The project "Identification of Attack Surfaces for Electric Vehicle Chargers" focuses on detecting and analyzing potential vulnerabilities in electric vehicle (EV) charging systems. It enables a comprehensive security assessment by identifying weaknesses in communication protocols, control systems, and physical interfaces. The system provides automated attack path analysis to evaluate potential threats in EV charging infrastructures, supports common standards such as OCPP, ISO 15118, IEC 61851, and SAE J1772 for protocol and interface testing, and conducts dynamic security assessments by analyzing real-time communication and configuration vulnerabilities. Additionally, it includes integrated reporting capabilities to generate detailed security reports for operators, OEMs, and cybersecurity experts.
A key component of this project is the AC Charging Power Module (ACCPM), an ultra-compact charging power module specifically designed for electric mobility applications. It features integrated safety functions, including Type A and Type B residual current devices (RCD), as well as versatile communication interfaces, enabling both static and dynamic load management without the need for additional residual current protection devices. With a maximum output power of 11 kW or 22 kW, an input voltage of AC 110/230 V, and an operating range of -25°C to +65°C, the ACCPM is highly adaptable and suitable for various environments. Its space-saving design (160 mm × 100 mm × 53 mm), lightweight construction (only 440 g), and efficient, production-friendly build allow for seamless integration into a wide range of system solutions
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