打印
[资料分享]

TI电池管理芯片--电池术语解码2

[复制链接]
568|1
手机看帖
扫描二维码
随时随地手机跟帖
跳转到指定楼层
楼主
xyz549040622|  楼主 | 2020-5-26 19:16 | 只看该作者 回帖奖励 |倒序浏览 |阅读模式
In a previous post, I talked about battery form factors. This time, let’s get into a little bit of alphabet soup, starting with cell configuration.

The nomenclature here is xSyP, which is shorthand for “how many cells are in series and how many are in parallel.” More cells in series will raise the voltage, while more in parallel raises the capacity in terms of ampere-hours (mAh or Ah). Since P=I*V, you can calculate the watt-hours by multiplying nominal voltage by nominal ampere-hours. Li-ion batteries typically have a nominal voltage of 3.7V, with some newer ones averaging 3.8V. They typically charge up to 4.2V and discharge down to 3.0V, so you can calculate the voltage range of an entire pack by multiplying those limits by the number of series cells. Note that some newer cells with advanced electrolytes support charging up to 4.35V and even higher, so check your battery or cell data sheet to get the full picture.

The next letter you will see thrown around is “C,” as in “C-rate.” It’s a way to specify charging or discharging current as a ratio of the nominal battery capacity. Think of C as “capacity,” so if your battery label says “capacity: 1000mAh” and someone says to charge at a C/2 rate, that means to charge with a current of 1,000/2 = 500mA. If the discharge is specified at C/5, that means a current of 200mA. Sometimes these are also called “hour rates,” since they refer to the current that would nominally discharge a full battery to empty in that number of hours.

C/5 means to use a current that would discharge the battery from full to empty in about five hours. Again, these are “nominal” because discharging at C/2 might actually result in hitting empty in less than one hour, depending on the temperature, cell characteristics and other factors.

Let’s close with a few three-letter acronyms: SOC, DOD and SOH. State of charge (SOC) is the percentage that you see on your phone or computer. This is actually a relative measure since it depends on the system characteristics as well as load and temperature, but it gives you a rough idea of where y**ice’s battery is between full (100%) and empty (0%). Depth of discharge (DOD) can be thought of as the inverse of SOC. A DOD of 100% means that a battery is fully discharged and has no more energy at all, while a device reporting SOC = 0% could still have juice in the battery – just not enough to operate.

State of health (SOH) is another percentage measure, but instead of how much remaining energy is in your battery now, it tells you roughly how old your battery is compared to a new one. Like SOC, it’s also a relative term that depends on system characteristics. When SOH = 80%, it means that your battery, when fully charged, will give you about 80% of the run time as it did when it was new. Instead of just going on your gut feeling that your battery’s not lasting as long as before, SOH can give you a more solid number to quantify it. Not all products report SOH (or they don’t report it accurately), since it requires a fuel gauge that can track a battery’s characteristics as it ages. TI’s Impedance Track™ algorithm is the only one on the market that can track aging battery impedance, so gauges like the bq27421, bq27532 or bq40z50 are some of the only ones that can accurately report SOH.

Now that we’ve covered some basic terminology, in future posts I’ll discuss SOC in more depth. There’s a lot more to understanding that percentage number than most people think. Until then, if you want to dive in, head over to ti.com/battery and click the BMS University tab to view some presentations on fuel-gauging basics.

Are there other battery terms that you would like to see decoded in the next post? Respond with your answers below!

使用特权

评论回复

相关帖子

沙发
xyz549040622|  楼主 | 2020-5-26 19:17 | 只看该作者
在以前岗我说的是电池的形状因素。这一次,让我们进入一点字母表汤,从单元配置.

这里的术语是xSyP,它是“有多少细胞串联,有多少是平行的”的缩写。更多的串联单元将提高电压,而更多的平行单元将提高安培小时(mAh或Ah)的容量。由于P=I*V,你可以通过将标称电压乘以标称安培小时来计算瓦特小时。锂离子电池的标称电压通常为3.7V,一些较新的电池平均电压为3.8V。它们通常充电到4.2V,放电电压降到3.0V,所以你可以通过将这些限制乘以串联电池的数量来计算整个封装的电压范围。请注意,一些新的电池与先进的电解质支持充电高达4.35V甚至更高,所以检查您的电池或电池数据表,以获得完整的图片。

您将看到的下一个字母是“C”,如“C率.”这是一种将充放电电流指定为额定电池容量的比率的方法。把C看作是“容量”,所以如果你的电池标签上写着“容量:1000 mAh”,而有人说以C/2的速度充电,那就意味着以1,000/2=500 mA的电流充电。如果放电是在C/5,那就意味着200 mA的电流。有时这些也被称为“小时费率”,因为它们指的是名义上会在这个小时内将一个完整的电池充放电的电流。

C/5意思是使用一种电流,使电池在大约5小时内从满到空。同样,这些都是“名义上的”,因为在C/2排放实际上可能导致在不到一个小时内撞空,这取决于温度、电池特性和其他因素。

让我们以几个字母缩写结束:SOC、DOD和SOH. 充电状态(SOC)是指您在手机或计算机上看到的百分比。这实际上是一个相对的测量,因为它取决于系统的特性以及负载和温度,但它给你一个粗略的概念,你的设备的电池在满(100%)和空(0%)之间。放电深度(DOD)可以看作是SOC的逆。100%的DOD意味着电池完全放电,没有更多的能量,而报告SOC=0%的设备仍可能有电池中的能量--只是不足以操作。

健康状况(SOH)是另一个百分比,但现在电池中的剩余能量不是多少,它大致告诉你你的电池和新电池相比有多长时间。。和SOC一样,它也是一个相对的术语,取决于系统特性。当SOH=80%时,这意味着当电池完全充电时,将给你大约80%的运行时间,就像它是新的一样。SOH可以给你一个更坚实的数字来量化它,而不是仅仅凭直觉感觉电池不像以前那么长了。并不是所有的产品都报告SOH(或者他们没有准确地报告),因为它需要一个可以跟踪电池老化特性的燃料计量器。TI的阻抗跟踪™算法是市场上唯一能够跟踪老化电池阻抗的算法,所以像bq 27421, bq 27532或bq40z50是唯一能准确报告SOH的公司。

现在我们已经讨论了一些基本术语,在以后的**中,我将更深入地讨论SOC。要理解这个百分比比大多数人想象的要多得多。在那之前,如果你想潜水,就去ti.com/电池然后点击bms大学选项卡,查看一些关于燃料计量基础知识的演示文稿。

使用特权

评论回复
发新帖 我要提问
您需要登录后才可以回帖 登录 | 注册

本版积分规则

个人签名:qq群: 嵌入式系统arm初学者 224636155←← +→→点击-->小 i 精品课全集,21ic公开课~~←←→→点击-->小 i 精品课全集,给你全方位的技能策划~~←←

2810

主题

19297

帖子

104

粉丝