Xinouhua Power
As the "City of Light," Paris is not just a cultural capital but a core nexus for European industrial technology, particularly in the Île-de-France region. With the surge in aerospace research (centered around Paris-Le Bourget) and the rapid electrification of the French automotive sector (led by titans like Renault and Stellantis), the demand for high-precision AC power supply manufacturing has reached an all-time high. In Paris, industrial power systems are no longer just about delivery; they are about Information Gain—the ability to simulate complex electrical environments for rigorous R&D.
Locally, Paris's industrial belt is shifting towards Smart City initiatives and sustainable energy grids. High-power AC sources are critical for testing EV charging infrastructure and the resilience of smart grids. Globally, the industry is witnessing a transition from traditional linear power supplies to Switching-mode (PWM) and IGBT-based programmable sources. Our factory specializes in this high-tech frontier, providing solutions that meet the specific harmonic requirements of the European power grid (50Hz) while offering the flexibility of 60Hz and 400Hz for international aerospace standards.
Guangzhou Xinouhua Electronic Technology Co., Ltd. is a premier manufacturer specializing in the R&D and manufacturing of high-power DC and AC power supply solutions. Located in the core electronic industry belt of the Greater Bay Area, we bridge the gap between high-volume manufacturing and precision engineering required by markets like Paris.

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Testing avionics requires 400Hz high-frequency AC power. Our PA61000 series provides stable 400Hz output for simulating aircraft power grids, essential for Parisian aerospace contractors.
Simulating grid fluctuations (sag/swell) for EV chargers. Our programmable AC sources allow engineers to recreate the aging French grid conditions or international standards in a controlled lab environment.
High-precision power for Paris-Saclay's research institutes. Pure sine wave output with <1% THD (Total Harmonic Distortion) ensures that sensitive medical imaging equipment is tested with the cleanest power possible.
The next generation of AC power supplies will feature Digital Twin connectivity. Our R&D team is currently integrating IoT modules that allow remote monitoring and predictive maintenance, a feature highly requested by industrial automation hubs in Northern France. By utilizing Silicon Carbide (SiC) semiconductors, we are pushing the boundaries of power density—more power in a smaller footprint.