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首页> 外文会议>IEEE International Solid- State Circuits Conference >23.3 A 0-to-60V-Input VCM Coulomb Counter with Signal-Dependent Supply Current and ±0.5 Gain Inaccuracy from −50°C to 125°C
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23.3 A 0-to-60V-Input VCM Coulomb Counter with Signal-Dependent Supply Current and ±0.5 Gain Inaccuracy from −50°C to 125°C

机译:23.3一个0至60V输入的V CM 库仑计数器,其信号取决于电源电流,在-50°C至125°C的范围内具有±0.5%的增益误差

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摘要

Most battery-powered systems require measurement of the battery's state of charge, (SOC). A straightforward way to determine SOC is to keep track of the current flowing in and out of a battery, a method known as coulomb counting. Compared to other methods such as voltage or impedance monitoring, coulomb counting is simple to implement, does not require complex algorithms and is independent of cell chemistry. However, coulomb counters must operate continuously and essentially integrate forever; traditionally, their relatively high power consumption (several tens of µA e.g. [1]–[3]) and susceptibility to drift in the presence of offset have prevented their more widespread use.
机译:大多数电池供电的系统都需要测量电池的充电状态(SOC)。确定SOC的直接方法是跟踪流入和流出电池的电流,这是一种称为库仑计数的方法。与其他方法(例如电压或阻抗监测)相比,库仑计数易于实现,不需要复杂的算法,并且与细胞化学性质无关。但是,库仑计数器必须连续运行,并且必须永久集成。传统上,它们相对较高的功耗(例如[1] – [3]数十微安)以及在存在失调的情况下容易产生漂移,因此阻碍了它们的广泛应用。

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