L3Harris' Static Automatic Bus Transfer (SABT) system is designed to ensure the seamless transfer of critical loads from a normal power source to an alternate power source in less than a quarter cycle during interruptions or abnormal conditions. This advanced system is specifically developed to protect mission-critical power loads on naval ships, submarines, and other defense applications, ensuring uninterrupted power supply in critical situations. The SABT is fully compatible with MIL-STD-1399 and STANAG 1008 standards, featuring dedicated logic for precise interpretation and switching of power sources. By enhancing the reliability of power management systems, L3Harris' SABT plays a vital role in maintaining operational readiness and mission success for military forces.
The L3Harris Power Node Control Center (PNCC) / Integrated Power Node Center (IPNC) represents a significant advancement in electrical power distribution technology. This innovative system integrates the functionalities of transfer switches, frequency converters, motor controllers, transformers, circuit breakers, rectifiers, and inverters into a single enclosure, streamlining power management and enhancing operational efficiency. Designed for versatility and reliability, the PNCC/IPNC provides comprehensive solutions for managing electrical power in various applications, ensuring seamless integration and optimal performance in demanding environments. With its cutting-edge technology, L3Harris continues to lead the way in modern power distribution systems.
The L3Harris Multi-Class Static Automatic Bus Transfer (MC-SABT) system is designed to ensure uninterrupted power supply for critical loads by automatically transferring power from a normal source to an alternate source in the event of interruptions or abnormal conditions. Specifically developed to protect mission-critical power loads on naval ships and other defense applications, the MC-SABT complies with MIL-STD-1399 and STANAG 1008 standards. Utilizing advanced silicon-controlled rectifier (SCR) power-switching elements, this robust system enhances operational reliability and resilience in demanding maritime environments, making it an essential component for modern naval power management.
Providing global reach with superior performance, Geostationary Earth Orbiting (GEO) High Throughput Satellites (HTS) deliver global coverage and robust Ku-band and Ka-band services leveraging flexible spot-beam technology.
The AE 3007 turbofan engine, derived from the AE 1007C-Liberty engine, provides thrust in the 8,000lbf class. It features a high bypass ratio, a 14-stage compressor, and an effusion-cooled annular combustor, offering reliable performance.
Rolls-Royce has a long history in naval propulsion, pioneering significant advances such as the use of aero gas turbines for surface ship propulsion. The range delivers power for next-generation naval platforms.
The MT30 features a twin-spool gas generator and high efficiency, making it suitable for mechanical, electrical, or hybrid drive configurations in advanced naval platforms.
The MT7 gas turbine is designed for naval platforms, combining reliability with advanced aero engine technology for optimal power-to-weight ratio and efficiency.
The ILS package ensures operational uptime and cost-effective maintenance throughout the lifecycle of naval engines and systems, tailored to specific customer needs.
We design, build and support complete power distribution systems. These include the Power Management & Distribution System (PMDS) which are comprised of modular stackable distribution units and interconnecting cables.
A full range of services available as needed. Round-the-clock global support through fleet engineering teams and a worldwide network of service centres.
