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industrynewsupdates · 8 months ago

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Market Dynamics: An Overview of the Microwave Devices Market

The global microwave devices market was valued at USD 7.49 billion in 2022 and is projected to grow at a compound annual growth rate (CAGR) of 5.9% from 2023 to 2030. This growth is largely driven by the increasing use of Silicon Carbide (SiC) and Gallium Nitride (GaN) devices in emerging amplifier technologies. Microwave devices are known for their high efficiency and excellent heat tolerance, making them suitable for operation in demanding environments. Advanced microwave technologies, which offer improved accuracy, are being adopted in telecommunication applications. Their high bandwidth allows for rapid data transmission, and these devices are capable of generating, amplifying, detecting, and measuring microwaves effectively.

In the Asia Pacific region, significant contributions are being made to the communication sector. The rollout of telecom network bands, such as 4G, has facilitated the integration of microwave-emitting hardware in network towers, which is expected to bolster regional market growth during the forecast period. Countries like the UK and Germany are also playing vital roles in industry expansion, thanks to the presence of key vendors including e2v, Thales Group, and TMD Technologies Ltd.

These companies provide a wide array of products, including power modules, amplifiers, and transmitters. The increasing investments in research and development by leading industry players are fostering the creation of innovative and advanced microwave devices, which are pivotal in the connected technology space, broadening access to a larger consumer base.

Gather more insights about the market drivers, restrains and growth of the Microwave Devices Market

Band Frequency Insights

The C-band segment of the microwave devices market accounted for the largest revenue share, capturing 31.1% in 2022. This frequency band is widely utilized across various sectors, which contributes significantly to its popularity and revenue generation. Notably, the C-band is essential in satellite communications, where it enables the transmission of signals to and from satellites orbiting the Earth. This capability makes it invaluable for a range of applications, including television broadcasting, where it is used for satellite TV services, as well as in telecommunications, where it supports mobile networks.

Affordability is a key characteristic of the C-band, which makes it particularly appealing for communication applications, such as fiber optics. In fiber optic systems, C-band frequencies are often employed for data transmission, allowing for high-capacity communication links. Additionally, the C-band is extensively used in radio transmissions, serving as a medium for broadcasting audio signals to a wide audience. Its versatility extends to scientific applications as well, particularly in particle accelerators, where it facilitates the generation and manipulation of particles for research purposes. The diverse applications of C-band microwave devices are significantly driving global demand, as industries increasingly rely on their efficiency and effectiveness for various operational needs.

In contrast, the X-band segment is anticipated to experience the fastest expansion, with a projected compound annual growth rate (CAGR) of 7.6% during the forecast period. The growth of the X-band can be attributed to its diverse range of applications, which includes satellite communications, radar systems, and medical imaging technologies. In satellite communications, X-band frequencies are crucial for military and commercial satellite systems, providing secure and reliable communication channels.

X-band microwave devices offer several distinct advantages over other types of microwave devices. One of the primary benefits is their ability to transmit and receive signals over long distances. This capability is particularly important in applications like radar, where long-range detection and monitoring are critical. The high bandwidth of X-band devices also enables the transmission of large amounts of data quickly, which is essential for real-time applications such as air traffic control and weather monitoring.

Furthermore, X-band devices exhibit a notable resistance to interference, which is a significant advantage in environments where multiple signals are present. This resilience allows them to maintain signal integrity and quality, making them a preferred choice for various applications, including medical imaging systems like MRI machines, where precise imaging is vital.

The anticipated growth in the X-band segment reflects the increasing demand for advanced communication and imaging technologies across various industries. As industries continue to adopt more sophisticated microwave devices, the importance of both C-band and X-band segments in driving innovation and meeting market needs cannot be overstated. Overall, the continued development and deployment of microwave devices in these frequency bands will play a crucial role in shaping the future of telecommunications, scientific research, and medical applications.

Order a free sample PDF of the Microwave Devices Market Intelligence Study, published by Grand View Research.

#Microwave Devices Market #Microwave Devices Market Analysis #Microwave Devices Market Report #Microwave Devices Industry

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lalsingh228-blog · 1 year ago

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Airport Transceivers Market May Set New Growth Story

The Latest research coverage on Airport Transceivers Market provides a detailed overview and accurate market size. The study is designed considering current and historical trends, market development and business strategies taken up by leaders and new industry players entering the market. Furthermore, study includes an in-depth analysis of global and regional markets along with country level market size breakdown to identify potential gaps and opportunities to better investigate market status, development activity, value and growth patterns. Access Sample Report + All Related Graphs & Charts @: https://www.advancemarketanalytics.com/sample-report/12096-global-airport-transceivers-market

Major & Emerging Players in Airport Transceivers Market:- Hytera Communications (China), Sepura plc (United Kingdom), Servicios de Radio Wavenet (Spain), Systems Interface (United Kingdom), Telerad (France), Almaz-Antey (Russia), Holmberg GmbH & Co. KG (Germany), Rohde & Schwarz Gmbh & Co. Kg (Germany). The Airport Transceivers Market Study by AMA Research gives an essential tool and source to Industry stakeholders to figure out the market and other fundamental technicalities, covering growth, opportunities, competitive scenarios, and key trends in the Airport Transceivers market. A transceiver is defined as a device that can transmit and receive signals. The main function of airport transceivers is handling analog or digital signals in order to ensure that there will be no loss of signal. Increasing usage of airport transceivers in various applications such as military, civil and others is likely to be a prime driver for the global airport transceivers market. Although, the introduction of smaller, cheaper, and energy-efficient transceivers is creating new opportunities for the growth of the market for airport transceivers.

The titled segments and sub-section of the market are illuminated below: by Application (Military, Civil, Others), End Use (Walkie-Talkie, Radio Transceiver, Audio Panel, Intercom, Others), Network (Very High-Frequency Network (VHF), Ultra High-Frequency Network (UHF), High-Frequency Network (HF), Amplitude Modulation Network (AM)) Market Trends: Technology Advancement in Airport Transceivers Productâ€™s

Opportunities: Extension of Network in Developing Countries

Rising Demand from Emerging Economies such as China and India

Market Drivers: Increasing Internet Penetration and Data Traffic

Increasing usage of Airport Transceiver in Various Application

Mainstream Adoption of Cloud Computing

Challenges: Continuous Optimization of Component Size Enquire for customization in Report @: https://www.advancemarketanalytics.com/enquiry-before-buy/12096-global-airport-transceivers-market Some Point of Table of Content: Chapter One: Report Overview Chapter Two: Global Market Growth Trends Chapter Three: Value Chain of Airport Transceivers Market Chapter Four: Players Profiles Chapter Five: Global Airport Transceivers Market Analysis by Regions Chapter Six: North America Airport Transceivers Market Analysis by Countries Chapter Seven: Europe Airport Transceivers Market Analysis by Countries Chapter Eight: Asia-Pacific Airport Transceivers Market Analysis by Countries Chapter Nine: Middle East and Africa Airport Transceivers Market Analysis by Countries Chapter Ten: South America Airport Transceivers Market Analysis by Countries Chapter Eleven: Global Airport Transceivers Market Segment by Types Chapter Twelve: Global Airport Transceivers Market Segment by Applications What are the market factors that are explained in the Airport Transceivers Market report?

– Key Strategic Developments: Strategic developments of the market, comprising R&D, new product launch, M&A, agreements, collaborations, partnerships, joint ventures, and regional growth of the leading competitors.

– Key Market Features: Including revenue, price, capacity, capacity utilization rate, gross, production, production rate, consumption, import/export, supply/demand, cost, market share, CAGR, and gross margin.– Analytical Tools: The analytical tools such as Porter’s five forces analysis, SWOT analysis, feasibility study, and investment return analysis have been used to analyze the growth of the key players operating in the market. Buy This Exclusive Research Here: https://www.advancemarketanalytics.com/buy-now?format=1&report=12096 Definitively, this report will give you an unmistakable perspective on every single reality of the market without a need to allude to some other research report or an information source. Our report will give all of you the realities about the past, present, and eventual fate of the concerned Market. Thanks for reading this article; you can also get individual chapter wise section or region wise report version like North America, Europe or Asia. Contact US : Craig Francis (PR & Marketing Manager) AMA Research & Media LLP Unit No. 429, Parsonage Road Edison, NJ New Jersey USA – 08837 Phone: +1 201 565 3262, +44 161 818 8166 [email protected]

#Global Airport Transceivers Market #Airport Transceivers Market Demand #Airport Transceivers Market Trends #Airport Transceivers Market Analysis #Airport Transceivers Market Growth #Airport Transceivers Market Share #Airport Transceivers Market Forecast #Airport Transceivers Market Challenges

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pressreleasestrendsz · 3 years ago

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Optical Interconnect Market - Forecast (2022 - 2027)

The global

Optical Interconnect Market

size is forecasted to reach $17.5 billion by 2027, growing at a CAGR of 8.46% during the forecast period from 2022-2027. Globally, growing adoption of cloud computing across organizations to increase business efficiency is set to drive the Optical Interconnect market. As demand for high speed and large capacity communications increases, optical interconnect technology based on silicon photonics has become an emerging technology for solving the bandwidth problems can be considered as a major factor driving the market growth of Optical Interconnect Market. Presently, optical interconnects are used in data centers and broadband telecommunication networks can also considered as a factor influencing the market growth. Furthermore, Fiber network cables are physically connected to optical transceivers coupled with integrated lasers and detectors which have the capability of transmitting as well as receiving an optical signal. Such Embedded optical transceivers and transceiver modules coupled with Reflex Photonics technology can be used for advancing optical interconnect based solutions. Such factors can be considered vital in boosting the market growth of Optical Interconnect during the forecast period 2022-2027.

Report Coverage

The report based on:

“Optical Interconnect Market-Forecast (2022-2027)”

, by IndustryARC, covers an in-depth analysis of the following segments of Optical Interconnect Market Industry Outlook.

By Cable Type–

Single-Mode, Multi-Mode

By Interconnect Level –

Metro and Long Haul Optical Interconnect, Board-to-Board and Rack-level Optical Interconnect, Chip and Board Level Optical Interconnect

By Data Rate –

Less than 10 Gpbs, 10-40 Gpbs, 40-100 Gpbs, more than 100 Gpbs

By Distance-

less than 1 Km, 1-10 Km, 10-100 Km, more than 100 Km

By Application:

Telecommunications, Data Communications, Others.

By Geography:

North America (US, Canada, Mexico),Europe (U.K., Germany, Italy, France, Spain & Others), APAC (China, Japan, South Korea, India, Australia & Others),South America (Brazil, Argentina & Others),RoW (Middle East & Africa)

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Key Takeaways

Multi-mode cable is analyzed to witness the fastest growth with the highest CAGR of 9.25%, owing to growing shift of cloud-based data management.

Data communications is the fastest growing segment in Optical Interconnect Market and is estimated to grow at around CAGR 9.48% during the forecast period, owing to growth of cloud computing applications and rise in number of data centers.

North America Optical Interconnect Market held the largest share in 2021; owing to factor such as high investment on adopting high data rate optical interconnect in data centers from major market players in the region like Google LLC, Amazon and others.

Growing adoption of Cloud computing across organizations and rising number of data centers across the world are analyzed to significantly drive the global Optical Interconnect market during the forecast period 2022-2027.

Optical Interconnect Market Segment Analysis-ByCable Type

Based on cable type, the Optical Interconnect market is segmented into Single-Mode and Multi-Mode. Multi-mode analyzed to witness the fastest growth with the highest CAGR of 9.25%during the forecast period 2022-2027, owing to rapid adoption of cloud computing and growing shift of cloud-based data management. Compared to single mode cable, multi mode fiber cable provides higher bandwidth at rapid speed over medium distances at lesser cost, thus raising its adoptability among data centers. Multi mode fiber cables are used for various applications such as data communications, broadcasting, military and healthcare purposes which increases the rate of adoption among industries. Furthermore, technological advancement in fiber optical cable can be a key factor in driving the growth of this segment. Such trends are set to drive its market growth in the long run.

Optical Interconnect Market Segment Analysis-By Applications

Based on applications, Data communications dominated the Optical Interconnect market with a share of 9.48% in 2021 and is also anticipated to witness significant growth during 2022-2027, owing to growth of cloud computing applications and rise in number of data centers. Optical interconnects are used as an attractive solution for accelerating bandwidth while reducing density and power consumption in high performance data communication systems, thus raising its adoptability. As per IEEE Communications Society survey in 2019, optical networks could provide up to75% energy savings in the data centers. Large data centers has significant interest in disposition of optical interconnect due to its high bandwidth and low latency. Such factors can be considered vital in boosting the market growth of optical interconnects in the long run.

Optical Interconnect Market Segment Analysis-By Geography

North America region accounted for the largest share of 36% in the global Optical Interconnect Market and is anticipated to have a significant growth during the forecast period the forecast period 2022-2027, owing to growing shift towards cloud computing or cloud-based environments. As per Cisco Systems Report, the cloud traffic is estimated to reach around 6844 Exabyte in 2021in North America, compared to other regions in the world. Such fact is vital for creating scope for the market. Moreover, high investment on adopting high data rate optical interconnect in data centers from some of the major market players in the region such as Google LLC, Amazon, Microsoft Corporation and others along with availability of technical expertise have also helped in aiding the market growth overtime. For instance in March 2021, Microsoft Corporation announced to invest $200 million in building two data centers outside of Chicago to provide faster access as well as wider range of Azure cloud services in the region. Such building up of new data centers increases the demand for optical interconnect for faster transmission of data, thus raising its adoptability. Furthermore, rising demand for Optical fiber cable from IT & telecommunication sector, increasing penetration of mobile devices and rising adoption of FTTH connectivity are some of the factors that influence the market growth.

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Optical Interconnect Market Drivers

Growing demand for undersea telecommunication system is considered to be a factor that can drive the market forward.

Rising demand for undersea telecommunication system is considered to be a major driver for the growth of global optical interconnect market. Optical interconnect technology helps in receiving signals from network equipment and perform signal processing by converting digital signals to optical signals for transmission in the fiber network. The growing popularity of next-generation undersea transmission systems for faster data transmission has accelerated the demand for fiber optical interconnects to reduce the concerns such as cable damage by sharks and ship anchors. Moreover, increasing investments in next-gen undersea telecommunication systems will also increase the demand for optical interconnects. In February 2020, Facebook and global telecom majors China Mobile Ltd. and MTN Group Ltd collaborated and decided to invest $1 billion in expansion of next generation undersea telecommunication in Africa to provide faster internet connections to the African continent. Such investments can positively influence the demand for optical interconnect for reducing the damage in the long run.

Rising number of data centers can drive the market forward

Rising number of data centers across the world for purposes of storing, processing and disseminating data is set to be one of the factors that can drive the market forward during the forecast period 2022-2027.Data centers require reliable and higher bandwidth that can support to preserve the value of network’s physical infrastructure.Optical interconnects technology has emerged as the successor to electrical interconnects to address future needs for the transfer of large volume of data volumes in continuously growing data centers as well as high-end computing systems. Additionally, high investment in establishing data centers will create opportunities for the growth of the market.For instance in February 2021, Amazon India announced to invest $1.6 Billion in construction of two data centers in Hyderabad. Similarly In June 2020, Oracle Corporation planned an investment on construction of second data center in Hyderabadto offer faster access and wider range of cloud services in the region. Such investments can increase the implementation of optical interconnect technology in data centers for the need of higher bandwidth, which can influence the market growth of Optical Interconnect in the long run.

Optical Interconnect Market Challenges

High initial investments associated with optical interconnect hamper the market growth.

Though optical interconnect have lot of advantages but high initial investment associated with optical interconnect has become a prime concern for every organization which acts as a major challenge restraining the growth of Optical Interconnect Market. The cost of implementing optical interconnect is quite expensive. Budget is the most important thing considered while organizations investing in advanced tools & technologies. Owing to the above mentioned factor, use of optical interconnect technology will be significantly impacted, thus hampering its market growth.

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Optical Interconnect Industry Outlook

Partnership, Acquisitions, Collaboration, technology launches and R&D activities are key strategies adopted by players in the Optical Interconnect Market. The Optical Interconnect Market top 10 companies include:

II-VI Incorporated

Lumentum Operations LLC

Molex LLC

NVIDIA Corporation

TE Connectivity

Amphenol Corporation

Broadcom Inc.

Sumitomo Electric Industries, Ltd.

Juniper Networks, Inc.

Fujitsu Ltd.

Recent Developments

In November 2021, Lumentum Operations LLC announced to acquire NeoPhotonics Corporation. Through this acquisition, Lumentum will able to provide its optical components in fastest growing applications market such as cloud and telecommunication infrastructure to boost network speed and scalability. Such acquisitions will influence the growth of the market.

In September, 2021, TE Connectivity (TE), a global leader in connectivity and sensors, introduced the NanoRF Edge Launch connector to offer easy and standardized interface with VPX plug-in computing modules. This connector is the only solutions that can combine the RF with optical interconnect for military and radar RF embedded computing application, thus influencing the market growth positively.

In November 2020, Sterlite Technologies announced the acquisition of OptotecS.p. A, a leading provider of Optical Interconnect Products based in Italy. Through this acquisition, the companies will able to provide wide range of Optical Interconnect Products for Telecommunication, FTTH and Cloud Networks to customers across Europe, India and the Middle East. Such acquisitions will influence the growth of the market.

Relevant Report Titles:

Optical Communication and Networking Market – Forecast(2021 - 2026)

Report Code: ESR 75782

Silicon Photonics Market – Forecast (2021 - 2026)

Report Code: ESR 0133

For more Automation and Instrumentation Market reports, please click here

#Optical Interconnect Market size #Optical Interconnect Market share #Optical Interconnect Market price

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digitrenndsamr · 3 years ago

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Free Space Optics (FSO) Communication Market to Partake Significant Development during 2025

Compelled by the dynamic nature of the global free space optics market, companies are focusing on the innovation of reliable free space optics (FSO) systems and solutions to pace up with the recent technological advancements. Key companies operating in the global free space optics market such as Optelix, Mostcom Ltd., Trimble Hungary Ltd., AOptix Technologies Inc., Harris Corporation, and LightPointe Communications, Inc. are also under the constant pressure of innovating products to maintain a competitive edge, states Transparency Market Research (TMR) in a new study.

The market is currently witnessing immense growth opportunities due to the rising demand for low-cost, high-speed, and secure communication methodologies around the world. TMR has presented refined outlook for the FSO market predicting a robust CAGR of 39.5% between 2016 and 2024. At this pace, the opportunities for the global free space optics market is poised to rise from US$81.3 mn in 2015 to US$1.3 bn before 2024 ends.

Get PDF brochure for Industrial Insights and business Intelligence @ https://www.transparencymarketresearch.com/sample/sample.php?flag=B&rep_id=3263

Among the key applications segments, data transmission is expected to provide the market with the most lucrative opportunities. Regionally, North America emerged dominant with a share of 30% in the global free space optics market in 2015.

Demand for Higher Bandwidth and Speed in Communication Channels to Boost Adoption of FSO

Despite advancements in the networking technology, conventional radio frequency spectrum has proven inadequate in catering to the unprecedented growth in the demand for high-speed internet and higher bandwidth. The increasing demand for multimedia services and data streaming has thus resulted in congestion of the conventional radio frequency spectrum. Considering the scenario, an increasing number of network providers are compelled to switch to the FSO technology. The other advantages offered by the technology are rapid deployment, high fiber-like bandwidth, low operational and start-up cost, and high data transmission security.

“The rising use of FSO systems for diverse military applications such as ship-to-shore communication, ship-to-ship communication, and the communication between military bases within the range of 2 to 4 kilometers is a key factor aiding the market’s expansion,” said a lead TMR analyst.

Deterioration of Signal Quality Due to Environmental Factors Pose Fundamental Challenge to the Market

In a majority of the optical wireless technologies, it is important for light to contend with interference caused due to the complexity of the atmosphere. In FSO communication, the space through which signals propagate also present a fundamental limitation to the robustness and reliability of FSO systems. Although these communications systems remain unaffected by snow or heavy rain, they can be severely damaged by fog and atmospheric turbulence.

Nevertheless, service providers are able to launch advanced FSO systems with the increasing investment in research and development activities. The latest technological advancements promise to eliminate the impact of aforementioned interferences. Efforts are also underway to cancel the effects of scintillation on the overall quality of transmitted signal with the help of spatial diversity.

Purchase our Premium Research Report at: https://www.transparencymarketresearch.com/checkout.php?rep_id=3263&ltype=S

The study is based on findings of TMR in a report, titled “Free Space Optics Market – Global Industry Analysis, Size, Share, Growth, Trends and Forecast 2016 – 2024.”

The report segments the global free space optics market as:

Free Space Optics Market, by Components”

Transmitters

Receivers

Modulators

Demodulators

Encoders & Decoders

Others

Free Space Optics Market, by Application:

Storage Area Network

Data Transmission

Defense

Security

Airborne Applications

Healthcare

Disaster Recover

Last Mile Access

Others

Free Space Optics Market, by Geography:

North America

Europe

Asia Pacific

Middle east and Africa

Latin America

TMR Latest News Publication: https://www.prnewswire.com/news-releases/integral-use-in-fabrication-of-silicon-semiconductors-for-next-gen-electronics-extends-plentiful-growth-opportunities-for-cmp-slurry-market-valuation-predicted-to-exceed-us-2-4-bn-by-2030—tmr-301271675.html

About Us

Transparency Market Research is a global market intelligence company, providing global business information reports and services. Our exclusive blend of quantitative forecasting and trends analysis provides forward-looking insight for thousands of decision makers. Our experienced team of Analysts, Researchers, and Consultants, use proprietary data sources and various tools and techniques to gather, and analyse information. Now avail flexible Research Subscriptions, and access Research multi-format through downloadable databooks, infographics, charts, interactive playbook for data visualization and full reports through MarketNgage, the unified market intelligence engine. Sign Up for a 7 day free trial!

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glitterytalerunaway · 4 years ago

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Rf Transceiver Market Size And Scope, Product Estimate And Strategy Framework By Forecast 2027

Summary:

A new study title “RF Transceiver market size, status and forecast 2027” has been featured on market research future.

Market Overview:

An RF transceiver is the combination of both transmitter and receiver on a single chip. These are helpful in communication devices like cell phones, cordless telephones, mobile two-way radios and many others. The major application of transceiver is to make information in the form of data or voice which is to be transmitted over the wireless medium. These are deployed in radio transmission, LTE networks, radio communication and many more.

The RF transceivers are used in various industries such as consumer electronics, telecommunications, military & defense, healthcare, and others. In the area of healthcare, vital sign monitoring devices and blood analysis instruments are currently deployed in hospitals for wireless usage. Analog devices which are used in homes possess various features like MEMS sensors for motion detection and measurement, ISM band radio system on a chip (SoC) and transceivers for reliable wireless transfer of data and many more. To address applications utilizing ISM bands, major players are offering standalone transceivers, as well as a fully integrated system on a chip (SoC) solution.

The area of telecommunications has gained the advantage with the technical advancements in RF transceivers. The low power consumption and capability of long-range communication provide an added advantage in the area of telecommunications. The development of 5G technologies is a cornerstone for realizing breakthroughs in the transformation of RF transceiver infrastructure. The current generation of continues to transform the way users communicate and access information. RF channels provide natural support for radial broadcast operations. In RF systems, data is transmitted through the air by digital radio signals at a given frequency, typically in the 3 kHz to the 300GHz range. Such communication can be used to maintain bi-directional, online radio connection between a mobile telephone and an antenna host. On the other hand, the development of technologies based on RF communications is hindered by regulations of radio spectrum bands by the FCC and National Telecommunications and Information Administration (NTIA). Since the real-time accuracy of RF is high which is considered a general advantage and deployed in most or long-range communication network devices.

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Key Players:

Some of the key innovators in the global RF transceivers market are Skyworks (U.S.), Infineon Technologies AG (Germany), NXP Semiconductors N.V. (the Netherlands), Integrated Device Technology, Inc. (U.S.), Maxim Integrated (U.S.), Toshiba Electronic Devices & Storage Corporation (Japan) and others.

Segments:

The global RF transceiver market is segmented into design, type, application, industry, and region. On the basis of design the segment is further classified into single chip transceiver and standalone transceiver. On the basis of type, the segment is further classified into the 5G transceiver, 4G transceiver, 3G transceiver and 2G transceiver. On the basis of application, the segment is further classified into mobile phones, tablets, add-on cards, routers, embedded modules and others. The RF transceivers are used in various industries such as consumer electronics, telecommunications, military & defense, healthcare, and others.

Regional Analysis:

The global RF transceiver market is observed for North America, Europe, Asia Pacific and Rest of the world. Asia Pacific holds the major market share for the global RF transceiver market and is expected to continue through the forecast period. The presence of major players in the region, deployment of transceivers in consumer electronics and automotive solutions are supporting the market growth. North America holds a significant market share through the forecast period. The U.S. and Canada are the major sources for the global RF transceiver market. The increase in usage of mobile devices and growing demand for better wireless communication devices are promoting the market growth in this region. Europe shows decent growth through the forecast period. The Germany and U.K were the main contributors to the market. Deployment of RF transceivers in automotive applications is fuelling the market growth.

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About Us:

Market Research Future (MRFR) is an esteemed company with a reputation of serving clients across domains of information technology (IT), healthcare, and chemicals. Our analysts undertake painstaking primary and secondary research to provide a seamless report with a 360 degree perspective. Data is compared against reputed organizations, trustworthy databases, and international surveys for producing impeccable reports backed with graphical and statistical information.

We at MRFR provide syndicated and customized reports to clients as per their liking. Our consulting services are aimed at eliminating business risks and driving the bottomline margins of our clients. The hands-on experience of analysts and capability of performing astute research through interviews, surveys, and polls are a statement of our prowess. We constantly monitor the market for any fluctuations and update our reports on a regular basis.

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#RF Transceiver Market Size RF Transceiver Market Share RF Transceiver Industry RF Transceiver Market Research Future

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metemahavir · 4 years ago

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Semiconductor Wafer Market 2021 Receives a Rapid Boost in Economy due to High Emerging Demands by Global Industry

Summary

A New Market Study, titled “Semiconductor Wafer Market Upcoming Trends, Growth Drivers and Challenges” has been featured on Market Research Future.

The global semiconductor wafer market is growing rapidly. The market growth attributes to the booming mobile phone industry and wireless communication devices. Semiconductor wafer technology provides data processing capabilities and is majorly used in integrated circuits required in various electronic devices like computers, smartphones, military weapons, and others.

Due to the extensive absorption of semiconductor wafers in consumer electronics and devices used in telecom and automotive systems, the market demonstrates vast opportunities. In this regard, an eminent research firm – Market Research Future (MRFR), asserts that the global semiconductor wafer market valuation would reach USD 40BN by 2022, registering a 3.8% CAGR during the forecast period (2016-2022). Uses of semiconductor wafer technology

Additionally, factors such as vast technological development and advancements in semiconductor wafer technology in electronics industries worldwide have grown immensely. The penetration of 4G and 5G networks and economic growth worldwide have been influential for the growing market landscape. Furthermore, increasing sales of solar panel and solar cells due to the growing demand for solar energy boost the semiconductor wafer market size.

On the other hand, the high production costs of semiconductor wafers are a major factor impeding market growth. Nevertheless, the growing usage of semiconductor wafers in power amplifiers for transmitting ultra-high radio frequency, high-speed signals, and fast electronic switching applications would support the market growth throughout the forecast period.

Global Semiconductor Wafer Market – Segments

The report is segmented into three dynamics;

By Process : BOEL, FEOL, and others.

By Application: Consumer Electronics (Smartphone, Tablet/PC, Television, others), IT, BFSI, Healthcare, Telecom, Automotive, and others.

By Regions : North America, Europe, APAC, and the Rest-of-the-World.

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Semiconductor Wafer Market –Regional Analysis

The Asia Pacific region dominates the global semiconductor wafer market. The region houses a large number of semiconductor manufacturing companies. Also, the region has long been attracting foreign investors with its raw material advantage and the availability of cost-competitive workforces, impacting the region’s market share.

Growing demand for technologically advanced gadgets such as computers, laptops, tablets, and rising numbers of smartphone users fosters the semiconductor wafer market size. Countries like Japan, South Korea, China, and India account for leading markets for semiconductor wafers.

The North American region is another lucrative market for semiconductor wafers. The market growth is driven by the proliferation of photovoltaic, optoelectronic, and wireless communication devices. Additionally, the rapidly growing market of solar cells and the proliferation of solar energy positively impact the regional market’s growth. Besides, the well-penetrated electronics and smart devices in the region push the market growth.

The European semiconductor wafer market is expected to demonstrate a steady growth during the forecast period. Factors such as the burgeoning automotive, electronics, and aerospace & defense sectors in the region drive the market growth. The need for safe, reliable, and clean energy source in various European countries create substantial market demand, driving the uses of solar cells.

Semiconductor Wafer Market – Competitive Landscape

Highly competitive, the global semiconductor wafer market appears fragmented due to the presence of many well-established players. They incorporate strategic approaches, such as acquisition, partnership, collaboration, expansion, and product/technology launch to gain competitive advantage and stay at the market forefront.

Major Players

Players leading the semiconductor wafer market include ASM International (U.S.), Applied Materials (U.S.), Nikon (Japan), Screen Semiconductor Solutions (Japan), Hitachi High-Technologies Corporation (Japan), Hitachi Kokusai (Japan), ASML Holding (Netherlands), KLA-Tencor Corporation (Japan), Tokyo Electron Limited (Japan), and Lam Research Corporation (U.S.), among others.

Industry/ Innovation/Related News

Feb. 19, 2021 — JinkoSolar Holding Co., Ltd., a leading global solar module manufacturer, announced its plan to sign a strategic co-operation agreement with Tongwei Co., Ltd. to jointly invest in a high-purity crystalline silicon project with an annual capacity of 45,000 Mt and a silicon wafer project with a 15GW annual production capacity, as well as develop a more extensive industrial chain co-operation.

This strategic partnership would benefit these two companies from different segments of the solar industrial chain and strengthen resource sharing and integration within the PV industry. Further, this deal would position both parties as industry leaders and power their dominance, creating a win-win manufacturing ecosystem.

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#Semiconductor Wafer Market Semiconductor Wafer Market Forecast Semiconductor Wafer Market Trends

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waaaiz · 4 years ago

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Surveillance Radars Market Research Report

As per GMI Research's latest analysis, Global Surveillance Radars Market reveals that the market is slated to register a significant CAGR in the coming years. This is attributed to the growing requirement for drone detection systems at airports and advancement in border surveillance systems, the strong demand for a missile detection system, electronic warfare, and radar technologies.

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Surveillance Radars Market’s leading Manufacturers:

· ASELSAN A.Ş.

· Blighter Surveillance Systems Ltd.

· GEM Elettronica

· Detect Inc.

· Elbit Systems Ltd.

· Harris Corporation

· Lockheed Martin Corporation

· Israel Aerospace Industries Ltd.

· Leonardo S.P.A

· Hensoldt

Surveillance Radars Market Dynamics (including market size, share, trends, growth, forecast, and industry analysis)

Key Drivers

The growing requirement for drone detection systems at airports and advancement in border surveillance systems, the strong demand for a missile detection system, electronic warfare, and radar technologies are the key drivers surging the growth of the surveillance radars market size. The strong demand for surveillance radar in intelligence, reconnaissance, and modern air defense systems and border surveillance will further support the growth of the surveillance radar market. In addition to this, the rising demand for lightweight radar systems and growing investment in advanced surveillance technologies are some other factors propelling the market growth in the coming years. On the other hand, the factor hindering the growth of the market include severe weather conditions are affecting the accuracy of surveillance radar.

Component Segment Drivers

Based on the component, the digital signal processors is projected to witness a higher CAGR over the coming years due to the strong demand for Active Electronically Scanned Array (AESA) radars that require digital signal processor or tackle or process data advent from individual receive or transmit module in the antenna. AESA surveillance radars have numerous applications in defense applications, naval, and military airborne.

Application Segment Drivers

Based on the application, the defense & space is anticipated to rise at a faster CAGR during the forecast period due to the high demand for surveillance radar in defense & space and the increasing requirement for border surveillance, followed by the increasing demand for in-portable radars for battlefield surveillance.

Surveillance Radars Market Segmentation:

Segmentation by Type:

· Battlefield Surveillance Radars

· Ground-Based Air Surveillance Radars

· Ground-Based Space Surveillance Radars

· Coastal Surveillance Radars

· Airport Surveillance Radars

· Air-To-Ground Surveillance Radars

· Airborne Maritime Surveillance Radars

· Air-To-Air Surveillance Radars

· Shipborne Surveillance Radars

· Space-Based Synthetic Aperture Radars

Segmentation by Range:

· Long-Range Surveillance Radars

· Medium-Range Surveillance Radars

· Short-Range Surveillance Radars

Segmentation by Platform:

· Land

o Fixed Installation

o Portable

· Naval

o Ships

o Unmanned Surface Vehicles

o Submarines

· Airborne

o Combat Aircraft

o Unmanned Aerial Vehicles (UAV)

o Aerostats/Balloons

· Space

Segmentation by Application:

· Commercial

o Airspace Monitoring & Surveillance

o Airport Perimeter Security

o Critical Infrastructures

o Others

· National Security

o Border Surveillance

o Search & Rescue

o ISR

· Defense & Space

o Perimeter Security

o Isr & Battlefield Surveillance

o Military Space Assets & Hostile Satellites

o Air Defense

Segmentation by Frequency Band:

· UHF- & VHF-Bands

· L-Band

· S-Band

· C-Band

· X-Band

· K-, Ku and Ka-Bands

Segmentation by Component:

· Antennas

· Transmitters

· Duplexers

· Power Amplifiers

· Receivers

· Signal Processors

· Cameras

· Others

Segmentation by Dimension:

· 2D

· 3D

· 4D

Segmentation by Region:

· North America

o United States of America

o Canada

· Asia Pacific

o China

o Japan

o India

o Rest of APAC

· Europe

o United Kingdom

o Germany

o France

o Spain

o Rest of Europe

· RoW

o Brazil

o South Africa

o Saudi Arabia

o UAE

o Rest of the world (remaining countries of the LAMEA region)

About GMI Research

GMI Research is one of the leading market research and consulting company that offers consulting services, syndicated research reports, and customized market research reports. We help our client to make informed business decisions and provide market intelligence studies related to the various industries such as automotive, energy, healthcare, chemicals, technology, and other sectors. Our research teams include seasoned analysts and researchers have hands-on experience in every regions, including Asia-pacific, Europe, North America, and the Rest of the World. Our market research report provides in-depth analysis, which contains refined forecasts, a bird's eye view of the competitive landscape, factors impacting the market growth, and several other market insights to aid companies in making strategic decisions. Featured in the ‘Top 20 Most Promising Market Research Consultants’ list of Silicon India Magazine in 2018, we at GMI Research are always looking forward to help our clients to stay ahead of the curve.

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#Surveillance Radars Market #gmiresearch

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akashs123 · 4 years ago

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RF Transceiver Market 2021 Size, Share, Developments, Growth and Forecast 2023

Market Research Future published a research report on “RF Transceiver Market Research Report - Global Forecast to 2023” – Market Analysis, Scope, Stake, Progress, Trends and Forecast to 2023.

Market Overview:

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Key Players:

RF Transceiver Market key players are Intel Corporation (U.S.), RF Micro Devices Inc. (U.S.), Qualcomm Inc. (U.S.), Broadcom Corp. (U.S.), Renesas Electronics Corp. (Japan), TriQuint Semiconductor Inc. (U.S.), ST-Microelectronics Inc. (Switzerland), Texas Instruments Inc. (U.S.) and others. The key players are constantly innovating and involving in research and development activities to generate a cost-effective product portfolio.

RF Transceiver Global Market - Segmentation

RF Transceiver Global Market - Regional Analysis

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#RF Transceiver Market #RF Transceiver Market Size

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aartimuleict · 5 years ago

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Free Space Optics (FSO) Communication Market Analysis, Size, Trends, Forecast 2025

The global market free space optics (FSO) communication is predicted to exhibit a highly positive growth trajectory in the forthcoming years, as reported by Transparency Market Research (TMR). According to the report, the market is dynamic due to the vicinity of a critical number of players of all sizes, big and small. A portion of the significant vendors in the worldwide free space optics market are AOptix Technologies Inc., Anova Technologies, fSONA Networks Corp., Optelix, LightPointe Communications, Inc., Wireless Excellence Limited, Mostcom Ltd., IBSENtelecom Ltd., Harris Corporation and Trimble Hungary Ltd.

The global free space optics market is expected to exhibit a phenomenal 32.5% CAGR from 2017 to 2025, the forecast period. Expanding at this pace, the market which was worth US$92.2 mn in 2016 will likely become worth US$1.07 bn by 2025.

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Information Exchange to be Leading Segment due to Advent of IT

Application-wise, the key sections of the worldwide free space optics market are capacity region arrange, information transmission, resistance, security, airborne applications, health care, disaster management, and so on. Of them, the use of free space optics for information transmission represented most extreme offer in the market. This, in light of the fact that the information transmitted through free space optics is more secure contrasted with RF or different remote transmission innovations. Thus, it is favored over the customary remote advances.

Geologically, the key portions of the worldwide free space optics market are North America, South America, Asia Pacific, Europe, and the Middle East and Africa. Among them, Asia Pacific is anticipated to outpace every single other area by enlisting a CAGR of 33.4% from 2016 to 2025. The multiplication of telecommunication and IT in the quickly extending economies of India and China is at the bleeding edge of driving development in the worldwide free space optics market.

Representing an obstacle to the worldwide free space optics market is the ecological obstruction or barometrical consideration influencing the flag quality. Serving to handle the issue is the laser auto GPS beacons, multi-shaft, multi-way engineering, and mixture double mode RF innovation to relieve the impacts of barometrical lessening. Thusly, the worldwide market is relied upon to witness unfaltering development over the coming years.

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Emerging Regions to Offer Rich Market Opportunity

The market for free space optics innovation is by and large essentially determined by the prerequisite for fast availability requiring little effort, combined with the troubles of communication fiber. Free space optics communication innovation has increased business feasibility, driven by various components incorporating the ascent in the worldwide optical system, the ascent in high transmission capacity applications, fiber deficiencies concerning both supply and foundation, and the cost adequacy of FSO in contrast with different advancements. Increment sought after for high data transfer capacity combined with the fuse of free space optics in 3G and 4G systems and the developing sending of this innovation in military applications is decidedly affecting the extension of the worldwide market.

Further, swift communication and simple establishment of free space optical frameworks permit specialist organizations to take off new administrations for all intents and purposes overnight and this is affecting the market development emphatically. The sound financial development of developing markets, for instance, Japan, China, India, Africa and South America is boosting the development of most recent advancements, which thus, is anticipated to drive the demand for free space optical systems in the coming years. These driving components are set to support the growth of the worldwide market over the years to come.

The data and information presented in this review are based on a TMR report titled, “Free Space Optics Communication Market (Components – Transmitters, Receivers, Modulators, Demodulators, and Encoders and Decoders; Application – Storage Area Network, Data Transmission, Defense, Security, Airborne Applications, Healthcare, Disaster Recover, and Last Mile Access) - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast 2017–2025.”

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#FSO #Communication

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technogeekstmr · 5 years ago

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Radar Altimeters Market Research Report, Regional Revenue, Profiling, Growing CAGR Value to 2027

A radar system uses radio waves to calculate the range, velocity or angle of an objects. It is used to detect aircraft, spacecraft, ships, guided missiles, and weather formations. Radar altimeter is a device that is used to calculate the altitude attained by any object above a fixed surface. A radar altimeter consists of a transmitter and a receiver. An antenna which acts as a transmitter sends a beam of radio signal towards the object. The distance is calculated by time interval between the transmitted and the received signals and it is measured either in meters or feet above a fixed surface. Radar altimeters are used by pilots for navigating their aircraft or spacecraft and to monitor their height above the earth’s surface.

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Market Dynamics: Global Radar Altimeters Market

The global radar altimeters market is primarily driven by wide range of applications such as defense operation, commercial aircraft, and adventure sports. In military application, radar altimeters are used in fighter aircraft, ships or in vehicle for detection of objects. During war situation, to attack on enemy’s aircraft, radar altimeter is used to detect its exact location, or in naval operation to find out the exact location of suspects ship or submarine, radar altimeter is used. For safety and security applications, governments of various countries have increased their investments for deployment of more number of fighter aircraft, which is analyzed to be a prime factor supporting the growth of radar altimeters market over the globe. The use of radar altimeter for altitude measurement, has resulted in radar altimeters being an import component in the commercial aircrafts as well. Moreover, the air passenger traffic has been reported increasing rapidly owing to increased consumer spending fueled by update in lifestyle and saving travel time. Consequently increasing the demand for commercial aircrafts, thereby propelling the growth of radar altimeters market in commercial airspace. Additionally, in adventure sports, mountaineers and sky divers also use radar altimeter as it helps in identifying their exact location. Furthermore, in spacecraft, radar altimeters are used for navigation purpose. The government of various countries, have increased their investment in space missions to explore the universe. Hence, with increase in number of space mission demand for radar altimeter is also expected to increase, which is anticipated to offer prominent growth opportunity to the global radar altimeters market. However, in adverse climatic condition, such as bad weather, rainy condition there might be problem in radar altimeter to navigate and functioning correctly. Also, during increase in number of wind turbulence, radar altimeter may not work properly which is anticipated to be a major factor restraining the growth of the global radar altimeters market.

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Market Segmentation: Global Radar Altimeters Market

The global radar altimeters market has been segmented based on type, component, application and region. Based on type, the global radar altimeters market can be classified into pulse radar and frequency modulated continuous wave radar. Based on component, the market can be segmented into antenna, duplexer, transmitter, receiver, and video amplifier. Based on application, the radar altimeters market can be segmented into defense operation, commercial aircraft, and environmental and weather monitoring among others. Additionally, based on geography the radar altimeters market is further segregated into North America, Europe, Asia Pacific, Middle East & Africa, and South America.

Key Players:

Some of the key players operating in the global radar altimeters market with significant developments include Honeywell International Inc., Garmin Ltd., Aspen Avionics, Inc., AeroControlex, Avidyne Corporation, David Clark Company, Electronics International, Inc., Aerosonic Corporation, JP Instruments, Collins Aerospace, Selex ES Inc – A Leonardo Company, and Leonardo – Società per azioni, among others. For instance, in order to provide the best end-quality for customers, Selex ES Inc – A Leonardo Company developed the digital radar altimeter which is the first based on a full digital architecture.

The report offers a comprehensive evaluation of the market. It does so via in-depth qualitative insights, historical data, and verifiable projections about market size. The projections featured in the report have been derived using proven research methodologies and assumptions. By doing so, the research report serves as a repository of analysis and information for every facet of the market, including but not limited to: Regional markets, technology, types, and applications.

Customization of the Report: This report can be customized as per your needs for additional data or countries. – https://www.transparencymarketresearch.com/sample/sample.php?flag=CR&rep_id=61080

The study is a source of reliable data on:

Market segments and sub-segments

Market trends and dynamics

Supply and demand

Market size

Current trends/opportunities/challenges

Competitive landscape

Technological breakthroughs

Value chain and stakeholder analysis

The regional analysis covers:

North America (U.S. and Canada)

Latin America (Mexico, Brazil, Peru, Chile, and others)

Western Europe (Germany, U.K., France, Spain, Italy, Nordic countries, Belgium, Netherlands, and Luxembourg)

Eastern Europe (Poland and Russia)

Asia Pacific (China, India, Japan, ASEAN, Australia, and New Zealand)

Middle East and Africa (GCC, Southern Africa, and North Africa)

The report has been compiled through extensive primary research (through interviews, surveys, and observations of seasoned analysts) and secondary research (which entails reputable paid sources, trade journals, and industry body databases). The report also features a complete qualitative and quantitative assessment by analyzing data gathered from industry analysts and market participants across key points in the industry’s value chain.

A separate analysis of prevailing trends in the parent market, macro- and micro-economic indicators, and regulations and mandates is included under the purview of the study. By doing so, the report projects the attractiveness of each major segment over the forecast period.

Highlights of the report:

A complete backdrop analysis, which includes an assessment of the parent market

Important changes in market dynamics

Market segmentation up to the second or third level

Historical, current, and projected size of the market from the standpoint of both value and volume

Reporting and evaluation of recent industry developments

Market shares and strategies of key players

Emerging niche segments and regional markets

An objective assessment of the trajectory of the market

Recommendations to companies for strengthening their foothold in the market

Note: Although care has been taken to maintain the highest levels of accuracy in TMR’s reports, recent market/vendor-specific changes may take time to reflect in the analysis.

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Our reports are single-point solutions for businesses to grow, evolve, and mature. Our real-time data collection methods along with ability to track more than one million high growth niche products are aligned with your aims. The detailed and proprietary statistical models used by our analysts offer insights for making right decision in the shortest span of time. For organizations that require specific but comprehensive information, we offer customized solutions through adhocreports. These requests are delivered with the perfect combination of right sense of fact-oriented problem solving methodologies and leveraging existing data repositories.

TMR believes that unison of solutions for clients-specific problems with right methodology of research is the key tohelp enterprises reach right decision.”

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mokosmart · 5 years ago

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What is LoRaWAN Technology?

If you are working with networked devices, you may have heard of LoRaWAN at one time or another. It is a long-range network protocol. It enables the networking of things with the Internet even over longer ranges with low energy consumption. This solves one of the big problems that applications within the Internet of Things have faced up to now. With a battery life of up to five years and low maintenance costs for the sensor network, the LoRaWAN can be used for a wide variety of new applications.

This gives you a brief overview of what the LoRaWAN can do. In this article, we look at the architecture, key features of core technology, and the latest use cases where it is used.

What is LoRaWAN Technology?

The great thing about this technology is that it is based on an open standard. It uses an unlicensed spectrum as part of the ISM frequency band (“Industrial, Scientific, and Medical”, German: Industry, Science and Medicine). In Europe, the LoRaWAN uses the 868 MHz frequency range, while in the USA the 915 MHz frequency band is released. By using the unlicensed spectrum, it is very easy to set up and use your own network. Many telecommunications operators are already using LoRaWAN and offer the technology as part of their service offering in numerous countries worldwide. Comcast, KPN, Orange, SK Telecom and many other providers are actively implementing large-scale launches in their markets. This makes LoRaWAN even more interesting as a technology because it is compatible with the networks of different operators – large and small.

The LoRaWAN standard is monitored by the LoRa Alliance, which in turn consists of over 500 members who support the protocol and align many of their components, products, and services with LoRaWAN. These include companies such as MOKOSMART, ARM, Cisco, Microchip, and ST.

What distinguishes LoRa from LoRaWAN?

Let’s start with the definition of LoRa – what is it exactly and how is it different from LoRaWAN? LoRa is a wireless technology similar to more common technologies such as Wi-Fi or WLAN, Bluetooth, LTE, and Zigbee. However, technology often does not cover all requirements, which means that users have to accept compromises. LoRa meets the demand for low-cost, battery-operated devices that can transmit data over long ranges. However, LoRa is not the right solution for the transmission of data over large bandwidths. LoRa is a technology that converts data to be transmitted into electromagnetic waves. This technique is also known as the chirped spread spectrum，it has been used in military and space communications for decades. It is due to the long communication range and the low susceptibility to interference.

LoRaWAN, on the other hand, is the MAC protocol for the network of high-performance LoRa nodes based on the Internet of Things, which cover long ranges and have low energy requirements. It uses the advantages of Lora described above and optimizes battery life and service quality for the LoRa nodes. The protocol is completely bidirectional, which ensures reliable message transmission (confirmation). End-to-end encryption is provided for security and data protection purposes, over-the-air registration of endnotes and multicast functions. The standard also ensures compatibility with LoRaWAN networks around the world.

LoRaWAN architecture mainly consists of four elements:

• End nodes

• Gateway (base stations/router)

• Network Server

• Application serverEnd nodes

End nodes are physical hardware devices that are equipped with sensor functions, a certain amount of computing power and a radio module for translating the data into a radio signal. These end devices can transmit data to the gateway and also receive it. Even with a small battery, they can last several years if they are put into deep sleep mode to optimize energy consumption.

When a device sends a message to the gateway, this is known as an “uplink”. The answer that the terminal receives from the gateway is called “downlink”. On this basis, a distinction is made between three types of end devices:

• Class A

• Class B

• Class C

Class A devices have the lowest energy consumption compared to the other two classes. However, these can only receive a downlink if they have sent an uplink. Class A devices are suitable for the transmission of data at time-based intervals (e.g. every 15 minutes) or for devices that send data based on events (e.g. if the temperature rises above 21 degrees or falls below 19 degrees).

Class B end nodes allow more message slots for downlinks than class A. This reduces message latency but is also less energy efficient.

Finally, class C has an ongoing receive window that is only closed when the device sends an uplink message. Therefore, this is the least energy-efficient variant, which often requires a constant current source to operate.

Gateways

Gateways are also known as modems or access points. A gateway is also a hardware device that receives all LoRaWAN messages from end devices. These messages are then converted into an array of bits that can be transmitted over conventional IP networks. The gateway is linked to the network server that transmits all messages.

Gateways are transparent and have limited computing power. More complex tasks are carried out in the network server. Depending on usage and type, gateways are available in two versions:

Gateways for indoor use, e.g. MKGW2-LW, MOKOSMART.

Network Server

All messages from the gateways are forwarded to the network server. This is where the more complicated data processing processes take place. The network server is responsible for:

1. Routing/forwarding messages to the right application;

2. The selection of the best gateway for downlink messages. This decision is usually made on the basis of a link quality indicator, which in turn is calculated via the RSSI (Received Signal Strength Indication) and the SNR (Signal to Noise Ratio) of packets that were previously received;

3. Removing duplicate messages when received by multiple gateways;

4. Decrypting messages sent from end nodes and encrypting messages sent back to the nodes;

5. Gateways usually connect to the network server on an encrypted Internet Protocol (IP) link. The network usually includes the commissioning of the gateway and a monitoring interface that enables the network provider to manage gateways, remedy faults, monitor alarms, etc. …

Application server

The application server is where the IoT application is located – this is particularly useful for data captured using end devices. In most cases, application servers run via a private or public cloud, which is connected to the LoRaWAN network server and handles application-specific processing. The interface with the application server is controlled by the network server.

• LoRaWAN functions• Bi-directional communication

A terminal can transmit data to the gateway and also receive it according to the settings. These settings can also be called up within the application.

Localization

An interesting function of LoRaWAN is the localization without the need for GPS. This is particularly useful for tracking systems and sensors since it is battery-efficient and can be maintained more cheaply than conventional methods.

Scalability

LoRaWAN was designed for large IoT deployments in which thousands of devices are networked with a manageable number of gateways. These gateways can monitor multiple channels and process multiple messages at the same time.

Another important property of LoRaWAN is the speed with which data can be transmitted. There are different data rates that can be used for the transmission. These are also called spreading factors (SF). A slower transmission enables a longer and more reliable range.

For example, imagine you are talking to someone who is very close to you. You can speak very quickly in this situation and your counterpart understands everything you say. When you speak to someone who is far from you, you have to speak much slower to be understood. This principle also applies to the LoRaWAN protocol.

Adaptive Data Rate

With LoRaWAN, the network can also automatically optimize the speed at which the device transmits its data. This function is called the adaptive data rate (or ADR) and is particularly important to increase the capacity of a LoRaWAN network. ADR allows us to easily scale the network by adding another gateway. Because of this gateway, many end devices now automatically adjust their spreading factor. As a result, the individual devices are shorter “on the air”, which means more capacity for the network.

The adaptive data rate (abbreviation: ADR) is a simple mechanism that adjusts the data rate according to the following rules:

If the radio signal strength (also called “link budget”) is high, the data rate can be increased;

If the link budget is low, the data rate can be reduced.

Safety

It is important for every LPWAN to use a comprehensive security solution. LoRaWAN uses two levels of security: one for the network and one for the application. Network security ensures the authenticity of the end device in the network, while the application level ensures that the network operator does not have access to the application data of end-users. AES encryption is used for key exchange.

The network level is responsible for identifying the node. It checks whether a message really comes from a specific device and is also considered an integrity check. It can also encrypt MAC commands.

The application level is used for the decryption and encryption of payloads.

Both keys are encrypted with 128 bit AES in ECB mode.

Use cases and areas of application

LoRaWAN has found its place on the market in terms of applications and areas of application. Thanks to its unique properties, LoRaWAN is best suited for scenarios like these:

1. Access to electricity (electricity) is limited or restricted;

2. The locations are physically difficult to access or very remote;

3. The number of end devices is significantly higher compared to conventional mobile phone connections;

4. The end devices do not have to send messages continuously.

#lora lorawan loratechnology mokosmart

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gomarketresearchstuff · 5 years ago

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Infrared Emitters Market Size, Share, Growth, Trends, and Forecast 2018 – 2026

Infrared radiation (IR) is a type of electromagnetic radiation. These radiations are invisible to human eyes as their wavelength range does not fall under visible range of human. Hence, their existence can only feel in the form of heat by human. Infrared emitter and receiver is a system which is used to operate an electronic device wirelessly, means remotely. When IR emitter transfers the signal to IR receiver, it senses modulated IR pulses and convert them into electrical signal. Infrared emitters are small wired transmitters for repeating an infrared signal from remote to an electronics device with reliability. IR emitters of each type are typically consists of a mono 3.5 mm jack attached to the transmitter. Infrared emitters are used in various applications such as in remote control, infrared radiations are used to operate an electronics devices. Also, infrared emitters help to control portable infrared instruments, consumer electronic devices, and industrial equipment. In industrial applications infrared sensors are used for temperature sensing and temperature monitoring.

Market Dynamics: Global Infrared Emitters Market

The global infrared emitters market is primarily driven by wide range of applications in various industries such as industry, defense, automotive, media & entertainment, and consumer electronics among others. Incorporation of advanced features in military services such as night vision equipment, which is used for security and surveillance purpose when there is insufficient visible light to see. Infrared LEDs are also used in security camera, to capture the images in both day and night time. With increase in threat of terrorism, the expenditure on security and surveillance is increasing gradually which is leading to the growth of infrared emitters market.

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Moreover, IR emitters are widely used in consumer electronics devices such as in television, set-top box, DVD players, electrical appliances, and air conditioner among other. As a result of these factors, infrared emitters market is expected to have a significant growth in coming years. In many industrial applications Infrared emitters and modules are used in industrial heat processes such as, cutting of material, welding of material, laminating of material, and others. As emitter and module are perfectly tuned to each other, modular systems are the ideal solution for industrial infrared applications. Considering this factor, industrial applications in heat process is expected to increase the demand for the market. Infrared radiation which are transmitted through emitters are harmful for human eyes and skin. Hence, direct exposure to infrared radiation or sunlight for long period of time can damage to human eyes and skin which is acting as a restraining factor to the market. However, IR emitter which is an important part of IR sensor and used in IR imaging device is expected to offer significant growth opportunity to the global infrared emitters market due to its growing demand in thermal imaging cameras.

Market Segmentation: Global Infrared Emitters Market

The global infrared emitters market has been segmented based on type, end-use industry, and geography. Based on type, the global infrared emitters market is classified into near IR, short wave infrared radiation and others. Based on end-use industry, the market can be segmented into automotive, consumer electronics, industry, defense, media & entertainment, and healthcare among others. Based on geography, the market is further segmented into North America, Europe, Asia Pacific, Middle East & Africa, and South America.

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Key Players:

Some of the key players operating in the global infrared emitters market with significant developments include Texas Instruments, Honeywell International, OSRAM Opto Semiconductors GmbH, Rohm Semiconductor, Vishay Intertechnology, Inc., TT Electronics (OPTEK Technology, Inc.), OPTRON GROUP, LASER COMPONENTS, Light-On Technology, and Murata Manufacturing Co., Ltd. among others.

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trendingfact · 5 years ago

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Anti-Jamming Antenna Market: To Hold A High Potential For Growth By 2030

Anti-Jamming Antenna Market - Introduction

Anti-jamming antennas are multi-element and advanced technology in antenna solutions specially designed to protect a global navigation satellite system (GNSS) / Global Positioning System (GPS) receiver from jamming signals. Anti-jamming antenna protect the GPS system from intentional and interference jamming. GPS signals become weak due to signal jamming in the receiver’s system.

The anti-jamming antenna is majorly adopted by defense and military sectors to protect the GPS and signal receiver from signal jamming. The anti-jamming antenna offers crucial services during confidential communication over radio frequency and GPS technology.

Anti-jamming antennas improve the communication and transmitting time of data and also helps to enhance the performance of the transmitter and receiver system.

Adoption of anti-jamming antennas is expected to increase in healthcare and automotive sectors to improve the signaling system.

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Key Drivers of the Anti-Jamming Antenna Market

Increasing adoption of anti-jamming antennas in the military and defense sector to improve the satellite technology for accurate positioning, communication, and transmitting & receiving timing is expected to drive growth of the market. The adoption of anti-jamming antennas in aircrafts and military vehicles & aircrafts to provide a smooth signaling system is expected to boost the demand for anti-jamming antennas during the forecast period.

Adoption of new technology is anticipated to create business opportunity for anti-jamming antenna providers, enabling them to offer advanced receiver chips and modules to improve communication performance.

High system cost and resistance toward new technology adoption expected to hinder the market

Increasing adoption of advance solutions in antennas to improve signal transmission and receiving processes also increases the cost of the signaling system. The system cost is rather high which is affordable by the military and defense sector. Limited customer adoption is expected to restrain the growth of the anti-jamming antenna market.

Resistance by employees to adopt new technologies across emerging economies is also one of the major factors restraining the growth of the anti-jamming antenna market.

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Impact of the COVID 19 on Anti-Jamming Antenna Market

In 2020, the anti-jamming antenna market is expected face financial downfall due to coronavirus infected nations across the globe. Globally, small & medium enterprise businesses have been hugely impacted by coronavirus. The market is expected to show growth opportunities after the 2020 financial crisis.

The manufacturing of the anti-jamming antenna is currently stopped by the lockdown condition in many regions. Less marketing and low adoption by the across the commercial sectors is expected hinder the market growth.

North America to Hold Major Share of the global Anti-Jamming Antenna Market

North America was holding prominent share of the anti-jamming antenna market due to availability of technical expertise and increasing adoption of advanced signaling systems in defense and military sectors.

In North America, adoption of anti-jamming antennas was increased in the automotive and healthcare industry. Anti-jamming antennas are used to protect and improve the performance of network and signaling systems. This in turn is estimated to boost the demand for anti-jamming antennas during the forecast period after financial of 2020.

Asia Pacific is technology hub of the semiconductors and antenna technology but recently due COVID-19 demand for anti-jamming antenna is impacted and has negative impact on the market growth.

Key Players Operating in the global Anti-Jamming Antenna Market

Key players operating in the global anti-jamming antenna market include Raytheon Company, Rockwell Collins, Cobham plc, and Mayflower Communications.

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marketresearchlove-blog · 5 years ago

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Airborne Telemetry Market- Industry Trends and Forecast to 2025

Airborne Telemetry Market, By Technology (Wired telemetry and Wireless Telemetry), By Component (Transmitter, Receiver and Antenna), By Platform (Fixed Wing, Rotary Wing, Unmanned Aerial Vehicle and Parachute), By Sensor (GPS, Load Cell, Torque and others), By Geographical Segments (North America, South America, Europe, Asia-Pacific, Middle East and Africa)- Industry Trends and Forecast to 2025

Market Analysis: Airborne Telemetry Market

The airborne telemetry market accounted for USD 7.13 billion in 2017 and is projected to grow at a CAGR of 4.0% the forecast period of 2018 to 2025. The upcoming market report contains data for historic years 2016, the base year of calculation is 2017 and the forecast period is 2018 to 2025.

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Airborne Telemetry Market Size, Status and Forecast 2025

Airborne Telemetry Market Overview

Airborne Telemetry Market Manufacturers Profiles

Airborne Telemetry Market Sales, Revenue, Market Share and Competition by Manufacturer

Airborne Telemetry Market Analysis by Regions

Airborne Telemetry Market by Countries

Airborne Telemetry Market Segment by Type

Airborne Telemetry Market Segment by Application

Airborne Telemetry MarketForecast

Sales Channel, Distributors, Traders and Dealers

Research Findings and Conclusion

Appendixes

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Market Definition: Airborne Telemetry Market

Telemetry is a term for innovations that obliges to gather data as estimations or measurable information, and forwards it to IT frameworks in a remote area. This term can be utilized as a part of reference to a wide range of frameworks. For example, remote frameworks utilizing radio, ultrasonic or infrared advances, or a few kinds of frameworks working over phone or PC systems. Others may utilize distinctive systems like SMS messaging. In the software world, telemetry offers bits of knowledge to end clients for identification of bugs and issues, for better insights into execution without the need to request criticism from clients. In a general sense, telemetry works through sensors at the remote source which measures physical, (for example, precipitation, weight or temperature) or electrical, (for example, current or voltage) information. This changed to electrical voltages that are joined with timing data. It shaped data stream which is transmitted over a remote medium, wired or a mix of both. At the remote collector, the stream is disaggregated and the main data appeared or took care of in perspective of the customer's particulars

The airborne telemetry is the utilization of the computerized correspondence forms for the estimation, gathering information from blocked off or remote zones and transmitting it to hardware where the information can be observed. The airborne telemetry advertisement helps the countries to catch the greater part of the information to protect the country from deplorable assaults or regular catastrophes. The uses of the telemetry in the field of metrology, route, correspondence, military insight, flight testing, rocketry, space science, transportation, oil and gas industry, therapeutic and social insurance, asset dispersion, agribusiness and vitality observing are boosting its request in the worldwide market. In airborne telemetry system yield qualities must be changed, sifted, or adjusted for similarity with the following phase of the framework to acquire data sensor. The outright connection between the yield and the genuine property estimation may change with time, elevation, weight, temperature, etc. In this way, flag conditioners likewise consolidate adjustment highlights to help in characterizing the connections.

Market Drivers and Restraints:

Increase in research & development of modern airborne telemetry system.

Growing adoption of cloud computing in telemetry along with artificial intelligence.

Increase in demand for unmanned aircraft systems.

Huge investment costs.

Market Segmentation: Airborne Telemetry Market

The airborne telemetry market is based on technology, component, platform, sensor and geographical segments.

Based on technology the market is segmented into wireless telemetry and wired telemetry.

Based on component the market is segmented into receiver, transmitter and antenna.

Based on platform the market is segmented into fixed wing, rotary wing, unmanned aerial vehicle and parachute.

Based on sensor the market is segmented into GPS, load cell, torque, weather prediction and others.

Based on geography, the airborne telemetry market report covers data points for 28 countries across multiple geographies such as North America, South America, Europe, Asia-Pacific and Middle East & Africa. Some of the major countries covered in this report are U.S., Canada, Germany, France, U.K., Netherlands, Switzerland, Turkey, Russia, China, India, South Korea, Japan, Australia, Singapore, Saudi Arabia, South Africa, and Brazil among others.

Competitive Analysis: Airborne Telemetry Market

The airborne telemetry market is fragmented and the major players have used various strategies such as new product launches, expansions, agreements, joint ventures, partnerships, acquisitions, and others to increase their footprints in this market in order to sustain in long run. The report includes market shares of airborne telemetry market for , Europe, North America, Asia Pacific and South America.

Key Players: Airborne Telemetry Market

The renowned players in airborne telemetry market are BAE Systems, Rockwell Collins, Honeywell International, L-3 Communications Holdings, Cobham PLC, ORBIT Technologies, Zodiac Aerospace, Curtiss-Wright Corporation, Dassault Aviation, Finmeccanica, Kongsberg Gruppen, Airtech, Inc., and others

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Research Methodology: Airborne Telemetry Market

Data collection and base year analysis is done using data collection modules with large sample sizes. The market data is analyzed and forecasted using market statistical and coherent models. Also market share analysis and key trend analysis are the major success factors in the market report. To know more please Request an Analyst Call or can drop down your inquiry.

The key research methodology used by DBMR Research team is data triangulation which involves data mining, analysis of the impact of data variables on the market, and primary (industry expert) validation. Apart from this, other data models include Vendor Positioning Grid, Market Time Line Analysis, Market Overview and Guide, Company Positioning Grid, Company Market Share Analysis, Standards of Measurement, Top to Bottom Analysis and Vendor Share Analysis. To know more about the research methodology, drop in an inquiry to speak to our industry experts.

Market Analysis and Insights: Washing Appliances Market

Washing appliances market will reach an estimated valuation of USD 65.0 billion by 2027, while registering this growth at a rate of 10.50% for the forecast period of 2020 to 2027. Washing appliances market report analyses the growth, which is currently being growing due to increasing demand of washing machine from residential as well as in commercial sector.

The growing need of differentiated products and services, rising levels of disposable income of the people, increasing hospitality sector, surging investment for research and development activities are some of the factors that will accelerate the growth of the washing appliances market in the forecast period of 2020-2027. On the other hand, rapid urbanization across the globe will further boost various opportunities that will lead to the growth of the washing appliances market in the above mentioned forecast period.

High cost of washing appliances will hamper the growth of the washing appliances market in the above mentioned forecast period.

This washing appliances market report provides details of new recent developments, trade regulations, import export analysis, production analysis, value chain optimization, market share, impact of domestic and localised market players, analyses opportunities in terms of emerging revenue pockets, changes in market regulations, strategic market growth analysis, market size, category market growths, application niches and dominance, product approvals, product launches, geographical expansions, technological innovations in the market. To gain more info on washing appliances market contact Data Bridge Market Research for an Analyst Brief, our team will help you take an informed market decision to achieve market growth.

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larebomrglobal · 5 years ago

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North American RF Components Market Size, Industry Trends, Share and Forecast 2019-2025

North American RF components market is expected to grow at a CAGR of around 12.2% during the forecast period. The US and Canada are significantly contributing in the market growth due to various factors such as high penetration of smartphones, developed ICT industry and adoption of the advanced communication technologies such as 5G, rising demand of connected cars and others in these countries. Moreover, high internet penetration is one of the major factors that is augmenting the market growth in North America. According to the ITU database in 2018, around 69.6 individuals using the internet per 100 inhabitants in North America. The RF components have a significant application in a wireless internet connection for transmitting and receiving data between two devices. Thus, the high internet penetration in the region encourages the adoption of wireless devices such as smartphone and other devices that raise the demand for RF components in the region.

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Moreover, with the demand for autonomous and connected vehicles, the need for wireless connectivity electronic components has to be increased significantly. The Canadian government is committed to developing a national strategy by 2018 end to support the growth in the number of electric connected vehicles. According to the Pembina institute, companies such as Chevy Volt, Nissan, and Tesla have achieved sales in this region. These companies have more than 50% of market share in the electric vehicle sector which will give thrust to an electric vehicle in the Canadian region. The government is keen on the policies in order to bring maximum of green vehicles to the consumers. Thus, contributing to the growth of the market.

A full Report of North American RF Components Marketis Available at: https://www.omrglobal.com/industry-reports/north-american-rf-component-market

North American RF Components Market Segmentation

By Product Type

Antenna Switches

Filters

Amplifiers

Duplexer

Others (Modulators)

By Application

Consumer Electronics

Automotive

Military & Defense

IT & Telecom

Regional Analysis

United States

Canada

Company Profiles

Amphenol Corp.

AVX Corp.

Broadcom Inc.

Cree, Inc.

ETL Systems Ltd.

Fujitsu Ltd.

Honeywell International Inc.

NXP Semiconductors N.V.

Qorvo Inc.

Texas Instruments, Inc.

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#North American RF Components Market Share #Size North American RF Components Market #North American RF Components Market Trends #v Analysis #North American RF Components Market Forecast #North American RF Components Market Growth

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