008211937f, 0.021920240f, 0.015435011f,
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0.001524420f, -0.007565650f, -0.008256345f, -0.004690292f,
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-0.000970689f};
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/* FIR filter designed with http://t-filter.appspot.com
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* fs = 44100 Hz, < 3kHz ripple 0.36 dB, >6 kHz, -60 dB, 39 taps
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* Corrected to give DC gain = 1.00
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*/
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float32_t fir_Out39[39] = {
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-0.0008908477f, -0.0008401274f, -0.0001837353f, 0.0017556005f,
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0.0049353322f, 0.0084952916f, 0.0107668722f, 0.0097441685f,
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0.0039877576f, -0.0063455016f, -0.0188069300f, -0.0287453055f,
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-0.0303831521f, -0.0186809770f, 0.0085931270f, 0.0493875744f,
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0.0971742012f, 0.1423015880f, 0.1745838382f, 0.1863024485f,
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0.1745838382f, 0.1423015880f, 0.0971742012f, 0.0493875744f,
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0.0085931270f, -0.0186809770f, -0.0303831521f, -0.0287453055f,
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-0.0188069300f, -0.0063455016f, 0.0039877576f, 0.0097441685f,
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0.0107668722f, 0.0084952916f, 0.0049353322f, 0.0017556005f,
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-0.0001837353f, -0.0008401274f, -0.0008908477f };
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};
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#endif
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