SYSTEM OPTIMIZATION /
HOW TO IMPROVE eDRIVES?
Whether updating a subcomponent or designing a completely new electrified propulsion system, system simulation can be used to identify the optimal solution in terms of your needs and measures.
We can help you with complete system studies followed by a concept phase with identified e-machine candidates or helping you with any step in your own study.
WHICH ARE YOUR KEY METRICS?
We use ePOP to quickly evaluate new solutions in various metrics such as for example cost, efficiency, sustainability, weight and performance.
Whether updating a subcomponent or designing a completely new electrified propulsion system, ePOP can be used to identify the optimal solution in terms of your needs.
With ePOP we can help you to identify the best motor design, most cost-effective inverter matching and perform risk analysis on external costs as material costs. ePOP can run thousands of configurations to identify what solution is the best based on your specific need.
ePOP is a fast and powerful offering designed to help you derive a competitive electric drive unit (EDU) strategy and solution. The solution can assist with powertrain selection to facilitate make vs buy decisions – e.g. e-machine / inverter. Lifetime emissions can be embedded as CO2eq to compare against performance or TCO.
We are pursuing a system-oriented approach consisting of mass reduction, high functional integration and increased efficiency.
- How can the power density of an e-drive be further increased?
That is, how do we succeed in reducing the weight and number of components?
- How can we improve motor efficiency and reduce losses in the conversion of electrical energy into mechanical energy?
- In other words, how can we achieve a high level of functional integration and an operating strategy optimized for the application?