CMOS圖像傳感器的技術進步

近年來，有機 CMOS 圖像傳感器正在推動 CMOS 圖像傳感器市場的增長。有機傳感器利用具有高光電轉換特性的有機光電轉換層，通過增加像素數量，它們優於傳統圖像傳感器並產生高分辨率圖像。

本報告考察了全球 CMOS 圖像傳感器市場，並提供了市場概況、戰略要務、增長機會等。

內容

戰略要務

• 為什麼成長越來越難？戰略要務：增長壓力因素
• 戰略要務
• 三大戰略要務對 CMOS 圖像傳感器行業的影響
• 增長機會加速增長管道引擎

增長機會分析

• 分析範圍
• 細分
• 增長驅動力
• 抑制增長的因素

技術前景 - 現有和新興機會

專利和資金趨勢

• 分析知識產權和優先研發領域
• 汽車和消費電子行業的重大融資機會
• 通過政府舉措通過大量資金填補行業空白

值得關注的公司

• 用於構建下一代 3D 視覺系統的飛行時間 CMOS 圖像傳感器
• 適用於生命科學和檢測應用的 UV-CMOS 圖像傳感器
• VCSEL 驅動的 SWIR CMOS 相機傳感器
• 用於深度成像的非堆疊式 CMOS 圖像傳感器
• 用於數字健康的基於 CMOS 的 SWIR 傳感模塊

增長機會

• 增長機會 1：用於智能手機和數碼相機行業的堆疊式 CMOS 圖像傳感器
• 增長機會 2：用於下一代基於 3D 的單光子雪崩二極管 (SPAD) 的背照式 CMOS 圖像傳感器
• 增長機會 3：用於物聯網安全產品和解決方案的有機 CMOS 圖像傳感器

附錄

下一步

In-pixel Hybrid Stack and Organic CMOS Image Sensors are Driving CMOS Image Sensor Market Growth.

The effectiveness of an imaging system is heavily dependent on imaging electronics. Such a system comprises various parts, including a camera, software, a capturing board, and serial connections for data transmission and reception operations. As a result, comprehension of the concept of a camera sensor is crucial as it forms an important part of an imaging system or camera. Nevertheless, 2 cameras with the same sensor can operate and behave differently due to the interconnection of circuitry in the design.

An incoming light intensity-dependent current component is generated by a reverse-biased photodiode. These photo detectors can be arranged in 2D arrays to create a CMOS image sensor. A CMOS image sensor's pixels can have various degrees of complexity. The ability to integrate CMOS image sensors with other analog and digital circuitry necessary for an imaging system is its main benefit.

In recent times, organic CMOS image sensors have been driving CMOS image sensor market growth. Organic sensors utilize an organic photoelectric transformation layer with a high photoelectric conversion property that delivers better performance than traditional image sensors by increasing the number of pixels and producing high-resolution images.

Although the use of CMOS image sensors in the smartphone market is increasing rapidly, other sectors, including automotive, healthcare, industrial, and security and surveillance, are also seeing rising demand for these sensors. Moreover, demand in the machine vision market has expanded due to the automation of factories.

Key Questions this Research Service Answers:

• What is the significance of the CMOS image sensor and its various types?

• Which recent developments are driving the opportunities in the market?

• What factors are influencing technology development and adoption?

• Who are the key innovators driving technology advancements?

• What are the key growth opportunities in the market?

Table of Contents

Strategic Imperatives

• Why Is It Increasingly Difficult to Grow?The Strategic Imperative 8™: Factors Creating Pressure on Growth
• The Strategic Imperative 8™
• The Impact of the Top 3 Strategic Imperatives on the CMOS Image Sensor Industry
• Growth Opportunities Fuel the Growth Pipeline Engine™
• Research Methodology
• Summary of Key Findings
• Summary of Key Findings (continued)

Growth Opportunity Analysis

• Scope of Analysis
• Segmentation
• Growth Drivers
• Growth Restraints

Technology Landscape-Existing and Emerging Opportunities

• Technology Significance and Types
• Scientific CMOS Image Sensors are Emerging as Next-generation CMOS Image Sensors
• Key Techniques of 3D Imaging
• 3D Imaging System Working Principle and Benchmarking
• Automotive and Consumer Electronics are High-impact Sectors
• New Product Developments in ADAS Applications
• Preference for Security and Surveillance Applications
• Global Technology Impact Landscape
• CMOS Image Sensor Technology Roadmap

Patent and Funding Trends

• IP Analysis and R&D Focus Areas
• Significant Funding Opportunities in the Automotive and Consumer Electronics Sectors
• Bridging the Industry Gap through Massive Funding through Government Initiatives

Companies to Action

• Time-of-Flight CMOS Image Sensor to Build Next-generation 3D Vision Systems
• UV-CMOS Image Sensor for Life Science and Inspection Applications
• VCSEL-powered SWIR CMOS Camera Sensors
• Non-stacked CMOS Image Sensors for Depth Imaging
• CMOS-based SWIR Sensing Module for Digital Health Applications

Growth Opportunity Universe

• Growth Opportunity 1: Stacked CMOS Image Sensors for the Smartphone and Digital Camera Industries
• Growth Opportunity 1: Stacked CMOS Image Sensors for the Smartphone and Digital Camera Industries (continued)
• Growth Opportunity 2: Back-illuminated CMOS Image Sensors for Next-generation 3D-based Single-photon Avalanche Diodes (SPADs)
• Growth Opportunity 2: Back-illuminated CMOS Image Sensors for Next-generation 3D-based Single-photon Avalanche Diodes (SPADs) (continued)
• Growth Opportunity 3: Organic CMOS Image Sensors for Secure Products and Solutions for IoT Applications
• Growth Opportunity 3: Organic CMOS Image Sensors for Secure Products and Solutions for IoT Applications (continued)

Appendix

• Technology Readiness Levels (TRL): Explanation

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