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感測器

市場調查報告書

商品編碼

1683399

雷射感測器：市場佔有率分析、行業趨勢和統計、成長預測（2025-2030 年）

Laser Sensor - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)

出版日期: 2025年03月18日 | 出版商:

Mordor Intelligence | 英文 135 Pages | 商品交期: 2-3個工作天內

價格

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簡介目錄

預計預測期內雷射感測器市場複合年成長率為 9.61%。

主要亮點

雷射距離感測器專為非接觸式距離測量而設計。雷射測量儀測量範圍可達10米，雷射測距感測器測量範圍可達3000公尺。這些感測器通常用於機械製造和搬運設備中的定位和類型分類。
此外，2020 年 2 月，工業 4.0 振動感測器製造商和供應商 VocalZoom (VZ) 宣布推出用於 IIoT 的自主雷射感測器。它結合了非接觸式、高解析度振動感測器技術與內建資料處理和無線通訊。它能夠為 IIoT 環境快速、經濟高效地部署各種定位和監控應用程式。
此外，實現穩定、準確的測量對於確保可靠的產品價值和無錯誤生產至關重要。雷射感測器適用於反射表面、多種材料和顏色。這些感測器由一個粗糙的獨立外殼、一個線性成像器和一個精確雷射發射器組成。
根據艾默生預測，全球工廠自動化市場成長預計將從2019年的3%提升至2021年的3.5%，為市場需求提供強勁支撐。此外，預計在海運和近海工業中使用雷射感測器創新將成為未來的趨勢。 LADAR（雷射探測和測距）是一種主要基於雷射的導航輔助設備，它將遠距物體探測與高精度測量相結合，為用戶提供完整的 2D/3D/4D（3D 加時間）觀點，以實現最佳的航海意識。
此外，參與者正在創新新設備和技術進步以提供雷射感測器的整合，從而促進市場成長。例如，2020年4月，小米在印度推出了其新的智慧物聯網家電－米家掃拖P系列。小米吸塵器配備 12 種多方位感測器及獨特的雷射測距感測器 (LDS) 導航系統，能夠精準掃描複雜環境，並在清掃時避開障礙物。
起源於中國的新冠肺炎疫情正在擾亂全球科技產業，尤其是硬體、電子製造服務供應商和半導體公司，因為全球最大的高科技製造地的營運受到威脅。為了應對新冠肺炎疫情，研究人員正在開發雷射感測器，可以在感染後幾分鐘內透過唾液或鼻拭子檢測出早期疾病。據稱，該非侵入式光學生物感測器演示器可以在體內出現 COVID-19 時立即檢測出來。研究人員已經為其他應用建立了六個可運行的實驗演示器，並表示該技術仍需要進一步開發和測試，但可能會在 2020 年內投入使用。這將極大地促進該領域的市場成長。

雷射感測器市場趨勢

汽車產業可望大幅成長

汽車等終端用戶產業將從雷射利用的進步中受益匪淺，其中很大一部分是未來自動駕駛汽車的銷售。自動駕駛汽車使用其他感測器來觀察，尤其是雷達和攝影機，但雷射視覺很難匹敵。雷達雖然可靠，但它無法提供發現手臂和腿等物體所需的解析度。相機提供詳細的資訊，但您需要使用具有機器學習功能的軟體，將這些 2D 影像轉換為3D理解。另一方面，雷射雷達以精確測量的形式向電腦提供易於使用的資料。
2020 年 6 月，貿澤增強了其歐司朗光電半導體雷射雷達視覺 SPL S1L90A 和 SPL S4L90A 雷射。此高功率紅外線SMT 組件具有 905nm 雷射波長，適用於自動駕駛汽車和其他雷射雷達應用。此雷射的典型輸出功率為每通道 40A 120W，效率高達 33%。雷射的低熱阻使得熱量能夠快速從組件中消散，即使在高電流下工作時也是如此。
此外，覽沃科技目前正在將Livox Tele-15汽車雷射雷達以量產形式推向全球市場。 Livox Tele-15 專為先進的遠距偵測而設計，具有緊湊的外形，提供耐用、高度精密系統。現在，低反射率物體的探測範圍增加了60%，在反射率為10%時從200米增加到320米，在反射率為50%時可探測到500米處的物體。
除此之外，世界各國政府也正在鼓勵在全球部署ADAS功能，這將推動市場成長。例如，美國運輸部國家公路交通安全管理局（NHTSA）宣布了與高度自動化汽車（HAV）相關的聯邦自動化汽車政策，從配備ADAS（高級駕駛輔助系統）功能的汽車到自動駕駛汽車。
此外，2020 年 6 月，Infowork 宣布將開始與現代汽車公司合作開發用於自動駕駛汽車感測器的調變連續波 (FMCW) 技術。目前正在開發的 FMCW LiDAR 是一種使用雷射測量物體距離並使用精確的 3D 影像模擬周圍環境的感測器。

北美可望實現強勁成長

北美地區以在雷射感測器製造、設計和研究領域採用新技術而聞名。該地區的突出地位推動了電子設備和國防、消費性電子等終端用戶產業的出口需求成長，這些產業都是雷射感測器的重要消費者。
在軍事國防領域，美國研發出了一種紅外線雷射器，可以在200公尺以外辨識人體心臟的特徵。這款名為 Jetson 的雷射原型將用於測量遠距離心率引起的表面振動。在適當的條件下，該技術能夠識別 95% 的病例。
此外，應美國特種作戰部隊的要求，美國國防部利用這一原理開發了一种红外雷射器，可以從遠距離識別敵方戰鬥人員，主要透過讀取他們的心臟訊號。預計雷射可以穿透衣服，在 200 公尺的距離內達到大約 95% 的準確率。
此外，2019年10月，在美國協會年會期間，國防巨頭L3Harris Technologies宣布，該公司已訂單陸軍的訂單，要求為陸軍最新的無人機「Shadow」配備65套光電感測器套件。該無人機配置為安裝在戰術無人駕駛航空器系統影子無人機（RQ-7Bv2）上，合約涉及 65 個 WESCAM MX-10D 電光、紅外線和雷射指示器感測器套件。
此外，在家用電子電器領域，智慧型手機、平板電腦和人工智慧輔助電子設備正在經歷高速成長。預計這將影響該國雷射感測器市場的成長。根據美國消費科技協會（CTA）發布的《美國消費科技收入與預測研究》顯示，2018年智慧型手機創造的收益價值為791億美元，2019年為775億美元。

雷射感測器產業概況

雷射感測器市場競爭激烈，有多家供應商。市場似乎相當集中。一些非雷射器製造商正在進入市場，以利用機會和/或在自己的應用中使用感測器。此外，許多雷射製造商正在進行收購以擴大產品系列。最近的趨勢包括：-

2020 年 4 月 - SmartRay 推出了其均衡的 ECCO 感測器系列的另一位成員，以滿足家用電子電器製造領域的多樣化應用需求。 ECCO 95.020 利用 SmartRay 藍色雷射技術，即使在低視角應用中也能提供影像品質和可重複性，每秒可進行多達 2000 萬次 3D 掃描。
2019 年 11 月 - Micro-Epsilon 擴展了其 optoNCDT 1750 雷射三角測量感測器產品組合，推出了用於測量高速位移、距離和位置的新型藍色雷射版本。該感測器配備了新的高性能鏡頭、雷射控制和評估演算法，能夠對各種表面和材料進行精確測量。

其他福利：

Excel 格式的市場預測 (ME) 表
3 個月的分析師支持

市場概況
市場促進因素
- 工業 4.0 和智慧製造實務的採用日益廣泛
- 大規模應用的價格更低
市場限制
- 測量較小光束需要更高的功率和能量密度
價值鏈分析
產業吸引力-波特五力分析
- 新進入者的威脅
- 買家的議價能力
- 供應商的議價能力
- 替代品的威脅
- 競爭對手之間的競爭強度
COVID-19 對產業的影響

第5章市場區隔

按組件
- 硬體和軟體
- 服務
按最終用戶產業
- 電子製造業
- 航空工業
- 建造
- 汽車
- 其他最終用戶產業
按地區
- 北美洲
  - 美國
  - 加拿大
- 歐洲
  - 英國
  - 德國
  - 法國
  - 其他歐洲國家
- 亞太地區
  - 中國
  - 日本
  - 印度
  - 韓國
  - 其他亞太地區
- 世界其他地區

第6章競爭格局

公司簡介
- Keyence Corporation
- Micro-Epsilon Messtechnik GmbH & Co. KG
- IFM Electronic GmbH
- Baumer Electric AG
- SmartRay GmbH
- MTI Instruments Inc.
- Rockwell Automation Inc.
- Dimetix AG
- First Sensor AG

第7章投資分析

第8章市場機會與未來趨勢

簡介目錄

Product Code: 67393

The Laser Sensor Market is expected to register a CAGR of 9.61% during the forecast period.

Key Highlights

Laser distance sensors are designed for non-contact distance measurements: laser gauges for measuring ranges up to 10 meters, laser distance sensors for up to 3,000m. These sensors are generally utilized for positioning and type classification in machine building and handling equipment.
Moreover, in Feb 2020, VocalZoom (VZ), a manufacturer and provider of vibration sensors for industry 4.0, announced the launch of its autonomous laser sensors for the IIoT. It combines contactless, high-resolution vibration sensor technology with built-in data processing and wireless communications. It offers low-cost and fast deployment of a wide range of positioning and monitoring applications for IIoT environments.
Further, attaining stable and accurate measurements is essential to ensure reliable product values and error-free production. The laser sensor can be used on reflective surfaces, numerous materials, and colors. These sensors are incorporated with rough, independent housing, a linear imager, a pinpoint laser emitter.
According to Emerson, the projected growth of the global factory automation market is expected to increase from 3% in 2019 to 3.5% by 2021, which significantly holds the market demand. Further, the use of laser sensor technology innovation in the maritime and offshore industry is expected to be a future trend. Primarily a laser-based navigational aid, LADAR (Laser Detection and Ranging), combines long-distance object detection with high -accuracy measurement, giving users a full 2D/ 3D/4 D ( 3 D plus time) perspective for optimal maritime awareness.
Further, players are innovating new devices and technology innovation, providing the integration of laser sensors, which are attributing to market growth. For instance, in April 2020, Xiaomi unveiled the company's new smart Internet of Things (IoT) home appliance Mi Vacuum -Mop P series in India. The Mi Vacuum is incorporated into twelve different multi-directional sensors and a dedicated Laser Distance Sensor (LDS) navigation system such that it can be used to scan complex environments accurately and avoid obstacles during the cleaning process.
The COVID -19 outbreak in China is disrupting the global tech sector, especially hardware, electronic manufacturing services providers, and semiconductor companies, as operations in the world's largest tech manufacturing hub are threatened. Also, for the COVID -19 situation, researchers have been developing a laser sensor that can pick up diseases at the earliest point of infection from saliva or nasal swab in minutes. They say the non -invasive optical biosensor demonstrator will pick up COVID-19 in people as soon as it is present in the body. The researchers already created six working laboratory demonstrators for other applications and said that the technology still needs further development and testing but could be available within 2020. This significantly helps the market growth in this sector.

Laser Sensor Market Trends

Automotive is Expected to Witness Significant Growth

End-user industries such as automotive, are greatly benefiting from the advances in laser use, mostly with future sales of the autonomous vehicle. Autonomous cars use other sensors to see, notably radars and cameras, but laser vision is hard to match. Radars are reliable but do not offer the resolution needed to pick out things like arms and legs. Cameras deliver the detail but it requires adopting machine-learning-powered software such that it that can translate 2-D images into 3-D understanding. Lidar on the other hand offers hard, computer-friendly data in the form of exact measurements.
In June 2020, Mouser has enhanced the lidar vision SPL S 1 L90 A and SPL S 4 L90 A lasers from Osram Opto Semiconductors. The high -power, infrared SMT components feature a 905 nm laser wavelength suitable for use in autonomous vehicles and other LiDAR applications. The lasers provide a typical output of 120 W at 40 A per channel, at up to 33 % efficiency. The lasers feature low thermal resistance, enabling heat to dissipate quickly from components even when operating at high currents.
Further, currently, Livox Technology is bringing its Livox Tele -15 automotive lidar to the global market on a mass-producible scale. It is designed for advanced long-distance detection, where the Livox Tele -15 offers a durable, high precision system in a compact form. Now, objects with low reflectivity have an increased detection range of 60 % from 200 meters to 320 meters at 10 % reflectivity, and it will also detect objects at 500 m with 50 % reflectivity, previously requiring 80 % reflectivity at that distance.
Apart from this, governments across the globe are also encouraging the deployment of ADAS features worldwide, which will drive the growth of the market. For instance, the US Department of Transportation's National Highway Traffic Safety Administration (NHTSA) published the Federal Automated Vehicles Policy related to highly-automated vehicles (HAV), which range from vehicles with advanced driver-assistance systems features to autonomous vehicles.
Additionally, in June 2020, Infowork announced that it would start developing the Frequency Modulated Continuous Wave (FMCW) technology, a sensor for self -driving vehicles, in collaboration with Hyundai Motors. The FMCW LiDAR under development is a sensor that measures the distance of an object with a laser and models its surroundings with precise 3D images.

North America is Expected to Witness Significant Growth

The North American region is known to be the early adopters of new technology in manufacturing, design, and research in the laser sensor. The region's prominence drives the demand in exporting electronics equipment and growing end-user industries that are significant consumers of laser sensors such as defense, consumer electronics, etc.
In military and protection, the Pentagon developed an infrared laser that can identify a person's unique cardiac signature up to 200 meters away. The laser prototype which is known as Jetson is used in the measurement of surface vibrations caused by the heartbeat at a distance. Under suitable conditions, the technology can achieve an identification 95 percent of the time.
Moreover, the Department of Defense, at the request of United States special operations forces, used the principle, primarily to develop an infrared laser that can be used in the identification of enemy combatants from a significant distance by reading their cardiac signature. The laser is expected to penetrate clothing and achieve an identification roughly 95% of the time from up to 200 meters away.
Further, in Oct 2019, the during the association of the United States Army's annual meeting, the defense giant L3Harris Technologies announced that the company got an order from the Army for 65 electro-optical sensor suite units, to mount on the service's latest Shadow drones. The drones are configured to fit on the Tactical Unmanned Air Systems Shadow UAV (RQ-7Bv2), the contract is for 65 WESCAM MX-10D electro-optical, infrared and laser designator sensor suites.
Moreover, in the consumer electronic segment, smartphones, tablets, and AI-assisted electronics are experiencing high growth. This is expected to influence the growth of the laser sensor market in the country. According to the US Consumer Technology Sales and Forecast study, which was conducted by the Consumer Technology Association (CTA), the revenue generated by smartphones was valued at USD 79.1 billion and USD 77.5 billion in 2018 and 2019.

Laser Sensor Industry Overview

The Laser Sensor market is highly competitive owing to the presence of multiple vendors. The market appears to be moderately concentrated. Multiple non-laser companies are entering the market to leverage the opportunities its presents or use the sensors for their applications. Additionally, many laser manufacturers are making acquisitions to expand their product portfolio. Some of the recent developments in the industry are as follows: -

April 2020 - SmartRay launched one more product in its ECCO sensor family which is balanced for the diverse application requirements of consumer electronics manufacturing. Utilizing SmartRay's blue laser technology for image quality and repeatability, even for applications with low field-of-view, ECCO 95.020 offers 3D scanning of up to 20 million points per second.
November 2019 - Micro-Epsilon has extended its optoNCDT 1750 portfolio which comprises laser triangulation sensors with the introduction of a new Blue Laser version for measuring fast-displacement, distance, and position. The sensors have new high-performance lenses, laser control, and evaluation algorithms to facilitate precise measurements on different surfaces and materials.

Additional Benefits:

The market estimate (ME) sheet in Excel format
3 months of analyst support

1 INTRODUCTION

1.1 Study Assumption and Market Definition
1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET DYNAMICS

4.1 Market Overview
4.2 Market Drivers
- 4.2.1 Increasing Adoption of Industry 4.0 and Smart Manufacturing Practices
- 4.2.2 Reduction of Price Leading to Large Scale Application
4.3 Market Restraints
- 4.3.1 High Requirement of Power and Energy Density for Measuring Smaller Beams
4.4 Industry Value Chain Analysis
4.5 Industry Attractiveness - Porter's Five Force Analysis
- 4.5.1 Threat of New Entrants
- 4.5.2 Bargaining Power of Buyers
- 4.5.3 Bargaining Power of Suppliers
- 4.5.4 Threat of Substitute Products
- 4.5.5 Intensity of Competitive Rivalry
4.6 Impact of COVID-19 on the Industry

5 MARKET SEGMENTATION

5.1 Component
- 5.1.1 Hardware and Software
- 5.1.2 Services
5.2 End-user Industry
- 5.2.1 Electronics Manufacturing
- 5.2.2 Aviation
- 5.2.3 Construction
- 5.2.4 Automotive
- 5.2.5 Other End-user Industries
5.3 Geography
- 5.3.1 North America
  - 5.3.1.1 United States
  - 5.3.1.2 Canada
- 5.3.2 Europe
  - 5.3.2.1 United Kingdom
  - 5.3.2.2 Germany
  - 5.3.2.3 France
  - 5.3.2.4 Rest of Europe
- 5.3.3 Asia-Pacific
  - 5.3.3.1 China
  - 5.3.3.2 Japan
  - 5.3.3.3 India
  - 5.3.3.4 South Korea
  - 5.3.3.5 Rest of Asia-Pacific
- 5.3.4 Rest of the World

6 COMPETITIVE LANDSCAPE

6.1 Company Profiles
- 6.1.1 Keyence Corporation
- 6.1.2 Micro-Epsilon Messtechnik GmbH & Co. KG
- 6.1.3 IFM Electronic GmbH
- 6.1.4 Baumer Electric AG
- 6.1.5 SmartRay GmbH
- 6.1.6 MTI Instruments Inc.
- 6.1.7 Rockwell Automation Inc.
- 6.1.8 Dimetix AG
- 6.1.9 First Sensor AG