封面
市場調查報告書
商品編碼
1567946

中國的小客車用行動電話無線充電市場(2024年)

China Passenger Car Mobile Phone Wireless Charging Research Report, 2024

出版日期: | 出版商: ResearchInChina | 英文 230 Pages | 商品交期: 最快1-2個工作天內

價格
簡介目錄

2024年6月,乘用車手機無線充電標配率達44%。

雖然關於手機無線充電在汽車上是否有使用場景、手機無線充電模組是否應該成為標準配備等問題還存在很多爭論,但整車廠和供應商正在悄然回應。

2020年至2024年,新車中車用手機無線充電模組標配率從2020年1月的6.9%提升至2024年6月的44.1%。

考慮到選購車型和無線充電模組加裝手機支架,車載手機無線充電模組的實際安裝率超過50%。

預計2024年數量將突破1000萬套,2027年將突破1800萬套。

從車型來看,2024年車上手機無線充電模組搭載率排名前三的車型為特斯拉Model Y、比亞迪元Plus、AITO M7,標配率皆為100%。手機無線充電模組安裝率排名前15的車型中,有7款車型實現了100%的標配率,其他8款車型的平均標準配備率為70.5%。

乘用車手機無線充電模組主要供應商為中國企業,包括華陽多媒體、InvisPower、立訊精密、浙江特美等。在傳統元件領域,仍主要採用國際供應商的解決方案,如NXP的主控晶片、TI的穩壓晶片、AOS的MOS管,而中國供應商的解決方案如ConvenientPower Semiconductor、NuVolta、Maxic、Southchip 、企業的解決方案也越來越多地應用於汽車手機無線充電模組。

2024年,超過80%的汽車手機無線充電模組將通過Qi 2.0認證。

市面上有不同價格和設計的Qi認證無線充電產品,足以滿足用戶的多樣化需求。然而,對於OEM和Tier 1公司來說,統一的Qi標準可以創造出更理想的汽車非接觸式充電解決方案。 Qi 2.0解決了引入統一手機無線充電協議功能的問題,特別是基於蘋果MagSafe磁力充電技術的MPP(Magnetic Power Profile)。透過磁場分佈優化和軟體校正,MPP可以提高無線充電過程中的充電效率並增加設備的穩定性和可靠性。 Qi 2.0的MPP技術大大改善了無線充電的使用者體驗。

Qi 2.0測試標準於2023年10月公佈,軟認證於2023年10月30日開始,全面認證於2023年12月7日開始。截至2024年7月,已有78款汽車無線充電產品通過Qi認證(2023年為54款產品)。預計2024年將有130-150種汽車產品獲得Qi認證。

Qi 1.2.4是認證汽車產品最多的版本,佔比接近85%,但從2024年開始,供應商已完全遷移到Qi 2.0。

2024年通過Qi認證的78款產品中,有63款產品獲得Qi 2.0認證,佔總數的80%以上。

Qi 2.0絕對是為了滿足消費者對中高功率無線充電的需求而誕生的。它的工作頻率為360kHz,在Qi 1.3的基礎上增加了55個資料包。支援送電前異物檢測,也支援反向充電。 Qi 2.0技術和標準未來可能會朝更高功率方向發展。預計2025年將發表25W無線快充標準,2026年將發表相容性廣、適用性強的50W無線快充標準。

本報告針對中國乘用車手機無線充電市場進行調查分析,提供原理、標準、銷售、標準車型數據、競爭狀況、廠商資訊等資訊。

目錄

第1章 汽車用行動電話無線充電概要

  • 汽車用無線充電功能概要
    • 發展歷程
    • 原理:無線充電技術的類型及特點
    • 原理:無線充電技術的種類與標準
    • 原理:電磁感應技術
    • 結構(一):偉世通無線充電模組
    • 結構(二):特斯拉無線充電模組
    • 主流無線充電解決方案具有低功耗、低散熱的特點
    • 新科技的前景:無線電波
    • 新技術展望:超音波/光聚焦
  • 汽車用行動電話無線充電技術通訊協定
    • 木塑複合材料
    • WPC 會員申請流程
    • WPC 會員認證費
    • WPC產品認證規定
    • Qi 標準:簡介
    • Qi 標準:申請與認證流程
    • Qi 標準:WPC 合作方法
    • 私有協定與相關身分驗證
    • 私有協定設備:MegaSafe
    • 法規、車輛認證
  • Qi 2.0
    • Qi 2.0 概述
    • Qi 2.0 統一手機無線充電標準
    • Qi 2.0 路線圖
    • 到 2024 年,80% 的 Qi 認證汽車產品將採用 Qi 2.0
    • 到 2023 年,經過認證的 15W 產品將超過 5W 產品

第2章 汽車用行動電話無線充電市場

  • 市場資料
    • 市場資料:現況(2022 年 1 月至 2024 年 5 月)
    • 市場數據:市場規模(2024-2027 年)
    • 市場數據:無線充電模組在車型中的數量/安裝率:按電源類型劃分(2020-2024年)
    • 市場數據:無線充電模組安裝數量/車型安裝率:按價格範圍劃分(2020-2024 年)
    • 市場數據:中國乘用車前20名車型:依安裝手機無線充電模組劃分(2021-2024年)
    • 市場數據:比亞迪主要車款手機無線充電模組搭載率
    • 市場數據:賓士/北汽主要車型手機無線充電模組安裝率
    • 市場數據:長城汽車主要車款手機無線充電模組搭載率
    • 市場數據:本田/東風主要車型手機無線充電模組安裝率
    • 市場數據:吉利主力車款手機無線充電模組搭載率
    • 市場數據:上汽主力車款手機無線充電模組搭載率
    • 市場數據:奇瑞主力車款手機無線充電模組搭載率
    • 市場數據:一汽主要車型手機無線充電模組安裝率
    • 市場數據:長安主要車型手機無線充電模組搭載率
    • 市場數據:新興整車廠手機無線充電模組搭載率
  • 無線充電的產業鏈
    • 供應鏈流程
    • 無線充電產業鏈
    • 供應商解決方案比較
    • 無線充電模組關鍵零件供應商
    • 比亞迪無線充電模組
    • 奇瑞無線充電模組
    • 特斯拉無線充電模組
    • GM無線充電模組
    • 吉利無線充電模組
    • BMW無線行動模組
    • 長城無線充電模組
    • 無線充電模組市場價格
  • 競爭情形
    • 主要供應商的市佔率(2023-2024)
    • 華陽多媒體:車上手機無線充電產品主要品牌及結構
    • InvisPower:供應汽車手機無線充電產品的主要品牌及其結構
    • 立訊精密等供應商:供應車載手機無線充電產品的主要品牌及其結構

第3章 汽車用行動電話無線充電供應商

  • 核心零組件供應商
  • NXP
  • Renesas
  • Microchip
  • ROHM
  • MPS
  • ConvenientPower Semiconductor (CPS)
  • Southchip
  • NuVolta
  • Maxic
  • Sine Microelectronics
  • iSmartWare
  • 模組供應商
  • InvisPower
  • Foryou Multimedia
  • Shenzhen Sunway Communication
  • Luxshare Precision
  • Laird Novero
  • Continental
  • LG
  • Aptiv
  • Omron

第4章 OEM的汽車用行動電話無線充電的案例

  • OEM公司自主研發的無線充電技術
  • OEM機型無線充電功能對比
  • Tesla
  • BMW
  • Geely
  • Volkswagen
  • AITO
  • Li Auto
  • NIO
  • BYD
  • IM
  • Great Wall Motor
簡介目錄
Product Code: ZXF009

China Passenger Car Mobile Phone Wireless Charging Research Report, 2024 highlights the following:

Passenger car wireless charging (principle, standards, and Qi2.0 protocol);

Passenger car mobile phone wireless charging module (sales volume and standard-configured vehicle model data, industry chain, and competitive landscape);

Product solutions of core components suppliers such as NXP, MPS, and Southchip; module solutions and composition of module suppliers such as Foryou Multimedia, InvisPower, and Laird Novero; automotive mobile phone wireless charging cases of OEMs such as Tesla, AITO, and BYD.

In June 2024, the standard installation rate of passenger car mobile phone wireless charging reached 44%.

When many people still discuss whether there are application scenarios for automotive mobile phone wireless charging and whether it is necessary to install mobile phone wireless charging modules as standard, OEMs and suppliers have made a quiet response.

Between 2020 and 2024, the standard installation rate of automotive mobile phone wireless charging modules in new cars increased from 6.9% in January 2020 to 44.1% in June 2024.

If optional models and post-installed mobile phone holders with wireless charging modules are considered, the actual installation rate of automotive mobile phone wireless charging modules exceeded 50%.

It is estimated that the installation is expected to exceed 10 million sets in 2024 and exceed 18 million sets in 2027.

In terms of installed models, Tesla Model Y, BYD Yuan Plus, and AITO M7 were the top three models with automotive mobile phone wireless charging modules in H1 2024, all with a standard configuration rate of 100%. Among the top 15 models by installation of mobile phone wireless charging modules, 7 models boasted the standard installation rate of 100%; the average standard configuration rate of the other 8 models was 70.5%.

Passenger car mobile phone wireless charging module suppliers are led by Chinese companies, and bellwethers include Foryou Multimedia, InvisPower, Luxshare Precision and Zhejiang Teme. In the field of traditional components, although solutions of international suppliers are still mainly adopted, such as NXP's master chip, TI's voltage regulator chip, and AOS' MOS tube, ever more solutions of Chinese companies such as ConvenientPower Semiconductor, NuVolta, Maxic and Southchip also find application in automotive mobile phone wireless charging modules.

In 2024, over 80% of automotive mobile phone wireless charging modules have obtained Qi 2.0 certification

There are Qi-certified wireless charging products of varying prices and designs on the market, enough to meet diverse requirements of users. But for OEMs and Tier1s, a unified Qi standard can create more ideal automotive wireless charging solutions. Qi 2.0 undertakes the functions of a unified mobile phone wireless charging protocol, especially the introduction of MPP (Magnetic Power Profile) based on Apple's MagSafe magnetic charging technology. By optimizing magnetic field distribution and software correction, MPP can improve charging efficiency, making devices more stable and reliable during wireless charging. Qi2.0's MPP technology has greatly improved user experience of wireless charging.

The test standard of Qi2.0 was released in October 2023, and the soft certification started on October 30, 2023, and the certification was fully opened on December 7, 2023. As of July 2024, 78 automotive wireless charging products have passed Qi certification, compared with 54 in the full year of 2023. It is expected that 130-150 automotive products will be Qi-certified in 2024.

Qi 1.2.4 is the version certifying the most automotive products, sweeping nearly 85%, but since 2024, suppliers have fully turned to Qi 2.0.

Of the 78 products that passed Qi certification in 2024, 63 are Qi 2.0 certified, or more than 80% of the total.

Undoubtedly Qi 2.0 is born to meet consumers' demand for medium- and high-power wireless charging. It operates at a frequency of 360kHz and adds 55 data packets based on Qi 1.3. It can support foreign object detection before power transmission, and also additionally supports reverse charging. Qi 2.0 technology and standards will head in the direction of higher power in the future. It is expected that a 25W wireless fast charging standard will be launched in 2025, and a 50W wireless fast charging standard with wide compatibility and strong applicability will be launched in 2026.

Seen from current products on the market, the 15W Qi 2.0 has fallen behind 50W private protocols. As the demand for charging mobile phones in the cockpit increases, higher-power charging solutions are needed. For example, Luxeed M7 supports charging 9 devices simultaneously, including 2 50W private protocol wireless fast charging and 2 66W wired super charging devices. The Qi 2.x fast charging protocol needs to be accelerated.

Precision, efficiency, and heat dissipation: Solutions to three major enduring problems in automotive mobile phone wireless charging

Problem 1: Precision: use magnetic attraction to ensure device alignment

Wireless charging relies on electromagnetic coils. In the charger, one or more induction coils create a magnetic field and transfer energy, and smaller coils in mobile phone or other devices collect the energy. The coils must be aligned to transfer energy between them.

The biggest upgrade of Qi 2.0 is adding the same magnetic function as Apple MagSafe. As the chairman member of WPC, Apple has contributed its MagSafe technology to WPC, which has over 370 members. The magnetic solution of Qi 2.0 guarantees perfect alignment, thereby reducing energy loss and ensuring charging efficiency.

The automotive mobile phone wireless charging module is mainly installed in central storage box or armrest box. Its position is fixed according to the space shape. The pattern and material increase its friction and can also improve localization accuracy of devices. However considering that devices may shift when the vehicle encounters complex road conditions such as bumps and turns during driving, magnetic attraction can better improve device stability. If bracket-type wireless charging devices in the aftermarket are taken into account, the role of magnetic attraction becomes even more important.

Problem 2: Efficiency: private protocols and new policies accelerate the launch of fast charging devices

The Qi standard initially featured charging power of 5W, which was later increased to 7.5W and 10W, while Qi 2.0 increases charging power to 15W. During 2025-2026, 25W and 50W versions with faster charging efficiency are scheduled to be released.

Yet currently many vehicle models already offer 50W wireless charging mainly through private protocols. For example, private protocols of Android phones such as Huawei, Xiaomi, and OPPO can enable automotive wireless charging power to reach 40-50W. For Apple phones, these models can only provide 15W charging solutions that support the MagSafe protocol.

In 2021, AITO M5 increased the power of automotive wireless charging to 40W for the first time. At that time, the Qi protocol could no longer meet this standard, so private protocols were also adopted for automotive wireless charging. New models in 2024, such as IM L6, Lynk & Co 07, New AITO M5, Xiaomi SU7, Zeekr 001, Luxeed S7 and Li L6, have generally supported 50W mobile phone wireless charging, but private protocols of each company are also easy to connect. At present, most 50W automotive wireless charging private protocol solutions can already support mainstream Android mobile phone brands.

The Interim Provisions on Administration of Radio of Wireless Charging (Power Transmission) Devices" the Ministry of Industry and Information Technology will begin to implement on September 1, 2024, indicates that mobile and portable wireless charging devices shall operate in the frequency ranges of 100-148.5kHz, 6765-6795kHz, and 13553-13567kHz, and the rated transmission power shall not exceed 80W. Earlier in February 2021, the Interim Provisions on Administration of Radio of Wireless Charging (Power Transmission) Devices (Draft for Comments) drafted by the Radio Administration Bureau of the Ministry of Industry and Information Technology emphasized that the rated transmission power of wireless charging shall not exceed 50W, which is why the maximum power of current wireless charging products does not exceed 50W, in spite of relevant suppliers pushing up the technology to more than 100W. Perhaps after September 2024, 80W private protocol wireless charging products will be available on market soon.

Problem 3: Heat dissipation: it is a long-lasting problem, and physical cooling is still the mainstream strategy

Most automotive mobile phone wireless charging solutions use a full-bridge SOC solution with built-in MCU and built-in power tube. This solution will easily cause heating problems.

Thermally conductive silicone sheets, thermally conductive gels, heat dissipation holes, and air cooling devices are currently major heat dissipation strategies for automotive wireless charging modules. The wireless charging compartment of AITO series is set in the concave space of the center console (one/both sides), with heat dissipation holes to actively cool the mobile phone and wireless charging module. The wireless charging board (50W) for Li Auto's 2024 models has more metal materials inside and uses an electric cooling fan for better heat dissipation.

Some suppliers are also trying to use new materials to deal with heat dissipation. Zhongke B Plus's research shows that in the same wireless charging working conditions, the temperature rise of nanocrystals is 7~8°C lower than that of ferrites. Of course, the nanocrystalline material is also a major wave-absorbing material. As a major supplier of nanocrystalline materials in China, Yunlu AMT provides nanocrystalline materials for the receiving terminals of some wireless charging products of Apple, Xiaomi and Huawei.

Table of Contents

1 Overview of Automotive Mobile Phone Wireless Charging

  • 1.1 Overview of Automotive Wireless Charging Function
    • 1.1.1 Development History
    • 1.1.2 Principle: Types and Features of Wireless Charging Technology
    • 1.1.2 Principle: Types and Standards of Wireless Charging Technology
    • 1.1.2 Principle: Electromagnetic Induction Technology
    • 1.1.3 Structure (1): Visteon's Wireless Charging Module
    • 1.1.3 Structure (2): Tesla's Wireless Charging Module
    • 1.1.4 Mainstream Wireless Charging Solutions Feature Low Power and Slow Heat Dissipation
    • 1.1.5 New Technology Outlook: Radio Wave
    • 1.1.5 New Technology Outlook: Ultrasonic/Light Focus
  • 1.2 Automotive Mobile Phone Wireless Charging Technology Protocols
    • 1.2.1 WPC
    • 1.2.2 Membership Application Process of WPC
    • 1.2.3 Member Certification Fee of WPC
    • 1.2.4 Product Certification Rule of WPC
    • 1.2.5 Qi Standard: Introduction
    • 1.2.6 Qi Standard: Application and Certification Process
    • 1.2.7 Qi Standard: Cooperation Modes of WPC
    • 1.2.8 Private Protocol and Related Certification
    • 1.2.9 Private Protocol Equipment: MegaSafe
    • 1.2.10 Laws & Regulations and Automotive Certification
  • 1.3 Qi 2.0
    • 1.3.1 Overview of Qi 2.0
    • 1.3.2 Qi2.0 Unifies Mobile Phone Wireless Charging Standards
    • 1.3.3 Qi2.0 Roadmap
    • 1.3.4 80% of Qi-certified Automotive Products to be Qi 2.0 in 2024
    • 1.3.5 Certified-15W Products Already Outnumber 5W Products Starting in 2023

2 Automotive Mobile Phone Wireless Charging Market

  • 2.1 Market Data
    • 2.1.1 Market Data: Status Quo, Jan. 2022- May 2024
    • 2.1.1 Market Data: Market Size, 2024-2027E
    • 2.1.2 Market Data: Installations/Installation Rate of Wireless Charging Modules in Vehicle Models by Power Type, 2020-2024
    • 2.1.3 Market Data: Installations/Installation Rate of Wireless Charging Modules in Vehicle Models by Price Range, 2020-2024
    • 2.1.4 Market Data: TOP20 Passenger Car Models by Installation of Mobile Phone Wireless Charging Modules in China, 2021-2024
    • 2.1.5 Market Data: Mobile Phone Wireless Charging Module Installation Rate of BYD's Main Models
    • 2.1.6 Market Data: Mobile Phone Wireless Charging Module Installation Rate of Mercedes-Benz/BAIC's Main Models
    • 2.1.7 Market Data: Mobile Phone Wireless Charging Module Installation Rate of GWM's Main Models
    • 2.1.8 Market Data: Mobile Phone Wireless Charging Module Installation Rate of Honda/Dongfeng's Main Models
    • 2.1.9 Market Data: Mobile Phone Wireless Charging Module Installation Rate of Geely's Main Models
    • 2.1.10 Market Data: Mobile Phone Wireless Charging Module Installation Rate of SAIC's Main Models
    • 2.1.11 Market Data: Mobile Phone Wireless Charging Module Installation Rate of Chery's Main Models
    • 2.1.12 Market Data: Mobile Phone Wireless Charging Module Installation Rate of FAW's Main Models
    • 2.1.13 Market Data: Mobile Phone Wireless Charging Module Installation Rate of Changan's Main Models
    • 2.1.14 Market Data: Mobile Phone Wireless Charging Module Installation Rate of Emerging OEMs
  • 2.2 Wireless Charging Industry Chain
    • 2.2.1 Supply Chain Process
    • 2.2.2 Wireless Charging Industry Chain
    • 2.2.3 Comparison between Suppliers' Solutions
    • 2.2.3 Sources of Main Components of Wireless Charging Modules
    • 2.2.4 BYD's Wireless Charging Module
    • 2.2.5 Chery's Wireless Charging Module
    • 2.2.6 Tesla's Wireless Charging Module
    • 2.2.7 GM's Wireless Charging Module
    • 2.2.8 Geely's Wireless Charging Module
    • 2.2.9 BMW's Wireless Charging Module
    • 2.2.10 Great Wall's Wireless Charging Module
    • 2.2.11 Market Prices of Wireless Charging Modules
  • 2.3 Competitive Landscape
    • 2.3.1 Market Share of Major Suppliers, 2023-2024
    • 2.3.2 Foryou Multimedia: Major Brands Supplied with Automotive Mobile Phone Wireless Charging Products and Their Structure
    • 2.3.3 InvisPower: Major Brands Supplied with Automotive Mobile Phone Wireless Charging Products and Their Structure
    • 2.3.4 Luxshare Precision and Other Suppliers: Major Brands Supplied with Automotive Mobile Phone Wireless Charging Products and Their Structure

3 Automotive Mobile Phone Wireless Charging Vendors

  • Core Component Vendors
  • 3.1 NXP
    • 3.1.1 Profile
    • 3.1.2 Wireless Charging Solutions (1)
    • 3.1.2 Wireless Charging Solutions (2)
    • 3.1.2 Wireless Charging Solutions (3)
    • 3.1.2 Wireless Charging Solutions (4)
    • 3.1.3 Wireless Charging Solutions with NFC
    • 3.1.4 WCT-15W AUTO13
    • 3.1.5 WCT-15W TXAUTOS
    • 3.1.6 RDWCT-15W TXAUTO
    • 3.1.7 RDWCT-5W TXAUTO
    • 3.1.8 BPP-type 13A Solution Planning
    • 3.1.9 Main Master MCU Models
    • 3.1.10 MWCT1213A
    • 3.1.11 WCT-1013A
    • 3.1.12 MWCT2xxxS Wireless Charging Chips
    • 3.1.13 Software Architecture
    • 3.1.14 Automotive-grade Fast Charging Development Platform
  • 3.2 Renesas
    • 3.2.1 Profile
    • 3.2.2 Wireless Charging Solution Architecture
    • 3.2.3 Wireless Charging Solutions
    • 3.2.4 Buck Chip ISL8117
    • 3.2.5 MCU R5F10PLHLFB
  • 3.3 Microchip
    • 3.3.1 Profile
    • 3.3.2 MCHPQi1p3TX
    • 3.3.3 Qi 2.0-based dsPIC33
  • 3.4 ROHM
    • 3.4.1 BD57121MUF-M
  • 3.5 MPS
    • 3.5.1 Automotive Mobile Phone Wireless Charging Solution
    • 3.5.2 Automotive Mobile Phone Wireless Charging Framework
    • 3.5.3 Features of Automotive Mobile Phone Wireless Charging MPQ4280 Module
    • 3.5.4 Features of Automotive Mobile Phone Wireless Charging MPQ4262 Module
  • 3.6 ConvenientPower Semiconductor (CPS)
    • 3.6.1 Profile
    • 3.6.2 Qi-certified Products
    • 3.6.3 Structure of CPSQ8100
    • 3.6.4 CPSQ8203
    • 3.6.5 CPSQ-OMX14XW
  • 3.7 Southchip
    • 3.7.1 Profile
    • 3.7.2 Partners
    • 3.7.3 Wireless Charging Solutions
    • 3.7.4 Chip Features
    • 3.7.5 SC9621
    • 3.7.6 15W/50W Charging Solutions
    • 3.7.7 MPP Wireless Charging Module
    • 3.7.8 SC9610 50W TX Controller
    • 3.7.9 SC5008 15W TX Power Stage
  • 3.8 NuVolta
    • 3.8.1 Profile
    • 3.8.2 Qi-certified Products
    • 3.8.3 NU8040Q
    • 3.8.3 NVTREF8040Q
    • 3.8.4 NU1705/8A for MPP
  • 3.9 Maxic
    • 3.9.1 Profile
    • 3.9.2 Chip Types
    • 3.9.3 MTQ5807
    • 3.9.4 MT5815
    • 3.9.5 MT5760
    • 3.9.6 MT5788
  • 3.10 Sine Microelectronics
    • 3.10.1 Profile
    • 3.10.2 Wireless Charging Solutions
    • 3.10.3 The Second-generation Automotive Wireless Charging Solution
  • 3.11 iSmartWare
    • 3.11.1 Profile
    • 3.11.2 Wireless Charging Series: SW5001
    • 3.11.3 Wireless Charging Series: SW5001 Derivative Series
    • 3.11.4 SW5001 Wireless Charging TX SoC Solution
  • Module Vendors
  • 3.12 InvisPower
    • 3.12.1 Profile
    • 3.12.2 Wireless Charging Products
    • 3.12.3 BYD's Wireless Charging Module
  • 3.13 Foryou Multimedia
    • 3.13.1 Profile
    • 3.13.2 Development History of Wireless Charging Products
    • 3.13.3 Features and Planning of Wireless Charging Products
    • 3.13.4 50W Wireless Charging Modules
    • 3.13.5 High-power Tracking Wireless Charging Modules
    • 3.13.6 Qi-certified Products
    • 3.13.7 Chery's Wireless Charging Cases
  • 3.14 Shenzhen Sunway Communication
    • 3.14.1 Profile
    • 3.14.2 Automotive Wireless Charging Transmitter Modules
  • 3.15 Luxshare Precision
    • 3.15.1 Profile
    • 3.15.2 Wireless Charging Modules
  • 3.16 Laird Novero
    • 3.16.1 Profile
    • 3.16.2 Business Layout
    • 3.16.3 Qi-certified Products
    • 3.16.4 WCH-186
    • 3.16.5 WCH-209 of Mazda 3
  • 3.17 Continental
    • 3.17.1 Integration with Multifunctional Smart Phones
    • 3.17.2 Qi-certified Products
  • 3.18 LG
    • 3.18.1 Profile
    • 3.18.2 WC500M
  • 3.19 Aptiv
    • 3.19.1 Profile
    • 3.19.2 Wireless Charging Module Structure
    • 3.19.3 Wireless Charging Solutions
  • 3.20 Omron
    • 3.20.1 Profile
    • 3.20.2 Second Resonance Technology

4 Automotive Mobile Phone Wireless Charging Cases of OEMs

  • 4.1 Wireless Charging Technology Developed by OEMs Independently
  • 4.2 Comparison between Wireless Charging Functions of OEM Models
  • 4.3 Tesla
    • 4.3.1 Model Y: Self-designed Wireless Charging Modules
  • 4.4 BMW
    • 4.4.1 Wireless Charging Suppliers of BMW 5 Series
  • 4.5 Geely
    • 4.5.1 Wireless Charging Suppliers
    • 4.5.2 Internal Structure of Lynk & Co/ZEEKR Wireless Charger
  • 4.6 Volkswagen
    • 4.6.1 Wireless Charging Suppliers
    • 4.6.2 Wireless Charging Suppliers of Magotan P8/ Tiguan L
  • 4.7 AITO
    • 4.7.1 Wireless Charging Suppliers
  • 4.8 Li Auto
    • 4.8.1 Supplier for Wireless Charging Boards of Li L Series
    • 4.8.2 Wireless Charging Boards of Li ONE Series: NXP's Chips
  • 4.9 NIO
    • 4.9.1 Cool Air Wireless Charging Modules
  • 4.10 BYD
    • 4.10.1 Samsung Private Protocol Supported
  • 4.11 IM
    • 4.11.1 Liftable/Grooved Wireless Charging Boards
  • 4.12 Great Wall Motor
    • 4.12.1 Wireless Charging Suppliers of Haval Cool Dog