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ATV demod: fixed AM demodulator. Fixes issue #459
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@ -42,11 +42,11 @@ ATVDemodSink::ATVDemodSink() :
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m_verticalSynchroDetected(false),
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m_ampLineSum(0.0f),
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m_ampLineAvg(0.0f),
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m_effMin(2000000.0f),
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m_effMax(-2000000.0f),
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m_ampMin(0.0f),
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m_ampMax(0.3f),
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m_ampDelta(0.3f),
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m_effMin(2.0f),
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m_effMax(-2.0f),
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m_ampMin(-1.0f),
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m_ampMax(1.0f),
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m_ampDelta(2.0f),
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m_ampSample(0.0f),
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m_colIndex(0),
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m_sampleIndex(0),
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@ -170,7 +170,7 @@ void ATVDemodSink::demod(Complex& c)
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{
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//Amplitude FM
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magSq = fltI*fltI + fltQ*fltQ;
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m_objMagSqAverage(magSq);
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m_magSqAverage(magSq);
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sampleNorm = sqrt(magSq);
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sampleNormI = fltI/sampleNorm;
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sampleNormQ = fltQ/sampleNorm;
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@ -225,14 +225,14 @@ void ATVDemodSink::demod(Complex& c)
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{
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//Amplitude AM
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magSq = fltI*fltI + fltQ*fltQ;
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m_objMagSqAverage(magSq);
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m_magSqAverage(magSq);
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sampleNorm = sqrt(magSq);
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sample = sampleNorm / SDR_RX_SCALEF;
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sample = 2.0 * (sampleNorm / SDR_RX_SCALEF) - 1.0;
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}
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else if ((m_settings.m_atvModulation == ATVDemodSettings::ATV_USB) || (m_settings.m_atvModulation == ATVDemodSettings::ATV_LSB))
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{
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magSq = fltI*fltI + fltQ*fltQ;
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m_objMagSqAverage(magSq);
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m_magSqAverage(magSq);
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sampleNorm = sqrt(magSq);
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Real bfoValues[2];
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@ -254,13 +254,13 @@ void ATVDemodSink::demod(Complex& c)
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{
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float rawDeviation;
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sample = m_objPhaseDiscri.phaseDiscriminatorDelta(c, magSq, rawDeviation) + 0.5f;
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m_objMagSqAverage(magSq);
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m_magSqAverage(magSq);
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sampleNorm = sqrt(magSq);
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}
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else
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{
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magSq = fltI*fltI + fltQ*fltQ;
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m_objMagSqAverage(magSq);
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m_magSqAverage(magSq);
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sampleNorm = sqrt(magSq);
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sample = 0.0f;
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}
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@ -281,7 +281,7 @@ void ATVDemodSink::demod(Complex& c)
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m_effMax = sample;
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}
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if (m_amSampleIndex < m_samplesPerLine * m_settings.m_nbLines) // do not extend estimation period past a full image
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if (m_amSampleIndex < m_samplesPerLine * m_settings.m_nbLines * m_settings.m_fps * 5) // calculate on 5s
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{
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m_amSampleIndex++;
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}
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@ -290,25 +290,25 @@ void ATVDemodSink::demod(Complex& c)
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// scale signal based on extrema on the estimation period
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m_ampMin = m_effMin;
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m_ampMax = m_effMax;
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m_ampDelta = (m_ampMax - m_ampMin) * 0.3f;
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m_ampDelta = (m_ampMax - m_ampMin);
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m_ampSample = 0.3f; // allow passing to fine scale estimation
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if (m_ampDelta <= 0.0) {
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m_ampDelta = 0.3f;
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m_ampDelta = 1.0f;
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}
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qDebug("ATVDemod::demod: m_ampMin: %f m_ampMax: %f m_ampDelta: %f", m_ampMin, m_ampMax, m_ampDelta);
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//Reset extrema
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m_effMin = 2000000.0f;
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m_effMax = -2000000.0;
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m_effMin = 2.0f;
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m_effMax = -2.0f;
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m_amSampleIndex = 0;
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}
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//Normalisation of current sample
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sample -= m_ampMin;
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sample /= (m_ampDelta * 3.1f);
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sample /= (m_ampDelta*0.9);
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}
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sample = m_settings.m_invertVideo ? 1.0f - sample : sample;
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@ -45,7 +45,7 @@ public:
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void setScopeSink(BasebandSampleSink* scopeSink) { m_scopeSink = scopeSink; }
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void setTVScreen(TVScreen *tvScreen) { m_registeredTVScreen = tvScreen; } //!< set by the GUI
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double getMagSq() const { return m_objMagSqAverage; } //!< Beware this is scaled to 2^30
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double getMagSq() const { return m_magSqAverage; } //!< Beware this is scaled to 2^30
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bool getBFOLocked();
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void setVideoTabIndex(int videoTabIndex) { m_videoTabIndex = videoTabIndex; }
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@ -147,7 +147,7 @@ private:
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int m_colIndex;
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int m_sampleIndex;
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unsigned int m_amSampleIndex;
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int m_amSampleIndex;
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int m_rowIndex;
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int m_lineIndex;
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@ -158,7 +158,7 @@ private:
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//*************** RF ***************
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MovingAverageUtil<double, double, 32> m_objMagSqAverage;
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MovingAverageUtil<double, double, 32> m_magSqAverage;
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NCO m_nco;
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SimplePhaseLock m_bfoPLL;
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@ -194,12 +194,12 @@ private:
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// Floor Detection (0.1 nominal)
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if (sample < m_settings.m_levelSynchroTop)
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{
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if (m_synchroSamples == 0) // AM scale reset on transition if within range
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{
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m_effMin = 2000000.0f;
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m_effMax = -2000000.0f;
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m_amSampleIndex = 0;
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}
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// if (m_synchroSamples == 0) // AM scale reset on transition if within range
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// {
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// m_effMin = 2000000.0f;
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// m_effMax = -2000000.0f;
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// m_amSampleIndex = 0;
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// }
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m_synchroSamples++;
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}
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@ -209,16 +209,16 @@ private:
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}
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// Refine AM scale estimation on HSync pulse sequence
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if (m_amSampleIndex == (3*m_numberSamplesPerHTop)/2)
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{
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m_ampMin = m_effMin;
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m_ampMax = m_effMax;
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m_ampDelta = (m_ampMax - m_ampMin);
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// if (m_amSampleIndex == (3*m_numberSamplesPerHTop)/2)
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// {
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// m_ampMin = m_effMin;
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// m_ampMax = m_effMax;
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// m_ampDelta = (m_ampMax - m_ampMin);
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if (m_ampDelta <= 0.0) {
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m_ampDelta = 0.3f;
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}
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}
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// if (m_ampDelta <= 0.0) {
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// m_ampDelta = 0.3f;
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// }
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// }
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// H sync pulse
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m_horizontalSynchroDetected = (m_synchroSamples == m_numberSamplesPerHTop);
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@ -285,12 +285,12 @@ private:
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// Floor Detection 0
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if (sample < m_settings.m_levelSynchroTop)
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{
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if ((m_synchroSamples == 0) && (m_ampSample > 0.25f) && (m_ampSample < 0.35f)) // AM scale reset on transition
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{
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m_effMin = 2000000.0f;;
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m_effMax = -2000000.0f;;
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m_amSampleIndex = 0;
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}
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// if ((m_synchroSamples == 0) && (m_ampSample > 0.25f) && (m_ampSample < 0.35f)) // AM scale reset on transition
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// {
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// m_effMin = 2000000.0f;;
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// m_effMax = -2000000.0f;;
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// m_amSampleIndex = 0;
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// }
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m_synchroSamples++;
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}
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@ -300,17 +300,17 @@ private:
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}
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// Refine AM scale estimation on HSync pulse sequence
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if ((m_amSampleIndex == (3*m_numberSamplesPerHTop)/2) && (sample > 0.25f) && (sample < 0.35f))
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{
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m_ampSample = sample;
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m_ampMin = m_effMin;
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m_ampMax = m_effMax;
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m_ampDelta = (m_ampMax - m_ampMin);
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// if ((m_amSampleIndex == (3*m_numberSamplesPerHTop)/2) && (sample > 0.25f) && (sample < 0.35f))
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// {
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// m_ampSample = sample;
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// m_ampMin = m_effMin;
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// m_ampMax = m_effMax;
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// m_ampDelta = (m_ampMax - m_ampMin);
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if (m_ampDelta <= 0.0) {
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m_ampDelta = 0.3f;
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}
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}
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// if (m_ampDelta <= 0.0) {
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// m_ampDelta = 0.3f;
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// }
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// }
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// H sync pulse
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m_horizontalSynchroDetected = (m_synchroSamples == m_numberSamplesPerHTop) && (m_sampleIndex > (m_samplesPerLine/2) + m_numberSamplesPerLineSignals);
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