Jieng‐Jang Liu scite author profile

This paper proposes an improved means of estimation for the residual capacity of lead-acid batteries used in electric vehicles. The residual capacity of batteries in commercial products is usually indicated by the state of charge (SOC) of the battery set, in terms of the measurement of amp-hours, or roughly an instant voltage. More practical and accurate SOC in the operation of electric vehicles must consider the original capacity when the battery is first installed, capacity deficiency due to high discharge rate, capacity dissipated in internal resistance, and correcting parameters for the battery aging process. The proposed estimation techniques include the amphours measurement weighted by a correction function of various discharge rates, the transient open-circuit voltage measurement to compensate for the energy dissipation from internal resistance, and the reset of parameters in the linear function of SOC and open-circuit voltage for the aging effect. A monitoring circuit with a programmable logic chip is implemented, and the experimental results show that a more accurate indication of SOC is achieved using the modified estimation techniques, namely a weighted ampere-hour measurement with transient open-circuit voltage combined with the aging effect.

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Stability of the frequency adaptive control technique and its application to compact disk drives

Liu¹,

Yang²

2005

Control Engineering Practice

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Electromechanical Valve Actuator with Hybrid MMF for Camless Engine

Liu

Yang

2008

IFAC Proceedings Volumes

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Jieng‐Jang Liu

Multiobjective Optimal Design and Soft Landing Control of an Electromagnetic Valve Actuator for a Camless Engine

Frequency adaptive control technique for rejecting periodic runout

Improved estimation of residual capacity of batteries for electric vehicles

Stability of the frequency adaptive control technique and its application to compact disk drives

Electromechanical Valve Actuator with Hybrid MMF for Camless Engine

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