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3 Key EV Charging Challenges with Poor Connectivity

2022-12-05
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Did you know that approximately 8 million electric vehicle (EV) public charging points are projected for the U.S. and across the EU by 2030?

EV charging stations need to stay connected without interrupting service on a broad scale to reach this goal. However, many challenges are disrupting their deployment. Most of these challenges point to one driver: poor connectivity.

A study by the University of California Berkley on public EV fast chargers showed conflicting results. EV service providers (EVSPs) claim they have 95-98% uptime. Uptime was only 72.5% from unresponsive screens to network failures.

EV charging networks largely serve customers en route to another destination. Availability and timing are everything.

Here are three key EV charging challenges providers face with poor connectivity with reliable solutions to consider.

3 Challenges with Poor IoT Connectivity

An EV charger with reliable connectivity enhances the customer experience and reduces service costs for charging providers.

The three key challenges are:

  • Lost revenues
  • Deployment and scalability
  • Cybersecurity issues

1. Lost Revenues

Each minute connectivity falters, or when an outage stops the service, revenues are lost.

Two common barriers affect time and money:

Poor Customer Experience

Every minute counts. As the connection wavers and transactions can’t be immediately concluded, consumers will drive to the next charge point.

Still, the worst driver experience is pulling up to a non-working charger when the EV lacks sufficient charge to get to the next closest working charge point. Poor customer experience damages brand value and diminishes revenues while slowing EV adoption at an industry level.

A reliable connectivity solution built for the Internet of Things (IoT) can drastically reduce these failures. At the fundamental level, IoT solutions span a broader quality of service range than consumer solutions since IoT enables real-time data.

IoT connectivity and hardware set for dependable EV charging performance enable charge point stations to communicate reliably with acceptable latency levels. They can also respond to unexpected events in real time.

Increased Service Costs

When connectivity results in downtime, charging providers must send technicians on-site. They troubleshoot the network signal and fix the issues.

The Telit NExT network.

Telit NExT™ offers IoT connectivity features with remote access through a software stack. Remote access enables many critical remedial tasks to correct service outage issues with web-based tools from the back office. These include an intelligent dashboard with Syslog logging functionality for remote monitoring. Messages include time stamps, diagnostics and more.

In addition, our IoT modules support key features like Telit OneEdge™ that enable remote logging and monitoring of real-time modem parameters over the network.

Remote troubleshooting can be done in hours instead of days. In many cases, it eliminates on-site service. This capability reduces downtime and potentially millions in lost revenues from operational costs and losing customers.

2. Deployment and Scalability Challenges for EV Charging

The EV charging industry faces exponential growth. EVSPs must deploy and scale their offerings while providing a stellar charging experience. Scalability is challenging because of the EV charging ecosystem’s complexity.

In addition to the driver, the EV charging ecosystem includes:

  • Charger locations
  • Utilities
  • Mobile networks
  • Financial transaction support and accompanying regulatory compliance
  • Cybersecurity
  • Managing multiple mobile network operators (MNOs), carriers and data plans
  • Billing
  • Call centers
  • Legacy systems
  • Other apps

It’s easy for EVSPs to face a host of obstacles, from collecting data to planning for energy needs.

A significant challenge is managing network providers while supporting connectivity technology. Therefore, it’s crucial to avoid technology lock-in and have the flexibility to work with a multitude of networks as needed.

For instance, imagine a CPO selected a major MNO in the U.S. However, a certain area suddenly has poor coverage from that network coverage infrastructure.

With Telit NExTPlus™, the CPO can remotely check local availability of a viable alternative network covering the specific spot. Then, they can download the MNO profile of the selected coverage network if that profile is not already part of the resident set and switch to it. CPO operations managers can switch coverage networks without physically switching SIMs.

These features enable flexible, optimized coverage and time from one user-friendly dashboard. Switching to the best coverage on demand will also reduce costs.

Visibility and control of the entire EV ecosystem are essential to deploy and scale confidently. They simplify operations and keep costs in check when scaling.

3. Cybersecurity Issues

Security is essential for EV chargers. EV chargers with poor connectivity are susceptible to cybersecurity issues.

EV chargers are perfect targets for hackers and require robust end-to-end monitoring and management.

Security goes well beyond installing and onboarding charging devices and networks. Threats must be identified and isolated throughout the life cycle of the EV charger.

The risks are three-fold. Vulnerabilities exist in:

  1. Electric vehicle supply equipment (EVSE) devices
  2. Communications to EVs from mobile phones through protocols like near-field communication (NFC) and Bluetooth®
  3. The cloud that connects the IoT network to the outside world (e.g., user applications or platforms for managing the devices)

Older EV charging stations or those using off-the-shelf products may not have the latest vulnerability patches or security enhancements. Not having these updates gives backdoor access to hackers.

For example, a hacker can gain unauthorized use of the charger without paying. They can also get access to credit card transaction data.

It’s crucial for EV charging providers to have enterprise-grade enhanced security to prevent cyberattacks.  

Enhanced security includes operations like:

  • Lockdown mode to protect confidential kernel information, including vulnerability patches and the latest kernel version
  • Access control security policies to prevent hackers from accessing the file system and processors
  • Strong end-to-end data encryption using authentication keys

These are available in our LN920 LTE-Advanced M.2 data card series. It is based on the latest Linux kernel version 5.4 and runs Security-Enhanced Linux (SELinux).

Reliable, Proven Performance to Overcome EV Charging Challenges

The EV charge point and network must have a reliable, secure connection to be successful. Off-the-shelf IoT or consumer-grade connectivity options only deliver a basic solution. They are not designed for flexibility and EV charge points reaching 100% connectivity.

EVSPs must choose solutions with reliable and proven performance. They enable the best chance of overcoming poor connectivity challenges, including revenues, deployment and scaling, and cybersecurity.

Telit NExT IoT connectivity addresses these challenges with deployments of any size. Our IoT Connectivity Portal provides total control and clarity to enable the flexibility needed to overcome EV charging challenges. With over 22 years of IoT expertise, we can help you deploy and scale your EV charging ecosystem.

Speak with an IoT connectivity expert to start your EV charging journey.

Request a Starter Kit

参考译文
3连通性差电动汽车充电面临的主要挑战
你知道吗?到2030年,美国和整个欧盟预计将有大约800万个电动汽车公共充电站。为了实现这一目标,电动汽车充电站需要在不中断大范围服务的情况下保持连接。然而,许多挑战正在扰乱它们的部署。这些挑战大多指向一个驱动因素:糟糕的连接。加州大学伯克利分校关于公共电动汽车快速充电器的一项研究显示了相互矛盾的结果。电动汽车服务提供商(evsp)声称他们的正常运行时间为95-98%。从屏幕无响应到网络故障,正常运行时间只有72.5%。电动汽车充电网络主要为前往另一个目的地的客户提供服务。可用性和时间就是一切。以下是电动汽车充电供应商面临的三个关键挑战,即连接性差,需要考虑可靠的解决方案。三个主要挑战是:连接每分钟都在中断,或者当服务中断时,收入就会损失。影响时间和金钱的两个常见障碍:分秒必争。由于连接动摇,交易无法立即完成,消费者会开车前往下一个充电站。不过,最糟糕的驾驶体验是,当电动汽车没有足够的电量到达下一个工作充电点时,却把车停在一个不能工作的充电器前。糟糕的客户体验损害了品牌价值,减少了收入,同时在行业层面上减缓了电动汽车的采用。为物联网(IoT)构建的可靠连接解决方案可以大大减少这些故障。在基本层面上,物联网解决方案比消费者解决方案涵盖了更广泛的服务质量范围,因为物联网实现了实时数据。为可靠的电动汽车充电性能设置的物联网连接和硬件使充电站能够以可接受的延迟水平可靠地通信。它们还可以实时对意外事件做出反应。当连接中断时,充电供应商必须派技术人员到现场。他们排除网络信号并解决问题。Telit NExT™提供物联网连接功能,可通过软件堆栈远程访问。远程访问使许多关键的补救任务能够从后台办公室使用基于web的工具纠正服务中断问题。其中包括一个智能仪表板,具有远程监控的Syslog日志功能。消息包括时间戳、诊断信息等。此外,我们的物联网模块支持关键功能,如Telit OneEdge™,可以通过网络远程记录和监控实时调制解调器参数。远程故障排除可以在几小时内完成,而不是几天。在许多情况下,它取消了现场服务。这种能力减少了停机时间,并可能因运营成本和客户流失而损失数百万美元的收入。电动汽车充电行业面临指数级增长。ev sp必须部署和扩展他们的产品,同时提供一流的充电体验。由于电动汽车充电生态系统的复杂性,可扩展性面临挑战。电动汽车充电生态系统很容易面临一系列障碍,从收集数据到规划能源需求。一个重大的挑战是在支持连接技术的同时管理网络提供商。因此,避免技术锁定并根据需要灵活地使用多种网络是至关重要的。例如,假设一个CPO在美国选择了一个主要的MNO,然而,某个地区突然从该网络覆盖基础设施中获得了较差的覆盖。通过Telit NExTPlus™,CPO可以远程检查覆盖特定地点的可行替代网络的本地可用性。然后,他们可以下载所选覆盖网络的MNO配置文件(如果该配置文件还不是常驻集的一部分)并切换到它。CPO运营经理可以切换覆盖网络,而无需物理切换模拟市民。 这些功能可以通过一个用户友好的仪表板实现灵活、优化的覆盖范围和时间。按需切换到最佳保险也将降低成本。整个电动汽车生态系统的可见性和控制对于自信地部署和扩展至关重要。它们简化了操作,并在扩展时控制成本。电动汽车充电器是黑客的完美目标,需要强大的端到端监控和管理。安全性远远超出了安装和安装充电设备和网络。必须在电动汽车充电器的整个生命周期内识别和隔离威胁。风险有三方面。漏洞存在于:旧的电动汽车充电站或使用现成产品的充电站可能没有最新的漏洞补丁或安全增强。没有这些更新会给黑客留下后门。例如,黑客可以在不付费的情况下擅自使用充电器。他们还可以访问信用卡交易数据。对于电动汽车充电供应商来说,拥有企业级的增强安全性以防止网络攻击至关重要。我们的LN920 LTE-Advanced M.2数据卡系列提供了这些功能。它基于最新的Linux内核版本5.4,运行Security-Enhanced Linux (SELinux)。电动汽车充电点和网络必须有一个可靠、安全的连接才能成功。现成的物联网或消费级连接选项只能提供基本的解决方案。它们不是为灵活性和电动汽车充电点达到100%连接而设计的。evsp必须选择性能可靠且经过验证的解决方案。它们为克服连通性差的挑战提供了最佳机会,包括收入、部署和扩展以及网络安全。泰利特NExT物联网连接解决了这些挑战,任何规模的部署。我们的物联网连接门户提供全面的控制和清晰度,以实现克服电动汽车充电挑战所需的灵活性。凭借超过22年的物联网专业知识,我们可以帮助您部署和扩展您的电动汽车充电生态系统。与物联网连接专家交谈,开始您的电动汽车充电之旅。
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