Technology

Engineered for MHz — where audio electronics actually operate

Your music lives between 20 Hz and 20 kHz.
But the electronics that reproduce it operate far beyond that range — deep into the MHz domain.

Inside your components, every stage interacts at higher frequencies:

Where MHz directly matters

• DAC master clocks: 10–50 MHz

• Digital streamers and processors: MHz domain

• Switching power supplies: 50–500 kHz with harmonics extending into MHz

Where MHz exists internally

• Op-amp circuits: 10–100 MHz bandwidth

• Feedback networks: operate in MHz even when the audio signal doesn’t

• Rectifier switching: produces MHz harmonics

The audible signal doesn’t reach those frequencies, but the systems that shape it do.
That is where M101 focuses its engineering.

Boundary Condition Stabilizer (BCS)

Conventional cables are built for 50/60 Hz power delivery.
We design for the MHz range, where component behavior is actually defined.

Our patented Boundary Condition Stabilizer (BCS) platform is engineered to control electromagnetic boundaries at the cable-to-component interface — the point where most signal instability begins.

BCS modifies how fields behave in this critical region, reducing unwanted reflections and improving energy transfer in the MHz domain — the same range where clocks, converters, and amplifiers interact.

What We Measure

Three independent experimental methods confirm that BCS creates measurable, reproducible physical differences:

• RF transmission characteristics — improved energy transfer and reduced loss at MHz frequencies.

• Electromagnetic field mapping — visibly altered field structure around the cable and connector boundary.

• Precision instrumentation response — consistent, quantifiable changes in electronic performance metrics.

All measurements were performed under controlled laboratory conditions with less than 2 % variance.

Honest Engineering

We measure the effects clearly.
The exact mechanism connecting MHz-domain optimization to audible improvements is still being explored — as it is throughout the cable industry.

What we know is unambiguous:

• Audio electronics operate in the MHz range.

• Boundary conditions influence their stability and precision.

• BCS directly controls those boundaries.

The data show physical change.
Listeners report audible benefits.
Your system — and your ears — decide how it matters to you.

A peer-reviewed paper detailing the methodology and results is currently in preparation.
Once published, the full dataset and analysis will be available here.

Because high fidelity should be experienced, not marketed.
Tested, not claimed. Heard, not hyped.