Global Electric Bus Traction Motor Market 2024-2030

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    GLOBAL ELECTRIC BUS TRACTION MOTOR MARKET

    KEY FINDINGS

    1. The global electric bus traction motor market is expected to grow at a CAGR of xx% from 2023 to 2030, reaching USD xx billion by 2030.
    2. Increasing demand for electric buses, which are more fuel-efficient and environmentally friendly than traditional diesel buses, is driving the growth in the market.
    3. There is Government support for the adoption of electric vehicles, including subsidies and tax breaks across the globe.
    4. China is the world’s largest market for electric buses, and the government has set ambitious targets for the electrification of its bus fleet. This is driving strong demand for electric bus traction motors from Chinese manufacturers.
    5. The European Union has set a target of reducing its greenhouse gas emissions by 55% by 2030. This is leading to increased investment in electric buses and other electric vehicles.
    6. The Biden administration has announced a target of making 50% of all new passenger cars and light-duty trucks sold in the United States electric by 2030. This is expected to boost demand for electric buses in the United States.
    7. AC traction motors are the most popular type of electric bus traction motor, accounting for over xx% of the market share in 2022.
    8. Growing investments in electric bus charging infrastructure: The electric bus charging infrastructure is expanding rapidly, making it easier for operators to deploy and operate electric buses. This is also helping to reduce the range anxiety associated with electric vehicles
    9.  Governments around the world are implementing stricter emission regulations, which is putting pressure on bus operators to switch to electric buses.
    10.  The electric bus charging infrastructure is still in its early stages of development, which can make it difficult for operators to deploy and operate electric buses in some areas.
    11. Traction motor technology is expected to continue evolving, with a focus on improving efficiency, reducing weight, and enhancing performance. This includes the development of more compact and powerful motors.
    12. Companies are developing new technologies to reduce the cost of electric buses, improve their range, and extend the lifespan of traction motors. They are well-positioned to benefit from the growth of the market.

     

    INTRODUCTION

    Electric buses are taking over public transportation across the world. Electric buses are built with the same vehicle body as traditional diesel buses. It is critical to lower the unloaded and rolling weight of the electric bus for regular city transit since it will considerably lessen the burden on the electric motors.

     

    The system that causes the propulsion of a vehicle in which that driving force or tractive force is obtained from various devices such as electric motors, steam engine drives, diesel engine dives, etc. is known as traction system. Traction systems may be broadly classified into two types. They are electric traction systems, which use electrical energy, and non-electric traction systems, which do not use electrical energy for the propulsion of vehicles.

     

    In EV/HEVs, electric motor drives are the most essential component. In a series hybrid vehicle, the electric motor drive is usually the only source of torque. The electric motor is the torque source in parallel and series–parallel hybrid cars, providing peak torque (power) to fulfil vehicle performance requirements such as acceleration.

     

    infographic: Electric Bus Traction Motor Market, Electric Bus Traction Motor Market Size, Electric Bus Traction Motor Market Trends, Electric Bus Traction Motor Market Forecast, Electric Bus Traction Motor Market Risks, Electric Bus Traction Motor Market Report, Electric Bus Traction Motor Market Share

     

    Because fossil-fuel-powered motor cars, trains, and aircraft account for around one-quarter of worldwide energy consumption – and roughly the same amount of global carbon-dioxide emissions – clean transportation is crucial in the battle against climate change.

     

     These emissions are hazardous to both the environment and human health. The needs of the main electric motor (bus drive) is calculated by the traction power analysis of the vehicle. The traction force required to drive the vehicle is influenced by several resistances that act while the vehicle is moving.

     

    GLOBAL ELECTRIC BUS TRACTION MOTOR MARKET DEVELOPMENTS AND INNOVATIONS

    S No Overview of Development Development Detailing Region of Development Possible Future Outcomes
    1 Nidec, Foxconn, Foxtron In Discussions To Establish EV Joint Traction Motor Venture This JV aims to ensure a stable supply of traction motors and other automobile motors for Hon Hai, Foxtron and to expand sales opportunities of new markets and customers for Nidec. Taiwan This would enhance better EV Technologies and production
    2 MAHLE manufactures Traction motor for EV including Electric Buses without Rare Earth Metals New improvements boost the efficiency of inductive motors to make them competitive with ethically fraught rare earth permanent magnet motors. The Mahle motor uses wireless inductive power transmission inside that because the parts are contact-free, they do not wear from friction. USA This would help in better presence and social responsibility on increased levels of requirements
    3 Schaeffler Group

    Hybrid EV drive unit.

    The company will design and manufacture a hybrid EV drive unit which will incorporate two electric traction motors as well as transmission unit with power electronic unit to begin production in 2024. USA The hybrid unit will improve the adaptability of the motor set to be incorporated in different series of vehicles.

     

    The global electric bus traction motor market is a growing market with a number of developments and innovations taking place. Here are some of the key developments and innovations in the market:

    • New motor designs: Manufacturers are developing new motor designs that are more efficient, reliable, and durable. For example, some manufacturers are developing motors with permanent magnets, which can improve efficiency and reduce maintenance costs.
    • New materials: Manufacturers are also developing new materials for electric bus traction motors. For example, some manufacturers are using lightweight materials, such as aluminum and carbon fiber, to reduce the weight of the motors.
    • New manufacturing processes: Manufacturers are also developing new manufacturing processes for electric bus traction motors. For example, some manufacturers are using 3D printing to produce motors with complex shapes and designs.
    • New controls systems: Manufacturers are also developing new control systems for electric bus traction motors. These new control systems can improve the performance and efficiency of the motors, and they can also extend the lifespan of the motors.
    • Integrated motor drives: Integrated motor drives (IMDs) are becoming increasingly popular in electric buses. IMDs combine the electric motor and power electronics into a single unit. This can help to reduce the size, weight, and cost of the electric bus propulsion system, and improve its overall efficiency.
    • E-axles: E-axles combine the electric motor, transmission, and differential into a single unit. This can help to simplify the electric bus propulsion system and improve its efficiency.
    • Wireless charging: Wireless charging technology is being developed for electric buses, which would eliminate the need for physical charging plugs and sockets. This could make it easier and more convenient to charge electric buses.

     

    GLOBAL ELECTRIC BUS TRACTION MOTOR MARKET DYNAMICS

    S No Overview of Development Development Detailing Region of Development Possible Future Outcomes
    1 new high-voltage EV wiring harness by Aptiv The new solution is lighter, more compact, and more durable than previous generations of EV wiring harnesses. It is also designed to be more efficient, with lower resistance and less heat generation Ireland lighter, more compact, and more durable 

    Electric buses are becoming increasingly popular due to their environmental and economic benefits. Electric buses produce zero tailpipe emissions, which helps to improve air quality and reduce greenhouse gas emissions. They are also more fuel-efficient than traditional diesel buses, which can save operators money on fuel costs.

     

     Electric bus traction motors are becoming more efficient and powerful, thanks to technological advancements such as the use of permanent magnets and new materials. This is helping to improve the performance and range of electric buses.

     

    The electric bus charging infrastructure is expanding rapidly, making it easier for operators to deploy and operate electric buses. This is also helping to reduce the range anxiety associated with electric vehicles.

     

    The electric bus charging infrastructure is still in its early stages of development in many parts of the world. This can make it difficult for operators to deploy and operate electric buses.

     

    Electric buses have a shorter range than traditional diesel buses. This can be a concern for operators who need to run their buses on long routes.

     

    Siemens has been awarded a contract to supply traction motors for 1,000 electric buses in India. The contract is worth over €100 million and is the largest order for electric bus traction motors in the world.

     

    Nidec, one of the world’s leading manufacturers of electric motors, is planning to open a new factory in China to produce electric bus traction motors. The factory is expected to start production in 2024 and will have an annual capacity of 100,000 motors. 

     

     Bosch has developed a new electric bus traction motor with higher efficiency than its previous models. The new motor is also more compact and lightweight, which can help to improve the range and performance of electric buses.

     

    ABB has been awarded a contract to supply traction motors for 100 electric buses in the UK. The contract is worth over £10 million and is part of the UK government’s plan to decarbonize its bus fleet.

     

    GLOBAL ELECTRIC BUS TRACTION MOTOR MARKET SEGMENTATION

     

    The Global Electric Bus Traction Motor Market can be segmented into following categories for further analysis.

     

    By Power Capacity Type

    • Below 200 kW
    • 200-400 kW
    • Above 400 kW

     

    By Engine Motor Type

    • AC Traction Motor
    • DC Traction Motor
    • Synchronous Motor

     

    By Application Type

    • City buses
    • Intercity buses
    • Articulated buses
    • Double-decker buses

     

    By Regional Classification

    • North America
    • Europe
    • China
    • Asia Ex China
    • ROW

     

    COVID -19 IMPACT ON ELECTRIC BUS TRACTION MOTOR MARKET

    The COVID-19 pandemic has caused sectors around the world to experience disruptions in the supply chain operations due to travel restrictions, lockdowns as well as due to halt in the manufacturing activities. Many motor manufacturing and development companies are codependent on raw materials and intermediate products, whose supply disruptions have caused significant impact on the manufacturing and delivery of finished products.

     

    For instance, China and Taiwan are the key electronic and critical parts manufacturers in the world, whose manufacturing units have been under regulation and lockdown disrupting the supply chain of the entire world.

     

    The automotive market suffered significant revenue reduction during the first quarter of the year 2020. The net sales of the company BorgWagner decreased by 43% in the second quarter of 2020 as compared to the year 2019. However, the company recovered in the third quarter when the net sales increased by 2%. The company Schaeffler recorded a decrease in the net sales by 22.9% during the first half of the year 2020.

     

    The market is set to recover due to the expanding demand for zero-emission vehicles globally with massive research and development investments which have been aiming for improved efficiency and performance. Traction motors being the major operating parts of an electric vehicle, are likely to drive the expansion of this market.

     

    The incentives and subsidies awarded for the purchase of EV across the globe as well as the rising fuel costs for conventional vehicles is expected to enhance the demand for Evs and with further extension, the demand for traction motors.

     

    infographic: Electric Bus Traction Motor Market, Electric Bus Traction Motor Market Size, Electric Bus Traction Motor Market Trends, Electric Bus Traction Motor Market Forecast, Electric Bus Traction Motor Market Risks, Electric Bus Traction Motor Market Report, Electric Bus Traction Motor Market Share

     

    RECENT TECHNOLOGICAL TRENDS IN GLOBAL ELECTRIC BUS TRACTION MOTOR MARKET

    SiC and GaN power electronics are more efficient and durable than traditional silicon power electronics. Siemens has developed a new electric bus traction motor that is 30% more efficient than its previous models. The new motor is also more compact and lightweight, which can help to improve the range and performance of electric buses.

     

    Integrated motor drives (IMDs) are becoming increasingly popular in electric buses, as they combine the traction motor and power electronics into a single unit. This can help to reduce the size, weight, and cost of the electric bus propulsion system, and improve its overall efficiency.Nidec has developed a new electric bus traction motor that has a higher power density than its previous models. This means that the new motor can produce more power without increasing in size or weight.

     

    Wireless charging technology is being developed for electric buses, which would eliminate the need for physical charging plugs and sockets. This could make it easier and more convenient to charge electric buses.

     

    The 200-400 kW segment is the largest and fastest-growing segment of the electric bus traction motor market. This is due to the increasing demand for medium-sized electric buses. The below 200 kW segment and the above 400 kW segment are expected to grow at a slower CAGR than the 200-400 kW segment in the coming years 

     

    E-axles combine the electric motor, transmission, and differential into a single unit. This can help to simplify the electric bus propulsion system and improve its efficiency.

     

    There is a constant use of artificial intelligence (AI) and machine learning (ML) to develop more efficient and reliable electric bus traction motors.

     

    There is development of new materials, such as silicon carbide and gallium nitride, for use in electric bus traction motors to improve the performance and efficiency of electric bus traction motors.

     

    The development of wireless charging solutions for electric buses is another ongoing development. This would eliminate the need for electric buses to plug in to charge, which would make them more convenient to operate.

     

    In May 2021, German based company Mahle started the development of a new magnet-free electric motor which will not require the use of rare-earth materials. The central feature of the motor will be inductive to provide contactless power transmission with efficiency of over 95%. In 2020, Nidec launched new traction motor systems named the kW Ni200Ex and 50 kW Ni50Ex which are based on the company’s conventional 150 kW E-Axle.

     

    In February 2021, BorgWarner launched its new 800 V electric motor – HVH 320 to power a variety of hybrid and electric applications to be used for commercial vehicles. The motor delivers 97% peak efficiency and over 400 kW of power. It also announced the development of a power integrated drive module (iDM) for Ford motors which will incorporate a complete BorgWarner thermal management system with gearbox integrated with motor and power electronics.

     

    Drive systems for electric bus drive motors must be as efficient as industrial motors in manufacturing plants and commercial buildings. The size and weight of the engine is maybe more essential. For these reasons, a permanent magnet motor with high performance magnets is likely to be the first motor type considered for vehicle drives.

     

    The most recent trend has been the propagation of a possible integrated system of operations featuring high-RPM permanent magnet electric motors, power-dense electronic inverters, and advanced controls that enable electric vehicles which includes mostly E buses to meet the highest standards for efficiency, reliability, and performance. These systems are efficient turnkey solutions optimized for passenger cars and commercial vehicles up to class 2.

     

    There are new ultracompact flameproof high voltage motors, which ensures maximum safety and very reliable operation, even in highly explosive environments. The reason for the unique power density is a revolutionary cooling concept. Very space-saving and efficient in harsh environments.

     

    The water jacket-cooled version designed using CFD optimization also offers significant higher power ratings with no change in unit size. These form to be one of the most essential technologies for integration within the electric traction motors used under the electric bus modules.

     

    The SDT Drive Technology has been introduced on a wide range of high-performance brushless motor drives and a method of control embodied in electronic component architecture and software code (Phase Advance Control) that allows high-speed operation above the base speed that is achievable with constant DC bus voltage.

     

    ELECTRIC BUS TRACTION MOTOR MARKET COMPETITIVE LANDSCAPE

    There has been constant technology battery adoption and automated control system implementation within the EV traction motors requirements under the electric buses segment of operations. The major stakeholders are involved in implementing new strategies of technology to have a better and safer ride for the customers.

     

    The company e-traction, leading producer of retrofitting solutions for buses, has partnered with ViriCiti which is a leading company to provide telematics solution technology. The companies have announced that ViriCiti will now become the standard upgrade option for all electric buses from e-Traction and will be incorporated in the company’s The Motion2.0 EV powertrain.

     

    In November 2020, the Mahle group announced the commission of a test bench for electric drives in the city Stuttgart, Germany. The company has sanctioned investment worth $3.5 million for the testing center. The equipment will be used to test and develop e-drives and e-axles for a range of hybrid as well as electric vehicles.

     

    The facility will include an e-axle unit which consists of two oppositely mounted load machines with permanent magnet synchronous motors. In February 2020, the company ABB signed a contract with Chittaranjan Locomotives Works to supply them with traction equipment worth $26 million. 

     

    ABB released the financial results for the second quarter of the year 2021, where the company recorded orders worth $8 billion which was a 24% comparable increase from the second quarter of the year 2020 which were $6 billion. The revenue came out to be $7.4 billion, an increase of 14% comparable from the same quarter of 2020 which recorded $6.1 billion. The company acquired ASTI mobile robotics group in order to drive the next generation flexible automation sector with autonomous mobile robots.

     

    Siemens AG recently announced the results of the third quarter for the year 2021. The company recorded total revenue worth $23.9 billion in the third quarter of the year 2021, which was a significant increase from $16.2 billion recorded in the third quarter of the year 2020.

     

    The company is set to partner with the automotive component supplier Schaeffler to develop an intelligent diagnostics drive system. The company will integrate its IIoT platform Sidrive IQ with Schaeffler to deliver the drive system.

     

    Ametek announced the results for the second quarter of the year 2021, where the sales were $1.39 billion which was a 37% increase over the second quarter of the year 2020. The operating income of the company increased 39% to $316.6 million.

     

    Nidec Corporation announced the acquisition of the shares of Mitsubishi Heavy Industries Machines Tool Co. Ltd. in August 2021. The company has undertaken the three subsidiaries of Mitsubishi heavy industries which specialise in the design, development and manufacture of machine tools.

     

    The company also released their financial results for the second quarter of the year 2021 with net sales of $4.07 billion which was a significant increase of approximately 33% from the net sales of $3.06 billion recorded in the year 2020 for the same quarter. 

     

    The company partnered with Hon Hai technologies and the Foxtron Vehicle technology of the Hon Hai group for a joint venture. Under the agreement, they will develop electric vehicle drive systems. They will supply products equipped with Nidec’s traction motor system e-axle for customers all over the globe.

     

    In February 2020, the company also announced expansion of its operations by installing three new manufacturing plants in Poland, Mexico and China. These manufacturing units are set up to reduce the cost of electric motors.

     

    Magtec EV buses are part of the much-required manufacturing requirement of the most essential component of operations in the EVs. It has recently introduced the P211 and P180 Traction motors wherein The high performance P211 and P180 traction motors are suitable for most rear-wheel-drive vehicles up to 18 tonne GVW that forms essential under the Electric Buses integration

     

    The P180 motor is suitable for single-decker buses up to 14 tonne and offers 150kW output power, 2000 Nm output torque and a maximum output speed of 2650rpm. The P211 motor is designed for double decker buses up to 18 tonne and offers 200kW output power and drives the differential via a conventional prop shaft. The power controller ensures smooth and reliable traction control during driving and braking.  The power controller ensures smooth and reliable traction control during driving and braking.

     

    The DANA TM4 has been another stakeholder involved in production of custom-made traction motors for electric buses at various stages of the production line as per the ordered requirements.

     

    The TM4 SUMO HP HV900 is available with control algorithms that are optimized for generation applications where continuous power generation is the main operating mode. In a series-hybrid, the combined use of the electric traction system, the optimized gen-set and electrified accessories can result in a minimum 50% fuel economy compared to a conventional vehicle.

     

    ELECTRIC BUS TRACTION MOTOR MARKET COMPANIES PROFILED

     

    THIS ELECTRIC BUS TRACTION MOTOR MARKET REPORT WILL ANSWER FOLLOWING QUESTIONS

    1. Electric Bus Traction Motor Market size and Forecast, by region, by application
    2. Average B-2-B price for Electric Bus Traction Motor Market, by region
    3. Technology trends and related opportunity for new Electric Bus Traction Motor Market tech suppliers
    4. Electric Bus Traction Motor Market share of leading vendors, by region
    5. How does the adoption of Electric Bus Traction Motor vary by region, and what are the factors influencing regional market dynamics? 
    6. What are the key components and technologies that make up an Electric Bus Traction Motor, and how do they impact performance and range? 
    7. What are the main drivers and challenges affecting the growth of the Electric Bus Traction Motor market, including regulatory, environmental, and consumer trends? 
    8. Who are the key players in the global electric bus traction motor market?
    9. What role does charging infrastructure play in the adoption of Electric Bus Traction Motor, and how are governments and companies addressing this challenge? 
    10. What is the significance of motor power output (wattage) in determining the speed and performance of Electric Bus Traction Motors, and how are manufacturers optimizing motor performance? 
    11. What is the competitive landscape of the Electric Bus Traction Motors, and who are the major players and innovators in this space? 
    Sl no  Topic 
    Market Segmentation 
    Scope of the report 
    Research Methodology 
    Executive Summary 
    Average B2B Price, By Region 
    Introduction 
    Insights from Industry stakeholders 
    Cost breakdown of Product by sub-components and average profit margin 
    Disruptive innovation in the Industry 
    10  Technology trends in the Industry 
    11  Consumer trends in the industry 
    12  Recent Production Milestones 
    13  Regulations and Incentive for electric buses, by region
    14  New product development in past 12 months 
    15  Research focus areas of Traction Motor supplier
    16  Development of Moter and utilization in Electric Bus Traction Motor
    17  Market Segmentation, Dynamics and Forecast by Geography, 2024-2030 
    18  Market Segmentation, Dynamics and Forecast by Power Capacity, 2024-2030 
    19  Market Segmentation, Dynamics and Forecast by Engine Motor , 2024-2030 
    20  Market Segmentation, Dynamics and Forecast by Application, 2024-2030 
    21  Competitive Landscape 
    22  M&A in past 12 months 
    23  Growth strategy of leading players 
    24  Market share of vendors, 2023 
    25  Company Profiles 
    26  Unmet needs and opportunity for new suppliers 
    27  Conclusion 
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