Technical
Why Cables Matter: Methods & Math Deep Dive
Deep dive on our cable test math: LDV, bounded DTW, ultrasonic decay (τ), and gated FR—plain-English methods with reproducible steps from Princess Pasta Audio Lab.
Why Cables Matter: Methods & Math Deep Dive
Deep dive on our cable test math: LDV, bounded DTW, ultrasonic decay (τ), and gated FR—plain-English methods with reproducible steps from Princess Pasta Audio Lab.
Why Cables Matter: From What We Hear to What We...
We’re launching a measurement-first look at speaker cables. Using laser Doppler vibrometry (LDV), time-alignment (DTW), ultrasonic decay, and noise fingerprinting, we connect cone motion to what reaches your seat. Methods,...
Why Cables Matter: From What We Hear to What We...
We’re launching a measurement-first look at speaker cables. Using laser Doppler vibrometry (LDV), time-alignment (DTW), ultrasonic decay, and noise fingerprinting, we connect cone motion to what reaches your seat. Methods,...
Why Even a Well-Designed AVR Can Sound Better: ...
Modern AVRs are excellent, but they live in a noisy electromagnetic ecosystem. Learn how cables, isolation transformers, and mechanical isolation reduce noise ingress and improve perceived clarity.
Why Even a Well-Designed AVR Can Sound Better: ...
Modern AVRs are excellent, but they live in a noisy electromagnetic ecosystem. Learn how cables, isolation transformers, and mechanical isolation reduce noise ingress and improve perceived clarity.
The Science of Speaker Cable Capacitance and Sound
Audiophiles have debated the importance of speaker cables for decades. The discussion often drifts into subjective impressions and marketing claims, but beneath it all lies a set of measurable electrical...
The Science of Speaker Cable Capacitance and Sound
Audiophiles have debated the importance of speaker cables for decades. The discussion often drifts into subjective impressions and marketing claims, but beneath it all lies a set of measurable electrical...