


Designing products and technological building blocks for mass production
We get involved from the earliest stages of development to structure the product architecture, define the interfaces between systems, and design robust, industrializable technical assemblies compatible with the constraints of mass production.
Our role is not to design standard products, but to develop customized solutions designed to integrate seamlessly into a comprehensive system.
We design subsystems that integrate into a larger whole, with a logic of overall performance.
Each development is based on three principles:
Integration
Each brick fits into an existing or yet-to-be-defined architecture.
Custom made
No catalog solutions; each system is tailored to the specific use.
Industrialization
Every technical choice is designed for mass production


Our offer

Design your technological building blocks
for mass production.
Product architecture & Complex system
We define the functional and technical backbone of complex products by:
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Structuring product and vehicle subsystems
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Defining mechanical, electrical and functional interfaces
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Ensuring consistency between customer requirements, performance and manufacturability
Multi-system technological building blocks development
We develop critical components designed for integration into complex environments:
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Embedded technical modules
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Opening, safety, lighting and human-machine interaction systems
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Battery integration and energy systems
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Multi-technology integration within a single subsystem
Kinematic engineering & Functional integration
We design and optimize the movement, interaction and functionality of complex systems:
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Kinematic design of moving and articulated systems
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Integration into constrained environments (vehicles, technical equipment and embedded structures)
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Optimization of motion, packaging and functional interfaces
Pre-industrialization & Scaling up
We ensure a smooth transition from design to production by delivering:
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Designs optimized for series production
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Robust and repeatable manufacturing solutions
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Reduced technical risks during production ramp-up
Our use cases
→ Multi-constraint system analysis (hybrid vehicle): integration of front electric axle + critical mass/volume constraints
→ Design of a 24 kWh / ~99 kg battery: energy density / packaging / performance trade-off
→ High-voltage architecture for 160 kW: powering a high-performance drivetrain
→ Dielectric immersion cooling: extreme thermal management control
→ Multi-system integration (battery / inverter / motor): electrical system management and coordination
→ Validated prototype
Development of an embedded mechanical system: vehicle interface, kinematics and product integration
→ Design of a multi-vehicle embedded structural system
→ Definition of vehicle mounting interfaces: robust and repeatable integration on customer platforms
→ Mechanical architecture with access kinematics: quick removal system and articulated design for maintenance
→ 3D design + industrial BOM (bill of materials): full manufacturing-ready documentation package
→ Compliance with road regulatory constraints
→ Supplier pre-industrialization: transition from design → prototype → assembly with industrial partner
→ User needs analysis and technical framing: ergonomics, terrain conditions and operational constraints
→ Architectural exploration: universal mounting concepts and propulsion systems
→ Sizing and concept selection: force analysis, structural design and comparative evaluation
→ Prototype development: 3D modeling, technical drawings and product definition
→ Product optimization: weight, cost reduction, mechanical simplification and manufacturability
→ Validation and pre-production readiness: testing, iterations and industrial documentation



