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[fix](trx-backend-soapysdr): restore wfm agc and cutoffs

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Signed-off-by: Stan Grams <sjg@haxx.space>
This commit is contained in:
Stan Grams
2026-03-01 00:35:19 +01:00
parent a6847742d9
commit b0d8ce8e29
2 changed files with 35 additions and 9 deletions
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src/trx-server/trx-backend/trx-backend-soapysdr/src/demod.rs
+13 -4
View File
@@ -11,13 +11,14 @@ const RDS_BPF_Q: f32 = 10.0;
/// Pilot tone frequency (Hz).
const PILOT_HZ: f32 = 19_000.0;
/// Audio bandwidth for WFM (Hz).
/// 17 kHz preserves more top-end while still leaving guard band below the
/// 19 kHz pilot.
const AUDIO_BW_HZ: f32 = 17_000.0;
/// 15.8 kHz leaves more guard band below the 19 kHz pilot and reduces
/// top-end artifacts on strong signals while still preserving the useful
/// broadcast audio range.
const AUDIO_BW_HZ: f32 = 15_800.0;
/// Stereo L-R subchannel bandwidth for WFM (Hz).
/// Keep this a bit lower than the mono path because the recovered difference
/// signal is noisier and more prone to high-frequency artifacts.
const STEREO_DIFF_BW_HZ: f32 = 15_800.0;
const STEREO_DIFF_BW_HZ: f32 = 14_500.0;
/// Q values for a proper 4th-order Butterworth cascade (two 2nd-order stages).
/// Stage 1: Q = 1 / (2 cos(π/8))
const BW4_Q1: f32 = 0.5412;
@@ -220,6 +221,14 @@ impl SoftAgc {
(x * gain).clamp(-1.0, 1.0)
}
pub(crate) fn process_pair(&mut self, left: f32, right: f32) -> (f32, f32) {
let gain = self.update_gain(left.abs().max(right.abs()));
(
(left * gain).clamp(-1.0, 1.0),
(right * gain).clamp(-1.0, 1.0),
)
}
pub(crate) fn process_complex(&mut self, x: Complex<f32>) -> Complex<f32> {
let gain = self.update_gain((x.re * x.re + x.im * x.im).sqrt());
let mut y = x * gain;
src/trx-server/trx-backend/trx-backend-soapysdr/src/dsp.rs
+22 -5
View File
@@ -690,12 +690,29 @@ impl ChannelDsp {
}
// --- 4. Demodulate + post-process -----------------------------------
// WFM: full composite decoder (handles its own DC blocks + deemphasis).
// All other modes: stateless demodulator → DC blocker (where enabled) → AGC.
// WFM bypasses post-audio AGC so the deemphasized stereo path is
// heard directly; all other modes use the normal post-demod AGC path.
// WFM: full composite decoder (handles its own DC blocks + deemphasis),
// then apply post-audio AGC on the decoded PCM. Other modes use the
// normal stateless demodulator → DC blocker (where enabled) → AGC path.
let audio = if let Some(decoder) = self.wfm_decoder.as_mut() {
decoder.process_iq(&decimated)
let mut out = decoder.process_iq(&decimated);
if !self.wfm_stereo && self.output_channels >= 2 {
for pair in out.chunks_exact_mut(2) {
let mono = self.audio_agc.process(pair[0]);
pair[0] = mono;
pair[1] = mono;
}
} else if self.wfm_stereo && self.output_channels >= 2 {
for pair in out.chunks_exact_mut(2) {
let (left, right) = self.audio_agc.process_pair(pair[0], pair[1]);
pair[0] = left;
pair[1] = right;
}
} else {
for sample in &mut out {
*sample = self.audio_agc.process(*sample);
}
}
out
} else {
let mut raw = self.demodulator.demodulate(&decimated);
for s in &mut raw {