Assumed Balance

01 / 07

The Assumption

Power seems balanced, but it is not.

The system looks healthy while hidden harmonic current is already consuming capacity out of view.

Visible load balance Appears normal
Hidden harmonics Already present
Usable headroom Overstated

Hidden Loss

02 / 07

The Problem

Unusable current still consumes capacity.

Stray harmonics and reactive losses circulate through the system, turning capacity into heat instead of productive work.

Stray current High
Heat generation Rising
Productive work Diluted

Operating Cost

03 / 07

The Cost

Heat and electrical stress drive failures and OPEX.

Lost power, voltage fluctuation, and temperature rise increase electricity costs while shortening equipment life.

Equipment stress Severe
Failure risk Climbing
OPEX pressure Elevated

Symptom Control

04 / 07

Partial Solutions

Most mitigation reduces symptoms, but does not recover the lost capacity.

Filters and correction equipment can still be useful, but they typically address distortion symptoms rather than converting the trapped losses into usable capacity.

Visible distortion Partially reduced
Recoverable losses Still high
Capacity burden Still rising

Parallel-Passive Install

05 / 07

The Intercept

A smartphone-sized AmpMiner mounts at the edge sub-panel with zero downtime.

It engages the magnetic circuit in parallel, without utility contract changes and without altering downstream equipment behavior.

Edge sub-panel access Available
Downstream load behavior Unchanged
Downtime required None

Recovery Path

06 / 07

The Mechanism

AmpMiner recovers harmonic, reactive, and stray-current I²R losses into usable 50/60 Hz capacity.

Its parallel-passive conversion path lowers upstream kVA demand, improves usable load power, and reduces THD and fluctuation without disrupting the load.

Loss capture Active
Usable capacity Recovered
Upstream kVA demand Falling

Measured Outcome

07 / 07

The Result

More capacity from the same electrical system.

Headroom is recovered, upstream demand falls, OPEX drops, power quality improves, and failure pressure on equipment is reduced.

Recovered headroom Available
OPEX reduction Measured
Power quality Cleaner

What AmpMiner Is Not

AmpMiner® is not a harmonic filter, UPS, battery system or automation layer. It complements harmonic filters and power-factor correction by recovering usable capacity from harmonic, reactive, and stray-current I²R losses upstream of the load.

Note: Recovered amperage refers to restored usable capacity within the infrastructure - not net energy creation.

Deployment Model

Parallel-passive recovery.

  • 1. Measure Recoverable Losses

    Harmonic distortion, reactive power, and stray-current I²R losses are measured at the edge sub-panel to quantify recoverable capacity.

  • 2. Install In Parallel

    A smartphone-sized AmpMiner installs at 3-phase edge sub-panels with zero downtime, engaging the magnetic circuit in parallel without changing utility service or load behavior.

  • 3. Verify And Monitor

    Recovered capacity and power-quality improvement are validated with revenue-grade metering and encrypted, unidirectional telemetry.

Specifications

Installation Parallel-passive edge sub-panel (208/480 V)
Form Factor Edge sub-panel / cabinet
Connection Phase-to-neutral & phase-to-phase
Certification UL 1283 & CSA C22.2 No. 8-13
Verification Revenue-grade M&V
Telemetry Encrypted unidirectional telemetry / JPU

Commercial Model

Paid for by the laws of physics.

With our Energy Services Agreement (ESA), you pay only from verified measured savings - no CAPEX required.

Auditable M&V 2-5 Year Terms
Request Engineering Audit