感測器市場、技術和公司（2024-2044）：輸入、模式、應用、專利、製造商、研究、路線圖和預測

Zhar Research 執行長 Peter Harrop 博士表示： "無論您是製造商、整合商還是用戶，成長的機會都比您想像的要大。（略）我們預測20年內整個感測器硬體市場將接近2,500億美元，但在此期間，我們預期某些領域將會發生越來越多的變化，有些領域成長非常迅速，有些領域則在下降。例如，用於傳統車輛、傳統發電和燃料供應鏈的感測器預計在未來 20 年將大幅下降。"

本報告全面調查了全球感測器市場，提供了市場定義和概述、市場影響因素分析、感測器類型、操作模式、行業和應用等各個類別的最新技術趨勢、行業領導者和成功案例。分析、市場成長預測、主要公司分析比較等。

目錄

第一章執行摘要/概述/感測器公司排名/路線圖/預測

第 2 章 簡介

第 3 章影響感測器設計、定價和採用的關鍵因素

• 定義/輸入/結構/輸出
• 智慧感測器的結構和用途
• 重要感測器參數
• 為什麼光學感測將在 2024 年至 2044 年成為主流
• 370 萬次專利檢索中的感測器趨勢
• 冰山一角，更遠的前景
• 能量收集的規模挑戰與重要性
• 多感測器趨勢：智慧型手機、醫療預測分析的 12 個範例
• 仿生學：皮膚感應器、自癒感器、感應器融合
• 能量收集作為車載電源的重要性和感測器的形式
• 感測器主機系統市場萎縮與車輛簡化

第 4 章參數分析（31 個類別）：技術、製造商、成功、展望、專利領導者與趨勢、研究管道、Patsnap 預測

• 概述
• 聲學（聲音）感應器
• 酒精感測器
• 傳感器
• 傳感器
• 傳感器
• 血糖傳感器
• 血氧傳感器
• CGM連續血糖監測感測器
• 化學傳感器
• 顏色感測器
• 傳感器
• 傳感器
• 傳感器
• 傳感器
• 濕度傳感器
• 傳感器
• 傳感器
• 水平傳感器
• 光傳感器
• 傳感器
• 傳感器
• 傳感器
• 運動傳感器
• 位置感測器
• 壓力和應變感測器
• 超聲波接近傳感器
• 傳感器
• 傳感器
• 觸摸傳感器
• 振動傳感器
• 傳感器

第五章營運模式分析（31類）：技術、製造商、成功、前景、專利領導者與趨勢、研究管道、Patsnap預測分析

• 概述
• 加速度計和加速度計
• 氣壓感知器
• 生物傳感器
• 相機感光元件
• 電容式感測器
• CMOS 和 MOS 感測器
• 電化學傳感器
• 電動感測器
• 電光感測器
• 傳感器
• 光纖和太赫茲波導感測器
• 陀螺儀感應器
• 霍爾效應感測器
• 傳感器
• 紅外線感測器
• 次聲感應器
• 光達感測器
• 傳感器
• MEMS感測器
• 光學感測器（包括生物識別光電儲存電晶體）
• 光電感測器
• 光子感測器
• 太陽能感測器
• 壓電感測器
• 壓阻感測器
• 壓電感測器
• 量子感測器
• 雷達傳感器
• 熱敏電阻感測器
• 傳感器
• 傳感器
• 超聲波傳感器

第6章按應用/業務部門分析（20個類別）：技術/製造商/成功/前景/專利領導者和趨勢/研究管道/Patsnap預測分析

• 概述
• 汽車（包括引擎和牽引電機感知器）
  • 傳感器
  • 傳感器
  • 牽引馬達感測器
• 環境、採礦、病原體、氣體感測器
  • 環境
  • 傳感器
  • 礦業
  • 氣體傳感器
• 工業（包括物聯網感測器）
  • 工業傳感器
  • 物聯網感測器
  • 傳感器
• 醫療、健身和健康感測器
  • 醫療感測器
  • 心率傳感器
  • 傳感器
  • 醫療保健感測器
  • 健身感應器
  • 運動感應器
• 通訊和個人電子產品
  • 傳感器
  • 智慧型手機感應器
  • 智慧手錶感應器
• 可穿戴傳感器

第 7 章 16 強感測器公司：簡介、專利活動、SWOT 分析

• 概述
• Apple：策略、專利趨勢、預測、SWOT
• Canon：策略、專利趨勢、預測、SWOT
• Denso：策略、專利趨勢、預測、SWOT
• F. Hoffmann La Roche：策略、專利趨勢、預測、SWOT
• Medtronic：策略、專利趨勢、預測、SWOT
• Mitsubishi：策略、專利趨勢、預測、SWOT
• Panasonic：策略、專利趨勢、預測、SWOT
• Qualcomm：策略、專利趨勢、預測、SWOT
• Robert Bosch：策略、專利趨勢、預測、SWOT
• Samsung：策略、專利趨勢、預測、SWOT
• Sensata Technologies：策略、專利趨勢、預測、SWOT
• Sony：策略、專利趨勢、預測、SWOT
• TE Connectivity：策略、專利趨勢、預測、SWOT
• Teledyne Technologies：策略、專利趨勢、預測、SWOT
• Toshiba：策略、專利趨勢、預測、SWOT
• Toyota：策略、專利趨勢、預測、SWOT

第八章 130家感測器企業比較：國家、能力、Zhar Research策略評分

Report Features:

• 8 chapters
• 17 SWOT appraisals
• 20 analyses by business
• 31 analyses by parameter
• 36 analyses by operation mode
• 48 forecast lines 2024-2044
• 97 PatSnap ® engine analyses
• 3.7 million patents searched for trends
• 200+ companies mentioned, most compared
• 417 pages

New Sensor Report Reflects New Realities

It is uniquely affordable, comprehensive and up-to-date. The new, 417-page Zhar Research report, "Sensor markets, technologies, leaders 2024-2044: by inputs, modes, applications, patents, manufacturers, research, roadmaps, forecasts" is now available. Its focus is commercial opportunities and potential partners, acquisitions and competitors. It even identifies several, totally new, large sensor markets ahead.

See the big picture - miss nothing

Dr. Peter Harrop, CEO of Zhar Research says, "Your opportunities are probably broader than you realise, whether your interest is as a manufacturer, integrator or user. We therefore recommend that you look at this full coverage before dipping into the many excellent reports on specifics. We see the total sensor hardware market approaching $250 billion in twenty years but within that there is an increasingly rapid change with some sectors declining and some growing very rapidly, supported by the many remarkable research advances in 2023. For example, sensors for conventional vehicles, conventional electricity production and fuel supply chains will mostly decline over twenty years."

He adds, "The flood of patenting of LIDAR sensors was misleading because the biggest envisaged application in driverless cars is now doubtful as we warned years ago. Tesla is pulling ahead without it and, in 2023, Bosch exited LIDAR despite being a leading patentor at the time. In contrast, the advent of drone warfare, over 500 million diabetics, 6G Communications, cooling reinvented and massive, long duration grid storage are just some of the huge sensor growth opportunities that we analyse, many completely new. They kick in at various times over the coming twenty years. Looking at it another way, optical sensing, notably at infrared and visible wavelengths has a fabulous future across most applicational sectors for reasons we detail. They include the new THz far-infrared electronics, unmanned mining, factories and vehicles and much more."

Leading sensor companies beyond catalog sellers

Catalog sensor suppliers are the tip of the iceberg because most of the investment, patenting and value sale of sensors is by giant companies selling custom sensors both to others and to themselves. On multiple strategy and achievement criteria, the report identifies and examines the 2024-2044 sensor leader, 11 in the second division and 15 in the third division estimating their sensor sales. This is backed by detail and a strategy score for 130 companies for you to consider as acquisitions, partners or suppliers. Indeed, over 200 sensor manufacturers are mentioned throughout the report. A profusion of new infograms, comparison tables, graphs and images make the report both original and readable.

Chapter 1: Executive summary and conclusions is 45 pages sufficient in themselves. After purpose, scope and methodology you see 19 primary conclusions, based on the latest situation through 2023. There follows sensor basics, trend to multiple sensors with 12 examples for smartphones, a number set to double but already including medical predictive analysis. Learn the industry structure, with a new infogram. Sensor market drivers by sector 2024-2044 are presented, with why light sensing dominates and a new SWOT appraisal of the leader's sensor prospects 2024-2044. Market forecasts in are shown in 48 lines with tables, graphs and including valuation of important new markets for sensors that are emerging in these years. Then comes a detailed new 2024-2044 sensor roadmap.

Chapter 2 Introduction uses eight pages to explain basic sensor design, inputs, categories, pricing issues, and the megatrends now driving sensor adoption. See why more sensors per device will often be more important to you than any increase in device sales.

Chapter 3 concerns primary factors now influencing sensor design, pricing and adoption. Its 40 pages closely examine definitions, inputs, anatomy, outputs, biomimetic and smart sensing, important sensor parameters, which sensing input will dominate 2024-2044. Also see the latest sensor trend from a new search of 3.7 million patents, the 12 most-patented sensors in common parlance and the top patentors in each case. In this chapter you also learn the size challenge with many examples and how multiple sensors, increasingly in one device, serve predictive analysis and sensor fusion. See 14 smartphone sensor families and why the number per phone will double. Understand skin sensors and self-healing sensors. Realise the importance of energy harvesting as on-board power and in reverse as forms of self-powered sensor input with great detail. Electrification is covered in the dramatically simpler electricity production and vehicle design that will collapse demand for many sensors.

Chapters 4 through 6 interprets, by parameter, the latest technologies, manufacturers, successes, prospects, patenting leaders and trends plus the research pipeline with best further reading including much from 2023. There are many new illustrations and informed comments throughout.

Chapter 4 covers latest analysis by parameter measured in 31 categories over 86 information-packed pages with illustrated examples, implications of research papers, patenting, patentors, products on sale, market drivers. Which have collapsing metrics, which are bursting on the scene and why? It is all here in data-based analysis.

Chapter 5 is a new analysis by mode of operation in 36 categories over 87 pages. That includes the new THz waveguide, infrasound, optical memtransistor, piezotronic, quantum and triboelectric sensors and other innovations that can boost your business.

Chapter 6 has analysis by application and business sector in 20 categories and 42 pages. That includes newly important sectors such as sensors for 6G telecommunications, electric vehicle traction motors and Internet of Things nodes each with their sensor patent trends, including forecasts of patenting to 2024, analysis and business appraisal. Other aspects are examination of common-parlance terms medical, healthcare, heart, exercise and fitness sensors each revealed by listing leading patentors, future prospects and research.

Chapter 7 presents in detail what Zhar Research finds to be the top 16 sensor companies with their 17 SWOT analyses, financials, profiles, sensor patent emphasis maps etc.

Finally, Chapter 8. Is called "130 sensor companies compared by country, capability, Zhar Research strategy score". In 29 pages, it includes all the leaders identified earlier by both grouped multiple criteria, simply by patenting rate and it adds a deliberately varied mix of very small to very large other players to give a good understanding of the overall sensor business which runs to around 1000 companies. This chapter is structured as a two-page overview mentioning several other companies then a long table of the 130 chosen sensor companies with columns for company name, country, sensors examples with background and Zhar Research strategy score out of ten based on the scope of sensors made and used plus financial, market and technical positioning in the light of which markets we see growing and which collapsing 2024-2044.

With clarity the emphasis, Zhar Research report , "Sensor markets, technologies, leaders 2024-2044: by inputs, modes, applications, patents, manufacturers, research, roadmaps, forecasts" has a Glossary but also terms explained through the text. There are a large number of latest research papers recommended throughout for those wishing to dig deeper on specifics.

Table of Contents

1. Executive summary and conclusions, sensor company league table, roadmaps and forecasts 2023-2043

• 1.1. Purpose of this report
• 1.2. Scope of this report
• 1.3. Why precision is impossible
• 1.4. Methodology of this analysis
• 1.5. 19 primary conclusions
• 1.6. Sensor basics: biomimetics, inputs, outputs, smart sensors
• 1.7. Trend to multiple sensors: 12 examples for smartphones, medical predictive analysis
• 1.8. Look beyond the tip of the iceberg: catalog sensor vendors are only the tip
• 1.9. Sensor business infogram
• 1.10 Sensor market drivers by sector 2024-2044
• 1.11. Light sensing dominates
• 1.12. Establishing the leading sensor companies for 2024-2044 with leader SWOT
• 1.13. Market forecasts in 48 lines
  • 1.13.1. Methodology and reality checks
  • 1.13.2. Market growth rate
  • 1.13.3. Sensor location hardware market $ billion 2024
  • 1.13.4. Sensors global value market for seven application sectors $ billion 2023-2044: table
  • 1.13.5. Sensors global value market for seven application sectors $ billion 2023-2044: line graphs with market drivers explained
  • 1.13.6. Sensors global value market for seven application sectors $ billion 2023-2044: area graph
  • 1.13.7. Global total sensor hardware market $ billion 2024 with linear average
  • 1.13.8. Sensor value market % by 6 input media 2024, 2034, 2044: table with sub-categories and reasons
  • 1.13.9. Sensor value market % by six input media 2024-2044: graphs
  • 1.13.10. Smartphones and their sensor market units, unit price, value market $ billion 2023-2044
  • 1.13.11. Rapidly emerging sensor market: Active cooling market forecasts in eight categories $ billion 2023-2043
  • 1.13.12. New sensor market: Long Duration Energy Storage LDES market by 11 primary technology applications and new market needs 2023-2043
  • 1.13.13. New sensor market: Terahertz electronics 2028-2044
• 1.14. Sensor roadmap 2024-2044

2. Introduction

• 2.1. Definition and design
• 2.2. Categories
• 2.3. Primary parameters measured each become multi-faced
• 2.4. Megatrends driving sensor adoption
• 2.5. Sensor usefulness
• 2.6. Demand trends

3. Primary factors influencing sensor design, pricing and adoption

• 3.1. Definitions, inputs, anatomy, outputs
• 3.2. Smart sensor anatomy and purpose
• 3.3. Important sensor parameters
• 3.4. Why light sensing will dominate 2024-2044
• 3.5. Sensor trend from search of 3.7 million patents
• 3.6. Look beyond the tip of the iceberg: catalog sensor vendors are only the tip
• 3.7. The size challenge and significance of energy harvesting
• 3.8. Trend to multiple sensors: 12 examples for smartphones, medical predictive analysis
• 3.9. Biomimetics: skin sensors, self-healing sensors and sensor fusion
  • 3.9.1. Skin sensors and self-healing
  • 3.9.2. Sensor fusion
  • 3.9.3. Printed sensors
• 3.10. Importance of energy harvesting as on-board power and in reverse as forms of sensor
  • 3.10.1. Overview
  • 3.10.2. Mechanical (electrodynamic and acoustic) harvesting including acoustic in detail
  • 3.10.3. Sources of electromagnetic sensing targets and sensor power options 2023-2043
  • 3.10.4. Patenting self-powered sensors using energy harvesting modes or separate harvester modules
  • 3.10.5. Importance of flexible laminar energy harvesting and sensing 2023-2043
• 3.11. Shrinking the market for sensors-host system and vehicle simplification

4. Analysis by parameter measured in 31 categories: technologies, manufacturers, successes, prospects, patenting leaders and trends, research pipeline including 2024 Patsnap engine forecasts

• 4.1. Overview
• 4.2. Acoustic (sound) sensors
• 4.3. Alcohol sensors
• 4.4. Altitude sensors
• 4.5. Angle-of-attack sensors
• 4.6. Attitude sensors
• 4.7. Blood glucose sensors
• 4.8. Blood oxygen sensors
• 4.9. CGM continuous glucose monitoring sensors
• 4.10. Chemical sensors
• 4.11. Colour sensors
• 4.12. Distance sensors
• 4.13. Flow sensors
• 4.14. Force sensors
• 4.15. Fuel injection sensors
• 4.16. Humidity sensors
• 4.17. Incontinence sensors
• 4.18. Image sensors
• 4.19. Level sensors
• 4.20. Light sensors
• 4.21. Measurement sensors
• 4.22. Metal sensors
• 4.23. Moisture sensors
• 4.24. Motion sensors
• 4.25. Position sensors
• 4.26. Pressure and strain sensors
• 4.27. Proximity sensors
• 4.28. Temperature sensors
• 4.29. Tilt sensors
• 4.30. Touch sensors
• 4.31. Vibration sensors
• 4.32. Weight sensors

5. Analysis by mode of operation in 36 categories: technologies, manufacturers, successes, prospects, patenting leaders and trends, research pipeline including 2024 Patsnap engine forecasts

• 5.1. Overview
• 5.2. Acceleration sensors and accelerometers
• 5.3. Barometric sensors
• 5.4. Biosensors
• 5.5. Camera sensors
• 5.6. Capacitive sensors
• 5.7. CMOS and MOS sensors
• 5.8. Electrochemical sensors
• 5.9. Electrodynamic sensors
• 5.10. Electro-optic sensors
• 5.11. Electrostatic sensors
• 5.12. Fiber optic and THz waveguide sensors
• 5.13. Gyroscope sensors
• 5.14. Hall effect sensors
• 5.15. Inducive sensors
• 5.16. Infrared sensors
• 5.17. Infrasound sensors
• 5.18. LIDAR sensors
• 5.19. Magnetometer sensors
• 5.20. MEMS sensors
• 5.21. Optical sensors including biometric optoelectronic memtransistors
• 5.22. Photoelectric sensors
• 5.23. Photonic sensors
• 5.24. Photovoltaic sensors
• 5.25. Piezoelectric sensors
• 5.26. Piezoresistive sensors
• 5.27. Piezotronic sensors
• 5.28. Quantum sensors
• 5.29. RADAR sensors
• 5.30. Thermistor sensor
• 5.31. Thermoelectric sensors
• 5.32. Triboelectric sensors
• 5.33. Ultrasound sensors

6. Analysis application and business sector in 20 categories: technologies, manufacturers, successes, prospects, patenting leaders and trends, research pipeline including 2024 Patsnap engine forecasts

• 6.1. Overview
• 6.2. Automotive including engine and traction motor sensors
  • 6.2.1. Automotive sensors
  • 6.2.2. Engine sensors
  • 6.2.3. Traction motor sensors
• 6.3. Environmental, mining, pathogen and gas sensors
  • 6.3.1. Environmental
  • 6.3.2. Pathogen sensors
  • 6.3.3. Mining
  • 6.3.4. Gas sensors
• 6.4. Industrial including IoT sensors
  • 6.4.1. Industrial sensors
  • 6.4.2. IoT sensors
  • 6.4.3. Logistics sensors
• 6.5. Medical, fitness, wellness sensors
  • 6.5.1. Medical sensors
  • 6.5.2. Heart sensors
  • 6.5.3. Nerve sensors
  • 6.5.4. Healthcare sensors
  • 6.5.5. Fitness sensors
  • 6.5.6. Exercise sensors
• 6.6. Telecommunications and personal electronics
  • 6.6.1. 6G Communications sensors
  • 6.6.2. Smartphone sensors
  • 6.6.3. Smartwatch sensors
• 6.7. Wearable sensors

7. Top 16 sensor companies for 2024-2044 based on metrics with profiles, patent activity, SWOT analysis

• 7.1. Overview
• 7.2. Apple strategy, patent trends, forecasts, sensor SWOT
• 7.3. Canon strategy, patent trends, forecasts sensor SWOT
• 7.4. Denso strategy, patent trends, forecasts sensor SWOT
• 7.5. F. Hoffmann La Roche strategy, patent trends, forecasts sensor SWOT
• 7.6. Medtronic strategy, patent trends, forecasts sensor SWOT
• 7.7. Mitsubishi strategy, patent trends, forecasts sensor SWOT
• 7.8. Panasonic strategy, patent trends, forecasts sensor SWOT
• 7.9. Qualcomm strategy, patent trends, forecasts sensor SWOT
• 7.10. Robert Bosch strategy, patent trends, forecasts sensor SWOT
• 7.11. Samsung strategy, patent trends, forecasts sensor SWOT
• 7.12. Sensata Technologies strategy, patent trends, forecasts sensor SWOT
• 7.13. Sony strategy, patent trends, forecasts sensor SWOT
• 7.14. TE Connectivity strategy, patent trends, forecasts sensor SWOT
• 7.15. Teledyne Technologies strategy, patent trends, forecasts sensor SWOT
• 7.16. Toshiba strategy, patent trends, forecasts sensor SWOT
• 7.17. Toyota strategy, patent trends, forecasts sensor SWOT

8. 130 sensor companies compared by country, capability, Zhar Research strategy score

• 8.1. Overview
• 8.2. 130 company table comparison by company, examples, background and Zhar Research strategy score