ENGINEERED FOR MHz WHERE AUDIO ELECTRONICS ACTUALLY OPERATE
Your audio signal is 20 Hz to 20 kHz. That’s what you hear.
But inside your components, things happen at much higher frequencies:
Where MHz Directly Matters:
– DAC master clocks: 10-50 MHz
– Streamer digital processing: MHz domain
– Switching power supplies: 50-500 kHz (harmonics to MHz)
Where MHz Exists Internally:
– Op-amp circuits: Designed for 10-100 MHz bandwidth
– Feedback networks: Operate at MHz even if audio signal doesn’t
– Rectifier switching: Creates MHz harmonics
The audio signal itself doesn’t need MHz bandwidth. But the electronics processing that signal, and their power delivery, operate in the MHz domain.
M101 TECHNOLOGY: OPTIMIZED FOR MHz PERFORMANCE
Standard power cables are designed for 60 Hz current delivery. We engineered for a different frequency range.
BCM (Boundary Condition Modifier) is our patented approach that modifies electromagnetic boundary conditions at the cable-to-component interface.
The result: Demonstrably different electromagnetic behavior in the MHz domain — the same region where internal electronics and power conversion processes operate.
What We Measure:
– RF transmission characteristics: Improved energy transfer at MHz
– Electromagnetic field: Measurably different behavior around cable
– Equipment performance: Observable effects on precision instruments
Three independent measurement methods. All show BCM creates real, reproducible physical differences.
THE OSCILLOSCOPE PROOF
We powered a precision oscilloscope with generic and M101 Flare power cables and measured its own signal performance. Both power cables produced measurably different oscilloscope behavior.
Theory says this shouldn’t happen—”power supply isolation should prevent cable effects.” But measurement shows it does happen.
If power cables affect precision test equipment performance, they must affect audio equipment performance as well.
The effect is real, demonstrable, and reproducible.
HONEST ENGINEERING
We measure the effects clearly. The complete mechanism connecting MHz cable optimization to audible improvements remains incompletely understood—as it is throughout the cable industry.
What we know: Electronics operate at MHz internally. Power cables affect MHz performance. We engineered BCM for this frequency range.
The measurements show BCM is physically different. Customer reports suggest audible improvements. Your evaluation in your system determines if it matters to you.
Full measurement data, methodology details, and instrumentation results will be available here. The peer‑reviewed paper describing boundary‑condition behavior in cable systems will be linked here upon publication.