全球磁感测器市场（2026-2036 年）

磁感测器是一种非接触式电子设备，用于检测和测量静态或动态磁场，并被广泛应用于现代经济几乎所有领域的各种产品。其最大的特点是无需感测器与被测物体之间任何机械连接即可感知位置、电流或磁场的存在。这使其具有固有的耐磨性，适用于封闭和恶劣的工作环境，并且在电流检测应用中，还能实现测量电路与被测导体之间的电气隔离。这些特性使得磁感测器在现有应用中几乎不可替代，并且随着性能的提升和封装尺寸的缩小，它们在新的应用领域也越来越受到关注。

目前市场上有四大成熟的半导体技术系列，它们各自基于不同的物理原理，并在性能成本平衡方面占据独特的市场地位。采用标准CMOS製程製造的霍尔效应感测器是应用最广泛、成本效益最高的技术，广泛应用于消费性电子、汽车、工业和医疗等领域，用于位置检测、开关、锁存和电流测量。异性磁电阻感测器具有优异的杂讯基底性能，是电子指南针方向测量和高精度线性位置侦测的必要条件。巨磁电阻感测器具有高频宽和卓越的灵敏度，可用于齿轮齿形检测和高速增量编码。隧道磁阻感测器是业界的策略性技术，它集卓越的灵敏度、超低功耗和最小的封装面积于所有磁感技术中于一身。这使得高阶光学影像防手震、电动车电池管理、人形机器人关节感测、资料中心电源监控和穿戴式生物感测等新型应用成为可能。

四大关键终端应用领域正在推动市场需求。汽车和出行领域规模最大，技术要求也最高，这主要得益于电动车动力传动系统的转型以及电池系统、马达控制、转向系统和充电基础设施中感测器的广泛应用。消费性电子领域的核心是智慧型手机相机的光学影像防手震以及智慧型手机和穿戴式装置的电子指南针，同时XR头戴装置和人工智慧边缘装置的贡献也在不断成长。工业领域是成长最快的产业，人形机器人的出现以及人工智慧资料中心基础设施的爆炸性成长推动了该领域的变革，这些都需要在配电层级的各个层面进行精细的功率监控。医疗保健领域规模小规模，但利润最高，其核心是持续血糖监测和药物传递应用，并且基于TMR的生物感测技术具有长期变革的潜力，该技术能够无创地检测肌肉和心臟的生物磁信号。

竞争格局包括拥有专有化合物半导体和薄膜磁阻製程製造能力的嵌入式设备製造商、利用第三方代晶圆代工厂的无晶圆厂设计公司，以及快速发展的量子感测Start-Ups，这些公司正在开发氮空位钻石和原子磁力计技术，预计这些技术将开闢全新的灵敏度领域，超越传统固体感测器的限制。

本报告对全球磁感测器市场进行了深入分析，包括市场规模预测、各细分市场的驱动因素、竞争格局、供应链和技术趋势。

目录

第一章：市场概览

• 技术亮点
• 竞争对手亮点

第二章执行摘要

• 市场概况及成长背景
• 主要市场发现
• 技术调查结果
• 关于竞争和供应链的研究成果
• 新应用与未来前景

第三章 市场概览及背景

• 磁感简介
• 磁感测器的功能和应用
• 技术系列：概述
• 磁感测器价值链
• 标准、安全和法规环境

第四章 技术分析

• 霍尔效应技术－现况与发展
• 先进电洞材料：InSb、InAs、GaAs、石墨烯
• AMR技术－现状与发展趋势
• GMR技术－现况及应用
• TMR技术
• 系统级封装的发展趋势
• 新材料平台
• 关于当前感测技术
• 技术蓝图（至2036年）

第五章：全球市场预测

• 全球磁感测器市场：市场规模预测（2026-2036 年）
• 预测：透过技术
• 预测：透过感测器功能
• 预测：依元件层级－积体电路/元件与模组
• 晶圆级市场预测
• 预测：按地区

第六章：汽车与旅游市场

• 部门概况和关键驱动因素
• 适用于电动车和混合动力汽车
• 汽车定位和存在检测
• 高级驾驶辅助系统 (ADAS)、自动驾驶、新型汽车应用
• 竞争格局：汽车产业

第七章：消费性电子市场

• 部门概况和关键驱动因素
• 光学影像防手震
• 电子指南针和地磁感
• 穿戴式装置、AR/VR设备、人工智慧设备
• 竞争格局：消费者区隔市场

第八章 工业市场

• 部门概况和关键驱动因素
• 机器人技术、自动化、人形机器人
• 智慧电网、电力管理、能源基础设施
• 资料中心和人工智慧基础设施
• 竞争格局：产业领域

第九章：医疗保健市场

• 部门概况和关键驱动因素
• 连续血糖监测系统
• 应用于药物输送和输液泵
• 新的医疗应用—生物感测与诊断
• 竞争格局：医疗保健领域

第十章 竞争格局

• 产业结构－整合元件製造商 (IDM)、无厂半导体公司、晶圆代工厂
• 整体市占率（2025 年）
• 细分市场占有率
• 战略定位和技术投资
• 併购、收购与策略联盟（2020-2026 年）
• 中国企业正在崛起
• Start-Ups和新兴企业

第十一章 供应链分析

• 磁感测器供应链概述
• 原料与关键投入
• 晶圆製造和薄膜沉积的现状
• 组装、包装、测试
• 经营模式分析－IDM、无晶圆厂模式与有晶圆厂模式的比较
• 供应链风险与韧性

第十二章 区域分析

• 亚太地区
• 北美洲
• 欧洲
• 其他地区
• 区域比较与结论

第十三章：技术趋势与蓝图（2026-2036）

• 技术趋势概述
• TMR技术：现况及发展蓝图
• 霍尔效应技术的改进
• 用于下一代霍尔感测器的尖端材料
• 目前感测技术
• 角度位置侦测与线性位置侦测：技术比较
• 杂散磁场容忍度：挑战与解决方案
• 将人工智慧和机器学习整合到感测器处理中
• 量子磁感：地平线科技
• 石墨烯基感测器：进展与商业化前景
• 技术蓝图（2026-2036）

第十四章 新应用与未来展望

• 新申请状况概述
• XR、穿戴式装置、手势姿态辨识
• 量子磁感与NV色钻石技术
• RHBD磁感测器在空间和卫星中的应用
• 脑机介面与先进的临床生物感测
• 下一代人形机器人的本体感觉

第十五章 结论与策略展望

• 主要市场调查结果概述
• 科技领域的赢家与输家（截至2036年）
• 地理变化与中国日益增长的作用
• 併购前景
• 十年展望：磁感测器产业（2036 年）

第十六章：公司简介（58家公司简介）

第十七章附录

第十八章 参考文献

Magnetic sensors are non-contact electronic devices that detect and measure static or dynamic magnetic fields, and they are embedded in an extraordinarily wide range of products across virtually every sector of the modern economy. Their defining characteristic is the ability to sense position, current, or the presence of a magnetic field without any mechanical linkage between sensor and target, providing inherent immunity to wear, compatibility with sealed and harsh operating environments, and - in current sensing applications - galvanic isolation between the measurement circuit and the conductor under measurement. These properties make magnetic sensors essentially irreplaceable across their established application domains and continuously attractive for new applications as performance improves and package sizes shrink.

The market is served by four established semiconductor technology families, each operating on a distinct physical principle and occupying a distinct niche in the performance-cost space. Hall effect sensors, manufactured on standard CMOS processes, are the most widely deployed and cost-effective technology, used in position sensing, switching, latching, and current measurement across consumer electronics, automotive, industrial, and medical applications. Anisotropic magnetoresistance sensors provide the superior noise floor performance required for eCompass heading determination and precision linear position sensing. Giant magnetoresistance sensors offer high bandwidth and good sensitivity for gear tooth detection and high-speed incremental encoding. Tunnelling magnetoresistance sensors - the technology defining the industry's strategic direction - combine extraordinary sensitivity, ultra-low power consumption, and the smallest package footprints of any magnetic sensing technology, enabling new application categories in premium optical image stabilisation, electric vehicle battery management, humanoid robot joint sensing, data centre power monitoring, and wearable biosensing.

Four primary end-use segments drive market demand. Automotive and Mobility is the largest and most technically demanding, driven by the transition to electric vehicle powertrains and the proliferation of sensors across battery systems, motor control, steering, and charging infrastructure. Consumer Electronics is anchored by optical image stabilisation in smartphone cameras and electronic compass in smartphones and wearables, with growing contributions from extended reality headsets and AI-enabled edge devices. Industrial is the fastest-growing segment, transformed by the emergence of humanoid robotics and the explosion of AI data centre infrastructure requiring granular power monitoring at every level of the distribution hierarchy. Medical, the smallest but most margin-rich segment, is anchored by continuous glucose monitoring and drug delivery applications, with transformative longer-horizon potential in non-invasive TMR-based biosensing of biomagnetic signals from muscles and the heart.

The competitive landscape spans integrated device manufacturers with proprietary compound semiconductor and thin-film magnetoresistive process capability, fabless designers accessing third-party foundries, and a rapidly expanding cohort of quantum sensing start-ups developing nitrogen-vacancy diamond and atomic magnetometer technologies that promise to open entirely new sensitivity frontiers beyond the reach of conventional solid-state sensors.

The Global Market for Magnetic Sensors 2026-2036 is the most comprehensive and technically detailed single-volume analysis of the magnetic sensor industry available. The report provides a rigorous ten-year quantitative forecast disaggregated across end-use segments, technology families, application functions, geographic regions, and device integration levels, delivering the granular intelligence required by sensor manufacturers, Tier-1 automotive suppliers, consumer electronics OEMs, industrial automation companies, medical device developers, investors, and strategic planners navigating an industry undergoing its most significant structural transformation in decades.

The report opens with a three-page executive summary and a structured methodology section establishing scope, definitions, and forecasting approach. An authoritative technology analysis covers Hall effect, AMR, GMR, TMR, graphene, advanced compound semiconductor materials, and quantum sensing technologies, with dedicated sections on current sensing technology comparison, stray field immunity, machine learning integration in sensor processing, and a comprehensive Gantt-style technology roadmap extending to 2036. Separate chapters address each of the four principal end-use segments - Automotive and Mobility, Consumer Electronics, Industrial, and Medical - with application-level forecasts, technology mix analysis, and competitive landscape mapping with market share data. A dedicated emerging applications chapter covers humanoid robotics, AI data centre infrastructure, extended reality gesture recognition, quantum magnetic sensing, and LEO satellite constellations, each with risk-adjusted revenue contribution estimates above the base case.

The supply chain analysis addresses raw materials - including the strategically critical iridium supply risk for TMR manufacturing - xMR thin-film foundry capacity constraints, packaging and test considerations, and geopolitical risk across the manufacturing ecosystem. Regional analysis covers Asia-Pacific, North America, Europe, and Rest of World. The concluding section delivers strategic recommendations for sensor manufacturers, end-use OEMs, and investors, and a ten-year outlook for the shape of the industry in 2036.

Report contents include:

• Section 1: Three-Page Summary - market at a glance, technology highlights covering Hall Si, Hall advanced materials, AMR, GMR, and TMR, competitive highlights
• Section 2: Executive Summary - market overview and growth context, key market findings, technology findings, competitive and supply chain findings, emerging applications and future outlook including extended reality biosensing, quantum sensing, and space applications
• Section 3: Market Overview and Context - introduction to magnetic sensing principles, sensor functions and representative applications by segment, technology families overview, the six-tier magnetic sensor value chain from raw materials to end markets, standards safety and regulatory environment
• Section 4: Technology Analysis - Hall effect current status and developments, advanced Hall materials covering InSb, InAs, GaAs, and graphene, AMR status and trends, GMR status and applications, TMR technology including tunnel junction architecture and manufacturing challenges, integration and packaging trends, emerging material platforms, focus on current sensing technologies, technology roadmap to 2036
• Section 5: Global Market Forecasts 2026-2036 - total market value forecast by end-use segment, forecast by technology, forecast by sensor function, forecast by device level covering IC/device versus module, wafer-level market forecast by technology, forecast by geography
• Section 6: Automotive and Mobility Market - sector overview and key drivers, electric vehicle and HEV applications, 800V battery architecture and magnetic current sensing requirements, position and presence sensing, ADAS and autonomous driving, functional safety and ISO 26262 requirements, competitive landscape, segment market forecast
• Section 7: Consumer Electronics Market - sector overview and key drivers, optical image stabilisation in smartphones and action cameras, eCompass and geomagnetic sensing, wearables, AR/VR headsets, and AI-enabled devices, competitive landscape, segment market forecast
• Section 8: Industrial Market - sector overview and key drivers, robotics, automation, and humanoid robots, smart grids and power management, data centres and AI infrastructure, competitive landscape, segment market forecast
• Section 9: Medical Market - sector overview and key drivers, continuous glucose monitoring systems, drug delivery and infusion pump applications, emerging biosensing and diagnostics, competitive landscape, segment market forecast
• Section 10: Competitive Landscape - industry structure covering IDMs, fabless companies, and foundries, overall market shares, segment-level market shares across automotive, consumer, industrial, and medical, strategic positioning and technology investment, mergers acquisitions and strategic partnerships 2020-2026, the rise of Greater China players, start-ups and emerging companies
• Section 11: Supply Chain Analysis - overview of the magnetic sensor supply chain, raw materials and critical inputs including iridium, rare earths, CoFeB, and MgO, wafer foundry and thin-film deposition landscape, assembly packaging and test, business model analysis covering IDM versus fabless versus fab-lite, supply chain risks and resilience
• Section 12: Regional Analysis - Asia-Pacific covering China, Japan, South Korea, and Taiwan, North America, Europe, Rest of World, regional comparison and conclusions
• Section 13: Technology Trends and Roadmap 2026-2036 - technology trend overview, TMR current status and development roadmap, Hall effect technology improvements, advanced materials for next-generation Hall sensors, current sensing technologies comparative deep-dive covering shunts versus Hall versus AMR versus TMR versus Rogowski coils, angular and linear position sensing technology comparison, stray field immunity challenges and solutions, AI and machine learning integration in sensor processing, quantum magnetic sensing horizon technologies, graphene-based sensors progress and commercialisation outlook, technology roadmap 2026-2036
• Section 14: Emerging Applications - overview of the emerging application landscape, extended reality gesture recognition using TMR wearable biosensors, quantum magnetic sensing and NV-diamond technology, space and satellite applications for RHBD magnetic sensors, brain-computer interfaces and advanced clinical biosensing, next-generation humanoid robot proprioception, emerging applications risk-adjusted revenue summary
• Section 15: Conclusions and Strategic Outlook - summary of key market findings, technology winners and losers to 2036, geographic shifts and China's rising role, M&A and consolidation outlook, strategic recommendations for sensor manufacturers, strategic recommendations for end-use OEMs, strategic recommendations for investors, ten-year outlook for the magnetic sensor industry in 2036
• Section 16: Company Profiles - 58 one-page profiles presented alphabetically, covering integrated device manufacturers, fabless designers, foundry services, module manufacturers, and quantum sensing start-ups
• Appendix A: List of Companies Cited
• Appendix B: Patent Landscape Summary
• Appendix C: Acronyms and Abbreviations
• References - 120 curated references with active web links

The report provides full one-page profiles for 58 companies spanning the complete magnetic sensor value chain and ecosystem, from established integrated device manufacturers and fabless Hall sensor suppliers through to tunnelling magnetoresistance specialists, quantum sensing start-ups, and advanced synthetic diamond material providers. Profiled companies include Ablic Inc., Aceinna Inc., AKM (Asahi Kasei Microdevices Corporation), Allegro MicroSystems, Alps Alpine Co. Ltd., Amphenol Piher Sensing Systems, ams OSRAM AG, Analog Devices Inc., Angsemi, Aquark Technologies, Robert Bosch GmbH, Bosch Quantum Sensing, Cerca Magnetics Limited, Coto Technology, Crosschip Technology, DeteQt, Diatope GmbH, Diodes Incorporated, Element Six, Eutronsense, EuQlid, Honeywell Sensing and IoT, iC-Haus GmbH, Infineon Technologies AG, Isabellenhutte, iSentek Inc., LEM International SA, Littelfuse Inc., MagnaChip Semiconductor, Matrixsens (Suzhou Matrix Optoelectronics Co. Ltd.), Melexis NV, MEMSIC Semiconductor, MultiDimension Technology, Murata Manufacturing Co. Ltd., Neuranics Ltd., Nicera Ceramics, Novosense Microelectronics, NVE Corporation, NXP Semiconductors, Orient Sensor, Paragraf Ltd., PNI Sensor Corporation, Q.ANT GmbH and more......

TABLE OF CONTENTS

1 MARKET AT A GLANCE

• 1.1 Technology Highlights
  • 1.1.1 Hall Effect - Silicon
  • 1.1.2 Hall Effect - Advanced Materials
  • 1.1.3 AMR Technology
  • 1.1.4 GMR Technology
  • 1.1.5 TMR Technology
• 1.2 Competitive Highlights

2 EXECUTIVE SUMMARY

• 2.1 Market Overview and Growth Context
• 2.2 Key Market Findings
• 2.3 Technology Findings
• 2.4 Competitive and Supply Chain Findings
• 2.5 Emerging Applications and Future Outlook
  • 2.5.1 Extended Reality and Wearable Biosensing
  • 2.5.2 Quantum Magnetic Sensing
  • 2.5.3 Space and Satellite Applications

3 MARKET OVERVIEW AND CONTEXT

• 3.1 Introduction to Magnetic Sensing
• 3.2 Magnetic Sensor Functions and Applications
• 3.3 Technology Families: Overview
  • 3.3.1 Hall Effect Sensors
  • 3.3.2 AMR Sensors
  • 3.3.3 GMR Sensors
  • 3.3.4 TMR Sensors
• 3.4 The Magnetic Sensor Value Chain
  • 3.4.1 Tier 1: Raw Materials
  • 3.4.2 Tier 2: Wafer and Foundry
  • 3.4.3 Tier 3: IC Design and Process
  • 3.4.4 Tier 4: Packaging and Test
  • 3.4.5 Tier 5: Module and System Integration
  • 3.4.6 Tier 6: End Markets
• 3.5 Standards, Safety, and Regulatory Environment

4 TECHNOLOGY ANALYSIS

• 4.1 Hall Effect Technology - Current Status and Developments
• 4.2 Advanced Hall Materials: InSb, InAs, GaAs, and Graphene
  • 4.2.1 Indium Antimonide (InSb)
  • 4.2.2 Indium Arsenide (InAs) Quantum Wells
  • 4.2.3 Graphene
• 4.3 AMR Technology - Status and Trends
• 4.4 GMR Technology - Status and Applications
• 4.5 TMR Technology
• 4.6 Integration, Packaging, and System-in-Package Trends
• 4.7 Emerging Material Platforms
• 4.8 Focus on Current Sensing Technologies
• 4.9 Technology Roadmap to 2036

5 GLOBAL MARKET FORECASTS

• 5.1 Global Magnetic Sensors Market: Total Value Forecast, 2026-2036
• 5.2 Forecast by Technology
• 5.3 Forecast by Sensor Function
• 5.4 Forecast by Device Level - IC/Device vs. Module
• 5.5 Wafer-Level Market Forecast
• 5.6 Forecast by Geography

6 AUTOMOTIVE AND MOBILITY MARKET

• 6.1 Sector Overview and Key Drivers
• 6.2 Electric Vehicle and HEV Applications
• 6.3 Position and Presence Sensing in Automotive
• 6.4 ADAS, Autonomous Driving, and Emerging Automotive Applications
• 6.5 Competitive Landscape: Automotive Segment

7 CONSUMER ELECTRONICS MARKET

• 7.1 Sector Overview and Key Drivers
• 7.2 Optical Image Stabilisation
• 7.3 eCompass and Geomagnetic Sensing
• 7.4 Wearables, AR/VR, and AI-Enabled Devices
• 7.5 Competitive Landscape: Consumer Segment

8 INDUSTRIAL MARKET

• 8.1 Sector Overview and Key Drivers
• 8.2 Robotics, Automation, and Humanoids
• 8.3 Smart Grids, Power Management, and Energy Infrastructure
• 8.4 Data Centres and AI Infrastructure
• 8.5 Competitive Landscape: Industrial Segment

9 MEDICAL MARKET

• 9.1 Sector Overview and Key Drivers
• 9.2 Continuous Glucose Monitoring Systems
• 9.3 Drug Delivery and Infusion Pump Applications
• 9.4 Emerging Medical Applications - Biosensing and Diagnostics
• 9.5 Competitive Landscape: Medical Segment

10 COMPETITIVE LANDSCAPE

• 10.1 Industry Structure - IDMs, Fabless Companies, and Foundries
• 10.2 Overall Market Shares, 2025
• 10.3 Segment-Level Market Shares
• 10.4 Strategic Positioning and Technology Investment
• 10.5 Mergers, Acquisitions, and Strategic Partnerships, 2020-2026
• 10.6 The Rise of China Players
• 10.7 Start-ups and Emerging Companies

11 SUPPLY CHAIN ANALYSIS

• 11.1 Overview of the Magnetic Sensor Supply Chain
• 11.2 Raw Materials and Critical Inputs
• 11.3 Wafer Foundry and Thin-Film Deposition Landscape
• 11.4 Assembly, Packaging, and Test
• 11.5 Business Model Analysis - IDM vs. Fabless vs. Fab-Lite
• 11.6 Supply Chain Risks and Resilience

12 REGIONAL ANALYSIS

• 12.1 Asia-Pacific
• 12.2 North America
• 12.3 Europe
• 12.4 Rest of World
• 12.5 Regional Comparison and Conclusions

13 TECHNOLOGY TRENDS & ROADMAP 2026-2036

• 13.1 Technology Trend Overview
• 13.2 TMR Technology: Current Status & Development Roadmap
• 13.3 Hall Effect Technology Improvements
• 13.4 Advanced Materials for Next-Generation Hall Sensors
• 13.5 Current Sensing Technologies
• 13.6 Angular & Linear Position Sensing: Technology Comparison
• 13.7 Stray Field Immunity: Challenges & Solutions
• 13.8 AI & Machine Learning Integration in Sensor Processing
• 13.9 Quantum Magnetic Sensing: Horizon Technologies
• 13.10 Graphene-Based Sensors: Progress & Commercialisation Outlook
• 13.11 Technology Roadmap 2026-2036

14 EMERGING APPLICATIONS AND FUTURE OUTLOOK

• 14.1 Overview of Emerging Application Landscape
• 14.2 Extended Reality, Wearables, and Gesture Recognition
• 14.3 Quantum Magnetic Sensing and NV-Diamond Technology
• 14.4 Space and Satellite Applications for RHBD Magnetic Sensors
• 14.5 Brain-Computer Interfaces and Advanced Clinical Biosensing
• 14.6 Next-Generation Humanoid Robot Proprioception

15 CONCLUSIONS & STRATEGIC OUTLOOK

• 15.1 Summary of Key Market Findings
• 15.2 Technology Winners & Losers to 2036
• 15.3 Geographic Shifts & China's Rising Role
• 15.4 M&A & Consolidation Outlook
• 15.5 10-Year Outlook: The Magnetic Sensor Industry in 2036

16 COMPANY PROFILES (58 company profiles)

17 APPENDICES

• 17.1 Appendix A - List of Companies Cited
• 17.2 Appendix B - Patent Landscape Summary
• 17.3 Appendix C - Acronyms & Abbreviations

18 REFERENCES

List of Tables

• Table 1. Identity Card - The Global Magnetic Sensors Market 2026-2036
• Table 2. Key Market Metrics at a Glance
• Table 3. Key Sensor Functions and Representative Applications by Market Segment
• Table 4. Magnetic Sensor Technology Comparison Matrix - Hall, AMR, GMR, TMR
• Table 5. Regulatory and Standards Landscape for Magnetic Sensors
• Table 6. Hall Effect Sensor Performance Parameters by Semiconductor Material
• Table 7. Advanced Hall Materials Comparison - InSb, InAs, GaAs, and Graphene
• Table 8. TMR Barrier Materials and Performance Characteristics
• Table 9. Magnetic Sensor Packaging Options and Integration Levels
• Table 10. Emerging Material Platforms for Magnetic Sensors - Performance Outlook to 2036
• Table 11. Current Sensing Technology Comparison for Key Applications
• Table 12. Global Magnetic Sensors Market by End-Use Segment, $M, 2026-2036
• Table 13. Global Magnetic Sensors Market by Technology, $M, 2026-2036
• Table 14. Global Magnetic Sensors Market by Sensor Function, $M, 2026-2036
• Table 15. Global Magnetic Sensor IC/Device Unit Shipments by Segment, Million Units, 2026-2036
• Table 16. Global Magnetic Sensors Wafer Demand Forecast by Technology, cm2 (millions), 2026-2036
• Table 17. Global Magnetic Sensors Market by Geography, $M, 2026-2036
• Table 18. Automotive and Mobility Magnetic Sensors Market by Application, $M, 2026-2036
• Table 19. Automotive Magnetic Sensors Market by Sensor Function, $M, 2026-2036
• Table 20. Automotive Magnetic Sensors Market by Technology, $M, 2026-2036
• Table 21. Key Automotive Magnetic Sensor Products and Specifications - Selected Companies
• Table 22. Consumer Electronics Magnetic Sensors Market by Application, $M, 2026-2036
• Table 23. Consumer Magnetic Sensors Market by Sensor Function, $M, 2026-2036
• Table 24. Consumer Magnetic Sensors Market by Technology, $M, 2026-2036
• Table 25. Industrial Magnetic Sensors Market by Application, $M, 2026-2036
• Table 26. Industrial Magnetic Sensors Market by Sensor Function, $M, 2026-2036
• Table 27. Industrial Magnetic Sensors Market by Technology, $M, 2026-2036
• Table 28. Medical Magnetic Sensors Market by Application, $M, 2026-2036
• Table 29. Medical Magnetic Sensors Market by Technology, $M, 2026-2036
• Table 30. Top 10 Magnetic Sensor Companies by Estimated Revenue, 2025
• Table 31. Player Technology and Market Segment Positioning Matrix
• Table 32. Major M&A Transactions and Strategic Partnerships, 2020-2026
• Table 33. China Magnetic Sensor Companies - Market Position and Strategy
• Table 34. Start-Up and Emerging Company Landscape in Magnetic Sensing
• Table 35. Key Raw Materials and Supply Risk Assessment
• Table 36. Regional Manufacturing and Production Capacity Overview
• Table 37. Regional Market Share, CAGR, and Key Growth Drivers Comparison
• Table 38. Current Sensing Technology Comparison Matrix
• Table 39. Emerging Applications - Addressable Market, Technology Fit, and Commercialisation Timeline
• Table 40. Space Magnetic Sensor Market: Applications, Requirements, and Technology Fit
• Table 41. Emerging Applications: Risk-Adjusted Revenue Contribution Above Base Case, 2036
• Table 42. Top Patent Filers by Volume (2018-2025, estimated)

List of Figures

• Figure 1. Global magnetic sensors market value, $M, 2020-2036
• Figure 2. Global magnetic sensors market value by end-use segment, 2025 vs. 2036, $M
• Figure 3. Global magnetic sensors market value by technology, percentage share, 2025 vs. 2036
• Figure 4. Competitive landscape overview - top players by market position and segment, 2025
• Figure 5. Technology commercialisation status and readiness by application, 2026
• Figure 6. Hall effect sensor - operating principle schematic
• Figure 7. Anisotropic magnetoresistance (AMR) sensor - operating principle
• Figure 8. Giant magnetoresistance (GMR) sensor - spin valve layer stack
• Figure 9. Tunnelling magnetoresistance (TMR) sensor - magnetic tunnel junction cross-section
• Figure 10. Magnetic sensor supply chain and value chain map
• Figure 11. Hall effect technology performance improvement roadmap, 2015-2036
• Figure 12. InSb and InAs quantum well structure - layer cross-section
• Figure 13. AMR sensor - Wheatstone bridge layout and barber-pole structure
• Figure 14. GMR spin valve - parallel vs. antiparallel magnetic configuration
• Figure 15. TMR process - thin-film deposition and wafer-level stack formation
• Figure 16. Sensor Packaging Evolution, Discrete TO-92 to Multi-Axis SiP
• Figure 17. Graphene-Based Magnetic Sensor: Structure and Operating Principle
• Figure 18. Current Sensing Topologies: Open-Loop, Closed-Loop, and Coreless Comparison
• Figure 19. Magnetic Sensor Technology Roadmap, Hall, AMR, GMR, TMR, and Emerging, 2026-2036
• Figure 20. Global Magnetic Sensors Market Value by Segment, $M, 2026-2036
• Figure 21. Global Magnetic Sensors Market by Technology, Percentage Share, 2026 vs. 2036
• Figure 22. Global Magnetic Sensors Market by Sensor Function, $M, 2026-2036
• Figure 23. Global Magnetic Sensor Unit Shipments vs. Revenue, Indexed Growth, 2026-2036
• Figure 24. Global Magnetic Sensors Wafer Area Demand by Technology, cm2, 2026-2036
• Figure 25. Global Magnetic Sensors Market by Region, 2026 vs. 2036
• Figure 26. Automotive Magnetic Sensors Market Value, $M, 2026-2036
• Figure 27. EV/HEV Powertrain Architecture with Magnetic Sensor Positions Annotated
• Figure 28. 800V Battery Architecture and Magnetic Current Sensing Requirements
• Figure 29. ADAS and Autonomous Driving Sensor Suite - Magnetic Sensor Roles Annotated
• Figure 30. Market Share, Automotive Magnetic Sensors, Top Players by Revenue, 2025
• Figure 31. Consumer Magnetic Sensors Market Value, $M, 2026-2036
• Figure 32. OIS Camera Module TMR and Hall Sensor Placement Schematic
• Figure 33. eCompass Architecture in Smartphone and Wearable Devices
• Figure 34. AI-Enabled Consumer Devices and Wearables - Magnetic Sensor Integration Points
• Figure 35. Market Share, Consumer Magnetic Sensors, Top Players by Revenue, 2025
• Figure 36. Industrial Magnetic Sensors Market Value, $M, 2026-2036
• Figure 37. Humanoid and Industrial Robot Joint Position Sensing Architecture
• Figure 38. Smart Grid Current Monitoring: Magnetic Sensor Deployment Schematic
• Figure 39. Data Centre Power Monitoring and Management: Magnetic Sensor Positions
• Figure 40. Market Share, Industrial Magnetic Sensors, Top Players by Revenue, 2025
• Figure 41. Medical Magnetic Sensors Market Value, $M, 2026-2036
• Figure 42. Continuous Glucose Monitoring Device Architecture with Magnetic Sensor
• Figure 43. Drug Delivery Pump with AMR Linear Position Sensor
• Figure 44. TMR Biosensor for Body Signal Detection: Operating Principle
• Figure 45. Market Share, Medical Magnetic Sensors, Top Players by Revenue, 2025
• Figure 46. Competitive Landscape Map: IDMs, Fabless Companies, and Foundries
• Figure 47. Strategic Positioning: Greater China Players vs. Established Incumbents
• Figure 48. Full Magnetic Sensor Supply Chain, Raw Materials to End Markets
• Figure 49. Wafer Foundry and xMR Thin-Film Deposition Landscape
• Figure 50. Business Model Comparison: IDM vs. Fabless vs. Fab-Lite for Magnetic Sensors
• Figure 51. Asia-Pacific Magnetic Sensors Market Value, $M, 2026-2036
• Figure 52. North America Magnetic Sensors Market Value, $M, 2026-2036
• Figure 53. Europe Magnetic Sensors Market Value, $M, 2026-2036
• Figure 54. Rest of World Magnetic Sensors Market Value, $M, 2026-2036
• Figure 55. Graphene vs. conventional Hall sensor performance comparison
• Figure 56. Current sensing technology comparison-accuracy vs. bandwidth vs. relative cost.
• Figure 57. Angular position accuracy vs. ambient temperature-Hall vs. AMR vs. TMR
• Figure 58. Quantum magnetic sensing technologies overview.
• Figure 59. Magnetic sensor technology roadmap 2026-2036
• Figure 60. Emerging Applications Landscape, Addressable Market Estimates 2036
• Figure 61. XR Headset and Wearable: TMR Sensor Array for Gesture Recognition
• Figure 62. Quantum Magnetic Sensing: NV-Diamond Technology and Emerging Landscape
• Figure 63. LEO Satellite Constellation Deployment and Magnetic Sensor Content per Satellite
• Figure 64. Biomagnetic Field Strength vs. Sensor Technology Capability (Field Spectrum Chart)
• Figure 65. Humanoid Robot Proprioception Architecture: Sensor Fusion Diagram
• Figure 66. CAGR by end-use segment, 2026-2036
• Figure 67. SBQuantum's magnetometer