Unlock the future of soldier-worn technology in our upcoming webinar, where we’ll explore the latest advancements in design and interconnect solutions critical for modern combat. Discover essential strategies for managing power, minimizing weight, and integrating tactical gear to meet rigorous military standards and ensure peak performance in the field.
October 23, 2024
2:00 PM ET / 1:00 PM CT / 11:00 AM PT / 7:00 PM GMT
Duration: 1 hour
As modern warfare evolves, the demand for more advanced, reliable, and efficient soldier-worn technology is higher than ever. This webinar will explore the critical design considerations that (engineers and) manufacturers must prioritize when developing interconnect solutions for soldier equipment and tactical devices.
We will delve into the key market trends shaping the future of military technology, including the integration of new military qualification standards and the seamless incorporation of tactical gear into broader military systems.
Attendees will gain insights into the complex challenges of power management, the importance of minimizing weight, and the need to support high-speed data rates in combat scenarios. The session will also cover the user interface aspects such as coupling, mating cycles, and integrated cable management, all crucial for ensuring ease of use and durability in the field.
Furthermore, we will discuss stringent environmental standards, including sealing, temperature resilience, shock and vibration resistance, and electromagnetic interference (EMI) performance, which are vital for maintaining the operational integrity of soldier-worn systems in harsh environments.
This webinar is essential for anyone involved in the design, development, or deployment of military-grade tactical gear and interconnects, offering a comprehensive overview of the latest advancements and considerations in soldier-worn technology.
Speakers
Paul Alpers
Regional Sales Manager
ITT Cannon
© EPCI - Premium Passive Components Educational and Information Site
© EPCI - Premium Passive Components Educational and Information Site