EV Charging Stations

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Powering the Future of Electric Mobility

As the global transition to electric vehicles accelerates, the demand for robust, intelligent, and scalable charging infrastructure has never been more critical. AIMRSE stands at the forefront of this transformation, delivering EV Charging Stations engineered for performance, reliability, and seamless integration into modern energy ecosystems. Our portfolio spans from high-speed public charging hubs to smart bidirectional systems, designed to meet the needs of fleet operators, commercial property developers, utilities, and residential communities.

We bridge the gap between vehicle electrification and grid modernization. Our charging solutions are built with advanced power electronics, cloud-connected management platforms, and forward-looking interoperability—enabling not only rapid energy transfer but also grid services like demand response and vehicle-to-grid (V2G) energy sharing. With a focus on total cost of ownership, operational uptime, and user experience, we support the entire lifecycle of EV infrastructure projects, from site assessment and grid interconnection to ongoing maintenance and performance optimization.

Whether deploying ultrafast chargers along highway corridors or intelligent V2G systems within microgrids, AIMRSE provides the technical expertise and hardware reliability needed to build a resilient, future-ready charging network.

EV Charging Station Portfolio

50–150 kWCCS/CHAdeMODynamic Load Mgmt

Fast Chargers

AIMRSE Fast Chargers deliver reliable, high-speed charging for public, fleet, and workplace applications. Engineered with liquid-cooled cables and advanced power modules, these stations support charging rates of 50–150 kW, enabling EV drivers to add 100–200 miles of range in under 30 minutes. Built to withstand harsh environmental conditions, they feature IP54-rated enclosures, wide operating temperature ranges, and robust connectivity options including Ethernet, 4G, and RFID. Integrated with our cloud-based Charge Management System (CMS), they offer remote monitoring, dynamic power sharing across multiple units, and seamless OCPP 1.6/2.0 compatibility for network interoperability. Ideal for retail locations, corporate campuses, and highway rest stops, our fast chargers balance performance with total cost of ownership.

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150–350 kW1000V ArchitectureLiquid-Cooled

Ultra-Fast Chargers

AIMRSE Ultra-Fast Chargers redefine high-power charging for next-generation electric trucks, buses, and passenger vehicles. Capable of delivering 150–350 kW, these stations leverage a 1000V system architecture and silicon carbide (SiC) power semiconductors to achieve efficiencies above 96% while minimizing thermal stress. The fully liquid-cooled cable system ensures safe handling at peak currents, and the modular design allows for easy power upgrades as vehicle battery capacities grow. With integrated MV grid connection options and smart grid communication (IEEE 2030.5, SunSpec Modbus), these chargers are built for utility-scale deployment along freight corridors and high-traffic public networks. They support Plug & Charge ISO 15118, automatic billing, and real-time diagnostics—enabling a premium, future-proof charging experience.

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AC/DC BidirectionalGrid ServicesISO 15118

V2G Bidirectional Chargers

AIMRSE V2G Bidirectional Chargers transform electric vehicles into mobile energy assets, enabling energy flow from vehicle batteries back to the grid (V2G) or premises (V2H/V2B). Utilizing advanced bidirectional AC/DC converters and grid-forming capabilities, these systems allow fleet operators and prosumers to participate in demand response, frequency regulation, and peak shaving programs. Compatible with CHAdeMO and CCS protocols, they support both AC and DC coupling, making them versatile for residential, commercial, and microgrid applications. Integrated energy management software optimizes charging/discharging schedules based on grid signals, electricity prices, and user preferences—maximizing economic value while extending battery life through smart cycling algorithms. These chargers represent the next frontier in grid resilience and distributed energy resource integration.

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Technical Deep Dive: Engineered for Grid Integration & Performance

Power Electronics & Thermal Management

Our charging stations are built around high-efficiency, modular power conversion units utilizing silicon carbide (SiC) MOSFETs and advanced DSP control. This ensures high power density, low switching losses, and superior thermal performance even at full load. Active liquid cooling for cables and power modules maintains operational safety and longevity, with thermal derating only occurring above 45°C ambient. The power cabinets are designed for natural convection or forced air cooling, depending on deployment environment, and are rated for outdoor operation (-30°C to +50°C). All units include integrated surge protection (IEC 61643-11) and ground fault monitoring for enhanced electrical safety.

Grid Connectivity & Communication Protocols

AIMRSE chargers are designed for seamless grid integration, supporting both low-voltage (400V/480V AC) and medium-voltage (up to 24 kV) connections via optional transformers. They comply with grid codes for harmonic distortion (THDi <5% at full load), power factor correction (>0.99), and voltage ride-through capabilities. Communication is enabled via Ethernet, cellular (4G/5G), and Wi-Fi, with support for OCPP 1.6/2.0, ISO 15118 (Plug & Charge), Modbus TCP, and IEEE 2030.5 (Smart Grid). This allows for remote management, smart charging orchestration, and participation in grid-balancing ancillary services.

Vehicle-to-Grid (V2G) Technology

Our bidirectional chargers employ a dual-active-bridge (DAB) topology with galvanic isolation, enabling efficient power flow in both directions with minimal losses. The system includes advanced battery interface algorithms that communicate with the vehicle's BMS to optimize charge/discharge profiles, ensuring compliance with OEM warranties and maximizing cycle life. Grid-tie functionality includes UL 1741 SA certification for anti-islanding, frequency-watt, and volt-var response—allowing these chargers to act as grid-edge resources for voltage support and frequency regulation.

Software & Cybersecurity

Every AIMRSE charger is equipped with a secure, Linux-based controller that runs our proprietary firmware and supports over-the-air (OTA) updates. The software stack includes role-based access control, encrypted communication (TLS 1.2+), and compliance with ISO 27001 cybersecurity guidelines. Our cloud CMS provides APIs for integration with energy management systems, billing platforms, and renewable energy forecasting tools, enabling fully automated, optimized charging networks that respond dynamically to grid conditions and user patterns.

The AIMRSE Advantage in EV Charging

End-to-End Project Support

From initial site feasibility studies and grid impact assessments to commissioning and ongoing maintenance, AIMRSE provides comprehensive turnkey solutions. Our engineering team assists with utility interconnection applications, power distribution design, and civil works coordination, ensuring a smooth deployment from conception to operation.

Scalable & Modular Architecture

Our charging systems are built with modular power stacks and scalable software, allowing for easy capacity upgrades as demand grows. This future-proof design protects your investment and reduces total cost of ownership over the asset's lifetime, whether expanding a single site or an entire network.

Revenue-Grade Analytics & Monetization

Our cloud platform delivers detailed, revenue-grade metering data, customizable billing rules, and integration with popular payment gateways and roaming providers. Advanced analytics help operators understand usage patterns, optimize pricing, and maximize station utilization and profitability.

Global Certification & Safety Standards

All AIMRSE EV charging stations are designed and tested to meet rigorous international standards: IEC 61851-1, -22, -23 for conductive charging systems, UL 2594/2202 for North America, and CE (EN 61851, EN 62196) for Europe. We also comply with ISO 15118 for Plug & Charge, OCPP 1.6/2.0 for interoperability, and regional grid codes for power quality and safety.

Technical FAQ

What is the typical installation time for a 150 kW ultra-fast charging station?

From site readiness (including foundation and electrical conduit in place), a typical 150 kW ultra-fast charger can be installed and commissioned within 3–5 working days. This includes mounting the cabinet, connecting MV/LV power, data cabling, and on-site functional testing. However, total project timeline depends on utility interconnection approval and civil works, which we help expedite through our grid integration support services.

Can your chargers be powered by on-site solar PV or battery storage?

Absolutely. Our chargers are designed for hybrid and off-grid integration. They can be coupled with solar PV systems and battery energy storage (BESS) via our integrated energy management system, which optimizes charging schedules to maximize self-consumption of renewable energy. This reduces demand charges and provides backup power during grid outages, especially when paired with V2G bidirectional units.

What cybersecurity measures are implemented in your charging stations?

We adopt a multi-layered cybersecurity approach: secure boot with hardware trust anchors, encrypted communication (TLS 1.3), role-based access control, and regular security OTA updates. Our systems are designed per ISO 27001 and OCPP 2.0 security profiles, and we conduct third-party penetration testing to ensure resilience against evolving threats. All user data is handled in compliance with GDPR and regional data protection regulations.

How does dynamic load management work across multiple chargers?

Our dynamic load management (DLM) system continuously monitors the site's total power consumption and intelligently allocates available capacity among active charging sessions. If the total demand approaches the site's grid connection limit, DLM temporarily reduces charging power for some vehicles without interrupting the session, ensuring no circuit breakers trip. This allows more chargers to be installed without costly grid upgrades.

What is the expected lifespan and maintenance schedule for your chargers?

AIMRSE chargers are designed for a 10–15 year operational lifespan with minimal maintenance. We recommend quarterly visual inspections, annual thermal imaging of electrical connections, and firmware updates as released. Critical components like contactors and cooling fans are rated for 1 million operations. Our predictive maintenance platform monitors component health and alerts operators to potential issues before they cause downtime.

Ready to Electrify Your Mobility Strategy?

At AIMRSE, we understand that deploying EV charging infrastructure is more than installing hardware—it’s about creating a reliable, scalable, and future-proof network that delivers value to drivers, operators, and the grid. Whether you're planning a public fast-charging hub, a fleet electrification project, or a V2G-enabled microgrid, our team of experts is here to guide you through every step. Contact us today for a detailed site assessment, financial modeling, and a customized proposal tailored to your technical and business objectives.

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Note: Product specifications and performance data are subject to change. Actual performance depends on installation conditions and compliance with local codes. Consult with qualified professionals for specific applications.

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