Expeditionary Power Optimization
I2T is the DoD’s leader in expeditionary power optimization. We innovate and engineer the best solutions so that forward deployed forces can have superior advanced warfighting systems on the battlefield.
Critical Power Systems
Our team works to optimize these critical systems’ reliability, availability, efficiency, and resiliency.
- Power Assessment
- Power Management
- Super Capacitors
- Management Software
- Alternative Power Sources
- Advanced Power Storage
- Tactical Micro-grid Design
- Power Distribution
- Hybrid System Design
Image courtesy of the U.S. Department of Defense
I2T redesigned the launcher power sub-system while addressing reliability, maintainability, and fuel use issues.
We prototyped, integrated and demonstrated a smart hybrid power sub-system that improved silent run time, reduced fuel use by half, and reduced mean time between failure by two thirds.
Allows THAAD Launcher to far exceed system requirements.
I2T designed a hybrid power system from the ground up for an elevated sensor system. This system complements the current 1kW, 3kW, and 5kW generators.
The smart power system meets stringent environmental field standards, soldier carry restraints, and modularity requirements. Also, our system is the foundation for the Army’s hybrid power architecture, allowing for standardized configurations for any number of small power system customers.
The GBOSS system is currently being tested as part of its transition to a Program of Record and will be fielded in short order.
Leveraging the Army's hybrid power architecture, we designed and integrated a hybrid power sub-system for an elevated security and surveillance system.
The smart power system meets stringent environmental field standards, soldier carry restraints, and modularity requirements. The scalable, modular, and configurable system is rapidly deployable and lightweight. Since our power sub-system uses the Army’s hybrid power architecture, it also provides standardized configurations and easy to support logistical needs.
The TSS system is scheduled for testing in late 2019 with fielding to follow.
