DIFFERENCE BETWEEN SOLID STATE AND OFFLINE UPS SYSTEM

DIFFERENCE BETWEEN SOLID STATE AND OFFLINE UPS SYSTEM

DIFFERENCE BETWEEN SOLID STATE AND OFFLINE UPS SYSTEM

Solid-state Controls systems differ from off-line designs in the following ways:

1. Solid-state Controls offers an online, double-conversion UPS system. Therefore, the client’s critical load is being powered continuously from the inverter. The battery is always being floated by the fully-rated rectifier/charger and is always connected to the inverter input. As result, all components used in the Solid-state Controls design are fully rated to carry 120% of the load on a continuous basis over a 20-year life.

2. Solid-state Controls’ Ferro resonant design has a built-in capacity to supply nonlinear (crest factor) loads of up to 3:1 without oversizing.

3. Solid-state Controls’ online UPS design is provided with a make-before-break static switch to aid in downstream fault clearing and to protect against possible system failures.

4. Solid-state Controls’ online UPS system is a double conversion type, converts AC to DC, and then reconverts DC back to AC. It is also insensitive to frequency deviations at the primary input.

5. Solid-state Controls’ online UPS system is designed to handle input voltage deviations of +10% to  15% without causing the battery system to take over the inverter’s load. This reduces the UPS system’s reliance on its battery, thereby increasing the life of the battery system.

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Aanchal Gupta

Welcome to my website! I'm Aanchal Gupta, an expert in Electrical Technology, and I'm excited to share my knowledge and insights with you. With a strong educational background and practical experience, I aim to provide valuable information and solutions related to the field of electrical engineering. I hold a Bachelor of Engineering (BE) degree in Electrical Engineering, which has equipped me with a solid foundation in the principles and applications of electrical technology. Throughout my academic journey, I focused on developing a deep understanding of various electrical systems, circuits, and power distribution networks.

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