AC and DC describe the direction of current flow. GPC introduces a third dimension: the temporal structure of delivery — engineered from the electrochemical characteristics of the target system before operation begins.
How GPC WorksImpedance profile, ion transport dynamics, thermal response, and electrode kinetics of the target system are analyzed. This is the design input — not a runtime measurement.
From the analysis, a temporally structured current profile is generated. Its geometric form has no fixed shape — it is the output of an engineering design process specific to that chemistry or process.
The pre-engineered pattern is applied. Real-time feedback — voltage, current, temperature, impedance — adjusts only scalar parameters: amplitude, offset, duty cycle. The geometric structure never changes.
Battery determines the signal. Feedback shapes the waveform during operation.
No engineering design prior to operation. Single rectangular or constant signal.
Uniform SEI formation left to chance. Thermal stress uncontrolled.
Engineer determines the pattern. Chemistry is the design input — before operation begins.
Pre-engineered temporal structure. Geometry fixed. Only scalar parameters adapt in real time.
Controlled SEI nucleation, uniform ion flux, reduced thermal stress — outcomes engineered, not left to chance.
GPC patterns have no predefined geometric form. Any temporally structured current profile engineered from electrochemical first principles falls within the scope of the invention.
The forms below are illustrative approximations only — analogous to showing example bridge designs to explain structural engineering principles, without implying only those designs are permissible.
The same pre-engineering logic applies wherever current interacts with an electrochemical interface — from a single cell to a gigawatt storage site.
Battery formation, fast & mega charging, BESS grid stability, green hydrogen electrolysis, energy stations.
Semiconductor annealing, electroplating, anodizing, electrodissolution — precision current for process control.
Graphene exfoliation, fusion power pulsing, electrochemical synthesis, HyCap hybrid capacitor charging.
GP Sim, GP Pat, ChemPat — the full software layer for pattern generation and validation.
GPC is not a concept. It is a formally described, mathematically defined, independently documented technology — covered by an international patent family and supported by 22 published research papers.
