48V Mild Hybrid and 48V Full Hybrid Vehicles 2020-2030

出版商 IDTechEx Ltd. 商品编码 350435
出版日期 内容资讯 英文 208 Slides
商品交期: 最快1-2个工作天内
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全球48V轻度混合和48V重度混合动力车市场:2020-2030年 48V Mild Hybrid and 48V Full Hybrid Vehicles 2020-2030
出版日期: 2019年09月30日内容资讯: 英文 208 Slides


本报告研究48V混合动力车 (轻度及重度混合) 市场,分析市场概要、48V混合动力车技术、销售台数、市场规模、按地区的销售台数、市场成长推动因素、主要企业、以及组件等内容。

第1章 摘要整理和结论

  • 本研究目的
  • 基本的48V轻度混合:更聪明的马达、更强健的电池是关键
  • 48V重度混合的制造方法
  • 主要结论:市场
  • 主要结论:技术
  • 主要结论:制造商
  • 主要结论:Tier1供应商
  • 以适度的成本持续进行改善
  • 部分使用所有额外电力
  • 动力总成的选择:48V混合动力车的背景
  • 动力总成的竞争
  • 为什么汽车是48V轻度混合的焦点?
  • 汽车案例和时间表
  • 48V轻度混合模型案例
  • 日本特殊案例
  • 48V轻度混合技术
  • 48V轻度混合动力车和48V重度混合动力车的发售日
  • 市场分析

第2章 简介

  • 什么是电动车?
  • 48V混合动力车相关动力总成的竞争以及Peak Car的袭击
  • 按功能的混合动力车选项:48V轻度混合动力车背景
  • 令人惊讶的未来证据:48V混合动力车的改善将持续到2030年
  • 未来的48V混合动力车技术改善
  • 第二代48V轻度混合动力车

第3章 48V重度混合动力车

  • 48V重度混合动力车的设计
  • Continental的48V重度混合动力车
  • Borg Warner的48V重度混合动力车
  • 48V PEHV?
  • Eaton 的48V重度混合卡车

第4章 48V轻度混合动力车:按制造商

  • Alfa Romeo
  • Aston Martin Lagond
  • Audi
  • Bentley
  • BMW
  • Buick
  • Cadillac
  • Chang'an Motors
  • FAW
  • FCA
  • Ferrari
  • Ford
  • Geely
  • General Motors
  • Honda
  • Hyundai
  • Jaguar Land Rover
  • Kia
  • Mahindra & Mahindra
  • Mazda
  • Mercedes-Benz
  • Mitsubishi Motors
  • Nissan
  • Porsche
  • PSA
  • RAM
  • Renault
  • SsangYong
  • Skoda
  • Suzuki
  • Tata Motors and
  • Toyota
  • Volkswagen
  • Volvo Motors

第5章 48V轻度混合卡车

第6章 电动发电机

第7章 电池、超级电容器、太阳能电池

  • 概要
  • 更优异的电池及超级电容器的到来:W/kg vs Wh/kg
  • Geely和Maxwell的发表
  • 超级电容器主要优势
  • 汽车市场的超级电容器:案例
  • 路上汽车市场的超级电容器
  • 动力总成的普及:按超级电容器
  • 超级电容器和衍生物
  • 结构性超级电容器:ZapGo, Lamborghini, MIT, Imperial College
  • 太阳能电池车身



"48V hybrid cars will exceed 9 million unit sales in 2030, over $218 billion."

New research by IDTechEx in its report, "48V Mild Hybrid and 48V Full Hybrid Vehicles 2020-2030" reveals that the 48V mild hybrid powertrain is a done deal. Launched in 2016, now a flood of car models with this modification to traditional cars will keep them legal in the face of tightening emissions laws and save fuel. Indeed, it is now clear that they improve comfort, for example by powering active suspension and in some cases improve performance too. Next year the 48V repertoire will be seen from Ferrari to Volkswagen Golf and family cars in China. The Bentley Bentaygo and RAM pickup truck has the option so its universality is well proven even before we see substantial sales in the Daimler bus version. None are electric vehicles because they never drive the wheels electrically but it is now clear that they can be developed into just that. They are 48V mild hybrids heralding another big step forward, the 48V full hybrid.

The new powertrain called the 48V full hybrid promises to beat traditional hybrid electric vehicles on price by a big margin. "70% of an engine-dominant high-voltage hybrid's benefits at 30% of the powertrain cost" is what it will achieve. That means it will, at peak sales, take around $300 billion dollars of the car business by displacing conventional vehicle business even more than traditional hybrid business.

2020 will see first sales and 2023 the first substantial sales of what is still incremental improvement, albeit more costly and time-consuming than the 48V mild hybrid fix. The big prize is silent takeoff, creep in traffic, active cruising at speed and parking all with engine off but also more comfort and features. This is a prize worth delivering in this more affordable form. The companies behind this big step forward include Skoda experimenting with them for four years and Continental and Borg Warner newly offering a full kit of parts to carmakers. Continental points out that not long ago this was thought to be impossible. 48V mild hybrids were seen as a quick fix with a limited window of opportunity and that was that. Now, 48V mild hybrids are seeing a new roadmap of great improvements discussed in the report and the 48V full hybrid could take the technology past 2030. That is possibly beyond the life in the marketplace of the traditional HEV and plug in hybrid PHEV as they get throttled between 48V full hybrids on price and pure electric cars (including solar 1000km range versions) on performance and convenience. Indeed, it is now realised that incremental improvements to 48V full hybrid powertrains may possibly extend to such exotica as solar and supercapacitor bodywork, electricity producing suspension, autonomy and other features previously reserved for a pure electric end game.

The report reflects these new realities. The Executive Summary and Conclusions is sufficient in itself for those with limited time. It explains the architecture including that of the important new 48V full hybrids. It lists primary conclusions by market, technology, vehicle manufacturers and Tier One suppliers strongly involved. The Introduction explains the ongoing incremental improvements including those producing more electricity and the large number of ways it can be used to improve emissions, comfort, performance and economy. New infographics explain how these powertrains fit in with all options and you see the four key sales propositions for 48V hybrids as they evolve. Learn where 48V opportunities in other vehicles fit in and see many examples of such vehicles but discover the curious case of Japan. Launch dates and fuel for different versions in 25 brands are tabled. There is a SOFT report for the 48V powertrain and forecasts 2020-2030 for number price and value market including geographical market. There are detailed technology roadmaps to 2030.

Chapter 3 is unique in explaining the new 48V full hybrids, the work of those involved, product positioning, technology futures including whether a 48V plug in hybrid makes sense. Chapter 4 extensively appraises 48V hybrid work by manufacturer. That is 83 pages of ghost diagrams, vehicle images and commentary. Chapter 5 addresses 48V hybrid trucks preparing for market and Chapter 6 covers the technology detail for the all-important starter-motor-generators. Chapter 7 completes the report with many new infograms revealing how batteries, supercapacitors and solar bodywork form a part of the future 48V mild and full hybrid options. 30 minutes free consultancy on the topic comes with the deal.

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  • 1.1. Purpose of this report
  • 1.2. Basic 48V mild hybrid: cleverer motor, stronger battery are key
  • 1.3. How to make a 48V full hybrid
  • 1.4. Primary conclusions: Market 2020-2030
  • 1.5. Primary conclusions: Technology
  • 1.6. Primary conclusions: Manufacturers
  • 1.7. Primary conclusions: Tier one suppliers
  • 1.8. Many ongoing incremental improvements at modest cost
  • 1.9. Some uses for all that extra electricity
  • 1.10. Powertrain options: 48V hybrid cars in context
  • 1.11. Powertrain competition to 2030
    • 1.11.1. Hit traditional ICE and HV HEV/PHEV
    • 1.11.2. Four sales propositions for 48V cars
  • 1.12. Why cars are the main focus of 48V MH
  • 1.13. Examples and timeline for cars
  • 1.14. Examples of 48V mild hybrid models
  • 1.15. The curious case of Japan
  • 1.16. Launch dates of 48V MH and 48V FH vehicles
  • 1.17. SOFT report for 48V hybrids
  • 1.18. Market forecasts
    • 1.18.1. 48V Mild Hybrid and 48V Full Hybrid car by number k 2019-2030
    • 1.18.2. 48V Mild Hybrid and 48V Full Hybrid car by unit price $ 2019-2030
    • 1.18.3. 48V Mild Hybrid and 48V Full Hybrid car by market value $m 2019-2030
    • 1.18.4. 48V Mild Hybrid and 48V Full Hybrid car by kWh 2020-2030
    • 1.18.5. 48V Mild Hybrid and 48V Full Hybrid car by total GWh 2020-2030
    • 1.18.6. 48V MH cars by number % sold by region
    • 1.18.7. Car manufacturer 48V hybrid thrust and demand by region
    • 1.18.8. Alternative projections for cars


  • 2.1. What is an electric vehicle?
  • 2.2. Powertrain competition for 48V hybrids and peak car hitting everything
  • 2.3. Hybrid options by functionality: 48V MH in context
  • 2.4. Surprisingly future proof: 48V hybrid improvement continues through 2030
    • 2.4.1. Overview
    • 2.4.2. Option of replacing turbocharger with electric supercharger for efficiency
    • 2.4.3. Overstated mild hybrid benefits against HV HEV
  • 2.5. 48V hybrid technology improvements ahead
    • 2.5.1. Functions vs architectures
    • 2.5.2. Summarised interviews on abandoning dual 12V + 48V car systems
    • 2.5.3. Windows of opportunity for launch of 48V MH car variants
  • 2.6. VW SUV roadmap , IDTechEx comment
  • 2.7. Second generation 48V mild hybrid cars 2021-5 VW, Delphi


  • 3.1. Design of a 48V full hybrid vehicle
    • 3.1.1. Market positioning and technology choices
    • 3.1.2. Primitive 48V full hybrid: Skoda
    • 3.1.3. 48V full hybrid with maximum benefits
  • 3.2. Continental 48V full hybrid car
  • 3.3. Borg Warner 48V full hybrid car
  • 3.4. 48V Plug-in PHEV?
  • 3.5. Eaton 48V full hybrid truck


  • 4.1. Alfa Romeo Italy
  • 4.2. Aston Martin Lagonda UK
  • 4.3. Audi Germany
  • 4.4. Bentley UK
  • 4.5. BMW Germany
  • 4.6. Buick USA
  • 4.7. Cadillac USA
  • 4.8. Chang'an Motors China
  • 4.9. FAW China
  • 4.10. FCA USA/ Italy
  • 4.11. Ferrari Italy
  • 4.12. Ford USA
  • 4.13. Geely China
  • 4.14. General Motors USA
  • 4.15. Honda Japan
  • 4.16. Hyundai Korea
  • 4.17. Jaguar Land Rover UK
  • 4.18. Jeep USA
  • 4.19. Kia Korea
  • 4.20. Mahindra & Mahindra India
  • 4.21. Mazda Japan
  • 4.22. Mercedes-Benz Germany
  • 4.23. MG Morris Garages India
  • 4.24. Mitsubishi Motors Japan
  • 4.25. Nissan Japan
  • 4.26. Porsche Germany
  • 4.27. PSA France
  • 4.28. RAM USA
  • 4.29. Renault France
  • 4.30. SAIC-GM China
  • 4.31. Subaru Japan
  • 4.32. SsangYong Korea
  • 4.33. Skoda Czech Republic
  • 4.34. Suzuki Japan
  • 4.35. Tata Motors India
  • 4.36. Toyota Japan
  • 4.37. Volkswagen Germany
  • 4.38. Volvo Motors Sweden


  • 5.1. Volvo Group
  • 5.2. Class 8 trucks: Nikola fuel cell left or Tesla battery right?
  • 5.3. US DOE Supertruck program
  • 5.4. AVID first 48V hybrid truck
  • 5.5. Renault
  • 5.6. Daimler Citaro 48V mild hybrid Bus


  • 6.1. Rotating electric machines REM: e-machines
    • 6.1.1. Technology choices
    • 6.1.2. Great improvements needed and possible
  • 6.2. Evolution to multifunctional rotating machines
  • 6.3. Ssangyong, Bosch, Federal Mogul CPT and other views
  • 6.4. Bosch "E-Machine"
  • 6.5. Federal Mogul Powertrain CPT
  • 6.6. Delphi 48V MH motor generator
  • 6.7. Mercedes
  • 6.8. Borg Warner
  • 6.9. Volabo
  • 6.10. Dana Corporation and Valeo


  • 7.1. Overview
  • 7.2. Better batteries and supercapacitors coming: W/kg vs Wh/kg
  • 7.3. Geely and Maxwell announcements
  • 7.4. Some benefits of supercapacitors
  • 7.5. Supercapacitors in the automotive sector: examples
  • 7.6. Supercapacitors in the on-road automotive sector 2010-2030
  • 7.7. Powertrain penetration by supercapacitors
  • 7.8. Supercapacitors and their derivatives: device physics
  • 7.9. Structural supercapacitors ZapGo, Lamborghini, MIT, Imperial College
  • 7.10. Photovoltaic bodywork
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