What question did this study set out to answer?

The research aims to differentiate charging regimes in DC–AC charging using a state-equivalent time criterion Δt(Q).

March 24, 2026Open Access

Δt(Q): A State-Equivalent Time Criterion Revealing Regime Structure in DC–AC Charging

Key Points

The research aims to differentiate charging regimes in DC–AC charging using a state-equivalent time criterion Δt(Q).
Introduced Δt(Q) as a metric for evaluating charging processes
Identified distinct charging regimes: misleading, transitional, effective, and boundary
Extended the framework for interpreting DC–AC charging behavior
Charging behavior organizes into distinct regimes based on the Δt(Q) metric
Apparent voltage acceleration does not indicate faster state progression
Introduced time-scale parameter Π and excitation strength κ as critical factors in regime differentiation

Abstract

This version (v2) introduces regime differentiation based on Δt (Q) and extends the framework for interpreting DC–AC charging behavior. Unlike voltage-based metrics, Δt (Q) compares charging processes at identical states, revealing that apparent voltage acceleration does not necessarily correspond to faster state progression. The results show that charging behavior organizes into distinct regimes (misleading, transitional, effective, and boundary). A preliminary time-scale parameter Π is introduced as an organizing variable, while the excitation strength κ = A / IDC is identified as an additional gating factor. This work establishes a state-based perspective for evaluating fast charging and highlights the importance of regime-dependent interpretation.

Δt(Q): A State-Equivalent Time Criterion Revealing Regime Structure in DC–AC Charging

Key Points

Abstract

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