![]() You can do this by going left after exiting the cannery, and going into the large building past the square. “The customer needs common building blocks that are flexible and scalable, that can keep up with the growing demands of the weapons and sensors.You should talk to Parvati after leaving Tobson’s office to obtain an optional objective to talk to the Vicar. “Those new systems - the multi-megawatt radars, the directed energy weapons - they are all power-hungry,” said Matt. The net result of all this: greater warfighter readiness. “This technology can be used in multiple domains.” “There’s no reason why we can’t take that same approach and do it for an aircraft or a ground system for the Army,” Bob said. While Northrop Grumman’s pioneering solution aims to address the Navy’s requirements, the development team envisioned other service branches taking advantage of this same approach. Modules can be configured to support a range of systems across multiple platforms. This approach, Bob explained, makes for an inefficient and expensive acquisitions process.Īn integrated power and energy management system means the Navy doesn’t need to procure a different power solution for each new system, Bob said. “Right now, most programs - from lasers to electronic warfare programs - come with their own power system,” said Bob Sacca, director of Northrop Grumman’s Power/Control Systems operating unit. This frees up space for other critical systems on the ship. Northrop Grumman’s approach can reduce the physical footprint associated with power systems by as much as 50%. Modularity also empowers the Navy to be more proactive in managing the cost and scheduling of its power system capabilities. “This creates a lot of flexibility when you go to add to the system in the future, whether it’s additional energy storage or additional power modules to deal with multiple loads,” said Matt. It also makes it easier to expand the power conversion and energy management as new systems and capabilities become available. ![]() This approach streamlines manufacturing, making it easier for the Navy to get exactly what it needs in a timely way. Think of them as power conversion building blocks that can be customized for a multitude of unique situations. ![]() ![]() To deliver this highly flexible solution, Northrop Grumman’s team took a modular approach to meeting the Navy’s energy needs, meaning they used a collection of different components that can be configured in different ways as the customer’s needs change. “We provide the power seamlessly without impacting the rest of the ship’s electrical systems,” said Matt Superczynski, a chief engineer at Northrop Grumman. What’s more, Northrop Grumman’s system integrates with existing infrastructure, which protects the ship’s electrical bus from surges or dips in power and makes it easier to upgrade over time. Our integrated power and energy systems deliver power as a service, on-demand, with the ability to completely control load dynamics. They developed an entirely new, innovative solution to manage these energy needs on space-constrained ships. ![]() Northrop Grumman engineers tackled this challenge head-on. There isn’t room for the kinds of massive generators and power conversion equipment that might be used to power these weapons on land. But, as any sailor will tell you, space is tight on naval vessels. Modern weapons and sensor systems on ships require a great deal of steady, reliable power to stay ready and alert. Navy, the stakes are high when it comes to power management. ![]()
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