Wen-Je Lu, Sheng-Syong Wang, Min-Yu Tseng, Chua-Chin Wang
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引用次数: 5
摘要
本文介绍了一种采用高压电流传感器和标定电流估计方法的电池模块容量监测系统。电池模块通常用来产生高压和大电流来驱动电动汽车的电机。电池模块由一个系统控制和监控,以保护模块免受可能的危害,例如电池管理系统(BMS)。然而,由于BMS需要处理高压信号,因此很难使用逻辑集成电路(ic)来实现。相比之下,该设计采用了典型的0.25 μm 1P3M 60V BCD工艺和现场可编程门阵列(FPGA)来解决这个问题。该系统的传感电流范围为0.44 A ~ 2.2 A,电压范围为36 V ~ 55 V。容量估计的最坏情况偏差为8.6%。
A capacity monitoring system with HV current sensor and calibrated current estimation approach
This paper presents a battery module capacity monitoring system with a high voltage (HV) current sensor and a calibrated current estimation approach (CCEA) method. Battery modules usually are utilized to generate HV and large currents to drive motors of electric vehicle (EV). The battery modules are controlled and monitored by a system to protect the modules from possible hazards, e.g., battery management systems (BMS). However, since the BMS needs to deal with HV signals, it is very difficult to be implemented using logic integrated circuits (ICs). The proposed design, by contrast, is implemented using a typical 0.25 μm 1P3M 60V BCD process and field programmable gate array (FPGA) to resolve this issue. The sensing current range of the proposed system is 0.44 A ~ 2.2 A, while the voltage is from 36 V to 55 V. The worst-case deviation of the capacity estimation is 8.6 %.
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