Abstract (English): Phase 2 of the JAIPER-CORE ecosystem establishes the transition from a phenomenological exploration of RLC transients to a structured experimental framework for adaptive ringing mitigation via geometric signal shaping. During this stage, the first functional pipeline integrating instrumental acquisition, BMP image temporal reconstruction, V10 signal generation, and differential energy validation was developed and stabilized. The investigation isolated the distributed parasitic dynamics of the circuit, modeling the macroscopic dynamics as Hₘacro (s) = 1 / (Ls + Rₜotal) and identifying an empirical distributed parasitic capacitance of Cₚar ≈ 1. 36 pF. Following the detection of instrumental aliasing anomalies, a rigorous metrological standard was established using exclusively 10X probes with corrected coupling at nanosecond scales. V10 signals consistently reduced overshoot by 60% to 85%, consolidating the initial JAIPER coefficient J = 1 - (Ectrl / Eᵣef) as the baseline efficiency metric. Resumen (Español): Resumen (Español): La Fase 2 del ecosistema JAIPER-CORE establece la transición de una exploración fenomenológica de transitorios RLC hacia un framework experimental estructurado para la mitigación adaptativa de ringing mediante el shaping geométrico de señales. Durante esta etapa se desarrolló y estabilizó el primer pipeline funcional que integra la adquisición instrumental, reconstrucción temporal de imágenes BMP, generación de señales V10 y validación energética diferencial. La investigación aisló las dinámicas parásitas distribuidas del circuito, modelando la dinámica macroscópica como Hₘacro (s) = 1 / (Ls + Rₜotal) y determinando una capacitancia parásita distribuida empírica de Cₚar ≈ 1. 36 pF. Tras detectar anomalías de aliasing instrumental, se estableció un estándar metrológico riguroso utilizando exclusivamente sondas 10X con acoplamiento corregido en escalas de nanosegundos. Las señales V10 redujeron consistentemente el overshoot entre un 60% y 85%, consolidando el coeficiente JAIPER inicial J = 1 - (Ectrl / Eᵣef) como métrica base de eficiencia. Author Note The author is a native Spanish speaker and is available for communication in Spanish. English is used in this document for international accessibility.
jaime eliecer perez davila (Wed,) studied this question.
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