#Fiber Optic Pressure Sensors Market Status
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E-Textile Market Latest Industry Trend, Challenges, Strategy 2021 to 2030
There have not been many commercial successes with e-textiles up to this point. This is attributed to the healthcare industry's unwillingness to invest in academic or research endeavors in favor of a wait-and-see attitude. Some manufacturers have substituted wellness/sports sector in its place, where repercussions of a false signal are significantly less severe.
However, with chronic diseases such as diabetes, heart disease, cancer, and respiratory disorders continuing to rise in many parts of the world, older populations living longer, and increase in the number of surgeries performed in important healthcare markets such as Europe and the U.S., e-textile developments are on the rise to utilize cutting-edge electronics and medical technology. In some clinical studies, smart clothing has demonstrated the ability to guard against infectious diseases, sense the wearer's health status, and aid in the prevention, treatment, and management of health.
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E-textiles must continue to evolve in terms of dependability, liability, and certification to overcome obstacles. Device producers and researchers face additional difficulties with regulatory approvals because getting FDA approval might take years. Then comes the challenge of receiving certification and permission from insurance companies. The development of the several smart clothing concepts that have been proposed would take three to five years. Many experts predict that this turning moment will occur around 2020.
University-level research shows great promise for the future of patient care technology among those creating e-textiles for the healthcare business.
The VTT Technical Research Center in Finland is working on an intriguing project where researchers have developed smart fabric that can be worn as clothing or blankets and determine whether a patient needs to be warmed or cooled based on initial data measured from person and environment. Thegear adapts to body's temperature during surgery, hence it might also be utilized by doctors who feel too warm during an operation.
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The ElectroScience Laboratory at Ohio State University is developing useful e-textiles that gather, store, or transmit digital information by weaving antennas into objects such as brain caps that sense brain activity to help treat conditions such as epilepsy or addiction. These antennas use platforms such as the Intel Edison development platform. Researchers are also developing a smart bandage that can communicate with a doctor about the state of surrounding tissue's healing without having to remove it.
While this is going on, researchers at the University of Bristol are developing soft robotic clothing that could prevent falls in people who are vulnerable by supporting them while they walk and provide bionic strength to people who need it to get from a sitting to a standing position or climb stairs. Nanotechnology, 3D printing, electrical stimulation, and full-body monitoring technologies are all used in creation of smart clothes. As per opinions of various researchers this technology could ultimately lead to potentially freeing wheelchair-bound people from having to use the devices.
The Empa research institute in Switzerland has developed a fitted cap that measures heart rates and is incorporating optical fibers into e-textiles to monitor skin circulation and avoid bed sores. Hospitals find the clothing to be perfect as it can endure a disinfecting wash cycle.
This technique, according to researchers, may one day be used to gauge tissue pressure, respiration rate, or oxygen saturation. To examine bodily fluids or gases, e-textiles could also be made into chemical or biological sensors such as those provided by Maxim Integrated. Based on a series of ultra-low power ARM® Cortex®-M microcontrollers from Maxim, ultra-low power and secure development boards are available. These ARM Cortex-M4F 32-Bit MCUs combine ultra-low-power, high-efficiency signal processing functionality with user-friendliness, making them perfect for the growing category of wearable medical and fitness applications. The integrated pulse oximetry and heart-rate monitor module from Maxim, the MAX30102 Pulse Oximeter & Heart-Rate Sensor, has inbuilt LEDs, photodetectors, optical components, low-noise electronics with ambient light rejection, and it also has low-power electronics.
Even though many of these research projects are progressing and working toward commercialization, new developments in microelectronics and high-tech fabrics are expanding the potential applications for healthcare-related e-textiles.
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Some of these concepts and early pilot projects include t-shirts that treat chronic back pain, shirts with stretch sensors to track respiratory rates in people with chronic lung disease, soft all-day belly bands to track fetal heart rate and uterine contractions in pregnant women, pressure monitor stockings for people with diabetes, or even a shirt that shocks people with severe heart problems.
According to some experts, shirts that monitor heart rate, blood pressure, oxygen saturation, and other metrics will eventually totally replace bedside monitoring in hospitals.
With the Google-Levi Project Jacquard commuter jacket for cyclists, the concept of using gesture detection in smart clothing has recently gained prominence. There are currently much more affordable and well-established technologies that will be difficult to surpass in the next five years, despite the fact that many experts believe gesture recognition could find its way into clothing for healthcare—possibly for use by paraplegics, elderly who have suffered strokes or heart attacks, or elderly in the home who fall.
It can be easily shrunk and does not require moving mechanical elements, haptic feedback, or the use of touch in a user interface design, hence holds a lot of potential for e-textiles. To engage a patient's muscles, haptic feedback, which can be anything from a slight tickle to a powerful force input, is employed in electric muscle stimulation (EMS). To stimulate muscle movements or for rehabilitation, smart clothing with haptic feedback technology might be worn on any region of the body at any hour of the day. Prototypes of haptic feedback-based projects, like those from Novasentis, are now being created for use in medical apparel and should be available later this year.
The e-textile market is segmented on the basis of type, product, application, functionality, and region. On the basis of type, the E-Textile Industry is bifurcated into classic electronics and modern electronics. By product, it is classified into passive, active, and ultra-smart. On the basis of application, it is categorized into defense, sports & fitness, healthcare, household textiles, fashion & entertainment, transport, protection & military, architecture and others. On the basis of functionality, it is classified into sensing, energy harvesting, luminescence & aesthetics, thermoelectricity, and others. Region-wise, theE-Textile Market is analyzed across North America, Europe, Asia-Pacific and LAMEA.
The players operating in the global e-textile market have adopted various developmental strategies to increase their E-Textile Market Share, gain profitability, and remain competitive in the market. The key players included in the E-Textile Market Analysis are- CARRÉ TECHNOLOGIES Inc., Chronolife., E. I. DU PONT DE NEMOURS AND COMPANY , INTERACTIVE WEAR AG, Mitsufuji Corporation, Myant Health , Outlast Technologies GmbH , sanSirro GmbH , Schoeller Textile AG, SENSING TEX, S.L. , Sensoria Inc. , SunstarTaiwan ENT. CO., LTD. , Tex-Ray Industrial Co., Ltd., TORAY INDUSTRIES, INC., Vista Medical Ltd., Vulpés Electronics GmbH, Xenoma Inc.
Key findings of the study
On the basis of product type, the classic electronics segment is projected to witness the major E-Textile Market Growth with the CAGR of 6.5%, in terms of revenue, during the E-Textile Market Forecast period.
On the basis of product, the ultra-smart segment E-Textile Market Size is expected to dominate the market from 2022 to 2031.
On the basis of application, the defense segment has the high E-Textile Market Trends and is expected to grow at a significant CAGR during the forecast period and has myraid E-Textile Market Opportunity.
On the basis of functionality, the sensing functionality segment dominated the global market in the 2021, with a E-Textile Industry share of more than 30%.
Region wise, Europe dominated the global market in 2021. This is attributed to expansion of new wholesale fabrics companies and surge in E-Textile Market Demand for apparel and textile machinery exports for e-textiles.
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Global Fiber Optic Pressure Sensors Market 2019-2024 | Top key players are FISO Technologies,Honeywell,Infineon Technologies,NXP Semiconductors,Omron,Opsens,Panasonic,Bosch,STMicroelectronics
Global Fiber Optic Pressure Sensors Market Professional Survey Report 2019
The report provides a basic overview of the industry including definitions, classifications, applications and industry chain structure. The Fiber Optic Pressure Sensors market analysis is provided for the international market including development history, competitive landscape analysis, and major regions.
The Global Fiber…
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Aerospace Fiber Optic Sensors Market Growth factor, Market size, Market Trends Industry Forecast to 2021-2027
A significant Aerospace Fiber Optic Sensors market research study helps in planning by providing accurate and state-of-the-art information about the consumer’s demands, preferences, attitudes and their changing tastes about the specific product. It estimates the market share and possible sales volume of a client company. The industry report makes familiar with the types of consumers, their views about the product, their buying intentions and their ideas for the step up of a product. Moreover, Aerospace Fiber Optic Sensors market analysis report discovers the better and new methods to distribute the products to consumers and also recognizes the extent of the marketing problems.
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Key Players-
* Micron
* Opsens Industrial
* Honeywell
* Omron
* FISO Technologies Inc.
* Proximion AB
A trustworthy Global Aerospace Fiber Optic Sensors market research report guides the manufacturer about planning of advertising and sales promotion efforts thereby making it more effective. It not only restrains the risks of ambiguity but also assists in taking sound decisions. Furthermore, the market report helps keep hold of reputation of the firm and its products. Whether it is about the product, customer, competitor or marketing strategy, market research analysis report helps drive the business in a right direction. To gain competitive advantage and to thrive in the market, go for Aerospace Fiber Optic Sensors market report.
For product type segment, this report listed main product type of Aerospace Fiber Optic Sensors market in global and china.
* Temperature Sensor
* Pressure sensors
* Strain Sensor
* Others
For end use/application segment, this report focuses on the status and outlook for key applications. End users sre also listed.
* Health monitoring for airframes
* Health monitoring engines
* Health monitoring external environment
Globalization makes it clear that market research report hold an immense importance for the growth of many businesses. The wide ranging Aerospace Fiber Optic Sensors market document proves to be true in this regard and is designed in a way that is anticipated. It’s the demand or necessity of today’s business to do market research analysis before taking any verdict about the products. This is the transparent market report which has been structured with authentic tools and techniques. The market research analysis conducted in the winning Aerospace Fiber Optic Sensors market report helps improve product and also decide about the necessary changes to the future products.
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Comprehensive Report on Aerospace Fiber Optic Sensors Market 2021 | Size, Growth, Demand, Opportunities & Forecast To 2027
The recently Published Report titled Comprehensive Report on Aerospace Fiber Optic Sensors Market 2021 | Size, Growth, Demand, Opportunities & Forecast To 2027 by Axel Reports offers a comprehensive picture of the market from the global view point as well as a descriptive analysis with detailed segmentation, complete research and development history, latest news, offering a forecast and statistic in terms of revenue during the forecast period from 2021-2027. The report covers a comprehensive analysis of key segments, recent trends, competitive landscape, and key factors playing a substantial role in the market are detailed in the report. The report helps vendors and manufacturers to understand the change in the market dynamics over the years.
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By Market Players:
Micron
Technobis
Omron
Opsens Industrial
Technica Optical Components
Honeywell
IFOS
Proximion AB
FISO Technologies Inc.
Smart Fibres
By Type:
Temperature Sensor
Pressure sensors
Strain Sensor
Others
By Application:
Health monitoring for airframes
Health monitoring engines
Health monitoring external environment
NOTE: Consumer behaviour has changed within all sectors of the society amid the COVID-19 pandemic. Industries on the other hand will have to restructure their strategies in order to adjust with the changing market requirements. This report offers you an analysis of the COVID-19 impact on the Aerospace Fiber Optic Sensors market and will help you in strategising your business as per the new industry norms.
Report offers:
1. Insights into the intact market structure, scope, profitability, and potential.
2. Precise assessment of market size, share, demand, and sales volume.
3. Authentic estimations for revenue generation and Aerospace Fiber Optic Sensors Market development.
4. Thorough study of Aerospace Fiber Optic Sensors Market companies including organizational and financial status.
5. Perception of crucial market segments including, forecast study.
6. Acumen of upcoming opportunities and potential threats and risks in the market.
The report diversifies the global geographical expanse of the market into five prominent regions as:
North America (United States, Canada and Mexico)
Europe (Germany, France, United Kingdom, Russia, Italy, and Rest of Europe)
Asia-Pacific (China, Japan, Korea, India, Southeast Asia, and Australia)
South America (Brazil, Argentina, Colombia, and Rest of South America)
Middle East & Africa (Saudi Arabia, UAE, Egypt, South Africa, and Rest of Middle East & Africa)
Key Elements Discussed In The Report:
The report then discusses important dynamics on the business drivers that have a major impact on the performance are given in the report. The business drivers are important to the business operations and financial results of the industry. All the drivers are determined in the research study using market analysis. The report is comprehensive coverage of the existing and potential markets along with their assessment of their competitive position in the changing market scenario. It scrutinizes in-depth global market trends and outlook coupled with the factors driving the global Aerospace Fiber Optic Sensors market, as well as those hindering it.
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Moreover, the report throws light on the pinpoint analysis of global Aerospace Fiber Optic Sensors market dynamics. It also measures the sustainable trends and platforms which are the basic roots behind the market growth. With the help of SWOT and Porter’s five analysis, the market has been deeply analyzed. Consumer behavior is assessed with respect to current and upcoming trends. The report takes a detailed note of the major industrial events in past years. These events include several operational business decisions, innovations, mergers, collaborations, major investments, etc.
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This report can be customized to meet the client’s requirements. Please connect with our sales team ( [email protected]), who will ensure that you get a report that suits your needs. You can also get in touch with our executives on +18488639402 to share your research requirements.
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Gyroscope Market Latest Innovation And Technology By Forecast 2027
Summary:
A new study title “Gyroscope market size, status and forecast 2027” has been featured on market research future.
Market Overview:
The increased demand for unmanned aerial vehicles, advanced aircraft, and improved smartphone technology contribute to the growth of the gyroscope market. Gyroscopes are used to calibrate or measure the angular velocity. The global gyroscope market has been mainly segmented on the basis of type and application. MEMS sensors hold the largest market share while the consumer electronics segment is expected to show the highest growth rate during the forecast period. Continous technological advancement plays a crucial role in the development of MEMS gyroscopes for their use in medical pressure sensing, electronic stability and control, GPS navigation, and anti-rollover systems.
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Key Players:
The key players in the gyroscope market are identified across all the major regions based on their country of origin, presence, recent key developments, product diversification, and industry expertise. Some of them are Honeywell International Inc., Robert Bosch GmbH, Analog Devices Inc, Trimble Inc, Murata Manufacturing Co Ltd, Silicon Sensing Systems Limited, STMicroelectronics, TDK Corporation, NXP Semiconductor, Epson America Inc, and InnaLabs. These players contribute significantly to market growth. Apart from the top key players, the other players contribute nearly 25–30% in the gyroscope market.
Segments:
The Global Gyroscope Market has been segmented based on type, application, and region.
By type, the gyroscope market has been segmented into MEMS gyroscopes, fiber optic gyroscope, ring laser gyroscope, dynamically tuned gyroscope, hemispherical resonating gyroscope, and others.
By application, the gyroscope market has been segmented into consumer electronics, aerospace & defense, industrial manufacturing, mining, marine, automotive, and others.
By region, the gyroscope market has been segmented into North America, Europe, Asia-Pacific, the Middle East & Africa, and South America.
Regional Analysis:
On the basis of geography, the market is studied for North America, Europe, Asia Pacific, and the rest of the world. Among the regions mentioned above, the market is dominated by Asia-Pacific due to a higher demand for gyroscope for consumer electronics, aerospace, aviation, and military applications. The region is also expected to grow to show the highest growth rate during the forecast period. As Asia-Pacific is highly occupied by these industries and verticals, MEMS gyroscopes have their major implications in consumer electronics, automotive, and aerospace, and the region holds most of the developing countries with emerging economies.
On the other hand, North America holds the second-largest gyroscope market share due to the rich concentration of automotive, aviation, and military equipment manufacturers with high industry expertise operating in MEMS technology. Additionally, the development and advancement of industrial and home automation technologies have led many vendors to implement gyroscopes in their product offerings. The advancement in smartphone technology is also encouraging the smartphone manufacturers to deploy gyroscope for improved camera application, and positioning and navigation. The growth of North America can also be attributed to the high sales of top-end smartphones and tablets.
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Embedded Temperature Sensor Market - Size, Share, Outlook, and Opportunity Analysis, 2020 - 2027
The temperature sensor is an electronic device that measures the temperature of person, environment or an object. The temperature sensor is used to state the degree or intensity of heat present in a substance. These sensors will convert input data to electronic data to record, monitor, and then display in a human readable format. There are mainly two types of sensors i.e. contact and non-contact temperature sensors. Non-contact temperature sensors are basically infrared (IR) sensors. Temperature sensor provides benefits such as durability, accuracy, and low power consumption. These sensors are used in various industries to detect overheating and give alert to end users. The temperature sensor finds its application in various sectors such as consumer electronics, semiconductor, chemical, manufacturing, and others.
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The global embedded temperature sensor market is expected to witness significant growth during the forecast period (2020–2027). The growth of the embedded temperature sensor market is majorly attributed to the increasing demand for temperature sensors in consumer electronics such as laptops, tablets, smart wearables, and others. The demand for smartwatches has increased from health conscious people. Smartwatches provide important information related to pulse or heart rate and give suggestions to remain healthy. Moreover, smart shirts are also used by players to monitor the movement of the body. Smart shirts are helpful for sportsperson to keep the record of their daily goal and to track heart rate, pulse rate, and heat level. For instance, according to Coherent Market Insights’ analysis, the number of people using smart wearables across the globe increased from 523.3 million in 2017 to 832.3 million in 2020.
Moreover, research and wearable manufacturing companies are manufacturing advanced sensors that can be packed into wearables to measure temperature. Due to advancements in technology, more innovative products are being introduced in the market such as smartwatches, armbands, and smart T-shirts. Armbands are designed to track the human body movement, detect accurate health, and pulse rate. Furthermore, embedded temperature sensors are used in smartphones to monitor the fertility status of women. The status of fertility is displayed on the smartphone screen. For instance, women in the U.S. are using such devices to main a healthy lifestyle.
Increasing health awareness is one of the major factors driving the demand for temperature sensors among consumers to keep a track of their health. People who are conscious about their health spend a lot on monitoring devices such as smartwatches and smartphones. By using smartwatches, people can consult a doctor and take precautions in advance. For instance, in October 2019, SAMSUNG launched SAMSUNG GALAXY WATCH ACTIVE 2 that is used to monitor blood pressure and track health-related problems. This smartwatch is helpful in measuring a person’s blood pressure and making them aware about their health issues. Hence, these factors are expected to drive the market growth during the forecast period.
Embedded Temperature Sensor Market - Impact of Coronavirus (Covid-19) Pandemic
COVID-19 pandemic is expected to drive growth of the embedded temperature sensor market during the forecast period. All Chinese manufacturers have shut down their operations to hold the spread of coronavirus pandemic. Countries such as India find it difficult to source important raw materials and electronic components from Chinese factories. Demand for temperature sensors is expected to increase till the pandemic is under control. Temperature sensors are used at airports, land borders, and popular public spaces to check the temperature of people.
North America held a dominant position in the global embedded temperature sensor market in 2019 and is projected to retain its dominance throughout the forecast period, owing to increasing demand for temperature sensors from oil & gas, automotive, and consumer electronics sectors. For instance, in 2017, FOSA (Fiber-Optic Sensing Association), the U.S first trade association, launched optical fiber sensing. Fiber-optic sensing is an advanced technology that uses light in fiber-optic cables to measure acoustics, temperature, and strain. Through this technology, individuals can detect pipeline leakage, seismic activity, and unsafe temperature in the oil and gas industry. Additionally, increased demand for smart wearables in the U.S has increased the demand for temperature sensors. This is due to urbanization and the penetration of smart technologies in the market. Moreover, according to the U.S. Bureau of Economic Analysis (BEA), disposable personal income in the U.S. increased to US$ 16,706.40 billion in December 2019 from US$ 16,675.80 billion in November of 2019.
Asia Pacific region is expected to exhibit the highest growth during the forecast period. This owing to the rising adoption of temperature sensors in industries such as oil and gas, and chemicals for the prevention of moisture, overheating, and corrosion. Moreover, rising investment in the oil and gas industry will provide lucrative opportunities for the embedded temperature sensor market in the coming years. For instance, according to India Brand Equity Foundation (IBEF), the investment in oil and gas exploration and production activities in India is expected to reach US$ 25 million by 2022. In addition, the growing government policies and initiatives towards the fulfillment of energy demands and initiation of new projects will contribute positively to the embedded temperature sensor market revenue during the forecast period. Due to the above-mentioned factors, the embedded temperature sensor market is expected to witness significant growth during the forecast period.
Major players operating in the global embedded temperature sensor market include Honeywell International Inc., NXP Semiconductors, Panasonic Corporation, Delphi Technologies, Siemens, ABB, STMicroelectronics, Emerson Electric Co., Microchip Technology Inc., Fluke Process Instruments, Mouser Electronics, Inc., Robert Bosch GmbH, TE Connectivity, DENSO CORPORATION, OMRON Corporation, FLIR Systems, Inc., Amphenol Advanced Sensors, Maxim Integrated, KONGSBERG, Yokogawa India Ltd., Infineon Technologies AG, TDK-Micronas GmbH, Amphenol Corporation, OMEGA Engineering inc., ON Semiconductor, CODICO GmbH, Sensata Technologies, Inc., VINCI, and Digi-Key Electronics.
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Increasing demand for embedded temperature sensor in food & beverages industry is expected to drive the market growth during the forecast period
Among end-use industry, the food & beverage segment is expected to hold a dominant position in the global embedded temperature sensor market during the forecast period. This is owing to the increasing demand for embedded temperature sensors for quality assurance during production, storage, and transit. For instance, due to stringent government regulations for Food and Drug Administration (FDA), it is mandated to use temperature sensors to monitor the temperature in complicated processes such as bottling, emulsification, piping, pasteurization, and others.
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EMBEDDED TEMPERATURE SENSOR MARKET ANALYSIS
Embedded Temperature Sensor Market, By Type (Non-contact (Infrared and Fiber Optic) and Contact (Bimetallic, Temperature Sensor IC, Thermistor, Resistive Temperature Detector, and Thermocouple)), End-use Industry (Chemicals, Oil & Gas, Energy & Power, Healthcare, Food & Beverages, Consumer Electronics, Aerospace & Defense, and Metals & Mining), and by Region (North America, Europe, Asia Pacific, Latin America, and Middle East and Africa) - Size, Share, Outlook, and Opportunity Analysis, 2020 - 2027
Press Release : Embedded Temperature Sensor Market
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The temperature sensor is an electronic device that measures the temperature of person, environment or an object. The temperature sensor is used to state the degree or intensity of heat present in a substance. These sensors will convert input data to electronic data to record, monitor, and then display in a human readable format. There are mainly two types of sensors i.e. contact and non-contact temperature sensors. Non-contact temperature sensors are basically infrared (IR) sensors. Temperature sensor provides benefits such as durability, accuracy, and low power consumption. These sensors are used in various industries to detect overheating and give alert to end users. The temperature sensor finds its application in various sectors such as consumer electronics, semiconductor, chemical, manufacturing, and others.
The global embedded temperature sensor market is expected to witness significant growth during the forecast period (2020–2027). The growth of the embedded temperature sensor market is majorly attributed to the increasing demand for temperature sensors in consumer electronics such as laptops, tablets, smart wearables, and others. The demand for smartwatches has increased from health conscious people. Smartwatches provide important information related to pulse or heart rate and give suggestions to remain healthy. Moreover, smart shirts are also used by players to monitor the movement of the body. Smart shirts are helpful for sportsperson to keep the record of their daily goal and to track heart rate, pulse rate, and heat level. For instance, according to Coherent Market Insights’ analysis, the number of people using smart wearables across the globe increased from 523.3 million in 2017 to 832.3 million in 2020.
Moreover, research and wearable manufacturing companies are manufacturing advanced sensors that can be packed into wearables to measure temperature. Due to advancements in technology, more innovative products are being introduced in the market such as smartwatches, armbands, and smart T-shirts. Armbands are designed to track the human body movement, detect accurate health, and pulse rate. Furthermore, embedded temperature sensors are used in smartphones to monitor the fertility status of women. The status of fertility is displayed on the smartphone screen. For instance, women in the U.S. are using such devices to main a healthy lifestyle.
Increasing health awareness is one of the major factors driving the demand for temperature sensors among consumers to keep a track of their health. People who are conscious about their health spend a lot on monitoring devices such as smartwatches and smartphones. By using smartwatches, people can consult a doctor and take precautions in advance. For instance, in October 2019, SAMSUNG launched SAMSUNG GALAXY WATCH ACTIVE 2 that is used to monitor blood pressure and track health-related problems. This smartwatch is helpful in measuring a person’s blood pressure and making them aware about their health issues. Hence, these factors are expected to drive the market growth during the forecast period.
Embedded Temperature Sensor Market - Impact of Coronavirus (Covid-19) Pandemic
COVID-19 pandemic is expected to drive growth of the embedded temperature sensor market during the forecast period. All Chinese manufacturers have shut down their operations to hold the spread of coronavirus pandemic. Countries such as India find it difficult to source important raw materials and electronic components from Chinese factories. Demand for temperature sensors is expected to increase till the pandemic is under control. Temperature sensors are used at airports, land borders, and popular public spaces to check the temperature of people.
North America is expected to hold dominant position in the global embedded temperature sensor market during the forecast period
Statistics:
North America held dominant position in the global embedded temperature sensor market in 2019, accounting for 39.4% share in terms of value, followed by Europe and Asia Pacific.
Figure 1: Global Embedded Temperature Sensor Market Share (%), By Region, 2019
North America held a dominant position in the global embedded temperature sensor market in 2019 and is projected to retain its dominance throughout the forecast period, owing to increasing demand for temperature sensors from oil & gas, automotive, and consumer electronics sectors. For instance, in 2017, FOSA (Fiber-Optic Sensing Association), the U.S first trade association, launched optical fiber sensing. Fiber-optic sensing is an advanced technology that uses light in fiber-optic cables to measure acoustics, temperature, and strain. Through this technology, individuals can detect pipeline leakage, seismic activity, and unsafe temperature in the oil and gas industry. Additionally, increased demand for smart wearables in the U.S has increased the demand for temperature sensors. This is due to urbanization and the penetration of smart technologies in the market. Moreover, according to the U.S. Bureau of Economic Analysis (BEA), disposable personal income in the U.S. increased to US$ 16,706.40 billion in December 2019 from US$ 16,675.80 billion in November of 2019.
Asia Pacific region is expected to exhibit the highest growth during the forecast period. This owing to the rising adoption of temperature sensors in industries such as oil and gas, and chemicals for the prevention of moisture, overheating, and corrosion. Moreover, rising investment in the oil and gas industry will provide lucrative opportunities for the embedded temperature sensor market in the coming years. For instance, according to India Brand Equity Foundation (IBEF), the investment in oil and gas exploration and production activities in India is expected to reach US$ 25 million by 2022. In addition, the growing government policies and initiatives towards the fulfillment of energy demands and initiation of new projects will contribute positively to the embedded temperature sensor market revenue during the forecast period. Due to the above-mentioned factors, the embedded temperature sensor market is expected to witness significant growth during the forecast period.
Major players operating in the global embedded temperature sensor market include Honeywell International Inc., NXP Semiconductors, Panasonic Corporation, Delphi Technologies, Siemens, ABB, STMicroelectronics, Emerson Electric Co., Microchip Technology Inc., Fluke Process Instruments, Mouser Electronics, Inc., Robert Bosch GmbH, TE Connectivity, DENSO CORPORATION, OMRON Corporation, FLIR Systems, Inc., Amphenol Advanced Sensors, Maxim Integrated, KONGSBERG, Yokogawa India Ltd., Infineon Technologies AG, TDK-Micronas GmbH, Amphenol Corporation, OMEGA Engineering inc., ON Semiconductor, CODICO GmbH, Sensata Technologies, Inc., VINCI, and Digi-Key Electronics.
Increasing demand for embedded temperature sensor in food & beverages industry is expected to drive the market growth during the forecast period
Among end-use industry, the food & beverage segment is expected to hold a dominant position in the global embedded temperature sensor market during the forecast period. This is owing to the increasing demand for embedded temperature sensors for quality assurance during production, storage, and transit. For instance, due to stringent government regulations for Food and Drug Administration (FDA), it is mandated to use temperature sensors to monitor the temperature in complicated processes such as bottling, emulsification, piping, pasteurization, and others.
Figure 2: Global Embedded Temperature Sensor Market Value (US$ Mn), 2017 - 2027
The global embedded temperature sensor market was valued at US$ 6,492.34 Mn in 2019 and is expected to reach US$ 9,876.32 Mn by 2027 at a CAGR of 7.2% between 2020 and 2027.
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Functional Safety Products Market Strategic Insights and key Business Influencing Factors | Major Players – Balluff de México, ABB, OMRON Corporation, Honeywell International, Inc.
Functional Safety Products Market major factor driving the growth of this market is the strengthening of safety standards and government regulations. Work, Health and Safety (WHS) regulatory frameworks aim upon securing the health and safety of workers and the workplaces around them. As these sensors are smaller and smarter and so can be integrated into fixed and portable devices. Various regulatory frameworks help in safety and security of places that consume functional safety products which acts as a driver for the growth of the market.
Asia-Pacific functional safety products market is projected to register a healthy CAGR of 12.6% in the forecast period of 2019 to 2026.
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Competitive Analysis: Asia-Pacific Functional Safety Products Market
Some of the major players operating in this market are Yokogawa Electric Corporation, Siemens, Endress+Hauser Management AG, MANGAN SOFTWARE SOLUTIONS, Balluff de México, ABB, OMRON Corporation, Honeywell International, Inc., Rockwell Automation, Inc., SICK AG, Pilz GmbH & Co. KG, K.A. Schmersal GmbH & Co. KG, HYDAC, Schneider Electric, Cadence Design Systems, Inc., Hitex GmbH, TÜV Rheinland, Intel Corporation, UL LLC.
High Temperature Elastomer Market Size, Status and Forecast 2026
Asia-Pacific Thin-film Encapsulation Market New Sales Volumes
Asia-Pacific Thin-film Encapsulation Market Replacement Sales Volumes
Asia-Pacific Thin-film Encapsulation Market Installed Base
Asia-Pacific Thin-film Encapsulation Market By Brands
Asia-Pacific Thin-film Encapsulation Market Size
Asia-Pacific Thin-film Encapsulation Market Procedure Volumes
Asia-Pacific Thin-film Encapsulation Market Product Price Analysis
Asia-Pacific Thin-film Encapsulation Market Healthcare Outcomes
Asia-Pacific Thin-film Encapsulation Market Cost of Care Analysis
Asia-Pacific Thin-film Encapsulation Market Regulatory Framework and Changes
Asia-Pacific Thin-film Encapsulation Market Prices and Reimbursement Analysis
Asia-Pacific Thin-film Encapsulation Market Shares in Different Regions
Recent Developments for Asia-Pacific Thin-film Encapsulation Market Competitors
Asia-Pacific Thin-film Encapsulation Market Upcoming Applications
Asia-Pacific Thin-film Encapsulation Market Innovators Study
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Scope of the Functional Safety Products Market
Asia-Pacific Functional Safety Products Market By Product (Safety Switches, Safety Sensor, Functional Safety Controllers, Emergency Stop Devices, Pressure Transmitters, Camera Systems, Functional Safety Valves, Others), Solution & Service (Solution, Service), Industry Vertical (Oil & Gas, Chemical, Railways, Pulp and Paper, Automotive, Power Generation, Food and Beverages, Pharmaceutical, Mining, Others), Country (Japan, China, South Korea, India, Australia, Singapore, Thailand, Indonesia, Malaysia, Philippines and Rest of Asia-Pacific) – Industry Trends and Forecast to 2026
The major factor driving the growth of this market is the strengthening of safety standards and government regulations. Work, Health and Safety (WHS) regulatory frameworks aim upon securing the health and safety of workers and the workplaces around them. As these sensors are smaller and smarter and so can be integrated into fixed and portable devices. Various regulatory frameworks help in safety and security of places that consume functional safety products which acts as a driver for the growth of the market.
Market Segmentation: Asia-Pacific Functional Safety Products Market
Asia-Pacific Functional Safety Products Market is segmented into safety switches, safety sensor, functional safety controllers, emergency stop devices, pressure transmitters, camera systems, functional safety valves and others. Safety switches are further sub-segmented into electro-mechanical safety switches, safety locking devices, non-contact safety switches. Safety sensor is further sub-segmented into fluid sensor, fiber-optic sensor, distance sensor, angle sensor and others. Fluid sensor is segmented into level sensor, flow sensor, pressure sensor and temperature sensor. Distance sensor is segmented into mid-range, long range, ultrasonic and others.
In March 2018, Siemens AG has invested in the new technology which is additive manufacturing to produce gas turbines. It will enable highly precise solutions from powered high performance materials.
In September 2017, Balluff de México extending its digitalization by acquiring two companies the Stuttgart software company and Matrix Vision GmbH (MV). This will bring the strategic alignment and improve their capability for supplying integrated automation solutions from one provider.
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The segment that is expected to dominate the market as well as the segment which holds highest CAGR in the forecast period.
Regions/Countries that are expected to witness the fastest growth rates during the forecast period.
The latest developments, market shares, and strategies that are employed by the major market players.
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Key insights in the report:
Complete and distinct analysis of the market drivers and restraints
Key Market players involved in this industry
Detailed analysis of the Market Segmentation
Competitive analysis of the key players involved
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Distributed temperature sensors promote warning systems
If you are interested in DTS systems and want to learn more, please contact us at [email protected]
Temperature is a key safety indicator in any industry. The technology of distributed temperature sensors using optical fiber allows measuring the temperature at any point in the fiber, with an interval of 1 meter, resulting in the detailed temperature dependence of all required areas. The data obtained by this technique makes it possible to develop intelligent warning systems based on it, therefore, replacing outdated point-based monitoring systems.
The optical fiber itself acts like a fiber optic sensor, and the distributed nature of the DTS technology enables us to determine the temperature change at an arbitrary point, spreading many kilometers from it. Moreover, the measurement quality is not affected by electromagnetic radiation, thus, the distributed temperature technology is free from false alarms.
To be more precise, distributed temperature sensors (DTS) allow measuring the characteristics of an object along a fiber optic cable, while the fiber cable is a linear sensor, which is a continuously distributed sensing element throughout its entire length.
The operating principle is based on the reflectivity of stimulated Raman scattering of light (Raman effect). A semiconductor laser is also used to determine the location of temperature changes in a fiber optic cable. The fact is that the structure of the optical fiber changes when the temperature changes.
When laser beam light from the laser system enters the area of temperature change, it interacts with the changed structure of the optical fiber and in addition to direct light scattering, reflected light appears.
The main advantages of fiber optic sensors in comparison with classical analogs are the following:
• Compact size;
• Very fast response to parameter changes in the environment;
• Low weight;
• Multiple parameters can be registered simultaneously by a single distributed sensor;
• Reliability;
• Very wide operating temperature range of DTS;
• Small price per unit length of the sensing system;
• High sensitivity;
• Long operating time;
• The high spatial resolution of temperature sensors;
• Resistance to chemicals and aggressive environments;
• DTS is not affected by electromagnetic disturbances;
• The sensitive part of the fiber sensor does not require connection to power lines.
The processing unit measures the propagation speed and power of both direct and reflected light and determines where the temperature changes. For instance, at a wavelength of 1550 nm, a pulsed generation mode is used with a laser power limit of 10 mW.
There are several types of optical fibers, each of which meets certain requirements for its properties, depending on the application due to the fact that the properties of the optical fiber can be varied over a wide range.
Physical effects on the optical fiber, such as pressure, deformation, temperature change, affect the properties of the fiber at the point of exposure and it is possible to measure the environmental parameters by measuring the change in the properties of the fiber at a given point.
In general, a fiber optic sensor consists of two concentric layers: fiber core and optical coating. The fiber optic light guide part can be protected by a layer of acrylate, plastic, reinforced sheath, etc., depending on the application of this fiber cable.
Thus, distributed fiber optic sensors are perfect for industries related to combustible and explosive materials, such as coal, oil and gas production, etc. for use in fire alarm systems of various structures.
Application of distributed temperature sensors includes:
• fire alarm systems in the road, rail or service tunnels;
• thermal monitoring of power cables and overhead transmission lines to optimize production processes;
• improving the efficiency of oil and gas wells;
• ensuring the safe working condition of industrial induction melting furnaces;
• monitoring the tightness of containers with liquefied natural gas on ships in unloading terminals;
• detection of leaks in dams;
• temperature control in chemical processes;
• leak detection in pipelines.
In addition, DTS systems combined with other tools open completely new areas of application. For example, it is possible to design a specialized device - a fire detector based on a distributed fiber optic temperature sensor.
Detecting a fire in an industrial environment is not an easy task because of the large number of disturbing factors, many of which can be considered by detectors as carriers of fire signs. In addition, dust deposited on the DTS' sensitive elements makes it difficult to operate and it can disable them.
It is also necessary to take into account the possible smoldering of the deposited dust, which can also lead to false alarms. The presence of fumes and aerosols makes it impossible to operate smoke optical-electronic fire detectors. The presence of carbon monoxide will trigger gas fire detectors.
Industrial facilities and production are characterized by large volumes of premises, high ceilings, the presence of long tunnels, collectors, mines, inaccessible areas and premises with a complex configuration and geometry. And in these conditions, it is certainly possible to protect using traditional fire alarm systems, but this involves the use of a large number of detectors, and therefore they have high costs, including installation and maintenance of alarm systems and automation.
It is difficult to select detectors for explosive zones, especially for use in underground operations and mines. Aggressive media are often present in chemical industries. There are also objects of sea and river transport, characterized by the aggressive salt fog.
The use of non-electric sensing devices, the use of fiber optic cable allows the DTS to be applied in enterprises of the oil and gas complex, mines, underground operations, chemical industries (including those with aggressive environments), and metallurgy and energy enterprises.
As for oil companies, the active development of high-viscosity oil fields, which imposes strict requirements on the production equipment, and the severe depletion of most oil and gas fields require mining organizations to conduct prospecting and exploration operations, change production technologies and control the technical condition of wells.
The main task for mining companies to increase the well's production capacity in real-time is to track information about the processes occurring in wells and fields. Solutions based on standard temperature sensors suggest well logging using point measuring instruments, which leads to the inaccuracy of the data obtained.
The disadvantages of such sensing devices include the inability to fix the distribution of one of the most important parameters of the well – the temperature profile in real-time, as well as the need for power supply, the impact on the measurement results of external electromagnetic fields, labor and time costs required for the departure of the team and performing various operations, including the immersion of the fiber sensor element and its movement along the well, data processing, etc.
The fiber optic sensing system consists of distributed temperature sensors designed to measure temperature along the borehole, and point-to-point fiber pressure sensor. Optical fibers of a distributed temperature sensing system and pressure sensors can be structurally installed in a single fiber cable.
The fiber optic cable is resistant to mechanical damage. Additional fiber optic cable protection is not required during descent and lifting operations, but the protection of the fiber cable from mechanical damage during descent and lifting operations can be provided by the use of protective coatings.
If you want to obtain a highly efficient distributed temperature sensing system, you should choose the Optromix company. Optromix is a manufacturer of innovative fiber optic products for the global market. The company provides the most technologically advanced fiber optic solutions for monitoring worldwide. Optromix is a fast-growing vendor of fiber Bragg grating (FBG) products line such as fiber Bragg grating sensors, FBG interrogators and multiplexers, distributed acoustic sensing (DAS) systems, distributed temperature sensing (DTS) systems.
Distributed temperature system provides continuous underground power lines monitoring of temperatures, detecting hot spots, delivering operational status, condition assessment, and power circuit rating data. This helps operators to optimize the transmission and distribution networks, and reduce the cost of operation and capital.
Usually, the DTS systems can detect the temperature to a spatial resolution of 1 m with precision to within ±1°C at a resolution of 0.01°C. Measurement distances of greater than 30 km can be monitored and some specialized systems can provide even tighter spatial resolutions.
The advantages of working with Optromix:
Our DTS system has the superior quality, however, its price is one of the lowest in the market;
Optromix is ready to develop DTS systems based on customer’s specifications.
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Functional Safety Products Market Strategic Insights and key Business Influencing Factors | Major Players – Balluff de México, ABB, OMRON Corporation, Honeywell International, Inc.
Functional Safety Products Market major factor driving the growth of this market is the strengthening of safety standards and government regulations. Work, Health and Safety (WHS) regulatory frameworks aim upon securing the health and safety of workers and the workplaces around them. As these sensors are smaller and smarter and so can be integrated into fixed and portable devices. Various regulatory frameworks help in safety and security of places that consume functional safety products which acts as a driver for the growth of the market.
Asia-Pacific functional safety products market is projected to register a healthy CAGR of 12.6% in the forecast period of 2019 to 2026.
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Competitive Analysis: Asia-Pacific Functional Safety Products Market
Some of the major players operating in this market are Yokogawa Electric Corporation, Siemens, Endress+Hauser Management AG, MANGAN SOFTWARE SOLUTIONS, Balluff de México, ABB, OMRON Corporation, Honeywell International, Inc., Rockwell Automation, Inc., SICK AG, Pilz GmbH & Co. KG, K.A. Schmersal GmbH & Co. KG, HYDAC, Schneider Electric, Cadence Design Systems, Inc., Hitex GmbH, TÜV Rheinland, Intel Corporation, UL LLC.
High Temperature Elastomer Market Size, Status and Forecast 2026
Market Overview
Manufacturers Profiles
Functional Safety Products Sales, Revenue, Market Share and Competition by Manufacturer
Functional Safety Products Market Analysis by Regions
North America Functional Safety Products by Countries
Europe Functional Safety Products by Countries
Asia-Pacific Functional Safety Products by Countries
South America Functional Safety Products by Countries
Middle East and Africa Functional Safety Products by Countries
Functional Safety Products Market Segment by Type
Functional Safety Products Market Segment by Application
Functional Safety Products Market Forecast
Sales Channel, Distributors, Traders and Dealers
Research Findings and Conclusion
Appendixes
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Scope of the Functional Safety Products Market
Asia-Pacific Functional Safety Products Market By Product (Safety Switches, Safety Sensor, Functional Safety Controllers, Emergency Stop Devices, Pressure Transmitters, Camera Systems, Functional Safety Valves, Others), Solution & Service (Solution, Service), Industry Vertical (Oil & Gas, Chemical, Railways, Pulp and Paper, Automotive, Power Generation, Food and Beverages, Pharmaceutical, Mining, Others), Country (Japan, China, South Korea, India, Australia, Singapore, Thailand, Indonesia, Malaysia, Philippines and Rest of Asia-Pacific) – Industry Trends and Forecast to 2026
The major factor driving the growth of this market is the strengthening of safety standards and government regulations. Work, Health and Safety (WHS) regulatory frameworks aim upon securing the health and safety of workers and the workplaces around them. As these sensors are smaller and smarter and so can be integrated into fixed and portable devices. Various regulatory frameworks help in safety and security of places that consume functional safety products which acts as a driver for the growth of the market.
The standard ISO 26262 is considered to be the best practice framework for achieving functional safety in road vehicles. Safety is considered as the key aspect in the automotive industry and the importance with which it is regarded in recent times has become far greater. ISO 26262 sets Automotive Safety Integrity Levels (ASILs) for manufacturers of the electronic systems in automobiles. This demand of ISO 26262 to be used in automotive drives the growth of the market.
Market Segmentation: Asia-Pacific Functional Safety Products Market
Global Functional Safety Products Market is segmented into safety switches, safety sensor, functional safety controllers, emergency stop devices, pressure transmitters, camera systems, functional safety valves and others. Safety switches are further sub-segmented into electro-mechanical safety switches, safety locking devices, non-contact safety switches. Safety sensor is further sub-segmented into fluid sensor, fiber-optic sensor, distance sensor, angle sensor and others. Fluid sensor is segmented into level sensor, flow sensor, pressure sensor and temperature sensor. Distance sensor is segmented into mid-range, long range, ultrasonic and others.
In March 2018, Siemens AG has invested in the new technology which is additive manufacturing to produce gas turbines. It will enable highly precise solutions from powered high performance materials.
In September 2017, Balluff de México extending its digitalization by acquiring two companies the Stuttgart software company and Matrix Vision GmbH (MV). This will bring the strategic alignment and improve their capability for supplying integrated automation solutions from one provider.
Reasons to Purchase this Report:
The segment that is expected to dominate the market as well as the segment which holds highest CAGR in the forecast period.
Regions/Countries that are expected to witness the fastest growth rates during the forecast period.
The latest developments, market shares, and strategies that are employed by the major market players.
Speak to Author :
https://www.databridgemarketresearch.com/speak-to-analyst/?dbmr=asia-pacific-functional-safety-products-market
Key insights in the report:
Complete and distinct analysis of the market drivers and restraints
Key Market players involved in this industry
Detailed analysis of the Market Segmentation
Competitive analysis of the key players involved
About Us:
Data Bridge Market Research set forth itself as an unconventional and neoteric Market research and consulting firm with unparalleled level of resilience and integrated approaches. We are determined to unearth the best market opportunities and foster efficient information for your business to thrive in the market.
Contact:
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Tel: +1-888-387-2818
Email: [email protected]
Functional Safety Products Market Similar Report Here:
Condiments and Seasoning Market
Smoking Cessation and Nicotine De-Addictions Market
#Functional Safety Products Market#Functional Safety Products Market share#Functional Safety Products Market size#Functional Safety Products Market trends#Functional Safety Products Market news#Functional Safety Products Market report
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Global Aerospace Fiber Optic Sensors Market Overview 2019-2025: Micron, Opsens Industrial, Honeywell, Omron, FISO Technologies Inc.
The "Aerospace Fiber Optic Sensors market" report offers an influential source to assess the Aerospace Fiber Optic Sensors market and back the preemptive and strategic decision-making. It entails the straightforward statistics and comprehensive scurrility of the market. Also, it provides the major leading market players Micron, Opsens Industrial, Honeywell, Omron, FISO Technologies Inc., Proximion AB, Technica Optical Components, Technobis, Smart Fibres, IFOS across the world with particulars such as market share, product specifications & images, contact details, sales, and company profiles.
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The report conjointly categorizes the market into main product kind Temperature Sensor, Pressure sensors, Strain Sensor, Others and the sub-segments Health monitoring for airframes, Health monitoring engines, Health monitoring external environment of the Aerospace Fiber Optic Sensors market are depicted in the report.The Aerospace Fiber Optic Sensors market report provides the major growth factors and limitations that notably affect the market growth summarized data about the past and present status of the Aerospace Fiber Optic Sensors market globally. The report also includes an evaluated impact of government’s rules and policies over the market in the future. The market report preparation needs an in-depth research study to understand the market growth; and various analytical methods such as SWOT analysis to obtain the information appropriate to analyze the upcoming economic fluctuations related to the current market growth pattern of the market, which is based on the present data.
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Detailed information available in the global Aerospace Fiber Optic Sensors market report
The global Aerospace Fiber Optic Sensors market report offers detailed futuristic viewpoints on the major as well as minor factors that may boom up or restrict the market growth. The report provides analytical data that can change the competitive dynamics in the market and will also provide a regional segmentation of the overall market on a global level. The report provides in-detail data to understand the major market segments that help in making business decisions on the basis of production, demand, and sales of the product according to the analysis of market segments at regional and application basis. It provides market forecast data for upcoming years based on the growth prediction structure of the market in the future. The report provides graphical data with figures and pictures for clarification.
There are 15 Chapters to display the Global Aerospace Fiber Optic Sensors market
Chapter 1, Definition, Specifications and Classification of Aerospace Fiber Optic Sensors , Applications of Aerospace Fiber Optic Sensors , Market Segment by Regions;
Chapter 2, Manufacturing Cost Structure, Raw Material and Suppliers, Manufacturing Process, Industry Chain Structure;
Chapter 3, Technical Data and Manufacturing Plants Analysis of Aerospace Fiber Optic Sensors , Capacity and Commercial Production date, Manufacturing Plants Distribution, R&D Status and Technology Source, Raw Materials Sources Analysis;
Chapter 4, Overall Market Analysis, Capacity Analysis (Company Segment), Sales Analysis (Company Segment), Sales Price Analysis (Company Segment);
Chapter 5 and 6, Regional Market Analysis that includes United States, China, Europe, Japan, Korea & Taiwan, Aerospace Fiber Optic Sensors Segment Market Analysis (by Type);
Chapter 7 and 8, The Aerospace Fiber Optic Sensors Segment Market Analysis (by Application) Major Manufacturers Analysis of Aerospace Fiber Optic Sensors ;
Chapter 9, Market Trend Analysis, Regional Market Trend, Market Trend by Product Type Temperature Sensor, Pressure sensors, Strain Sensor, Others, Market Trend by Application;
Chapter 10, Regional Marketing Type Analysis, International Trade Type Analysis, Supply Chain Analysis;
Chapter 11, The Consumers Analysis of Global Aerospace Fiber Optic Sensors ;
Chapter 12, Aerospace Fiber Optic Sensors Research Findings and Conclusion, Appendix, methodology and data source;
Chapter 13, 14 and 15, Aerospace Fiber Optic Sensors sales channel, distributors, traders, dealers, Research Findings and Conclusion, appendix and data source.
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Reasons for Buying this Report
This report provides pin-point analysis for changing competitive dynamics
It provides a forward looking perspective on different factors driving or restraining market growth
It provides a six-year forecast assessed on the basis of how the market is predicted to grow
It helps in understanding the key product segments and their future
It provides pin point analysis of changing competition dynamics and keeps you ahead of competitors
It helps in making informed business decisions by having complete insights of market and by making in-depth analysis of market segments
Thanks for reading this article; you can also get individual chapter wise section or region wise report version like North America, Europe or Asia.
Thanks for reading this article; you can also get individual chapter wise section or region wise report version like North America, Europe, South America, Middle East & Africa.
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Laser Sensor Market Size, Status and Forecast to 2027
Laser sensors are generally consists of optical components, photoelectric devices, and lasers, which use laser technology for measurement of various parameters based on its application. These sensors help detect presence of small objects based on position or light intensity, by convert physical measured value into an analogue electrical signal or optical signal. Laser sensors can be used on various reflective surfaces, materials and colors, and in many sectors of industry and research for distance measurement.
Owing to structurally simple, adaptable, easy to manufacture and high precision attributes, laser sensors find increasing application in height measurement, thickness measurement, weld gap detection, train and railroad inspection, crane positioning and others.
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The global laser sensor market includes large number of players. Some of the key players are Keyence Corporation, Panasonic Corporation, LAP GmbH Laser Applications, Banner Engineering Corp., Optex Co., Ltd, Schmitt Industries, Inc., OMRON Corporation, MTI Instruments Inc., Technos Instruments, Rockwell Automation, Inc. and Micro-Epsilon.
In May 2019, Banner Engineering Corp., a leading player in laser sensor market, introduced SI-RF Series RFID Safety Switches to monitor the status and position of doors, gates and similar guards, separating personnel and equipment from a hazard. The switches are consist of a RFID coded actuator and an RFID safety sensor which work in easy-to-deploy pairs.
In May 2019, Panasonic Corporation announced the launch of ‘Nymbus’ – the first of its kind smart EV charging service in India. The new service, designed and developed to cater the growing Indian mobility market, combines various physical components such as charging stations, telematics systems, and others with virtual components including AI, cloud service, and analytics to deliver one stop solution.
In March 2019, Keyence Corporation released its new Image-based Laser Sensor IX Series, which enables accurate height confirmation even with displaced or misaligned targets. With the new sensor, height confirmation can be performed over an entire area with a single device and for multiple location.
LAP GmbH Laser Applications
Founded in 1984, LAP GmbH Laser Applications is based in Lüneburg, Germany, and operates across Europe, America, and Asia. The company manufacturers and market laser measurement systems, and offers a range of line lasers, sensors, projectors, and patient alignment and virtual simulation systems.
Optex Co., Ltd.
Established in 1979, Optex Co., Ltd. is headquartered in Otsu, Japan, and primarily specializes in developing, manufacturing, and selling sensing technology worldwide. The company provides a line of indoor & outdoor sensors, automatic door sensors, fiber optical sensors, IR photo beams, CCTV lighting, and remote video surveillance services.
Schmitt Industries, Inc.
Founded in 1984, Schmitt Industries, Inc.is based in Portland, Oregon, and designs, manufacturers, and sells test and measurement products across the world. The company offers its products under various trademarks including SBS, SMS, Xact, Lasercheck, Acuity, and AccuProfile.
OMRON Corporation
Established in 1933, OMRON Corporation is headquartered in Kyoto, Japan, and specializes in manufacturing and supply of automation components, equipment, and systems worldwide. The company is also generally known for medical equipment including digital thermometers, nebulizers, and blood pressure monitors.
MTI Instruments Inc.
Founded in 1961, MTI Instruments Inc.is headquartered in Albany, New York, and operates as a subsidiary of Mechanical Technology, Incorporated. The company designs, manufactures, and markets non-contact measurement systems and sensors for position, vibration, displacement, thickness, and dimensional gauging applications.
Laser Sensor Market – Dynamics
With increasing focus of key manufacturers on smart and miniature products along with designs responsive to modern production techniques which help improve the overall reliability of the product, the laser sensor market has been gaining rising momentum over the years. Growing adoption of laser sensors in manufacturing plant management and automation applications for measuring displacement, distance, and positions continue to drive the market growth. Further, enhanced range of laser sensors are growing in demand across food & beverage industry, in order to ensure high accuracy in measuring dimensions such as height, diameter and thickness. Significant demand for laser sensors across various end-use industries can be attributed to their ability withstand strong environment such as strong radiation and strong magnetic field. Moreover, increasing adoption of automation technologies to replace aging workforce and outdated technologies, increasing government initiatives to promote the manufacturing sector, and rapid technological advances remain the key aspects accelerating the growth of laser sensor market.
For more actionable insights into the competitive landscape of global market, get a customized report here.
Growing need to improve manufacturing productivity and industrial growth has directly influenced the demand for laser sensors that help ensure measurement and quality task control in various manufacturing inspection application. Further, with depletion of conventional resources and increasing greenhouse emissions, several countries are shifting their focus towards renewable resources to produce power, which in turn has advanced the application of laser sensors in wind energy generation. Prospects of the laser sensor market remain promising, as key manufacturers are focusing on the development of small size sensors that would help achieve special measurements and work at extreme temperature conditions.
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Fiber Bragg Grating Sensors Market Research Report 2018
In this report, the global Fiber Bragg Grating Sensors market is valued at USD XX million in 2017 and is expected to reach USD XX million by the end of 2025, growing at a CAGR of XX% between 2017 and 2025.
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Geographically, this report is segmented into several key Regions, with production, consumption, revenue million USD, market share and growth rate of Fiber Bragg Grating Sensors in these regions, from 2013 to 2025 forecast, covering
United States
EU
China
Japan
South Korea
Taiwan
Global Fiber Bragg Grating Sensors market competition by top manufacturers, with production, price, revenue value and market share for each manufacturer; the top players including
Micron Optics
Honeywell
FISO Technologies
Omron
FBGS TECHNOLOGIES GMBH
Proximion
Smart Fibres Limited
Sensornet
ITF Labs / 3SPGroup
Keyence
IFOS
NORTHROP GRUMMAN
O/E LAND, Inc
KVH
Photonics Laboratories
Chiral Photonics
FBG TECH
OPTOcon GmbH
Redondo Optics
Broptics
Wutos
Pegasus Qingdao Optoelectronics
BEIYANG
Bandweaver
DSC
On the basis of product, this report displays the production, revenue, price, market share and growth rate of each type, primarily split into
Pressure Sensors
Temperature Sensors
Strain Sensors
Displacement Sensors
Accelerometer
On the basis of the end users/applications, this report focuses on the status and outlook for major applications/end users, consumption sales, market share and growth rate for each application, including
Industrial Engineering
Aerospace Industry
Medical
Environment
If you have any special requirements, please let us know and we will offer you the report as you want.
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Global Top 10 Sensors Market Competition & Beneficial Applications : Temperature, Image , Motion Sensors
Qyresearchreports include new market research report 2012-2022 Report on Global Top 10 Sensors Market Competition, Status and Forecast, Market Size by Players, Regions, Type, Application to its huge collection of research reports.
The global Top 10 Sensors market offered here is done with the express purpose of giving its readers a firm grasp of the present as well as the upcoming trends and other factors of influence on the markret. This also includes the factors pertaining to business opportunities and likely strategies that could be implemented. Using a perfect combination of primary and secondary research, the authors of the report offer a deep study of Top 10 Sensors, so as to help interested parties secure a strong foothold in the market. Although there could be some factors restraining the growth of the market, the report authors identify potential prospects capable of bringing the demand back to the industry. Participants could count their future plans on these analytical findings to stay afloat in the competitive environment of the market.
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With regard to competition, the report sheds light on some of the leading companies of the Top 10 Sensors. The company profiling section could include an evaluation of their business products, specifications, revenue, and future business plans. The analysts also gauge the nature of the market and its competitive landscape with the help of statistics and deeper knowledge gained through extensive research. The market shares of different players studied in the report could provide a clear understanding of how the market will be contributed to in the near future.
Each segment, be it related to product, application, or region, is highly evaluated for its potential to draw growth and add to the demand in the Top 10 Sensors. Forecast statistics with the latest years taken into consideration are provided to relate to the growth of the overall market and also its individual segments.
Table of Contents
1 Top 10 Sensors Market Overview
1.1 Research Scope of Top 10 Sensors
1.2 Top 10 Sensors Market Overview
1.3 Pressure Sensors
1.3.1 Pressure Sensors Segment by Type
1.3.1.1 MEMS Pressure Sensor
1.3.1.2 Pressure TransducerTransmitter
1.3.2 Pressure Sensors Segment by Application
1.3.2.1 Automotive
1.3.2.2 Medical
1.3.2.3 Industrial
1.3.2.4 Utility
1.3.2.5 Consumer Electronics
1.3.2.6 Oil & Gas Industry
1.4 Temperature Sensors
1.4.1 Temperature Sensors Segment by Type
1.4.1.1 Bimetallic Temperature Sensor
1.4.1.2 Infrared Temperature Sensors
1.4.1.3 Fiber Optic Temperature Sensors
1.4.2 Temperature Sensors Segment by Application
Browse Complete Report with TOC @ http://www.qyresearchreports.com/report/2012-2022-report-on-global-top-10-sensors-market-competition-status-and-forecast-market-size-by-players-regions-type-application.htm
2 Pressure Sensors Market Overview
2.1 Global Pressure Sensors Overall Market Size
2.1.1 Global Pressure Sensors Production, Status and Forecast, (2012-2022)
2.1.2 Global Pressure Sensors Revenue, Status and Forecast, (2012-2022)
2.2 Pressure Sensors Production and Revenue by Regions
2.2.1 Global Pressure Sensors Production by Regions, Status and Forecast, (2012-2022)
2.2.2 Global Pressure Sensors Revenue by Regions, Status and Forecast, (2012-2022)
2.2.6 United States
2.2.4 Europe
2.2.5 China
2.2.6 Japan
2.2.7 Taiwan
2.3 Pressure Sensors Consumption by Regions
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The Global Market for Fiber Optic Sensors is Projected to Reach US$4.7 Billion by 2024
The Massive Yet Untapped Potential of Sensing in Myriad Application Areas Including Aerospace/Defense and Oil & Gas to Drive the Fiber Optic Sensors Market, According to a New Report by Global Industry Analysts, Inc.
GIA launches comprehensive analysis of industry segments, trends, growth drivers, market share, size, and demand forecasts on the global Fiber Optic Sensors market. The global market for Fiber Optic Sensors is projected to reach US$4.7 billion by 2024, driven by the growing importance of sensing in an intelligent world as a vital need in internetworking of electronic devices and M2M communications and the resulting expansion of applications in myriad industrial and commercial sectors including automotive, healthcare, oil and gas and aerospace/defense.
The field of fiber optics experienced tremendous advancement and growth over the last 25 years. The emergence of fiber optic sensors (FOS) as an offshoot of telecommunications was first designed with the objective of measuring the performance and status of optical fiber networks that are used for the transmission of voice/data signals across the world. Optical networks require uninterrupted monitoring in order to ensure accurate transmission of these signals along the fibers. FOS are poor conductors of electricity and highly resistant to electromagnetic interference, and hence could be used in applications involving high voltage electricity or flammable substances such as jet fuel.
These sensors have become indispensable tools for monitoring optical networks, oil reservoirs, and condition of bridges and pipelines, among several others; and are now being used in a wide range of application areas including oil & gas, civil construction, and aerospace & defense. The physical phenomena and properties that could be sensed optically using fiber optic sensors include temperature, electric field, displacement, light intensity, pressure, strain, rotation, electric field, magnetic field, sound, radiation, chemical analysis, liquid level, flow and vibration. While legacy technologies do not always provide the necessary data to understand efficiently about the composite component’s behavior when used in real world conditions, a fiber optic sensor with diverse capabilities provide spatially continuous data and allow users to monitor the entire temperature gradients and strain fields with a single sensor.
Aerospace/ Defense is a key end-use market and a major revenue generator for fiber optic sensors. FOS have been in use for long in the defense sector for guidance and control of munitions and highly critical area of perimeter security. Just like in military aerospace sector, fiber optic sensors are used for monitoring commercial aircraft in civil aviation sector in order to analyze fitness of the aircraft and measure deflections in aircraft components. Addition of new aircraft fleet by commercial airlines in order to serve growing passenger traffic and airfreight volume will increase use of FOS in this segment. Use of these sensors in Oil & Gas exploration is also increasing particularly for monitoring health and performance of oil wells/reservoirs, downhole P/T sensing, and seismic arrays. Steady gains in construction spending in developing countries also augur well for market growth.
As stated by the new market research report on Fiber Optic Sensors, the United States represents the largest market worldwide. Asia-Pacific ranks as the fastest growing market with a CAGR of 11.4% over the analysis period, led by factors such as rapid pace of industrialization and robust investment in smart industrial/manufacturing infrastructure; growing replacement of electronic sensors with FOS; government policy led focus on smart cities and transportation and the ensuing expansion of opportunities in automotive and smart home applications; growing emphasis on environment preservation as a result of stringent regulations and the ensuing emergence of new opportunities in environmental monitoring.
Key players in the market include Avantes B.V., Baumer Group, Davidson Instruments Inc., EXFO Inc., Halliburton, Honeywell International Inc., Intelligent Fiber Optics Systems Corp., Keysight Technologies Inc., KVH Industries Inc., LUNA Innovations Inc., Micron Optics Inc., Northrop Grumman Corp., O/E LAND Inc., Ocean Optics Inc., Optrand Inc., Prime Photonics, Roctest Ltd., FISO Technologies Inc., Schlumberger Ltd., Sensa, Sensornet Ltd., Sensuron, Weatherford International Ltd., and Ziebel AS, among others.
The research report titled “Fiber Optic Sensors: A Global Strategic Business Report” announced by Global Industry Analysts Inc., provides a comprehensive review of market trends, drivers, issues, and recent industry activity of major players worldwide. The report provides market estimates and projections in US dollars for all major geographic markets including the United States, Canada, Japan, Europe (France, Germany, Italy, UK, Spain, Russia and Rest of Europe), Asia-Pacific (China, South Korea and Rest of Asia Pacific), Latin America (Brazil, and Rest of Latin America), and Rest of World. The report also analyzes the market by Extrinsic Fiber Optic Sensors and Intrinsic Fiber Optic Sensors. Global market is further analyzed by the end-use segments – Aerospace, Defense & Security; Oil & Gas Exploration; Industrial; Smart Structures; and Others.
To connect with us, visit our LinkedIn page.
Global Industry Analysts, Inc. 6150 Hellyer Ave., San Jose CA 95138, USA, All Rights Reserved.
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Annual Laser Market Review & Forecast: Where have all the lasers gone?| Wholesale Han's Laser Engraving Machine
Laser companies both small and large are feeling the recent surge of tech-sector M&A activity. Whether a time-to-market or portfolio expansion play, the details reveal much about where the laser industry is headed in the next decade—notwithstanding surprises related to Brexit or U.S. elections.
Han's Laser Technology Industry Group Co., Ltd, a public company that is established in 1996, has now become the flagship of Chinese national laser industry and the world's famous laser equipment manufacturer. Web: https://us.hanslaser.net, Tel: (+1) 408-774-9428,Email: [email protected].
Once considered a solution in search of a problem, the laser has become an important tool forging the next generation of innovative technologies.1 And while many laser manufacturers are content to focus on a pure-play laser portfolio and trump the worldwide economic slowdown2 with mid-single-digit sales growth, many laser—and increasingly, non-laser—companies are keen to leverage the intellectual property (IP) value of laser technology and speed time to market.
Unfortunately, it becomes more difficult to forecast pure laser sales when a laser is just one component of a vertical or upstream systems offering. The laser revenue gets lost in the shuffle, especially when quarterly financial statements from multinational conglomerates seldom call out the product or technology mix that contributes to the bottom-line numbers.
So, where have all the lasers gone? Whether part of a technology portfolio acquired by a non-laser company seeking IP differentiation and time-to-market leverage, absorbed by another pure-play laser manufacturer looking to grow its product portfolio, or remaining intact as a non-commodity specialty product that meets niche market demands, you can bet that lasers are coming to an airport, hardware store, holiday display, theatre, auto dealership, or dental/medical office near you.
For all that they do, lasers will continue to be instrumental in existing and emerging markets worldwide that will, by our estimates, grow laser sales to nearly $11.1 billion in 2017—a roughly 6.6% increase from the revised $10.4 billion in sales for 2016. The secret is out: laser-enabled technologies are big business, and some companies are ripe for picking.
"Market consolidation is normal when products mature and enter commodity status," says Markus Röhner, director of sales in the Healthcare Business Unit of Jenoptik (Jena, Germany), whose laser segment is focused on diode and ultrafast lasers for automotive, medical technology, and materials processing applications. "Economic growth rates have been stuck at a few percent in the last few years and in order to increase sales and revenue, entering new markets is appealing. Even though product complexity has increased over the last few decades, there is pressure to shorten development times for new technologies—contrary trends that impose 'make or buy' decisions crucial to a smart development strategy."
Consider what has happened to light detection and ranging (lidar) laser technologies, for example. "In August of 2016, lidar company Quanergy Systems joined autonomous robotics startup Zoox as a member of the billion-dollar-valuation unicorn club, Ford and Chinese Internet company Baidu invested $150 million in Velodyne,3 and in October 2016, Infineon complemented its radar IC portfolio with MEMS chips for solid-state laser lidar by acquiring Innoluce," says Alex Lidow, founder and CEO of Efficient Power Conversion Corporation (EPC; El Segundo, CA), manufacturer of gallium-nitride (GaN) power semiconductors that enable lasers to emit and detect photons 100X faster than silicon devices for centimeter ranging resolution. "It's no secret that lidar has emerged as one of the hottest laser-enabled technologies in recent memory, but what is surprising is how rapidly—a short 2 to 3 years—the technology went from Google-car curiosity to mainstream driver-assist implementation."
There is a reason lidar is becoming ubiquitous.4 The ranging capability of lasers cannot be matched by visual camera technology-case in point: the Tesla car on Autopilot could have seen that semi-trailer truck and avoided the tragic collision that made headlines in late June 2016 had it been equipped with a lidar system.5
Despite this consumer setback, Lidow predicts that merger and acquisition (M&A) activity in the autonomous vehicle market will continue as companies seek to differentiate their lidar systems offering and enter the market faster with lower-cost lidar options. In fact, the Cars 2025: Vol. 3 Global Investment Research report from the Goldman Sachs Group (New York, NY) entitled "Monetizing the rise of Autonomous Vehicles"6 predicts that lidar will be a $10.6 billion—yes, billion—market by 2025.
In August 2016, Bloomberg (New York, NY) reported that Uber's acquisition of self-driving technology company Otto7would allow Uber to replace its 100 million human drivers with robot drivers as quickly as possible. Lidow sees lidar as the sensor of choice not only for self-driving cars and driver assistance, but also for drone navigation and autonomous industrial robotics.
"Whenever you hear the word 'autonomy,' you can bet that optical sensing technology will be key and photons will be running around somewhere," says Mark Bendett, strategist in the Advanced Technology Laboratories of Lockheed Martin (Cherry Hill, NJ). Bendett argues that the investment, consolidation, and M&A activity in the lidar sector is consistent with the maturity, commoditization, and reliability of laser technology—whether in the defense, medical, or industrial markets. "Directed-energy weapons are moving from R&D experiments to real-world deployment on ships as well as on other ground and air defense systems, and ultrafast lasers are the workhorses of ophthalmology and materials processing."
But lidar and LASIK surgery didn't pop up overnight, Bendett emphasizes. "IMRA got it right with femtosecond fiber laser technology8 for ophthalmic applications in the mid-1990s. Not only did they manufacture a laser that machined human tissue, they also built tens and then hundreds of lasers that each delivered identical performance parameters over and over, year after year. And in 1992-1997, they prototyped autonomous vehicle lidar systems that are just now cheap enough and reliable enough for implementation on a commercial scale," he adds.
"Laser technology seems to come out in bursts, but markets are driven by the dollar. Even though 3D holograms9 were neat to laser technologists decades ago, the flat-screen experience will only be replaced with something like holographic television when the technology is cost-effective for the masses," says Bendett. "Lidar has finally arrived as $80,000 system prices have dropped to $8000 and soon to just hundreds of dollars. The flurry of laser M&A activity in the lidar sector is following a historic progression wherein the 'invention' stage of a technology is replaced by a 'reliability, incremental improvement, and cost-reduction' stage."
Wholesale & Retail Laser Engraving/Etching Machine -- Han's Laser Since 1996
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