• HiPerGuard delivers 98 percent efficiency at voltages up to 24 kV, providing a more reliable grid connection while eliminating power outages and reducing carbon emissions;
• The only medium voltage (MV) uninterruptable power supply (UPS) solution for data centers and other mission critical facilities that can interact easily with the grid and onsite renewable technologies;
• Excess energy can be sold back to the grid to provide extended or new revenue streams.
HiPerGuard supports sustainability with the highest levels of efficiency available on the market, at 98 percent translating to a potential carbon emission reduction of 1,245 tons over a typical 15-year lifespan2.
HiPerGuard delivers the positive benefits of a classic dynamic rotary UPS, including low TCO, high performance and resilience against major grid events, while incorporating the flexibility and capabilities of a modern static converter system. The result is a unique MV UPS system that can offer increased grid support capabilities, including UPS demand response whilst minimizing costly downtime and power outages. It tackles key power quality issues, preventing data processing errors, circuit board failures and overheating by protecting against voltage sags, swells, spikes, and power interruptions.
Dave Sterlace, Head of Technology for ABB Global Data Center Solutions, comments: “With data center downtime estimated to cost between $100,000 and 1 million USD dollars per year3, there is an increasing call for clean, continuous, energy efficient and reliable power that minimizes major losses. In response, we are proud to innovate UPS technology to provide the right quality of power which eliminates interruptions to prevent significant performance and financial losses. At the same time, as part of ABB’s 2030 Sustainability Strategy commitments, HiPerGuard helps to reduce harmful CO2 emissions by increasing efficiency compared to traditional rotary systems.”
As well as outstanding load protection performance, through its innovative, ABB-patented, Impedance Isolated Static Converter (ZISC) architecture, which delivers reliable and efficient separation of the energy source, HiPerGuard brings the power protection closer to the grid than other solutions. This improves demand response and supply reliability.
In addition to efficiency and protection benefits, ABB’s HiPerGuard has advanced integration capabilities with a wide range of backup power systems including diesel generators, slow paced gas generators and turbines. HiPerGuard also ensures flexibility of system design and future energy source implementation, for alternative energy sources such as hydrogen.
As with all ABB Power Protection products, HiPerGuard is designed with long term system availability in mind and only requires intrusive maintenance in ten-year intervals, delivering time and cost savings for maintenance teams.
ABB (abb.com) is a leading global technology company that energizes the transformation of society and industry to achieve a more productive, sustainable future. By connecting software to its electrification, robotics, automation and motion portfolio, ABB pushes the boundaries of technology to drive performance to new levels. With a history of excellence stretching back more than 130 years, ABB’s success is driven by about 105,000 talented employees in over 100 countries.
ABB’s Electrification Business Area is a global leader in electrical products and solutions, operating in more than 100 countries, with over 200 manufacturing sites. Our 50,000+ employees are dedicated to transforming how people live, connect and work by delivering safe, smart and sustainable electrifica-tion solutions. We are shaping the future trends of electrification, differentiating through technological and digital innovation while delivering an outstanding experience through operational excellence for our customers across utilities, industry, buildings, infrastructure and mobility.
1. Assuming 25% of the time at 25% load, 50% of the time at 50% load and 25% of the time at 75% load, with no time spent at 100%, the average efficiency is 97.5%, rounded up to 98%
2. Using the reference value of 295.8 gCO2e per kWh