Electric Commercial Vehicle Traction Motor Market Worth $9.8 Billion By 2030

The traction motor, serving as the powerhouse behind ECVs, symbolises a transformative shift towards sustainable and innovative transportation solutions. With the escalating urgency to address climate change and reduce reliance on fossil fuels, ECV traction motors are pivotal in propelling a wide array of commercial vehicles, including trucks, vans, pickups, and buses. The motors integrate state-of-the-art technologies in motor control and power electronics, ensuring optimal performance while minimizing energy consumption and emissions.

The robust expansion of the ECV traction motor market is propelled by several factors, including the increasing adoption of electric vehicles across diverse industries, supportive governmental policies, cost competitiveness, and a global commitment towards fostering a greener future. As the world embraces electrification, these motors stand at the forefront, driving a paradigm shift towards more sustainable and environmentally conscious transportation solutions. Prominent key players include

ZF Friedrichshafen AG
Dana Limited (US)
Robert Bosch GmbH
Magna International Inc
Allison Transmission, Inc
Schneider Electric SE
Toshiba Corporation
General Electric Co
Hitachi, Ltd

"The less than 100 kW segment to show a significant growth rate during the forecast period."

Forecasted Growth

The forecasted growth for the less than 100 kW market stands at an impressive 32.5% CAGR.

This category primarily serves smaller electric vehicles like compact vans, tailored for efficient short-distance operations. These vehicles present a green solution for urban logistics and final-mile deliveries, gaining traction for their ability to navigate crowded city streets with minimal emissions and noise disturbance. Their electric propulsion system enhances delivery speed and efficiency, aligning with the shift towards sustainable urban logistics practices.

Major automotive manufacturers are tapping into this rising demand for eco-conscious last-mile delivery solutions. For instance, Tata Motors in India has targeted intra-city cargo transport operators in e-commerce, FMCG, and courier sectors. Their electric Ace model, boasting a power output of 27 kW, promises a reduced total cost of ownership, bolstering its appeal in the market.

Leading companies like MAHLE Group, Schaeffler Group, BorgWarner, and Robert Bosch GmbH are also active players in this segment, offering a range of motors to cater to the growing demand.

Radial flux motors are witnessing a notable upswing

Radial flux motors are witnessing a notable upswing in demand within the electric commercial vehicle traction motor sector, owing to a multitude of factors. Renowned for their robust torque output and high power density, these motors are proving to be a perfect fit for heavy-duty commercial vehicles, including delivery trucks and buses. Such vehicles necessitate substantial pulling power and acceleration capabilities, precisely the strengths offered by radial flux motors, ensuring peak performance both in urban settings and on highways.

Moreover, these motors boast enhanced efficiency, resulting in extended driving ranges and decreased energy consumption, a critical consideration for commercial fleet operators striving to curtail operational expenses while maximizing profitability. Given the typical requirements of electric commercial vehicles in terms of cargo capacity, passenger accommodation, and onboard systems, the compact nature of radial flux motors facilitates more streamlined vehicle packaging and optimized layout configurations. The compactness not only allows for the design of vehicles with larger cargo capacities but also enhances maneuverability and agility, pivotal for negotiating congested urban areas and executing frequent stops along delivery routes.

Whether empowering delivery vans, buses, or heavy-duty trucks, these motors can be fine-tuned to deliver top-notch performance, torque, and efficiency, effectively catering to the diverse needs of commercial fleet operators. Furthermore, their scalability enables the widespread adoption of radial flux motor technology across various vehicle sizes and classes, thereby further bolstering their market penetration within the electric commercial vehicle traction motor segment.

Acceleration improvements and range to drive continuing growth

Multi-speed drive motors

A traction motor equipped with a multi-speed drive incorporates several gear ratios, enabling it to operate at varying speeds and torque levels. The setup involves coupling the motor with a transmission mechanism capable of shifting between different gear ratios depending on factors like vehicle speed, load, or driver input.

By adjusting the gear ratio, the motor can function efficiently at different speeds, maintaining optimal performance. The new capability facilitates improved acceleration, higher top speeds, enhanced hill-climbing abilities, and increased energy efficiency compared to single-speed drive systems. Multi-speed drive motors prove particularly advantageous in electric commercial vehicles navigating diverse environments, including urban, suburban, and highway conditions.

By offering multiple gear ratios, these motors optimize power delivery and torque output across a range of speeds and load requirements, thereby enhancing overall driving dynamics, efficiency, and range. Moreover, multi-speed drive systems provide flexibility in adapting to various driving scenarios, ensuring optimal performance and drivability across different operating conditions.

High Manufacturing Cost is a Major Headwind Impeding Market Growth

The significant expenses associated with these traction motors present a significant barrier to market expansion. Additionally, fluctuations in pricing and the disparity between supply and demand for essential raw materials further challenge market stability.

Nonetheless, anticipated technological advancements in the near future are poised to bolster market growth consistently, introducing cost-effective manufacturing methods.

Market Segments

The market is divided into categories including types, power ratings, applications, and regions. Under the type category, there are two sub-segments: AC motors and DC motors. AC motors hold the largest market share due to high demand from electric vehicles and railway sectors.

In the power rating category, there are three sub-segments: 400 kW. Applications are further divided into railways, electric vehicles, elevators, conveyors, industrial machinery, and others. Geographically, the market is segmented into Americas, Asia Pacific, Europe, and rest-of-the-world.

Key Market Drivers

Demand for the energy-efficient motor: An important driver propelling the market for electric traction motors is the increased need for energy-efficient motors.

Vehicle energy efficiency allows for minimal maintenance and energy savings.
Favourable government policies - The usage of electric traction motors is encouraged by governmental legislation. These motors are advantageous because they conserve energy and lessen environmental pollutants.

As the global push towards sustainability and decarbonization gains momentum, the electric commercial vehicle traction motor market stands poised for significant growth. With a projected worth of £9.8 billion by 2030, this sector reflects a burgeoning transition towards cleaner transportation solutions.

The increasing adoption of electric vehicles in commercial fleets, driven by regulatory mandates and environmental consciousness, underscores a pivotal shift in the automotive industry.