Automotive & Electric Vehicles Report

Electric motor systems will become a market of about $480 billion in 2028, more than batteries

Electric Motors for Electric Vehicles 2018-2028

Traction motors, motor generators, boost recuperation machines, BSG, ISG for 48V MH, strong hybrid, pure electric, EIV: land, water, air

Brand new for February 2018

 
Table of Contents
1.EXECUTIVE SUMMARY AND CONCLUSIONS
1.1.Focus of this report, primary trends, opportunities
1.1.1.Ten important trends
1.1.2.Value chain severely disrupted
1.1.3.Great improvements in traction motors with their controls are both needed and possible
1.2.Example of multiple REM per vehicle
1.2.1.Examples of manned electric aircraft with multiple drive motors
1.2.2.The race for lightweight electric aircraft motors
1.2.3.Examples of trend to product integration
1.3.Powertrain focus
1.4.Motor-generator REM duty cycle, type, function
1.5.Motor-generator REM improvements needed, number of manufacturers/ developers
1.6.REM technology
1.6.1.Choices
1.6.2.Technology preference by type of vehicle
1.7.Market forecasts
1.7.1.Type of powertrain for 46 types of electric vehicle
1.7.2.In wheel motors vs near wheel motors
1.7.3.In-wheel motor global market for vehicles with four or more wheels units million 2018-2028
1.8.Powertrain forecasts by 46 types of electric vehicle
1.9.Electric traction motor and vehicle forecasts 2018-2028
1.10.Market size 2018-2028 for electric vehicles and 48V mild hybrid cars (non-EV and EV form) - number (thousand)
1.11.Rapidly increasing market for powertrain REMs for electric vehicles
1.12.Voltage trends alter REM design
1.13.Permanent magnet price concern and investment trend
1.13.1.Neodymium price hikes
1.13.2.Neodymium-reduced, heat-resistant EV motor magnet: Toyota
1.13.3.Hitachi Metals $172 million magnet investment by 2018
1.13.4.New approach to motor inverters
1.13.5.Techrules of China
1.13.6.BMW EV motor patent 2017
1.13.7.Alcraft three motor vehicle
1.14.Deutz acquires Torqeedo, September 2017
1.15.GM patent electric traction motor, January 2018
2.INTRODUCTION
2.1.Jargon buster
2.1.1.Innovation often first with large motors
2.2.Traction motor technology choices
2.2.1.Super efficient PM motor drives most economical EV
2.2.2.Siemens 260 kW electric aircraft motor makes first public flight
2.2.3.Premium pure electric cars with PM motors in 2017
2.3.Rotating electrical machines in powertrain
2.3.1.Needs by type of powertrain
2.3.2.Heart of a first generation 48V mild hybrid: BSG
2.3.3.Belt drive and integrated starter generators for 48V mild hybrids
2.3.4.Example of reversible rotating machine for 48V mild hybrid: Bosch "E-Machine"
2.3.5.REM technologies performance in powertrains: the show so far
2.3.6.Axial flux may increase its tiny market share? Axial Flux Traction Motor With 15% Advantage Taiwan
2.3.7.Toyota: Big Gains from Downsizing PM Motor models
2.4.One business land, water, air - hybrid and pure electric
2.5.Trend to two or more REM per vehicle
2.5.1.Reasons
2.5.2.Innovative two motor formats: car, motorcycle
2.5.3.Xtrac's new EV transmission system features dual motors with torque vectoring
2.5.4.Efficiency gains of distributed drive
2.5.5.Two-motor mopeds and motorcycles
2.5.6.Performance motorcycle goes asynchronous
2.6.Trend to product integration
2.6.1.Strong hybrid cars
2.6.2.Volkswagen approach to device integration
2.6.3.Integration challenges of simulation of electric machines and inverters
2.6.4.48V mild hybrid integrated starter generators
2.6.5.Two types of in-wheel motor
2.6.6.In-wheel motors by size of vehicle, with examples, benefits sought and challenges.
2.6.7.Example - Rinspeed Oasis with ZF in-wheel
2.6.8.So why are in-wheel motors always going to be successful next year?
2.7.Trend to high voltage, high speed motors in strong hybrids, pure electric vehicles
2.8.Flywheel KERS
2.8.1.Flybrid KERS used by Wrightbus UK on hybrid buses
2.9.Trend to vertical integration in supply chain
2.10.Motor Controls
2.10.1.Overview
2.10.2.. Cost and integration issues
2.10.3.New materials in switched reluctance EV motor
2.11.Example: How EVDrive selects and uses traction motors
2.12.Rectangular wire preferred
3.TRACTION MOTORS OFF-ROAD: CONSTRUCTION, AGRICULTURE, MINING, MILITARY, MARINE
3.1.Needs are different from on-road
3.2.Progression of electrification
3.3.Trend to electric drive and standardisation
3.4.Sizes of off-road vehicles with many traction motor opportunities
3.5.Wheel loaders with very different traction motor solutions
3.5.1.Huddig hybrid near wheel
3.5.2.Kramer 5055e asynchronous
3.5.3.LeTourneau switched reluctance
3.6.Agricultural tractor John Deere
3.7.Oerlikon SR motor in large hybrids
3.8.Planned PM synchronous heavy duty drive UQM, Eaton,Pi Innovo
3.9.Dana in-axle motor
3.10.Ship propulsion motors PM synchronous and asynchronous
4.48V MILD HYBRID: LARGE MARKET EMERGING, SOME DUAL MACHINE
4.1.The Terminology
4.2.Example of belt drive and integrated
4.3.Typical options of repositioning
4.4.Typical rewards from repositioning
4.5.Mercedes-Benz approach - belt and integrated options
4.6.Roll out
4.6.1.Renault Scenic
4.6.2.Skoda
4.7.Operating principle of 48V motor generators
4.8.A synchronous permanent magnet option for 48V
4.9.Claw Pole
4.10.Bosch e machine
5.ELECTRIC MOTORS, MOTOR-GENERATORS FOR STRONG HYBRIDS
5.1.Relative needs
5.2.Plug in option
5.3.Plug in hybrid potential in higher performance/ heavy vehicles
5.4.The Tesla approach to electric traction motors
5.5.Motor history to Tesla Model 3
5.6.Comparisons
5.7.Interview
5.8.Different views on usefulness of parallel hybrids in future: Siemens, Ricardo
5.9.Siemens typical hybrid system components based on automotive standard TS 16949
5.10.Ricardo view of long haul options
5.11.GKN advances
5.12.GE Aviation and Hybrid Electronic Propulsion
5.13.Roundup
6.ELECTRIC MOTORS, MOTOR-GENERATORS FOR PURE ELECTRIC VEHICLES
6.1.The end game
6.2.Voltage trends for pure electric vehicles
6.3.Great variety
6.3.1.Nanoflowcell 48V premium cars
6.4.Pure electric cars and similar vehicles
6.4.1.Another Maverick: SynchR
6.5.UAVs and multicopters
6.5.1.REMs
6.5.2.Outrunner motors for manned aircraft
6.5.3.Drive electronics
6.6.Dyson robot vacuum cleaner
6.7.Energy Independent Vehicles EIV
6.7.1.Why we want more than mechanical energy independence
6.7.2.Energy Independent Vehicles: definition and function
6.7.3.The EIV powertrain for land vehicles
6.7.4.EIV operational choices
6.7.5.Do not forget wind
6.7.6.Key EIV technologies
6.7.7.Stella Lux passenger car Netherlands
6.7.8.Solar racer derivative: Immortus passenger car EIV Australia
6.7.9.POLYMODEL micro EV Italy
6.7.10.Lizard EIV wakes with the sun: NFH-H microbus China
6.7.11.Visedo PowerDRUM Finland
7.INTERVIEWS
7.1.Ongoing interviews by IDTechEx USA, East Asia, Europe
7.2.Interviews with Professor Pietro Perlo
7.3.Elaphe Slovenia
7.4.Protean Electric UK
7.4.1.Protean update
7.5.ALABC/ILA London
7.6.MAHLE
7.7.Controlled Power Technologies
8.ANALYSIS OF 170 TRACTION MOTOR MANUFACTURERS

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-Pages287
-Forecasts to2028
-Last updateApr 2018
 

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