Accelerated design for next-generation powertrains

Digitally transforming the development of electric motors, controls, and powertrains.

Transformational Approach

Scaling engineering capability to deliver next-generation drive systems, faster

Today’s staged development processes are not cost-effective or fast enough to meet demand for next-generation transportation systems. Complex data hand-offs, repeated prototype builds, and limited process feedback present challenges for development teams already under pressure. Our tools and methods enable engineering teams to deliver tomorrow’s energy systems, faster.

Digitization Benefits

Realized process improvement

(with major automotive OEM)

Lower design pre-processing time
Lower design post-processing time
Less data transfer time
Faster simulation time


A connected engineering platform

Our digitization platform links leading engineering tools to create a unique virtual environment for development of electric motors, drives, and electrified powertrains. A high level of interoperability enables faster cross-functional workflows for every stage of drive system  development, from simulation to verification.

We have built tools that enable a more agile and effective approach to electrified systems development:

  • Support engineering teams of any size
  • Achieve design requirements with fewer costly builds
  • Lowered capital requirements
  • Higher flexibility in design iterations
  • Faster time to market

Workflow Acceleration

Toolsets for faster development

Highly accurate
system simulation

Represent real-world operating conditions in a virtual environment with exceptional accuracy.

controls design

Multiphysics modeling and characterization of system behavior enables advanced control of thermal, structural, acoustic, and power performance.

Accelerated engineering
data pipeline

Automated generation of manufacturing-ready CAD data for both structural and electrical system components

We are ready to support
your advanced development projects

Our Capabilities

  • Electrified powertrain optimization
  • Drive system integration & verification
  • Reduction & elimination of rare-earths in motors
  • Architecture & requirements commonization
  • Components sizing
  • Motor and system controls development
  • Motor topology & performance optimization

Applications & Systems

  • Switched-reluctance motors (SRMs)
  • Interior permanent-magnet motors (IPMs)
  • Induction motors
  • Electric motor drives / electronic drive units (motor, inverter, gearbox systems)
  • E-powertrains
  • Motor controllers

Deep Expertise

We are a technology company

We have ownership of over 50 patents and pending patent applications and related inventions developed by the Canada Excellence Research Chair in Hybrid Powertrain Dr. Ali Emadi and his research group at the McMaster Automotive Resource Centre (MARC), McMaster University.

As one of the largest research  groups in transportation electrification technology in academia in North America, Enedym is the result of 7 years of intense research and development at MARC.

About Us

Connect with Enedym

Let’s change how the world moves, together.