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The newly issued patent protects Voyager Technologies’ proprietary electrical power and data-interface architecture for the Bishop Airlock.
Voyager Technologies’ 2025 Mars-bound airlock study with NASA Marshall identified key technical challenges unique to deep-space missions that are addressed by capabilities covered in the new patent.
Voyager Technologies’ electrical power and data-interface architecture enables the Bishop Airlock to connect to the International Space Station through the Common Berthing Mechanism (CBM).
Voyager Technologies provides modular, electrically integrated space infrastructure in support of commercial customers, civil agencies, and national-security missions.
Voyager Technologies developed a specialized electrical power system that interfaces externally mounted modern payloads with the Space Station’s existing infrastructure while maintaining full command, control, and operational reliability.
Jeffrey Manber is special assistant to the CEO of Voyager Technologies and oversaw Bishop Airlock development.
Voyager and Max Space are collaborating on expandable structures technology for surface infrastructure.
Voyager Technologies was awarded a sixth patent related to the Bishop Airlock.
In 2025, Voyager Technologies completed a Cooperative Agreement Notice with NASA Marshall Space Flight Center to study integration of an airlock on a Mars-bound vehicle.
Voyager Technologies anticipates adding three payload missions during the next quarter to support short-term demand and ongoing ISS operations.
Previous Voyager missions for NASA included debris deployment operations through the Bishop Airlock aboard the International Space Station.
Voyager Technologies will provide payload integration, mission operations, safety and regulatory compliance, and post-mission closeout services under the contract.
Voyager Technologies won an indefinite-delivery/indefinite-quantity (IDIQ) contract for NASA Johnson Space Center.
The new contract consolidates Voyager Technologies’ position as a provider of mission management services with experience executing crewed spaceflights.
Voyager Technologies executed more than 50 work orders under a prior services contract with NASA Johnson Space Center.
Previous Voyager support included work for NASA’s Established Program to Stimulate Competitive Research competitive research payloads.
The Voyager Technologies–Max Space partnership pairs Voyager’s mission-critical space systems and infrastructure experience with Max Space’s lightweight, high-capacity expandable-structure technology.
Voyager Technologies and Max Space plan phased demonstrations on the ground and on orbit in the late 2020s with the goal of establishing operational capabilities for future lunar and Mars surface applications and supporting a sustained lunar economy.
Scott Rodríguez is Voyager Technologies’ vice president of Government Programs.
Voyager Technologies and Max Space signed a strategic cooperation agreement on February 5, 2026 to advance expandable space infrastructure technologies.