flyer-charging-infrastructureSolutions for a Connected Charging Infrastructure

Connected Charging Systems for Operational Reliability

While the power supply options for e-mobility and the deployment of charging stations have historically been the primary focus of charging system development and optimization, the emphasis has increasingly shifted toward establishing a more interconnected, software-controlled infrastructure for residential, commercial, and public installations to improve operational reliability.

Whether in homes and other private properties, commercial spaces, energy-efficient buildings, or decentralized vehicle fleets, charging systems must offer a combination of safe power conversion, precise power measurement, deterministic integrated control, and reliable connectivity for linking chargers to local energy infrastructures and remote maintenance platforms.

Charging equipment must be operational and responsive on-site, maintain continuous communication, and remain serviceable throughout long product lifecycles. Especially when deployed across multiple locations in varying conditions, practical challenges include on-site responsiveness, continuous communication, on-site serviceability, and maintainability throughout the entire lifecycle.

With comprehensive edge and embedded design, the required stable system partitioning across control, measurement, power, and connectivity can ensure protection, monitoring, updates, and remote service for charging applications while maintaining reliability under real-world conditions.

Connected E-Mobility Charging Infrastructure Across Multiple Sites

To support the key aspects of a connected charging infrastructure, including secure power conversion and measurement, deterministic control, reliable field connectivity, and long lifecycle maintainability, solutions must operate dependably across multiple locations while ensuring local responsiveness at equipment and network levels.

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This includes AC wall box controllers for residential and commercial installations, public charging station HMI and gateway platforms for field-managed infrastructure, smart energy communication gateways linking EV charging with PV, storage and building energy systems, and fleet depot charging controllers coordinating multi-charger operations and service workflows.

By aggregating protocols and combining charging with PV, storage, and buildings' energy systems, communication gateways support environmentally conscious charging, site-level coordination, and a reliable interface to both local and remote control units.

Clear system partitioning across compute, control, and the power layer enables structured scaling across product lines, from compact wall boxes to field-managed charging stations and smart energy gateways.

For fleet and depot environments, centralized monitoring, remote diagnostics, and secure field connectivity across multiple charging points enable predictable commissioning, scalable service workflows, and consistent operating performance.

Possible Features of Our Solutions for E-Mobility and Charging

Safe power conditioning and protection paths for charger electronics
Accurate current measuring for control, monitoring, and protection logic
Deterministic embedded control for charging behavior and device management
Field connectivity for remote service, monitoring, and operations
Communication gateways for smart energy integration and local asset linking
Scalable designs from wall boxes to depot and site infrastructure
Lifecycle stability through variant control and documented baselines

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Integration Options for Connected Charging Solutions

By providing a framework for implementing standard and customized connected charging system solutions, Atlantik Elektronik supports e-mobility and charging projects beyond component provision. We focus on creating a coherent architecture across control, sensing, power, and connectivity, designed for local responsiveness, controlled security, and long-term maintainability in residential, commercial, public, and fleet deployments.

With this approach, we can support EV charger OEMs, energy system integrators, and building automation suppliers requiring production-grade designs and predictable rollout paths.

Our FAE-led design-in process addresses key architecture decisions (i.e. system partitioning across deterministic control, measurement paths, protection concepts, connectivity layer) early and aligns products to practical design roles (i.e. edge compute and gateway functions, real-time device control, accurate current measurement, power conditioning).

Documented configuration baselines, validated integration procedures, and testable update paths facilitate reproducible multi-site rollouts and reduce complications during installation, maintenance, or expansion.

To accelerate evaluation and product readiness, Atlantik supports architecture reviews, component selection, bring-up, and structured escalation during development. Mechanical and thermal concept reviews, software stack readiness checks, and end-to-end test planning for connectivity stability, remote access, service workflows, and failover scenarios further shorten validation cycles and improve long lifecycle serviceability.