This week we are publishing fresh evidence from our test programme. The results validate the central hypothesis that drove the architecture choice: that a dual-flux radial machine, designed coherently across its electromagnetic, mechanical and thermal layers, can sustain class-leading torque density without the penalties usually associated with such targets.
Independent dynamometer data, captured at our partner test cell, confirms the bench numbers with margin against the standard duty cycles for this segment. We are extending the programme to long-cycle endurance testing through Q3, with field validation expected in Q4.
For partners considering integration: the QRM-2 reference unit is not a product. It is a proof point that informs programme-specific designs, derived through NeurotorQ. If you have a duty cycle and an envelope, we can run an exploratory study against your targets in a matter of weeks.