The collaboration between Paired Power, a California-based firm specializing in solar solar technologyand PHNXX, an Australian manufacturer of portable power solutions, has resulted in a system that is making a difference in off-grid areas. Their joint product, PairPHNXX, allows a fully functional solar microgrid to be deployed in less than 24 hours.
A portable solar system for immediate deployment
Designed inside a standard 6-meter container, PairPHNXX integrates solar panels with battery storage and energy management system. Its capacities range from 46 to 93 kW in solar energy, and from 42 to 636 kWh in storage, with configurable output powers from 30 to 60 kW. This flexibility allows it to be adapted to different environments, from tribal lands to mining facilities or military bases.
Unlike other solutions, PairPHNXX does not require foundations, trenches or permanent installation. This facilitates its use in uneven terrain or difficult access, expanding the possibilities for rural electrification.
Paired Power and PHNXX have emphasized that the initiative not only responds to a technical need, but also a social one. PairPHNXX seeks to democratize access to renewable energy, facilitating electrification in isolated communities. As part of this vision, both companies are aligned with initiatives such as the Tribal Clean Energy Alliance, which values cultural inclusion and community participation in energy projects.
Intelligent software for custom design
The system is supported by Pairiscope, Paired Power’s design platform, which optimizes each unit based on climatic data and consumption profiles. This enables efficient configuration for specific conditions, increasing the durability and performance of each installation. PairPHNXX also integrates with the company’s other solutions such as PairFleet and PairTree, extending its applications from vehicle charging to community power.
With this contained solution, companies aim for flexible, fast and sustainable electrification, covering urgent energy needs without relying on heavy infrastructure and centralized networks.
Source and photo: Paired Power
