
„Our mission is to develop and provide innovative and efficient solutions for wireless power transfer to enable a sustainable and connected future.“
Dynamic Wireless Power Transfer
Dynamic Wireless Power Transfer (DWPT) enables wireless power delivery to moving vehicles or devices, eliminating the need for charging stops.
By using embedded ground assemblies in roads, it enables continuous charging for electric vehicles, drones, robots, and Automated Guided Vehicles (AGVs).
DWPT allows smaller batteries, improves efficiency, and contributes to sustainable, green energy solutions for transportation and smart manufacturing.

What We Offer
Feature 1
Dynamic energy supply of AGVs in an industrial environment
Feature 2
Dynamic energy supply of AGVs in an industrial environment
Feature 3
Desing, modelling and simulation of WPT systems
Feature 4
Position detection, data transfer and visualization of supplied vehicles
Feature 5
Production of WPT solutions
Feature 6
Consulting in the field of WPT
Dynamic Wireless Power Transfer (DWPT) enables wireless power delivery to moving vehicles or devices, eliminating the need for charging stops.
By using embedded ground assemblies in roads, it enables continuous charging for electric vehicles, drones, robots, and Automated Guided Vehicles (AGVs).
DWPT allows smaller batteries, improves efficiency, and contributes to sustainable, green energy solutions for transportation and smart manufacturing.
Product Features

Flat coil design
Secondary side position detection
High transfer efficiency
Stationary and dynamic power transfer
Interoperable over multiple power classes
Modular components
Prototype
Our prototype system can supply multiple battery-free Automated Guided Vehicles in continuous 24/7 operation.
In the video, Amplink demonstrates an Automated Guided Vehicle powered by our Dynamic Wireless Power Transfer system, utilizing six coils for seamless, continuous charging along its designated path.
On the screen, the six coils are shown as blue dots, illustrating how each one activates as the vehicle moves across them.
The screen also displays the vehicle’s DC-link capacitor voltage. As the vehicle moves, the steady increase in voltage demonstrates the effective dynamic energy transfer from the coils to the Automated Guided Vehicle.
The video uses time-lapse to compress the footage, speeding up the vehicle’s operation over a longer period, while an old clock on the screen shows the real-time duration of the experiment.

Details
