2 Commits

+24 -2
View File
@@ -449,7 +449,12 @@ body {
<b>IEC True Ballistics</b> — Lobdell-Modell<br>
|x| → Biquad LPF 2.224 Hz, Q 0.6053<br>
300ms Anstiegszeit, ~1% Überschwingen<br>
<span style="color:#555">Der Filter <i>ist</i> die Nadelphysik.</span>
<span style="color:#555">Der Filter <i>ist</i> die Nadelphysik (+ kurzer Transient-Assist).</span>
</div>
<div class="iec-box" id="natural-box" style="display:none">
<b>Natural+</b> — neue Ballistikformel<br>
Hüllkurve mit separatem Attack/Release + 2.-Ordnung Nadelmodell<br>
Natürliches Einschwingen, weniger Zappeln, weicher Rücklauf.
</div>
<div class="iec-box" id="natural-box" style="display:none">
<b>Natural+</b> — neue Ballistikformel<br>
@@ -1070,6 +1075,11 @@ class PhysicsVU:
self._iec_coeffs = self._calc_biquad_lpf(2.224, 0.6053)
self._iec_z = np.zeros(2)
self._iec_level = 0.0
self._iec_fast = 0.0
self.iec_transient_boost = 0.22
# Natural+ Formel (neue Ballistik)
self._natural_env = 0.0
# Natural+ Formel (neue Ballistik)
self._natural_env = 0.0
@@ -1156,7 +1166,19 @@ class PhysicsVU:
if self.mode == 'iec_true':
rect = np.abs(mono).astype(np.float64)
filt = self._biquad_process(self._iec_coeffs, self._iec_z, rect)
self._iec_level = float(filt[-1])
# Kleiner schneller Pfad gegen subjektiven Bass-Delay
block_dt = max(1.0 / self.sample_rate, len(rect) / self.sample_rate)
block_peak = float(np.max(rect))
atk_t = 0.012
rel_t = 0.140
alpha_a = 1.0 - math.exp(-block_dt / atk_t)
alpha_r = 1.0 - math.exp(-block_dt / rel_t)
alpha = alpha_a if block_peak > self._iec_fast else alpha_r
self._iec_fast += (block_peak - self._iec_fast) * alpha
iec_slow = float(filt[-1])
self._iec_level = ((1.0 - self.iec_transient_boost) * iec_slow +
self.iec_transient_boost * self._iec_fast)
# ── Audio Output ──
# Monitor: Signal hören (mit Filter/Solo je nach Mode)