On the Moon and Mars, regolith and dust storms pose a significant problem for conventional electrical connectors. Exposed conductive terminals can accumulate dust and regolith, sharply limiting cycle life and leading to connector failure after only a small number of uses. Because lunar and Martian regolith is highly insulating, dust-contaminated connectors can block access to power and introduce mission risks. Wireless power transfer has emerged as a candidate to address this issue by removing exposed contact points.

The Bi-Directional 6 kW Dust-Tolerant Resonant Connectors use interlocking coils that are fully insulated and contain no exposed conductive terminals. According to Yank Technologies, this configuration is designed to operate in extremely dusty and dirty conditions, making the connectors suitable for long-duration surface operations and habitats.

Yank Technologies has carried out several NASA contracts focused on power interfaces for extreme environments, using its wireless power expertise to develop systems intended to be reliable and durable. The company designs customizable wireless power solutions for industrial, automotive, consumer, and space applications. Its portfolio includes twenty granted patents and about fifty pending patents related to resonant inductive technology and associated hardware.

Beyond space applications, the company deploys wireless power products in industrial settings. Its systems are used to charge autonomous mobile robots while they are moving through factories to limit downtime, and to wirelessly power and link quality control test functions in real time.

For NASA, the Bi-Directional 6 kW Dust-Tolerant Resonant Connectors are expected to provide astronauts with a robust electrical interface to power multiple types of vehicles and extend surface mission durations on both the Moon and Mars. In 2026, NASA Glenn Research Center and NASA Johnson Space Center plan to test and verify the system using lunar and Martian regolith simulants as part of evaluation and potential infusion into upcoming missions.