NOA enables drones, robots and industrial platforms to recharge automatically without plugs, pogo pins or battery swaps.
Power crosses an air gap of up to 30 mm, so the receiving device never needs a port. Sealed enclosures stay sealed — IP67/IP68 isn't a compromise, it's the default.
Up to 93% efficiency means almost nothing converts to heat. Modules run at 28 °C while competing wireless systems hit 80–90 °C — which gives integrators real choice on cooling (passive, heat sink, or vents) and stays invisible to thermal sensors.
We're not building the drone, the robot, or the mining rig. We're building the wireless power infrastructure underneath every one of them — so the platforms running the field can run without a person plugging anything in.
Built for power. Optimised for EV-class kilowatts with the IP estate to match. Powerful, expensive, and over-built for a robot that needs 100 W on a base station the size of a coaster.
Built for distance. Optimised for over-the-air transfer at metres. The physics of long range comes at a permanent efficiency cost — fine for sensors, wrong for fleet charging.
Owns usability. Engineered for the real deployment problem: dense form factors, mixed environments, and integration teams that need it on the bench in days. Ready now, not in five years.
Three failure modes stand between fleets and full autonomy.
Pogo pins fatigue. Connectors corrode. Brushes wear out. Every cycle moves the fleet one closer to unscheduled downtime — and unscheduled downtime kills fleet economics.
Dirt, water and chemicals attack every physical contact in the field. A single sealed enclosure beats every rated connector once the ingress finds its way in.
Precision docking burns through charging windows. Operators rotating connectors burn through hours. Together they cap the case for autonomous fleets at scale.
Six environments where contactless, industrial-grade wireless power changes what's possible.
Australian-engineered, with Australian-sourced critical components. Sealed enclosures and low thermal signature suit covert and forward operations. Compatible with AUKUS partner platforms across air, ground and maritime domains.
Every monitor, pump, and bedside device powers through the sealed surface beneath it. No plugs behind the bed. No cables on the floor. Wipe-clean between patients, always on through the shift.
AMRs charge by parking on a pad — no docking arm, no operator, no precision tolerance. Sealed casings stay sealed against floor dust and washdown. Shift rotations run continuously, with no swap-out windows hard-wired into the schedule.
Drones land on a pad and recharge inductively, with no plug to align in wind or low light. Payloads stay sealed against rain and dust, IP-rated by default. Surveillance, inspection and agricultural monitoring missions extend from minutes to days.
Power crosses contaminated air gaps without losing efficiency or shorting out. Patrol robots, mining vehicles and inspection rovers recharge at fixed stations or moving rigs without stopping for a connector. Maintenance drops to near-zero across the fleet.
Subsea ROVs, clean rooms and hazardous-environment platforms can't tolerate any exposed conductor — particulates leak in, sparks fly out, and a single failed docking corrodes the next ten. Inductive power passes through sealed barriers (glass, plastic, water) at full efficiency. The enclosure stays closed for the life of the platform.
Four metrics, four operational consequences.
Maintenance events per 1000 cycles. Pogo pins log 60. Manual swaps log 85. Source: NOA internal reliability data.
Almost nothing converts to heat. Modules run cool enough to dense-pack with no fans.
Equipment savings on a single drone-as-a-service deployment — fewer airframes, no ground crew rotating batteries.
Foreign-object detection and thermal protection cut power before damage. Built in, not bolted on.
Two incumbents. Two different reasons they fall short.
Validate before you commit. Scale when you're ready.
We seed a Dev Kit to your engineering team — hardware on the bench in days, so NOA is proven on your platform before any commitment.
Engineering support from day one. The integration is tailored to your platform's power envelope, form factor and operating environment.
Lock in production supply, scope and roadmap. Position the platform ahead of competitors still relying on physical connectors.
Set-and-forget power infrastructure across the fleet. Wireless charging becomes part of the operating environment, not a maintenance line item.