As power electronics evolve, so does the complexity of the machines that rely on them.
In off-highway equipment, material handling, agricultural and industrial machines, technologies such as SiC and GaN enable more compact and efficient systems. But they also reduce design margins and make EMC performance, thermal behaviour and load stability far more critical.
In these environments, an electrical issue is not an inconvenience.
It is machine downtime.
At Guilera, the challenge is not only to design power stages.
It is to maintain control of complete systems operating under vibration, temperature and continuous load.
That is why we are scaling our industrial power electronics engineering framework, reinforcing how we:
- define electrical architecture at system level,
- analyse risk (thermal, EMC, reliability),
- design for validation under real load conditions,
- and prepare products for industrialisation.
This engineering framework allows us to integrate new technologies without losing what defines Guilera:
robust, stable electronics designed for real machines.
Our collaboration with ITAInnova supports this framework with advanced tools and validation methods adapted to higher power density and stricter industrial requirements.
Scaling the engineering framework is not about changing how we design.
It is about making sure we keep designing correctly when system complexity and power levels increase.
