Engineering

We electrify vehicles

We help you convert combustion-powered platforms into high-performance electric machines — fully custom, fully integrated, and simulation-driven.

  • ●── CUSTOM BATTERY PACKS

    Tailored design for your specific needs: range, voltage, safety, and packaging.
    Simulation-driven from day one.

  • ●── FULL SYSTEM INTEGRATION

    We redesign all systems affected by engine replacement: thermal management, control electronics, structural mounts, electrical layout, etc.

  • ●── ADVANCED SIMULATION

    We apply one or more advanced analyses during prototype development, customized to each project’s needs to ensure optimal results.

Common Challenges We Solve

  • Planning to convert a vintage or classic vehicle — and need to meet Canadian provincial road regulations?

  • Need a battery pack that fits within tight space constraints, meets power and range goals, and passes safety validation?

  • Swapped the engine — and now thermal, structural, and control systems no longer work together?

  • Want to reduce prototyping cycles and move faster from concept to a working build?
Let's Discuss Your Project

Advanced Design Tools

  • Generative Design

    We explore multiple design possibilities to find the most efficient and reliable solutions tailored to your specific needs.

  • Topological Optimization

    This process refines designs by removing unnecessary material while maintaining strength and safety, ensuring lightweight, high-performance results.

  • Loading Cases & Vibration Studies

    We analyze how structures and components respond to various loads and vibrations, ensuring maximum strength, durability, and reliability in real-world conditions.

  • Impact Simulations (FEA)

    We simulate impacts to test and improve the robustness and safety of your designs.

  • Thermal Simulations & CFD

    We ensure your solutions are optimized for performance, safety, and long-term reliability under demanding conditions.

  • Theoritical simulations

    We predict cell performance under real-world loads and conditions, helping you select the best battery chemistry—even before a prototype exists.

  • Instrumentation

    We measure your system’s real power needs using advanced tools and real-world data to guide precise battery design.