Battery and Power Train Technologies for Electric Vehicles

Battery and Power Train Technologies for Electric Vehicles

Electric Powertrain Technologies will Play a Significant Role in Changes in the Automotive Value Chain

RELEASE DATE
29-Jun-2018
REGION
Global
Research Code: D82A-01-00-00-00
SKU: EG01892-GL-TR_22058
$4,950.00
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$4,950.00
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Description

Electric vehicles (EVs) are inevitable future of the automotive industry. Many manufacturers around the world are investing heavily for developing EVs, which is facilitated by a steady increase in prices for petroleum products, the need to reduce harmful emissions from cars, and development of energy storage technologies. This research service titled, “Battery and Powertrain Technologies for Electric Vehicles,” provides an overview of types of electric motors that are currently used in EVs. Additionally, it presents the challenges, drivers, and adoption scenario for electric drive technologies.
This research study focuses on the latest achievements in the development of battery electric vehicle (BEV) powertrain subsystems, such as energy sources and propulsion, as well as, on multiple technologies that can be implemented for the proper operation of these subsystems. Electric drive technology is considered in more detail. The types of electric motors that are currently used and could be used in EVs are compared. The various powertrain configurations and their interrelation with different electric motor type and design are also described in this research service.

Table of Contents

1.1 Research Scope

1.2 Research Process and Methodology

1.3 Key Findings

2.1 Future

2.2 Key Drivers in Favour of Battery Electric Vehicle Deployment

2.3 Technology Imperfection is the Main Challenges for Deployment of BEVs

2.4 The Shift to Electric Powertrain will Significantly Change the Value Chain

3.1 Overview of Electric Vehicles

3.2 Overview of Powertrain Subsystems

3.3 Design Powertrain of Electric Vehicle Depends on Type of Usage

3.4 BEV Powertrain Configurations

3.5 Central Drive is the Most Commonly Adopted Powertrain

3.6 Wheel-hub Drive has a Fundamentally Distinctive Design

3.7 All-wheel Drive Configuration

4.1 Electric Motor is More Efficient Compared to ICE

4.2 Permanent Magnet Motor Features the Highest Power Density

4.3 Induction Motor is the Most Mature Technology

4.4 Next Generation Magnetless Synchronous Motors

5.1 Global Market for Electric Vehicle Motor is Projected to Progress at a Promising Pace

5.2 Research Publications Highlight Key Focus on Propulsion System

5.3 Goverment Policy and Funding Promote Transition to Electric Vehicles

6.1 Patent Activity for Electric Motors with Indication on the Application Scope

6.2 Patent Activity for Electric Motors for Applications in Electromobility

6.3 Chinese Patent Office Leads in Global Patent Applications for Electric Vehicle Motors

6.4 OEMs Lead in Patent Activity for Electric Motors in Automotive Applications

7.1 Best-in-class Precisely Engineered Electric Motors

7.2 Modular Electric Axle Drive for More Efficient Powertrain

7.3 High Voltage Hairpin Technology for Electric Motors

7.4 Novel Coaxial-design Electric Axle System

8.1 Optimization of Powertrain Technology

8.2 Decision Matrix for Electric Vehicle Motors

8.3 Trends Indicate Transition to More Advanced and Integrated Powertrain Technologies in the Future

9.1 Growth Opportunity – Shift to Electric Powertrain Requires a New Production Capacity

9.2 Strategic Imperatives: Critical Success Factors

10.1 Key Patents For Alternating Current Motor Powertrain

10.2 Key Patents For Magnetless Synchronous Motor

11.1 Key Industry Influencers

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Related Research
Electric vehicles (EVs) are inevitable future of the automotive industry. Many manufacturers around the world are investing heavily for developing EVs, which is facilitated by a steady increase in prices for petroleum products, the need to reduce harmful emissions from cars, and development of energy storage technologies. This research service titled, “Battery and Powertrain Technologies for Electric Vehicles,” provides an overview of types of electric motors that are currently used in EVs. Additionally, it presents the challenges, drivers, and adoption scenario for electric drive technologies. This research study focuses on the latest achievements in the development of battery electric vehicle (BEV) powertrain subsystems, such as energy sources and propulsion, as well as, on multiple technologies that can be implemented for the proper operation of these subsystems. Electric drive technology is considered in more detail. The types of electric motors that are currently used and could be used in EVs are compared. The various powertrain configurations and their interrelation with different electric motor type and design are also described in this research service.
More Information
No Index No
Podcast No
Author Nadzeya Viktarovich
Industries Energy
WIP Number D82A-01-00-00-00
Keyword 1 Power Train
Keyword 2 Electric Vehicles
Keyword 3 Battery Technologies
Is Prebook No
Ti Codes D902,D908,D90C,D90D,D90F,D910,D912,D915,D917,D920,D927