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1. | EXECUTIVE SUMMARY |
1.1. | Overview of charging levels |
1.2. | DC fast charging levels |
1.3. | High power charging (HPC) will be the new premium public charging solution |
1.4. | Global plug-in electric vehicles in-use 2015-2032 |
1.5. | Plug-in EVs and the demand for charging infrastructure |
1.6. | Historic regional data |
1.7. | Total car and fleet charging outlets in-use 2015-2032 |
1.8. | New charging installations by power class 2015-2032 |
1.9. | Level 2 AC charging speeds are on the rise |
1.10. | High power DC fast charging deployment |
1.11. | Total charging installations by region 2015-2032 |
1.12. | EV charging market value 2015-2032 ($ billion) |
1.13. | Evaluation of the different charging infrastructure |
1.14. | Harmonisation of connector standards |
1.15. | Smart charging will be vital |
1.16. | Key market players |
1.17. | The landscape for charging infrastructure is getting competitive |
1.18. | Access to IDTechEx Portal Profiles |
2. | INTRODUCTION |
2.1. | Charging levels |
2.2. | Charging modes |
2.3. | Basics of electric vehicle charging mechanisms |
2.4. | How long does it take to charge an electric vehicle? |
2.5. | Factors that affect charging speed |
2.6. | The trend towards DC fast charging |
2.7. | Range and charging power roadmap |
2.8. | Charging methods |
2.9. | Charging infrastructure coverage and demand |
2.10. | Number of public chargers required for plug-in EVs? |
2.11. | Private versus public charging |
2.12. | Charger infrastructure terminology |
3. | CHARGING INFRASTRUCTURE BY REGION |
3.1. | Charging Infrastructure by Region - U.S. |
3.1.1. | Best-selling plug-in car models in US |
3.1.2. | Growth of EV charging infrastructure in US |
3.1.3. | The state of public charging stations in US |
3.1.4. | Private and public charging penetration in US |
3.2. | Charging Infrastructure by Region - Europe |
3.2.1. | Best-selling plug-in car models in Europe |
3.2.2. | The status of public charging in Europe |
3.2.3. | Total public charging installations in Europe by country 2015-2032 |
3.2.4. | Private and public charging penetration in Europe |
3.2.5. | European countries have wide variation in public charger availability |
3.3. | Charging Infrastructure by Region - China |
3.3.1. | Best-selling plug-in car models in China |
3.3.2. | The status of public charging in China |
3.3.3. | Total public charging installations in China 2015-2032 |
3.3.4. | Public charging installations in China by province and municipalities |
3.3.5. | Private and public charging penetration in China |
3.4. | Regional Market Summary |
3.4.1. | Summary of regional markets and concentration per capita |
3.4.2. | Ratio of public chargers per EV globally |
4. | CHARGING CONNECTOR STANDARDS |
4.1.1. | Overview of EV charging connector standards |
4.1.2. | EV charging infrastructure standard organizations |
4.1.3. | Development of charging connector standards |
4.1.4. | EV charging infrastructure standards: ISO/IEC |
4.1.5. | EV charging infrastructure standards: SAE |
4.1.6. | DC charging standard: CCS |
4.1.7. | DC charging standard: CHAdeMO |
4.1.8. | EV charging infrastructure standard in China: GB |
4.1.9. | Why EV connectors will not use household outlets |
4.1.10. | Types of EV charging plugs |
4.1.11. | EV charging systems comparison |
4.1.12. | Summary of charging levels and regional standards |
4.1.13. | Tesla proprietary plug |
4.1.14. | Tesla charging connectors |
4.1.15. | Overview of EV charging standards by region |
4.1.16. | Charge connector types globally |
4.1.17. | Is CHAdeMO phasing out? |
4.2. | Harmonisation of Charging Connector Standards |
4.2.1. | The dilemma of charging connectors |
4.2.2. | Choosing the right connector |
4.2.3. | Will OEMs adapt one standard? |
4.2.4. | ChaoJi and the current charging standards |
4.2.5. | Achieving harmonisation of standards |
4.2.6. | Harmonisation of standards will be key |
4.3. | Communication Protocols |
4.3.1. | What are communication protocols? |
4.3.2. | Communication protocols and standards |
4.3.3. | Communication systems for EV charging |
4.3.4. | Communication interfaces |
4.3.5. | Types of communication protocols |
4.3.6. | Overview: OCPP versions and benefits |
4.4. | Plug and Charge |
4.4.1. | The next big step in EV fast charging is Plug and Charge |
4.4.2. | What is Plug and Charge? What are the benefits? |
4.4.3. | How does Plug and Charge work? |
4.4.4. | Public key infrastructure is the basis of Plug and Charge |
4.4.5. | Functionalities enabled by ISO 15118 |
4.4.6. | Plug and charge aims to be more customer centric than the Tesla ecosystem |
4.4.7. | Deployment |
4.4.8. | For Ionity, Plug and Charge is a reality - others to follow? |
4.4.9. | EVs supporting Plug and Charge capability |
4.4.10. | Concerns around the standard |
4.4.11. | Plug and Charge SWOT |
5. | ELECTRIC VEHICLE CHARGING INFRASTRUCTURE AND KEY TECHNOLOGIES |
5.1. | Overview of Electric Vehicle Charging Infrastructure |
5.1.1. | EV charging infrastructure: technology overview |
5.1.2. | Different types of EV charging infrastructure |
5.1.3. | Architecture of EV charging infrastructure |
5.1.4. | EV charging technologies by application |
5.2. | Conductive Charging |
5.2.1. | Conductive charging technologies by application |
5.2.2. | AC charging versus DC charging |
5.2.3. | Conductive charging at Level 1 |
5.2.4. | Conductive charging at Level 2 |
5.2.5. | Conductive charging at Level 3 |
5.2.6. | Summary of charging levels |
5.2.7. | Residential charging |
5.2.8. | Workplace charging - an essential complement to residential charging |
5.2.9. | How workplace charging can help alleviate grid pressure |
5.3. | High Power Conductive Charging |
5.3.1. | Current charging needs |
5.3.2. | CHAdeMO is preparing for 900 kW high power charging |
5.3.3. | Is 350 kW needed? |
5.3.4. | High power charging is the new premium |
5.3.5. | The trend towards DC fast charging |
5.3.6. | Benefits of high power charging |
5.3.7. | High power charging infrastructure |
5.3.8. | Technical specification of HPCs by equipment manufacturer |
5.3.9. | Do HPCs require a large installation footprint? |
5.3.10. | Solving the installation issue |
5.3.11. | Commercial charger benchmark: power and voltage levels |
5.3.12. | Commercial charger benchmark: voltage and current levels |
5.3.13. | Commercial charger benchmark: cooling technology |
5.3.14. | Estimated total cost of ownership |
5.3.15. | Challenges for high power charging |
5.3.16. | Impacts of fast charging on battery lifespan |
5.3.17. | Efforts to improve fast charging performance |
5.3.18. | Why preheat batteries? |
5.3.19. | Intelligent battery management to enable fast charging |
5.3.20. | Cable cooling to achieve high power charging |
5.3.21. | Leoni's liquid cooled cables for fast charging |
5.3.22. | Liquid-cooled connector for ultra fast charging |
5.3.23. | Tesla adopts liquid-cooled cable for its Supercharger |
5.3.24. | ITT Cannon's liquid-cooled HPC solution |
5.3.25. | High power charging roadmap |
5.3.26. | High power charging SWOT |
5.3.27. | Summary: DC charging standards and power levels |
5.4. | Innovations in Conductive Charging |
5.4.1. | Continental turns electric powertrain into 'universal charger' |
5.4.2. | Off-grid electric vehicle charging |
5.4.3. | Electrify America deploying solar-powered electric vehicle charging |
5.4.4. | Off-grid charging without batteries: direct solar V2G charger |
5.4.5. | A single converter for solar-powered charging |
5.4.6. | AFC Energy presenting hydrogen-powered electric vehicle charging |
5.4.7. | Mobile charging - a new business model for electric vehicle charging |
5.4.8. | Mobi - FreeWire's mobile charger |
5.4.9. | Modular mobile charger by SparkCharge |
5.4.10. | Electric vehicle Charge Mobile for Level 2 and DC charging |
5.4.11. | Mobile charging station installed in cargo vans |
5.4.12. | Power Mobile charging service by NIOPower |
5.4.13. | Tesla's Megapack-powered mobile Superchargers |
5.4.14. | Chargery's mobile charger on bicycle |
5.4.15. | Charging without a grid connection - the launch of Infrastructure-as-a-service |
5.4.16. | How will autonomous EVs refuel? |
5.4.17. | Autonomous charging: conductive robotic charging |
5.4.18. | VW's mobile charging robots |
5.4.19. | Electrify America to deploy robotic chargers |
5.4.20. | Easelink's autonomous conductive charging system |
5.5. | Wireless Charging |
5.5.1. | An overview of wireless charging - ditching the cable? |
5.5.2. | SAE J2954 wireless electric vehicle charging standard |
5.5.3. | Inductive Wireless Charging |
5.5.4. | Inductive charging |
5.5.5. | Magnetic resonance: wireless charging for EVs |
5.5.6. | Inductive charging of EVs: parked |
5.5.7. | Inductive charging of EVs: on road |
5.5.8. | WiTricity goes all-in on wireless charging for EVs |
5.5.9. | WiTricity's park-and-charge wireless charging solution |
5.5.10. | Plugless is selling wireless chargers for EVs |
5.5.11. | Qualcomm's Halo wireless electric vehicle charging platform |
5.5.12. | Dynamic electric vehicle charging demonstrated by Qualcomm |
5.5.13. | WiTricity acquires Qualcomm's wireless charging unit |
5.5.14. | BMW 530e pilots wireless charging |
5.6. | Capacitive Wireless Charging |
5.6.1. | Capacitive charging |
5.6.2. | Capacitive charging: principle |
5.6.3. | Capacitive charging: current projects |
5.7. | Battery Swapping |
5.7.1. | An overview of battery swapping |
5.7.2. | The case of Better Place |
5.7.3. | Battery swapping: Tesla |
5.7.4. | Battery swapping: Ample |
5.7.5. | Battery swapping development in China |
5.7.6. | Battery swapping: NIO |
5.7.7. | Battery swapping: BAIC |
5.7.8. | Battery swapping: Gogoro network |
5.8. | Charging Infrastructure for Electric Vehicle Fleets |
5.8.1. | The rising demand for fleet charging |
5.8.2. | The rising population of electric vehicle fleets |
5.8.3. | Charging infrastructure for electric buses |
5.8.4. | Charging electric buses: depot versus opportunity charging |
5.8.5. | Heliox: public transport and heavy-duty vehicle charging |
5.8.6. | Heliox's 13 MW charging network for electric buses |
5.8.7. | SprintCharge: battery-buffered opportunity charging for electric buses |
5.8.8. | ABB's smart depot charging solution for large fleets |
5.8.9. | ABB: opportunity charging for electric buses |
5.8.10. | ABB's 600 kW TOSA flash-charging for e-buses |
5.8.11. | Siemens: electric bus charging infrastructure |
5.8.12. | Siemens autonomous charging system |
5.8.13. | Daimler Truck opens a charging park for commercial EVs |
5.8.14. | Momentum Dynamics: high-power wireless charging for electric vehicle fleets |
5.8.15. | Case study: wireless charging for public transit |
5.8.16. | Inductive supercharging for electric commercial vehicles |
5.8.17. | The emergence of 'Megawatt chargers' |
5.8.18. | CharIN is working on charging standards for commercial electric vehicles |
5.8.19. | Researchers put megawatt charging systems for electric trucks to the test |
5.8.20. | MEDUSA project - developing 3 megawatt charging solutions |
5.9. | Electric Road Systems for Electric Vehicle Charging |
5.9.1. | Types of electric road systems |
5.9.2. | Electric road systems: conductive versus inductive |
5.9.3. | Configuration of ERS infrastructure |
5.9.4. | Benefits of ERS |
5.9.5. | Electric road systems: Korea |
5.9.6. | Electric road systems: Sweden |
5.9.7. | Germany tests its first electric highway for trucks |
5.9.8. | Real world testing |
5.9.9. | Electric road systems: market and challenges |
6. | KEY MARKET PLAYERS |
6.1. | Market players summary |
6.2. | ABB |
6.3. | ABB's heavy commercial vehicle charging product portfolio |
6.4. | ABB is deploying infrastructure globally |
6.5. | AddEnergie |
6.6. | Bosch Mobility Solutions |
6.7. | Bosch does away with the "charging brick" |
6.8. | BP Pulse |
6.9. | ChargePoint |
6.10. | ChargePoint product series |
6.11. | ChargePoint as a Service |
6.12. | DBT-CEV |
6.13. | Efacec Electric Mobility: full-range electric vehicle charging solutions |
6.14. | Efacec's private and public charging solution |
6.15. | Efacec's fast charging solution |
6.16. | Efacec's wireless charging solution |
6.17. | Electrify America |
6.18. | Electrify America is extending its charging network |
6.19. | Electrify America to double its charging infrastructure |
6.20. | EVBox |
6.21. | EVBox forms partnerships across Europe |
6.22. | EVgo |
6.23. | Green Motion |
6.24. | Integrating electric vehicle charger in home energy storage |
6.25. | Green Motion's urban air mobility charging |
6.26. | IONITY's high-power charging network across Europe |
6.27. | NewMotion |
6.28. | Pod Point |
6.29. | StarCharge |
6.30. | Swarco |
6.31. | Swarco acts as key partner for rapid-charger roll-out |
6.32. | TELD |
6.33. | Tesla Supercharger network |
6.34. | Tesla Destination Charging network |
6.35. | Tritium - the DC charging solution provider |
6.36. | Tritium Veefil - DC fast charger specifications |
6.37. | Tritium is rolling out its DC high-power chargers |
6.38. | Tritium launches modular scalable charging (MSC) and support for plug and charge |
6.39. | Wallbox |
6.40. | Wallbox's bi-directional residential electric vehicle charger |
6.41. | Wallbox enters ultra-rapid charging with Hypernova column |
6.42. | Webasto |
6.43. | Manufacturers by region |
7. | VALUE CHAIN AND BUSINESS MODELS FOR ELECTRIC VEHICLE CHARGING |
7.1.1. | The emergence of electric vehicle charging value chain |
7.1.2. | The electric vehicle charging value chain |
7.1.3. | Entering the high power charging value chain |
7.1.4. | Utility led EV incentive programs in the US |
7.1.5. | Key market players along the EV charging value chain |
7.1.6. | Barriers to entry for commercial charging |
7.1.7. | Chargepoint operators (CPO) / charging network operators |
7.1.8. | Market share of public charging infrastructure by network operator: China |
7.1.9. | Market share of public charging infrastructure by network operator: Europe |
7.1.10. | Market share of public charging infrastructure by network operator: US |
7.1.11. | Market share of DC fast charging by network operator: US |
7.1.12. | Comparison of chargepoint operators |
7.1.13. | EV charging billing models |
7.1.14. | Supply chain |
7.1.15. | The electric vehicle charging value chain |
7.1.16. | Business models of charging network operators |
7.1.17. | Current business models |
7.1.18. | Future business models and revenue streams |
7.1.19. | Emerging new business models for commercialization of battery-swapping in China |
7.2. | Smart Charging |
7.2.1. | Smart charging: A (load) balancing act |
7.2.2. | Emerging business models for new services: V2X |
7.2.3. | Nissan energy share: vehicle to home/building |
7.2.4. | V2H initiative by Nissan |
7.2.5. | V2G: Nuvve |
7.2.6. | The V2G architecture |
7.2.7. | Nuvve targets electric school buses for V2G |
7.2.8. | V2G: OVO Energy |
7.2.9. | OVO Energy to advance V2G and second-life batteries |
7.2.10. | V2G accelerates battery degradation? |
7.2.11. | V2G can extend the longevity of the electric vehicle battery |
7.2.12. | Summary of smart charging implementations |
8. | FORECASTS |
8.1. | Forecast methodology |
8.2. | Forecast assumptions |
8.3. | Global plug-in electric vehicles in-use 2015-2032 |
8.4. | Total car and fleet charging outlets in-use 2015-2032 |
8.5. | New car and fleet charging outlets installed 2015-2032 |
8.6. | New charging installations by power class 2015-2032 |
8.7. | Total public charging installations in China (AC & DC) |
8.8. | Total public charging installations in Europe (AC & DC) |
8.9. | Total public charging installations in USA (AC & DC) |
8.10. | AC charging installations by power split |
8.11. | Average battery capacity by region 2015-2032 |
8.12. | DC charging installations by power split |
8.13. | EV charging market value 2015-2032 ($ billion) |
8.14. | Total charging installations by region 2015-2032 |
8.15. | New charging installations by region 2015-2032 |
8.16. | Total public charging installations in Europe by country 2015-2032 |
8.17. | Total private charging installations in Europe by country 2015-2032 |
슬라이드 | 334 |
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전망 | 2032 |
ISBN | 9781913899790 |