Abstract

This article presents an innovative multi-source uninterrupted power system designed to address critical reliability requirements in mission-essential facilities where power interruptions can result in catastrophic consequences. The proposed architecture integrates diverse energy sources, including grid power, renewable inputs, backup generators, and battery storage under unified intelligent control, eliminating single-point failure vulnerabilities inherent in conventional UPS systems. Through advanced hybrid alternator technology incorporating power electronics and DC link voltage regulation, the article achieves frequency-independent operation adaptable to global electrical standards without hardware modifications. The intelligent control framework employs hierarchical decision-making with predictive algorithms enabling zero-delay source transitions while optimizing energy utilization based on real-time conditions. Experimental validation demonstrates superior efficiency across all loading conditions, particularly at partial loads where traditional systems exhibit significant losses. Practical deployments in data centers, healthcare facilities, and defense installations confirm operational reliability exceeding industry standards while reducing environmental impact through maximized renewable energy utilization. This article establishes a comprehensive framework for next-generation power continuity solutions capable of meeting the evolving demands of increasingly digitalized and sustainability-focused critical infrastructure.