Sirius Flex

Standardized deployment infrastructure for unattended charging environments.

Deployment Format

Sirius Flex is designed around compact deployment dimensions, grouped utility access and repeatable installation sequencing across charging locations. The deployment architecture is structured for regional and metropolitan rollout where installation speed, unattended operation and long-term serviceability are critical.

Infrastructure Layout

Power, water and sewer are aligned through a centralized utility spine designed to simplify deployment and reduce site coordination complexity. Grouped service access and centralized maintenance zones improve repeatability across charging environments.

Charging Environments

Sirius Flex is structured for deployment across regional, metropolitan and remote charging environments. The compact deployment format allows integration into existing charging locations while maintaining operational access and public usability.

EV charging site infrastructure amenities

Expandable Configurations

The deployment format is expandable across larger multi-unit charging environments. Additional restroom capacity, waiting zones and deployment accessories can be configured around site throughput and operational requirements.

Site Access

QR-enabled access systems are designed for unattended public charging environments. Operational monitoring, access visibility and servicing coordination are structured through the Sirius site operations layer.

Sirius EV Amenities Charging Longe Shelter

Operational Readiness

Sirius Flex is designed around long-term unattended public use with centralized service access, replaceable hardware systems and local contractor compatibility. Deployment environments are coordinated around operational continuity and repeatable servicing standards.

Sirius Buildings Micro Amenities EV Charging Station Building

Manufacturing

Sirius deployment systems are manufactured in-house and transported complete to site position. The deployment architecture is structured around repeatability, serviceability and operational durability across charging environments.