L3Harris Al-H₂O Aluminum-Water Energy Modules represent a groundbreaking advancement in undersea power generation technology, leveraging an electrochemical system developed and patented by MIT founders. This innovative solution provides safe, scalable, and nontoxic energy storage with exceptionally high energy density, offering a significant 2-10x improvement in the endurance of unmanned underwater vehicles (UUVs) and various maritime sensors and communication nodes. Designed for "dirty, dull, and dangerous" missions such as mine-sweeping and pipeline surveys, these modules enhance operational efficiency while safeguarding human lives and reducing the costs associated with traditional maritime assets. The Al-H₂O modules are cost-competitive with alternative energy storage technologies and feature a simple design with minimal moving parts, making them scalable and modular to meet diverse mission requirements without extensive customization. Their ability to utilize hydrogen byproducts for buoyancy further optimizes performance in both neutrally buoyant systems and ocean-floor applications.
The L3Harris Air Circuit Breaker 2012 is a state-of-the-art electrical protection device designed for use in demanding environments, particularly in military and aerospace applications. This advanced circuit breaker offers reliable performance and enhanced safety features, ensuring optimal protection for critical electrical systems. With its robust design, the Air Circuit Breaker 2012 is capable of handling high current loads while providing precise control and monitoring capabilities. Its lightweight construction and compact form factor make it suitable for integration into various platforms, including unmanned systems and submarines. L3Harris continues to lead the industry by delivering innovative solutions that enhance operational efficiency and safety in complex electrical environments.
The L3Harris Air Circuit Breaker 4012 is an advanced electrical protection device designed to enhance safety and reliability in various applications. It features a range of new standard capabilities, including RMS sensing, ground-fault detection, real-time state monitoring, and bidirectional communications. The breaker also incorporates electronic overcurrent protection, eliminating the need for costly overcurrent assemblies and simplifying the ordering process. Additional functionalities such as under-voltage dropout, under-voltage lockout, power-up trip, and charging motor protection further enhance its versatility and operational efficiency. By reducing parts inventory and maintenance requirements, the Air Circuit Breaker 4012 not only improves performance but also results in significant manpower savings, making it an ideal solution for modern electrical systems in military and commercial environments.
The L3Harris Air-Cooled Frequency Converter (ACFC) is a cutting-edge solution designed to provide refined, stable, and reliable power delivery to central and distributed 400 Hz systems, including weapons, fire control, electronic countermeasures (ECM), sonar, and avionics. Complying with MIL-STD-1399 requirements for Type III power and STANAG 1008, Edition 8, the ACFC ensures compatibility with existing shipboard data buses, facilitating seamless integration into naval platforms. The ACFC family features units rated up to 75 kW, making them ideal for demanding military applications where consistent power performance is critical. With its robust design and advanced technology, the L3Harris ACFC enhances operational efficiency and reliability in complex maritime environments.
The L3Harris Air-Cooled, Solid-State Frequency Converter (ACSSFC) is engineered to deliver reliable power for critical applications, including the AEGIS Weapons Systems, while serving as a direct replacement for aircraft carrier or fixed-base central power motor generators. With a rating of 288 kW/384 kVA, the ACSSFC supports parallel operation with up to six units, ensuring robust performance and flexibility. This converter provides MIL-STD-1399 Type II or III power with exceptional reliability and efficiency. Its air-cooled, self-contained modular design facilitates easy access for troubleshooting and built-in diagnostic tests enhance operational readiness. The ACSSFC is an ideal solution for demanding military environments, backed by comprehensive logistics support to ensure seamless integration and maintenance.
L3Harris Aircraft Elevators and Ship Lifts for surface combatants are designed to enhance operational efficiency by facilitating the safe and effective transport of aircraft, vehicles, personnel, and various loads aboard naval vessels. These systems are shock-qualified and can operate in sea states up to 6, ensuring reliability in challenging maritime conditions. The elevators, which are hydraulically or electrically operated, feature integrated fireproof, gas-tight, and spray-tight doors, as well as flight deck hatches for enhanced safety. Key features include mobile safety nets, signaling lights, and automatic platform folding to minimize ship breadth. Additionally, ship lifts are specifically designed for transporting ammunition, food, waste, and MEDEVAC operations. With classification society approval from RINA, L3Harris's solutions provide a robust and versatile approach to maritime logistics for modern combatants.
L3Harris' Alarm and Announcing Systems are engineered for high-performance and resilience in demanding environments, delivering superior audio quality that sets the industry standard. These modular systems are ideal for high-ambient noise settings such as aircraft carrier flight decks, military vessels, offshore platforms, and large commercial venues like stadiums and factories. With configurations ranging from systems driving eight speakers with 40 watts of amplification to those managing over 1,100 speakers with 24,000 watts, they ensure clear communication under any circumstances. Built with multiple levels of redundancy and failover capabilities, these systems maintain operational integrity even if a complete rack goes offline. L3Harris meets stringent specifications set by the American Bureau of Shipping (ABS), SOLAS, and various military standards, ensuring compliance and reliability in critical situations.
The L3Harris AO-1010 is a high-performance diode-pumped, solid-state (DPSS) laser designed for advanced applications, featuring a 1.54 μm wavelength and actively Q-switched Erbium glass technology. This high-efficiency sid-pumped laser transmitter is engineered for reliability and precision, making it suitable for a variety of demanding environments. When customers purchase the AO-1010, they receive complimentary technical support from L3Harris engineers, who possess extensive experience in assisting with laser driver needs to ensure projects are implemented quickly and effectively. The AO-1010 exemplifies L3Harris's commitment to delivering innovative solutions that address the toughest challenges faced by its customers across various industries.
The L3Harris Trident II D5 is a key component of the U.S. Navy's submarine-launched Fleet Ballistic Missile (FBM) program, with over 40 years of support in boost and post-boost propulsion systems manufactured at facilities in Gainesville and Orange County, Virginia. L3Harris has produced nearly 4,000 Post Boost Control System Gas Generator Units for both the Trident I C4 and Trident II D5 programs, as well as critical components such as Nose Fairing Jettison Motors and Third State Eject Motors. Currently, the Trident II D5 missile is deployed on Ohio-class submarines and is set to be integrated into the upcoming Columbia-class submarines. L3Harris continues to lead in developing emerging technologies that enhance the capability and affordability of missile systems, ensuring a strong foundation for the next generation of FBM propulsion systems while maintaining a remarkable mission success track record within the FBM team.
The L3Harris PASOR Portable Acoustic Range is a comprehensive cooperative acoustic measurement solution designed for high-resolution source level signature measurements of submarines and surface ships. Utilizing multiple GPS-enabled noise measurement sonobuoys, the system captures and records raw acoustic data that is processed in near real-time, providing detailed narrow and broadband signature information of tracked targets. PASOR facilitates effective range management through bi-directional acoustic voice and data communications with both submarine and surface units, enabling real-time tracking and measurement of underwater or surface assets. Its highly portable design allows for rapid deployment, making it ideal for conducting measurement ranges or self-noise assessments with immediate analysis and distribution of results. The system supports both disposable sonobuoys and recoverable RF buoys, ensuring flexibility in various operational scenarios while enhancing situational awareness through secure data recording and real-time displays.
L3Harris specializes in the design and manufacture of fuzing and ordnance systems, providing precision electronic components for military applications. The company operates a state-of-the-art facility equipped with comprehensive program management, engineering, and quality assurance resources, all strategically located on-site to ensure compliance with programmatic and technical requirements. L3Harris's flexible manufacturing capabilities allow for the production of various fuzing products, with run rates ranging from 40,000 units per month to individual units for development projects. The facility includes an advanced Automated Electronics Assembly area that utilizes modern Surface Mount Technology (SMT) equipment to produce high-reliability Flex Circuit Assemblies and Circuit Card Assemblies, adhering to stringent military standards. With over 60 years of experience, L3Harris is a trusted partner for all branches of the military and major weapon system primes, delivering superior products and innovative solutions that enhance operational capabilities and provide a competitive edge to warfighters. Their expertise encompasses the design, development, testing, and manufacture of mechanical and electro-mechanical fuzes, safe and arm devices, initiating devices, and proximity sensors.
The L3Harris ES-3601U Submarine Radar Electronic Support Measures (ESM) System is a cost-effective, high-capability solution designed to enhance the situational awareness of warfighters by intercepting, analyzing, locating, evaluating, and reporting radar signals. Featuring an innovative monopulse direction-finding (DF) system, the ES-3601U provides accurate bearing measurements and operates effectively within various combat system environments on subsurface platforms across Europe and Asia. With a 100% probability of intercept and instantaneous DF capabilities over 360°, it offers long-range detection and tracking across a frequency range of 2-18 GHz. The system processes up to one million pulses per second and can track 500 emitters simultaneously, ensuring comprehensive monitoring of the electromagnetic spectrum. Its user-friendly Windows interface allows for easy integration with modern combat management systems, while built-in training options and an extensive emitter mode library enhance operational readiness. The ES-3601U stands as a critical tool for electronic intelligence (ELINT) operations, delivering precise measurements and high sensitivity for effective maritime operations.
The L3Harris ES-3701U Precision Submarine Radar Electronic Support Measures (ESM) System is a high-performance solution specifically designed for submarine applications, utilizing a circular phase interferometer for precise angle of arrival (AOA) measurements. This advanced system employs sophisticated signal algorithms for accurate emitter identification and classification, ensuring high probability of intercept and long-range detection capabilities. The ES-3701U effectively operates in challenging littoral environments by incorporating robust interference removal techniques that mitigate the effects of multipath signals. With wideband, narrowband, and low band subsystems, it offers comprehensive signal exploitation and can handle frequency-modulated continuous wave (FMCW) radars with exceptional sensitivity. The system features a rapid reaction time of less than one second and processes one million pulses per second, supported by a library capacity of 20,000 emitter modes. Its user-friendly Windows interface allows for seamless integration with combat systems and multi-function consoles, while built-in training options and a high-speed digital recorder enhance operational effectiveness in electronic intelligence (ELINT) missions.
The L3Harris WESCAM MX™-Series In-Flight Training program is designed to enhance mission success and readiness through high-quality, industry-leading training solutions tailored to meet demanding operational requirements. Each course aims to increase mission success rates, ensure personnel are well-prepared, reduce equipment downtime, and maximize return on investment. Facilitated by certified professional instructors and instructional designers, the training covers everything from system familiarization to operational procedures and intermediate maintenance. Participants can choose to attend courses at L3Harris factory locations or have training delivered directly at their facilities, ensuring that the right knowledge and skills are accessible when and where they are needed most for effective integration, operation, and maintenance of WESCAM MX™-Series EO/IR imaging systems.
The L3Harris WESCAM MX™-Series Open Enrollment Training is a flexible and cost-effective program designed for individuals or small groups seeking to enhance their operational and organizational maintenance skills. Modeled after the comprehensive three-day Operator and Organizational Maintenance course, this training combines in-class lectures with practical hands-on exercises on WESCAM MX-Series systems. The course adopts a generic approach, allowing participants to address specific questions related to their individual configurations with the guidance of experienced trainers. Facilitated by professional staff, the Open Enrollment Training equips personnel with the essential knowledge and skills needed to ensure mission readiness, ultimately increasing mission success rates, reducing equipment downtime, and maximizing return on investment. Participants can choose to attend at various locations or have training delivered directly to their facilities, ensuring accessibility and convenience in their learning experience.
