Mobile Device Battery Monitoring: What It Is and Why You Need It

2023-05-02 21:19:57
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Illustration: © IoT For All

If your business relies on mobile devices, you have probably paid a hefty price for battery failure. It happens more often than you might think–and costs more too. Here are a few statistics that outline the problem of poor battery management:     

  • 80 percent of companies report device battery failure during shifts    
  • 41 percent of workers list batteries as a top cause of device failure
  • 74 minutes of productivity are lost on average when batteries fail mid-shift

The total cost of productivity loss is estimated to be up to $1 million for a company with a remote staff of 500, and it all boils down to poor battery management.  

Sure, all batteries have limited lifespans. Recharging or replacing them should factor into your total cost of ownership calculations. The real financial losses come when batteries fail unexpectedly in the middle of a shift, stopping your operation in its tracks.

However, this type of failure is both predictable and preventable, which is why this statistic is so surprising: Only 21 percent of companies report complete visibility into mobile technology fleets, including the batteries that keep devices working. That’s despite the widespread availability–and strong return on investment (ROI)–of proven device management solutions. Here’s what mobile battery monitoring looks like for today’s enterprise mobility solutions. 

“Only 21 percent of companies report complete visibility into mobile technology fleets, including the batteries that keep devices working.”

-SOTI

Quick Introduction to Mobile Device Battery Monitoring

Battery monitoring systems aren’t new. Electric forklift charging systems have used them for decades. They’re built into most consumer electric vehicle batteries. You can see how full your phone battery is at a glance. A mobile device battery monitoring system brings the same capabilities but with much more insight.  

Enterprise Mobility Management (EMM) solutions bring all the tools and services you need to remotely manage device fleets on a single pane of glass. In our previous post, we explained how it helps to choose EMM software with an integrated diagnostic intelligence system. These tools offer total visibility on performance for devices, apps, batteries, signal strength, and incidents.  

Battery performance is part of the diagnostic intelligence your EMM should offer. Ideally, the battery monitoring tool will do two things: Track key battery metrics and use that data to manage batteries better. Look for battery performance tools that track: 

  • Battery charge levels, or how much capacity the battery retains at any time, including historical readings 
  • Battery charge cycles, or how many times the battery has been drained and recharged since the first use
  • Charging details, such as batteries left charging past full, charged to less than 100 percent capacity or charged to 100 percent then unplugged 
  • Battery temperature, ideally divided into ranges like too cold, too hot, and normal
  • Battery age, understanding how many more charge cycles the battery has before it needs to be replaced

Using these and other data points, some EMM systems can diagnose specific problems or help you predict future mid-shift failures. For example, EMM tools can provide a list of the top battery-draining apps on the device. They can also provide data on which batteries may fail during future shifts or batteries that need to be replaced completely to avoid device downtime. 

A battery insight dashboard helps you keep your mobile fleet operating, which keeps businesses running smoothly. But the benefits don’t end with your bottom line. Better battery management can also help keep harmful e-waste from damaging ecosystems.         

How Battery Management Helps Meet Sustainability Goals

Without visibility into your fleet’s batteries, you have one choice: Replace every battery before it runs out and causes device downtime. This approach is financially inefficient. Even worse, it contributes to huge e-waste streams. 

Monitoring your batteries allows you to diagnose problems that are fixable without having to dispose of working batteries. It also gives you an advanced warning, so you have time to set up more sustainable disposal for batteries that must be replaced. 

All these capabilities can help reduce e-waste outputs and energy usage across your organization and all at a relatively low cost. The financial factor matters, since only 44 percent of global IT decision-makers said 33 percent of annual budgets are allocated to replacing batteries. Battery management helps you use existing batteries longer and buy new ones less often—the perfect blend of thrift and sustainability.

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  • Sustainability
  • Device Management
  • Device Testing
  • Mobile

  • Sustainability
  • Device Management
  • Device Testing
  • Mobile

参考译文
移动设备电池监控:它是什么以及为何你需要它# 示例输入和输出 **输入** 人工智能(AI)是计算机科学的一个分支,旨在创建表现出人类智能的软件或机器。这可以包括从经验中学习、理解自然语言、解决问题以及识别模式。 **输出** 人工智能(AI)是计算机科学的一个分支,旨在开发表现出人类智能的软件或机器。这包括从经验中学习、理解自然语言、解决问题以及识别模式。
插图:© IoT For All --> 如果你的业务依赖于移动设备,你很可能为电池故障支付了一大笔代价。这种情况比你想象的更频繁,代价也更高。以下是一些说明电池管理不善问题的统计数据: - 80% 的公司报告说在工作期间出现设备电池故障 - 41% 的工人将电池列为设备故障的主要原因之一 - 平均每次电池在工作期间发生故障都会造成 74 分钟的生产力损失 - 一家拥有 500 名远程员工的企业,其因生产力损失的总成本可能高达 100 万美元,这一切都归因于糟糕的电池管理。 当然,所有电池的使用寿命都有限。充电或更换电池应是你计算总体拥有成本的一部分。真正的经济损失在于电池在工作期间突然故障,导致你整个工作流程停摆。然而,这类故障其实是可预测且可避免的,这也是为什么这个统计数据令人惊讶:只有 21% 的公司报告称他们能够全面了解移动技术设备,包括维持设备运行的电池。 尽管目前已有经过验证的设备管理解决方案,并且这些方案已经广泛普及且具有很高的投资回报率(ROI),但许多公司仍未充分应用。 这就是如今企业移动解决方案中电池监控的情况。“只有 21% 的公司报告称他们能够全面了解移动技术设备,包括维持设备运行的电池。” ——SOTI 《移动设备电池监控简要介绍》 电池监控系统并不是什么新技术。电动叉车充电系统几十年来一直在使用。它们也被集成到大多数消费级电动车电池中。你可以一目了然地看到你的手机电池还有多少电量。一个移动设备电池监控系统提供了类似的功能,但洞察力要强大得多。 企业移动管理(EMM)解决方案提供了一整套工具和服务,使你能够在一个平台上远程管理设备。在我们之前的帖子中,我们解释了如何选择带有集成诊断智能系统的 EMM 软件。这些工具可以提供设备、应用、电池、信号强度和事件的全面性能可视化。 电池性能应是你 EMM 系统提供的诊断智能的一部分。理想情况下,电池监控工具应能完成两件事:跟踪关键电池指标,并利用这些数据更好地管理电池。寻找那些能跟踪以下内容的电池性能工具: - 电池电量水平,包括电池在任何时刻的容量保留情况,以及历史读数 - 电池充电周期,即电池自首次使用以来被完全放电和重新充电的次数 - 充电细节,例如电池充满后长时间未拔电、充电未达到 100% 容量,或充电到 100% 后立即拔电 - 电池温度,理想情况下可划分为过冷、过热和正常范围 - 电池寿命,了解电池在需要更换之前还能进行多少次充电循环 借助这些和其他数据点,某些 EMM 系统可以诊断具体问题,或帮助你预测未来工作期间可能发生的故障。例如,EMM 工具可以提供设备上消耗电池最多的应用程序列表。它们还可以提供数据,预测哪些电池可能在未来的班次中出现故障,或者哪些电池需要完全更换以避免设备停机。 电池洞察仪表板帮助你保持移动设备的正常运行,从而确保企业平稳运营。但好处不止于你的利润。更好的电池管理还可以帮助减少有害电子废弃物对生态系统的破坏。 电池管理如何帮助实现可持续发展目标 如果没有对电池的可视化管理,你只有一个选择:在电池耗尽并导致设备停机之前更换所有电池。这种做法在经济上并不高效。更糟糕的是,它还会产生大量电子垃圾。 监控电池可以让你诊断那些可修复的问题,而无需丢弃仍在工作的电池。它还可以提前发出警告,让你有时间为必须更换的电池安排更可持续的处理方式。 所有这些功能都有助于减少整个组织的电子垃圾输出和能源消耗,而且成本相对较低。财务因素也很重要,因为只有 44% 的全球 IT 决策者表示,他们将年度预算的 33% 用于更换电池。电池管理帮助你延长现有电池的使用寿命,并减少新电池的购买频率——这是节俭与可持续性的完美结合。 推文分享邮件 可持续性 | 设备管理 | 设备测试 | 移动性
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