Journal ArticleDOI
Accurate electrical battery model capable of predicting runtime and I-V performance
Min Chen,Gabriel A. Rincon-Mora +1 more
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TLDR
An accurate, intuitive, and comprehensive electrical battery model is proposed and implemented in a Cadence environment that accounts for all dynamic characteristics of the battery, from nonlinear open-circuit voltage, current-, temperature-, cycle number-, and storage time-dependent capacity to transient response.Abstract:
Low power dissipation and maximum battery runtime are crucial in portable electronics. With accurate and efficient circuit and battery models in hand, circuit designers can predict and optimize battery runtime and circuit performance. In this paper, an accurate, intuitive, and comprehensive electrical battery model is proposed and implemented in a Cadence environment. This model accounts for all dynamic characteristics of the battery, from nonlinear open-circuit voltage, current-, temperature-, cycle number-, and storage time-dependent capacity to transient response. A simplified model neglecting the effects of self-discharge, cycle number, and temperature, which are nonconsequential in low-power Li-ion-supplied applications, is validated with experimental data on NiMH and polymer Li-ion batteries. Less than 0.4% runtime error and 30-mV maximum error voltage show that the proposed model predicts both the battery runtime and I-V performance accurately. The model can also be easily extended to other battery and power sourcing technologies.read more
Citations
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The impact of the time delay on the load frequency control system in microgrid with plug-in-electric vehicles
TL;DR: In this paper, the authors investigated the stability of a microgrid with plug-in-electric vehicles and communication delay and determined the parameters that affecting the stability and the maximum allowable delay.
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Battery Energy Storage System to Stabilize Transient Voltage and Frequency and Enhance Power Export Capability
TL;DR: The proposed lead-lag controlled BESS manifests better transient performance than BESS with PI-lead and traditional PI controller, in the event of divergent temporary and permanent faults.
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Mathematical Modeling for Economic Evaluation of Electric Vehicle to Smart Grid Interaction
TL;DR: In this model the economic analysis has been done in such a way that the battery related liabilities do not become a financial burden to EV owners and the optimal cost of electricity is determined such that the grid, EV owners, and consumers are benefitted.
Journal ArticleDOI
Generalized Characterization Methodology for Performance Modelling of Lithium-Ion Batteries
TL;DR: This paper proposes a comprehensive seven-step methodology for laboratory characterization of Li-ion batteries, in which the battery’s performance parameters are determined and their dependence on the operating conditions are obtained, and a novel hybrid procedure for parameterizing the batteries’ equivalent electrical circuit (EEC), which is used to emulate the batteries' dynamic behavior.
References
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TL;DR: In this article, the authors present the principles of operation and reactions factors affecting battery performance standardization of battery design selection and application of batteries, as well as a discussion of the differences between primary and secondary batteries.
Journal ArticleDOI
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Battery modeling for energy aware system design
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