Product Code: ANV775
REPORT HIGHLIGHT
The global Silicon Phototransistor market was valued at USD XX billion in 2020, growing with 9.3% CAGR during the forecast period, 2021-2027.
A silicon phototransistor is an electronic switching and current amplification component that functions as a result of exposure to light. Reverse current proportional to the luminance flows when light falls on the junction. To detect light pulses and convert them into digital electric signals, silicon phototransistors are widely used. Rather than using electricity, these are powered by light. Silicon phototransistors are used in a variety of applications due to their advantages, such as low cost. All silicon photosensors (i.e. phototransistors) respond to visible and infrared rays across the entire visible spectrum. In fact, the basic radiation frequency response of all diodes, transistors, Darlington transistors, triacs, and other devices is the same. Silicon phototransistors are widely used to detect light in a variety of electronic devices, such as infrared receivers and smoke detectors.
Market Dynamics
Because phototransistors are used as position sensors, the global phototransistor industry has been driven by increasing sensor adoption. The global market for silicon phototransistors is being driven by the growing use of silicon phototransistors in the lighting industry, as these phototransistors are widely used in ambient light sensing and street light sensing. Phototransistors are slower than photodiodes, which is another major challenge for the global silicon phototransistors market. Photodiodes convert light into photocurrent much more quickly than phototransistors, limiting their use in high-speed applications. In automotive applications, such as hybrid and electric vehicles, silicon phototransistors are increasingly being used for system control.
Phototransistors have several advantages over their alternatives, such as avalanche photodiodes, such as lower noise levels. Silicon phototransistors, on the other hand, do not have a particularly good high-frequency response, which limits the market to some extent. In addition, the material used in a phototransistor can limit voltage-handling capability; for example, silicon cannot handle voltages greater than 1,000 volts, and phototransistor efficiency is reduced when an electromagnetic field interferes with the operational area. As a result, phototransistors have a low conversion efficiency.
Segmentation Analysis:
The global silicon phototransistors market can be divided into two types based on type: normal silicon phototransistor and Darlington silicon phototransistor.
Because they are simple, compact, and less expensive, Darlington silicon phototransistors are expected to see significant demand during the forecast period. Fluorescent bulbs, Incandescent bulbs, lasers, neon bulbs, sunlight, and flames are all light sources that they are sensitive to. The photodarlington is capable of much higher levels of gain and, as a result, sensitivity. While the photodarlington has some disadvantages, it is an excellent light sensor for some applications.
Competitive Landscape:
Engineers at the University of Wisconsin-Madison believe they have developed the world's fastest and most responsive flexible silicon phototransistor. The device, which has a high sensitivity and response time, could help products like digital cameras and smoke detectors, as well as surveillance systems and satellites, perform better. In 2018 The VOMA617A is the first Automotive Grade phototransistor optocoupler from Vishay Inter technology, Inc. in comparison to the DIP-4 package, the new device has a high current transfer ratio (CTR) and a low forward current of 5 mA in a small SOP-4 mini-flat package that saves 30% PCB space.
The VOMA617A is ideal for galvanic and noise isolation, signal transmission, battery management, and system control in hybrid and electric vehicles, as well as high-reliability industrial applications. CTR ranges from 50% to 600% on this device. A GaAlAs infrared emitting diode is optically coupled to a silicon phototransistor in the VOMA617A. The SOP-4 package has a 3750 V isolation voltage rating, as well as a 5 mm creepage and clearance distance.
Key features of the study:
- This proposed research study on Silicon Phototransistor market provides market size (US$ million), compound annual growth rate (CAGR %) and forecast estimation (2021-2027), considering 2020 as the base year
- The research report elucidates potential growth opportunities across different segments/countries and explains attractive investment proposition matrix for Silicon Phototransistor market
- The overall report identifies new investment opportunities, challenges faced by established players, and growth factors to sustain in the Silicon Phototransistor market
- Impact of COVID-19 on Silicon Phototransistor market size, forecast, CAGR, and market dynamics are discussed in detail under the research scope. Detailed insight on Silicon Phototransistor market post-COVID will also be covered.
- In order to give the users of this report a comprehensive view on the Silicon Phototransistor market, we have also included competitive landscape and key innovator analysis for the Silicon Phototransistor market.
- The study encompasses a growth prospect mapping analysis, wherein all the industry segments are benchmarked based on their market size, growth rate and attractiveness.
- The report offersdetailed company profiling featuring major market participantswhich will help users to understand their financial information and strategic initiatives of players operating in the Silicon Phototransistor market.
- In addition, the report also unveil the important acquisitions & mergers, collaborations & joint ventures, new launch, research & development, regional expansion of major participants involved in the market on global as well as regional level.
- The global Silicon Phototransistor market report primarily caters to various stakeholders in this industry including suppliers, investors, new entrants, distributors, and financial analysts
SCOPE OF THE REPORT
The scope of this report covers the market by its major segments, which include as follows:
GLOBAL SILICON PHOTOTRANSISTOR MARKET KEY PLAYERS
- Advance Reproductions Corporation
- Avago
- First Sensor AG
- GlobalFoundries
- Hamamatsu
- InPhi
- Jupiter Electronics L.L.C.
- Kyosemi Corporation
- Linearizer Technology, Inc.
- Lite-On Technology, Inc.
- MACOM Technology
- Mitsubishi Electronics America Inc.
- NeoPhotonics
- OSRAM
- Rockley Photonics
- ROHM Semiconductor
- Sensitron
- STMicroelectronics
- TT Electronics
GLOBALSILICON PHOTOTRANSISTOR MARKET, BY TYPE
- Normal Silicon Phototransistor
- Darlington Silicon Phototransistor
GLOBAL SILICON PHOTOTRANSISTOR MARKET, BY APPLICATION
- Automation
- Environmental Detection
- Security and Defense
- Automobile Industry
- Healthcare
- Other
GLOBAL SILICON PHOTOTRANSISTOR MARKET, BY REGION
- Europe
- Germany
- France
- Italy
- Spain
- United Kingdom
- Rest of Europe
- Asia Pacific
- India
- China
- South Korea
- Japan
- Singapore
- Rest of APAC
- Latin America
- Brazil
- Mexico
- Argentina
- Rest of LATAM
- The Middle East and Africa
- Saudi Arabia
- United Arab Emirates
- Rest of MEA
TABLE OF CONTENT
1. Silicon Phototransistor Meter Market Overview
2. Executive Summary
- 2.1. Market Snippet
- 2.1.1. Market Snippet by Type
- 2.1.2. Market Snippet by Application
- 2.1.3. Market Snippet by Region
- 2.2. Competitive Insights
3. Silicon Phototransistor Meter Key Market Trends
- 3.1. Market Drivers
- 3.1.1. Impact Analysis of Market Drivers
- 3.2. Market Restraints
- 3.2.1. Impact Analysis of Market Restraints
- 3.3. Market Opportunities
- 3.4. Market Future Trends
4. Silicon Phototransistor Meter Industry Study
- 4.1. Porter's Five Forces Analysis
- 4.2. Marketing Strategy Analysis
- 4.3. Growth Prospect Mapping
- 4.4. Regulatory Framework Analysis
5. Silicon Phototransistor Meter Market: COVID-19 Impact Analysis
- 5.1. Pre-COVID-19 Impact Analysis
- 5.2. Post-COVID-19 Impact Analysis
- 5.2.1. Top Performing Segments
- 5.2.2. Marginal Growth Segments
- 5.2.3. Top Looser Segments
- 5.2.4. Marginal Loss Segments
6. Silicon Phototransistor Meter Market Landscape
- 6.1. Market Share Analysis, 2019
- 6.2. Key Innovators Analysis
- 6.3. Breakdown Data, by Key Manufacturer
- 6.3.1. Established Players' Analysis
- 6.3.2. Emerging Players' Analysis
7. Silicon Phototransistor Meter Market - By Type
- 7.1. Overview
- 7.1.1. Segment Share Analysis, By Type, 2020 & 2027 (%)
- 7.2. Normal Silicon Phototransistor
- 7.3. Darlington Silicon Phototransistor
8. Silicon Phototransistor Meter Market - By Application
- 8.1. Overview
- 8.1.1. Segment Share Analysis, By Application, 2020 & 2027 (%)
- 8.2. Automation
- 8.3. Environmental Detection
- 8.4. Security and Defense
- 8.5. Automobile Industry
- 8.6. Healthcare
- 8.7. Others
9. Silicon Phototransistor Meter Market- By Geography
- 9.1. Introduction
- 9.1.1. Segment Share Analysis, By Geography, 2020 & 2027 (%)
- 9.2. North America
- 9.2.1. Overview
- 9.2.2. Key Manufacturers in North America
- 9.2.3. North America Market Size and Forecast, By Country, 2016 - 2027 (US$ Million)
- 9.2.4. North America Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.2.5. North America Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.2.6. U.S.
- 9.2.6.1. Overview
- 9.2.6.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.2.6.3. U.S. Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.2.6.4. U.S. Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.2.7. Canada
- 9.2.7.1. Overview
- 9.2.7.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 1.1.1.1. Canada Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 1.1.1.2. Canada Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.3. Europe
- 9.3.1. Overview
- 9.3.2. Key Manufacturers in Europe
- 9.3.3. Europe Market Size and Forecast, By Country, 2016 - 2027 (US$ Million)
- 9.3.4. Europe Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.3.5. Europe Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.3.6. Germany
- 9.3.6.1. Overview
- 9.3.6.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.3.6.3. Germany Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.3.6.4. Germany Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.3.7. Italy
- 9.3.7.1. Overview
- 9.3.7.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.3.7.3. Italy Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.3.7.4. Italy Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.3.8. United Kingdom
- 9.3.8.1. Overview
- 9.3.8.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.3.8.3. United Kingdom Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.3.8.4. United Kingdom Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.3.9. France
- 9.3.9.1. Overview
- 9.3.9.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.3.9.3. France Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.3.9.4. France Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.3.10. Rest of Europe
- 9.3.10.1. Overview
- 9.3.10.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.3.10.3. Rest of the Europe Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.3.10.4. Rest of the Europe Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.4. Asia Pacific (APAC)
- 9.4.1. Overview
- 9.4.2. Key Manufacturers in Asia Pacific
- 9.4.3. Asia Pacific Market Size and Forecast, By Country, 2016 - 2027 (US$ Million)
- 9.4.4. Asia Pacific Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.4.5. Asia Pacific Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.4.6. India
- 9.4.6.1. Overview
- 9.4.6.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.4.6.3. India Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.4.6.4. India Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.4.7. China
- 9.4.7.1. Overview
- 9.4.7.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.4.7.3. China Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.4.7.4. China Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.4.8. Japan
- 9.4.8.1. Overview
- 9.4.8.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.4.8.3. Japan Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.4.8.4. Japan Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.4.9. South Korea
- 9.4.9.1. Overview
- 9.4.9.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.4.9.3. South Korea Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.4.9.4. South Korea Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.4.10. Rest of APAC
- 9.4.10.1. Overview
- 9.4.10.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.4.10.3. Rest of APAC Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.4.10.4. Rest of APAC Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.5. Latin America
- 9.5.1. Overview
- 9.5.2. Key Manufacturers in Latin America
- 9.5.3. Latin America Market Size and Forecast, By Country, 2016 - 2027 (US$ Million)
- 9.5.4. Latin America Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.5.5. Latin America Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.5.6. Brazil
- 9.5.6.1. Overview
- 9.5.6.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.5.6.3. Brazil Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.5.6.4. Brazil Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.5.7. Mexico
- 9.5.7.1. Overview
- 9.5.7.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.5.7.3. Mexico Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.5.7.4. Mexico Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.5.8. Argentina
- 9.5.8.1. Overview
- 9.5.8.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.5.8.3. Argentina Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.5.8.4. Argentina Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.5.9. Rest of LATAM
- 9.5.9.1. Overview
- 9.5.9.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.5.9.3. Rest of LATAM Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.5.9.4. Rest of LATAM Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.6. Middle East and Africa
- 9.6.1. Overview
- 9.6.2. Key Manufacturers in Middle East and Africa
- 9.6.3. Middle East and Africa Market Size and Forecast, By Country, 2016 - 2027 (US$ Million)
- 9.6.4. Middle East and Africa Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.6.5. Middle East and Africa Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.6.6. Saudi Arabia
- 9.6.6.1. Overview
- 9.6.6.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.6.6.3. Saudi Arabia Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.6.6.4. Saudi Arabia Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
- 9.6.7. United Arab Emirates
- 9.6.7.1. Overview
- 9.6.7.2. Market Analysis, Forecast, and Y-O-Y Growth Rate, 2016 - 2027, (US$ Million)
- 9.6.7.3. United Arab Emirates Market Size and Forecast, By Type, 2016 - 2027 (US$ Million)
- 9.6.7.4. United Arab Emirates Market Size and Forecast, By Application, 2016 - 2027 (US$ Million)
10. Key Vendor Analysis
- 10.1. Competitive Dashboard
- 10.2. Company Profiles
- 10.2.1. Advance Reproductions Corporation
- 10.2.2. Avago
- 10.2.3. First Sensor AG
- 10.2.4. GlobalFoundries
- 10.2.5. Hamamatsu
- 10.2.6. InPhi
- 10.2.7. Jupiter Electronics L.L.C.
- 10.2.8. Kyosemi Corporation
- 10.2.9. Linearizer Technology, Inc.
- 10.2.10. Lite-On Technology, Inc.
- 10.2.11. MACOM Technology
- 10.2.12. Mitsubishi Electronics America Inc.
- 10.2.13. NeoPhotonics
- 10.2.14. OSRAM
- 10.2.15. Rockley Photonics
- 10.2.16. ROHM Semiconductor
- 10.2.17. Sensitron
- 10.2.18. STMicroelectronics
- 10.2.19. TT Electronics
11. 360 Degree AnalystView
12. Appendix
- 12.1. Research Methodology
- 12.2. References
- 12.3. Abbreviations
- 12.4. Disclaimer
- 12.5. Contact Us