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rohitpalan · 5 months ago

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Microcontroller Socket Market Poised for Strong Growth, Anticipated to Reach USD 2497.5 Billion by 2032

The global microcontroller socket market holds a forecasted share of USD 1236.3 million in 2022 and is likely to surpass USD 2497.5 million by 2032, moving ahead with a CAGR of 7.3% during the forecast period (2022-2032).

Socket producers are endlessly developing novel designs for interconnecting solutions for fine pitch, high I/O, and low profile applications, and for attaining severe regulations of reliability and performance.

Gradually reducing the package size in the microelectronics industry has impacted the microcontroller socket market growth in a positive manner. Industry requirements, such as higher density, increased operating speed, and lower power, have driven packaging in the industry, further leading to an enhanced demand within the microcontroller socket market.

To Get a Sample Copy of the Report Visit https://www.futuremarketinsights.com/reports/sample/rep-gb-4744

Microcontroller socket market: Drivers and Challenges

Narrowing costs is the key driving force in the IC manufacturing industry. Improvements in technology help to fulfill the desires of leading-edge electronic systems. Nevertheless, when an IC producer is given the option of keeping costs under control or utilizing the most progressive technology, his option mostly would lean toward minimizing costs and the same happens in microcontroller socket market.

The major challenge faced by Microcontroller socket market is the fierce competition between the leading vendors of this market which is not allowing the market to grow.

Microcontroller socket market: Competition Landscape

Key Contracts

In October 2016, STMicroelectronics acquired NFC and RFID reader assets, strengthening their portfolio of secure microcontrollers for next-generation mobile and Internet of Things devices.

In September 2012, Sensata Technology Inc. acquired WELLS-CTI Inc. a product division by the name of Qinex designs and manufactures sockets for the Semiconductors Industry. WELLS-CTI Inc. specializes in making of Test Sockets Which include Microcontroller sockets.

Key Players

Some of the key players of microcontroller socket market are: Intel, Loranger International Corporation, Aries Electronics Inc., Enplas Corporation, FCI, Johnstech International Corporation, Mill-Max Mfg. Corporation, Molex Inc., Foxconn Technology Group, Sensata Technologies B.V., Plastronics Socket Company Inc., Tyco Electronics Ltd., Chupond Precision Co. Ltd., Win Way Technology Co. Ltd., 3M Company, Enplas Corporation, Yamaichi Electronics Co. Ltd. and Johnstech International Corporation

Microcontroller socket market: Regional Overview

On the basis of geography, microcontroller socket market can be segmented into five key regions namely North America, Latin America, Europe, APAC and Middle East & Africa. Among various regions, the microcontroller socket market in APAC is expected to dominate during the forecast period owing to adoption of microcontroller socket by several industries for implementing products of automobile and healthcare industry. Asia Pacific region is expected to be followed by North America and Europe.

In North America and Europe region, the market of microcontroller socket is gradually growing owing to the presence of small and large IC manufacturers present in this region.

The report covers exhaustive analysis on

Microcontroller socket market Segments Microcontroller socket market Dynamics Historical Actual Market Size, 2012 – 2016 Microcontroller socket market Size & Forecast 2017 To 2027 Supply & Demand Value Chain Microcontroller socket market Current Trends/Issues/Challenges Competition & Companies involved Microcontroller socket Value Chain Microcontroller socket market Drivers and Restraints

Microcontroller socket market: Key Segments

By Product:

SOIC SOP BGA QFP DIP

By Application:

Consumer Electronics Medical Devices Industrial Automotive Military & Defense

By Region:

North America Latin America Asia Pacific Europe MEA

#Microcontroller Socket Market

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dailytrendsnews · 7 months ago

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globalrketresearchanalysis · 8 years ago

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Microcontroller Socket Market Reach $5.17 Billion By 2024: Grand View Research, Inc.

The global microcontroller socket market is expected to reach USD 1.46 billion by 2024, according to a new report by Grand View Research, Inc. The increasing development and growth of automation and re-automation in the emerging countries are expected to fuel the industry growth.

The growth of automation has led to miniaturization and digitization as well as facilitates dynamics in the field of technology. The increasing need of providing high performance with power efficiency has further led to the development of automation technology at a rapid pace. The increasing labor costs and the growing demand for higher quality have encouraged the industry participants to opt for automated equipment in the programming process.

Gradually reducing the package size in the microelectronics industry has also impacted the market growth in a positive manner. industry requirements, such as higher density, increased operating speed, and lower power, have driven packaging in the industry, which has further led to an enhanced demand within the market.

Furthermore, the demand for thinner, smaller, and lesser expensive device packaging has also encouraged manufacturers to control the programming cost. The increasing demand in automotive, consumer electronics, medical devices for more accurate data, and in military & defense for enhanced security has also encouraged the industry participants to further reduce the package size.

Intense competition in the market has led the industry participants to enhance the product quality and process technologies as per the market requirement. However, failure to develop new designs and delays in developing new products with advanced technology may adversely affect the manufacturer market.

Browse full research report on Microcontroller Socket Market: http://www.grandviewresearch.com/industry-analysis/microcontroller-socket-market

Further key findings from the report suggest:

The microcontroller socket market is expected to boost over the forecast period owing to the increasing microcontroller applications in various segments

The QFP socket is expected to grow at a CAGR of over 7% from 2016 to 2024, owing to the growing trend of automation and re-automation in the emerging countries

The automotive segment is projected to dominate over the forecast period owing to the huge application of the socket in the manufacturing of automobiles, such as body electronics, for enhancing driver safety

The majorindustry players in the microcontroller socket market include Texas Instruments, Aries Electronics, Mill-Max Manufacturing Corporation, and Samtec, Inc.

Browse more reports of this category by Grand View Research: http://www.grandviewresearch.com/industry/communication-services

Grand View Research has segmented the microcontroller socket market based on product, application, and region:

Microcontroller Socket Product Outlook (Revenue, USD Billion, 2014-2024)

DIP

BGA

QFP

SOP

SOIC

Microcontroller Socket Application Outlook (Revenue, USD Billion, 2014-2024)

Automotive

Consumer Electronics

Industrial

Medical Devices

Military & Defense

Microcontroller Socket Regional Outlook (Revenue, USD Billion, 2014-2024)

North America

Europe

Asia Pacific

Latin America

MEA

Access press release of this research report by Grand View Research: http://www.grandviewresearch.com/press-release/global-microcontroller-socket-market

About Grand View Research

Grand View Research, Inc. is a U.S. based market research and consulting company, registered in the State of California and headquartered in San Francisco. The company provides syndicated research reports, customized research reports, and consulting services. To help clients make informed business decisions, we offer market intelligence studies ensuring relevant and fact-based research across a range of industries, from technology to chemicals, materials and healthcare.

Contact:

Sherry James

Corporate Sales Specialist, USA

Grand View Research, Inc

For more information: www.grandviewresearch.com

#Microcontroller Socket Market #Microcontroller Socket Market Size #Microcontroller Socket Market Analysis

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trendytechreviews · 2 years ago

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Quad Flat Package (QFP) Microcontroller Socket Market – Global Industry Trends and Forecast to 2028

Companies desiring an efficient business growth should adopt market research report like Global Quad Flat Package (QFP) Microcontroller Socket Market which seems to be very imperative in this rapidly changing marketplace. While formulating this market report, absolute industry insight, talent solutions, practical solutions and use of technology are merged together very well to advance user experience. The business report brings to notice many points regarding Quad Flat Package (QFP) Microcontroller Socket industry and market. These are mainly explained with respect to market definition, market segmentation, competitive analysis, and research methodology as major topics of the consistent Quad Flat Package (QFP) Microcontroller Socket report. It also gives details about market drivers and market restraints which aids businesses in guessing about reducing or increasing the production of specific product.

A thorough market study and investigation of trends in consumer and supply chain dynamics covered in the wide-reaching Quad Flat Package (QFP) Microcontroller Socket market report helps businesses draw the strategies about sales, marketing, and promotion. Besides, market research performed in this industry report puts a light on the challenges, market structures, opportunities, driving forces, and competitive landscape for the business. It assists in obtaining an extreme sense of evolving industry movements before competitors. If businesses are willing to gain competitive advantage in this swiftly transforming marketplace, then opting for such market research report is highly suggested as it gives a lot of benefits for a thriving business.

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Our research and insights help our clients in identifying compatible business partners.

The assessment provides a 360° view and insights, outlining the key outcomes of the industry, current scenario witnesses a slowdown and study aims to unique strategies followed by key players. These insights also help the business decision-makers to formulate better business plans and make informed decisions for improved profitability. In addition, the study helps venture or private players in understanding the companies more precisely to make better informed decisions

Global Quad Flat Package (QFP) Microcontroller Socket Market: Competitive Analysis

This report has enlisted the top suppliers and their cost structures, SLA terms, best selection criteria, and negotiation strategies. The competitive analysis helps the vendor to define an alignment or fit between their capabilities and opportunities for future growth prospects.

The report deeply explores the recent significant developments by the leading vendors and innovation profiles in the Global Quad Flat Package (QFP) Microcontroller Socket Market including

Intel Corporation, Loranger International Corporation, Aries Electronics, Enplas Corporation, Johnstech, Mill-Max Mfg. Corp, Molex, Foxconn Technology Group, Sensata Technologies Inc, Plastronics, TE Connectivity., Chupond Precision Co. Ltd., Socionext America Inc., Win Way Technology Co. Ltd., ChipMOS TECHNOLOGIES INC, 3M, Enplas Corporation, Yamaichi Electronics Co. among other domestic and global players..

This report also comprises of strategic profiling of key players in the market, systematic analysis of their core competencies, and draws a competitive landscape for the market. This research study lends a hand to the purchaser in comprehending the various drivers and restraints with their effects on the market during the forecast period. The report has been prepared based on the market type, size of the organization, availability on-premises and the end-users’ organization type. Quad Flat Package (QFP) Microcontroller Socket report puts across the idea of high level analysis of major market segments and identification of opportunities.

Read Detailed Index of Full Research Study @ https://www.databridgemarketresearch.com/reports/global-quad-flat-package-qfp-microcontroller-socket-market

An exceptional Quad Flat Package (QFP) Microcontroller Socket market research report can be structured well with the blend of top attributes such as highest level of spirit, practical solutions, committed research and analysis, innovation, talent solutions, integrated approaches, most up-to-date technology and dedication. Further, strategic planning supports in improving and enhancing the products with respect to customer’s preferences and inclinations. The report comprises of all the market shares and approaches of the major competitors or the key players in this industry. Moreover, this market report also brings into the focus various strategies that have been used by other key players of the market or this industry.

Major Regions:

Geographically, this report split into several key regions, with sales (MT), Revenue (Million USD), market share, and growth rate for these regions, covering

**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)

What Are The Market Factors Explained in the Report?

Key Strategic Developments: The study includes the major strategic developments of the market, comprising R&D, new product launch, M&A, agreements, partnerships, collaborations, joint ventures, and regional growth of the key competitors functioning in the market on a global and regional scale.

Key Market Features: The report analyzed key market features, comprising price, revenue, capacity, supply/demand, capacity utilization rate, gross, production, production rate, market share, consumption, import/export, cost, CAGR, and gross margin. Besides, the report also offers a comprehensive study of the key market dynamics and their latest trends, along with relevant market segments and sub-segments.

Analytical Tools: The Global Quad Flat Package (QFP) Microcontroller Socket Market report includes the accurately studied and analyzed data of the key industry players and their scope in the market by means of several analytical tools. The analytical tools such as Porter’s five forces analysis, feasibility study, and ROI analysis have been used to analyze the growth of the key players functioning in the market.

Some Major Points in TOC:

Chapter 1. Report Overview

Chapter 2. Global Growth Trends

Chapter 3. Market Share by Key Players

Chapter 4. Breakdown Data by Type and Application

Chapter 5. Market by End Users/Application

Chapter 6. COVID-19 Outbreak: Quad Flat Package (QFP) Microcontroller Socket Industry Impact

Chapter 7. Opportunity Analysis in Covid-19 Crisis

Chapter 8. Market Driving Force

And Many More…

Check The Complete Table of Content @ https://www.databridgemarketresearch.com/toc/?dbmr=global-quad-flat-package-qfp-microcontroller-socket-market

Quad Flat Package (QFP) Microcontroller Socket Market: Key Highlights

CAGR of the market during the forecast period.

Detailed information on factors that will assist market growth.

Estimation of market size and its contribution to the parent market

Predictions on upcoming trends and changes in consumer behaviour

Analysis of the market’s competitive landscape and detailed information on vendors

Comprehensive details of factors that will challenge the growth of market vendors

Reasons for Buying this Report

**This Quad Flat Package (QFP) Microcontroller Socket report provides pin-point analysis for changing competitive dynamics

**It provides a forward looking perspective on different factors driving or restraining Quad Flat Package (QFP) Microcontroller Socket market growth

**It provides a six-year forecast assessed on the basis of how the Quad Flat Package (QFP) Microcontroller Socket 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 Quad Flat Package (QFP) Microcontroller Socket 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, MEA or Asia Pacific.

Looking for provoking fruitful enterprise relationships with you!

About Data Bridge Market Research, Private Ltd

Data Bridge Market Research Pvt Ltd is a multinational management consulting firm with offices in India and Canada. As an innovative and neoteric market analysis and advisory company with unmatched durability level and advanced approaches. We are committed to uncover the best consumer prospects and to foster useful knowledge for your company to succeed in the market.

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daisyri-me · 4 years ago

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Microcontroller Socket Market Size, Share And Trends Report Till 2024 Focusing on Key Players : CNC Tech LLC & Samtec, Inc

The global microcontroller socket market is expected to value at USD 1.46 billion by 2024. The microcontroller socket industry is subject to witness a substantial growth due to the rising adoption of microcontroller devices in the communication sector, automobile industry, and consumer electronic sector.

Microcontrollers are miniature electronic systems that perform and manage numerous operations. This technology offer seamless management of electronic devices through set of instructions. Globally, the microcontroller socket market is predicted to grow at higher CAGR in the forecast period, providing numerous opportunities for market players to invest for research and development in the microcontroller socket industry.

Get Exclusive Free Sample Copy Of This Report @ https://www.millioninsights.com/industry-reports/microcontroller-socket-market/request-sample

The microcontroller socket are also termed as low-power embedded systems that offers advantages such as low power consumption, optimal data bandwidth, and high-end user interface support. Other advantages include flexibility, susceptibility and low system cost. These factors are anticipated to fuel market demand for microcontroller sockets in the upcoming years. Increasing demand for microcontroller technology from automotive sector to reduce operation cost during various manufacturing processes and to improve overall fuel economy are expected to stimulate market expansion over the forecast period. Introduction of power train feature for manufacturing and designing processes is projected to positively impact market growth as well in the years to come.

Development of integrated circuits (IC) solution that can perform range of application with low-cost, low-profile, and low-power design requirements are major contributing factor for industry growth in the upcoming years. Number of original equipment manufacturers (OEMs), system developers, foundries, packaging and test sub-contractors, and chip manufacturers are investing heavily to develop the next generation packaging solutions. These next generation packaging solutions are capable of delivering faster and economical solutions. These factors are expected to amplify market value of microcontroller sockets over the forecast period.

The microcontroller socket market is broadly categorized into five major segments based on the product type such as Dual In-line Package (DIP), Ball Grid Array (BGA), Quad Flat Package (QFP), Small Outline Package (SOP), and Small Outline IC Package (SOIC). The Ball Grid Array (BGA) is considered as one of the fastest growing segment in the with substantial revenue generation in the last few years.

The microcontroller socket industry is divided by region as North America, Europe, Asia-Pacific, Latin America and Africa. North America has shown major growth in recent years owing to the rise in the implementation of latest technologies in packaging sector, increase in the number of research & development activities in the region and existence of well-established industrial infrastructure. Asia-Pacific region is predicted to hold major market share in the microcontroller socket market with massive growth in forecast period.

Countries such as India, China and Singapore are leading the Asia-Pacific market with rapid industrialization, strong economic growth, and significant investment by leading industry players considering potential growth opportunities in the region. The key players in the microcontroller socket industry are Texas Instruments, Inc., Aries Electronics, Inc., Mill-Max Manufacturing Co., CNC Tech LLC, and Samtec, Inc.

Read Complete Report with TOC @ https://www.millioninsights.com/industry-reports/microcontroller-socket-market

Market Segment:

Microcontroller Socket Product Outlook (Revenue, USD Billion, 2014 - 2024) • DIP • BGA • QFP • SOP • SOIC

Get in touch

At Million Insights, we work with the aim to reach the highest levels of customer satisfaction. Our representatives strive to understand diverse client requirements and cater to the same with the most innovative and functional solutions.

Contact Person:

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Email:

[email protected]

#Microcontroller Socket Market Growth

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ultra-futuristicfurycollector · 5 years ago

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bunnyroy · 8 years ago

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Growth of Microcontroller Socket Market Analysis and Forecasts to 2021

MarketResearchNest.com adds “Global Microcontroller Socket Market 2017-2021” new report to its research database. The report spread across 68 pages with table and figures in it.

Research analysts forecast the global microcontroller socket market to grow at a CAGR of 7.25% during the period 2017-2021.

About Microcontroller Socket

A microcontroller socket is an electromechanical device, which…

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#Microcontroller Socket #Microcontroller Socket Analysis #Microcontroller Socket Growth #Microcontroller Socket Industry #Microcontroller Socket Industry Trends #Microcontroller Socket Market #Microcontroller Socket Share #Microcontroller Socket Size #Microcontroller Socket Trends

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newinnovationalmarketresearch · 5 years ago

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Microcontroller Socket Market Research (2020-2025) Report by Global Size, Share, Trends, Type, Application

Microcontroller Socket Market Research Report (2020-2025) Provides In-Depth Analysis by Scope, Growth Rate, Driving Factors, Competitive Situation, Top Manufacturers and Upcoming Trends. Microcontroller Socket Market report split global into several key Regions which mainly includes Market Overview, Table of Content, List of Figures and Applications. Microcontroller Socket Market Growing at Higher CAGR Rate of XX% between (2020-2025).

Summery:-

Request a Sample PDF Copy of This Report @ https://www.millioninsights.com/industry-reports/microcontroller-socket-market/request-sample

The key driving factors responsible for the growth of Microcontroller Socket market :

View Full Table of Contents of This Report @ https://www.millioninsights.com/industry-reports/microcontroller-socket-market

Table of Contents:-

• Microcontroller Socket Market Overview

• Microcontroller Socket Market Competition by Manufacturers

• Microcontroller Socket Market Production, Revenue (Value) by Region (2014-2025)

• Microcontroller Socket Market Supply (Production), Consumption, Export, Import by Regions (2014-2025)

• Microcontroller Socket Market Production, Revenue (Value), Price Trend by Type

• Microcontroller Socket Market Analysis by Application

• Microcontroller Socket Market Manufacturers Profiles/Analysis

• Microcontroller Socket Market Manufacturing Cost Analysis

• Microcontroller Socket Market Industrial Chain, Sourcing Strategy and Downstream Buyers

• Microcontroller Socket Market Marketing Strategy Analysis, Distributors/Traders

• Microcontroller Socket Market Effect Factors Analysis

• Microcontroller Socket Market Research Findings and Conclusion

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Research Support Specialist, USA

Email: [email protected]

Million Insights

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datainteloblog · 5 years ago

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Integrated Circuits (ICs) or microcontrollers are placed in the IC sockets to avoid the damage caused by the directly soldering the ICs to the printed circuit boards (PCBs).

#ic socket market #ic socket

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rajputdishank20-blog · 5 years ago

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IC Socket Market by Product Type, by Applications and Regions – Global Industry Analysis, Growth, Share, Size, Trends and Forecast 2020 – 2026

The global IC socket market is anticipated to expand at a CAGR of 9.2% during the forecast period 2020-2026. The growth of the market is attributed to the increasing demand for consumer electronics such as laptops, smartphones, and tablets, among others. Moreover, the rising adoption of Big Data and IoT (Internet of Things) in various industry verticals is expected to proliferate the growth of the market.

Integrated Circuits (ICs) or microcontrollers are placed in the IC sockets to avoid the damage caused by the directly soldering the ICs to the

printed circuit boards (PCBs)

. These sockets enable easy removal and insertion of ICs without damaging the PCBs. It also allows the manufacturers to easily upgrade the system without completely replacing the motherboards. They’re used in various industry verticals such as consumer electronics, automotive, industrial, and aerospace & defense, among others.

Market Drivers, Restrainers, and Opportunities:

The growing adoption of IC sockets in the prototyping of electrical circuits owing to its cost-effective and time-saving nature is expected to proliferate the growth of the market.

Rising disposable income and the continuous developments of consumer electronics is anticipated to fuel the demand for IC sockets during the forecast period. Moreover, the increasing sales of consumer electronics are driving market growth.

The increasing miniaturization of the electronic products owing to the advanced fabrication technologies is spurring the sales of IC sockets in the market. Moreover, the rapid development of the semiconductor industry is propelling market growth.

Government initiatives to drive the investment in the IC industry is expected to positively influence the IC socket market.

Rapid industrialization and modernization in emerging economies such as India and China are attributing a splendid growth of the market.

Automobile manufacturers are swiftly shifting towards the electrification of the sector with the growing demand for electric cars and self-driving cars which is anticipated to augment the market size during the forecast period.

Read More: https://dataintelo.com/report/ic-socket-market/

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dailytrendsnews · 8 months ago

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gomarketresearchstuff · 5 years ago

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Automotive Junction Box Market Size, Share, Growth, Trends, and Forecast 2017 – 2025

A junction box is a device that protects a connection (the junction) of two or more wires carrying electrical current. This level of protection is needed to prevent fires and form reliable connections that stay tight over many years. Need to run a wire from every outlet or switch back to the main service panel is removed by junction box. Nowadays, junction box features with electronic module functionality. When a junction box is used for every electrical connection it is much easier to locate and repair any electrical problems appeared in the system. Every electrical connection should be inside a protective box that is easy to find and access and junction box is used for that.

Electronic systems for which power distribution is done by junction box are required to install advanced feature in vehicle. Therefore, it is expected to be a key factor responsible for driving the automotive junction box market. When a junction box is used for every electrical connection, it is much easier to locate and repair any electrical problem that is likely to arise. Junction box can be used to protect the essential wiring connections. Solid state smart junction box allows relays and fuses to work through electronic devices. These self-protecting devices improve quality and eliminate the service to fuse and relays. Safety and security is also controlled by various systems as ABS, ADAS, and central locking system. Hence, safety and security is key in the increase in the demand of junction box. A majority of vehicle breakdowns are caused by electrical failure. Failure in the junction box is likely to damage the entire vehicle as it is a major component of the electronic system.

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The automotive junction box market can be segmented based on vehicle type, function, component, and geography.

Based on vehicle type, the automotive junction box market can be classified into passenger vehicles (PV) and commercial vehicles (CV). The Passenger vehicles segment can be further sub-segmented into hatchback cars, sedans, multi- purpose vehicles (MPV), and sport utility vehicles (SUV). The commercial vehicles segment can be split into light-weight commercial vehicles (LCVs) and heavy commercial vehicles (HCVs).

Junction box is categorized in two types: Passive junction box and Smart junction box. Smart junction box uses microcontroller-based technology to perform functions such as automotive power switching and vehicle body control. A junction box is used to transfer power from the powerhouse of the vehicle to every single component. It switches the distribution of power at the junction. As vehicle body controller, it helps the electronic system to function properly and maintain electronic systems’ good condition.

PRN Link: https://www.prnewswire.com/news-releases/high-demand-from-it-and-telecom-to-contribute-massively-to-growth-of-application-lifecycle-management-market-tmr-301019661.html

Components used in a junction box include AC power plugs and sockets, cable tray, electrical conduit, mineral-insulated copper-clad cable, multi-way switching, steel wire armored cable, ring circuit, and thermoplastic-sheathed cable.

In terms of geography, the automotive junction box market can be segmented into North America, Europe, Asia Pacific, and Rest of the World (ROW). Asia Pacific accounts for a major share of the global automotive junction box market, due to the high adoption rate of automotive junction box and the booming automotive sector, leading to an increased production of vehicles with junction box, especially in China and India.

Key players operating in the global automotive junction box market are Aisin Seiki Co Ltd, BorgWarner, Continental Corporation, Delphi Automotive PLC, DENSO Corporation, Eaton Corporation plc, Hilite International, Hitachi, Maxwell Technologies Inc., Mechadyne International Ltd, Robert Bosch Gmbh, Schaeffler Technologies Ag & Co. Kg, Valeo S.A., Johnson Controls Inc, and Mitsubishi Industrial automation.

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marketresearchinsight-blog · 6 years ago

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Microcontroller Socket Market Top Key Players To 2024

San Francisco, 21 Aug 2019 - The global microcontroller socket market is expected to reach USD 1.46 billion by 2024, according to a new report by Grand View Research, Inc. The increasing development and growth of automation and re-automation in the emerging countries are expected to fuel the industry growth.

Request for In-depth Info About this Report: http://www.grandviewresearch.com/industry-analysis/microcontroller-socket-market

Further key findings from the report suggest:

The microcontroller socket market is expected to boost over the forecast period owing to the increasing microcontroller applications in various segments

The QFP socket is expected to grow at a CAGR of over 7% from 2016 to 2024, owing to the growing trend of automation and re-automation in the emerging countries

The majorindustry players in the microcontroller socket market include Texas Instruments, Aries Electronics, Mill-Max Manufacturing Corporation, and Samtec, Inc.

About Grand View Research

Contact: Sherry James Corporate Sales Specialist, USA Grand View Research, Inc Phone: 1-415-349-0058 Toll Free: 1-888-202-9519 Email: [email protected] For More Information: www.grandviewresearch.com

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trendytechreviews · 6 years ago

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Scalable Processor Market Detailed Study Analysis with Forecast by 2027

Scalable processor delivers data center modernization to enhance operational effectiveness that lead to greater output and improved total cost of ownership (TCO) for users. On the basis of design, scalable processor sets a different level of platform capabilities and convergence across storage, memory, compute, network, and security. The processor has the competency to enable an advanced level of pervasive, consistent, and breakthrough performance. Scalable Processor is generally available in the form of socket type that includes two, four and eight sockets which provides a seamless balance between energy efficiency and improved throughput.

For business organizations, a scalable processor platform provides next-generation enterprise competency to large, small & medium size enterprises that can assist the data-fueled era, hybrid cloud services, and also help to increase day-to-day operations among them.

Want to know the obstructions to your company’s growth in future? Request a brochure here

Scalable Processor Market- Competitive Landscape

In April 2019, Intel launched its second generation “Xeon Platinum Scalable Processors 9200 Series” that has the capabilities to accelerates performance of up to 14 times for deep learning inference workloads includes image classification, object detection, and speech recognition..

In June 2019, Marvell Technology Group signed a partnership agreement with Arm Limited for the design & development of next-generation Marvell ThunderX scalable and highly optimized server processor technology. This partnership is expected to help both the companies improve their market position and accelerate and enhance worldwide penetration.

Intel Corporation

Founded in 1968 and located in the United States, Intel Corporation designs, develops, and manufactures data storage, networking, computing, and communication solutions worldwide. The company mainly provides system-on-chip, microprocessors, and multichip packaging products for various applications such as automotive, retail, industrial, and several other embedded applications.

Advanced Micro Devices (AMD), Inc

Founded in 1969 and located in the United States, Advanced Micro Devices (AMD), Inc manufactures semiconductor and enterprise solutions worldwide. The company operates its business mainly through enterprise, embedded, semi-custom computing & graphics. It provides x86 microprocessors, chipsets, and professional GPUs; discrete &integrated (GPUs); semi-custom System-on-Chip (SoC) products; and server & embedded processors and technology for game consoles.

Qualcomm Technologies, Inc.

Founded in 1985 and located in the United States, Qualcomm Technologies, Inc. manufactures wireless semiconductor chips worldwide. The company designs and develops a VR software development kit, Qualcomm Snapdragon XR1 Platform, Qualcomm Snapdragon 855 Mobile Platform, and others specifically in North America, Europe and Asia Pacific regions.

NVIDIA Corporation

Founded in 1993 and located in the United States, NVIDIA Corporation manufactures visual computing solutions worldwide. The company provides processors such as Quadro for design professionals working in computer-aided design; GeForce NOW for cloud-based game-streaming service; GeForce for PC gaming and mainstream PCs; and special effects, video editing, and other creative applications. Its products are used in various industries such as professional visualization, gaming, automotive, and datacenter markets.

NXP Semiconductor

Founded in 1953 and located in Netherlands, NXP Semiconductor designs and develops embedded application solutions worldwide. The company mainly provides power management devices, microcontrollers and microprocessors, sensors, RF transceivers, and amplifiers.

Some of the prominent players in the scalable processor market are Rockchip, Arm Limited, Marvell Technology Group, Ampere Computing, and Fujitsu.

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Scalable Processor Market Dynamics

Rapid Adoption of 5G Network Driving the Scalable Processor Market

A scalable processor platform is the foundation for next-generation platforms to build 5G-ready networks, which are cloud-optimized and virtualized. It provides a structural design that adapts & scales with ease to handle the growing demands of evolving applications such as high-performance packet processing, signal processing, and control plane processing. Therefore, the adoption of 5G technology is likely to allow completely new ecosystems and modules of enterprise & consumer services coupled with media applications on wireless and wire-line networks. The adoption of 5G networking technology and innovative use cases driven by visual computing, Internet of Things (IoT), and analytics, signify substantial upcoming opportunities for communications service providers (CommSPs) to expand revenue by the adoption of this innovative processor.

High Implementation Cost Restraining Scalable Processor Market Growth

Increasing cost of innovative processor platforms is projected to hinder the growth of the market. Budget of several enterprises, specifically small & medium enterprises (SMEs) is limited. Its high implementation cost causes budget limitations in small- & medium-sized businesses to deliver effective data storage solutions, which is restricting the growth of the scalable processor market.

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a-alex-hammer · 6 years ago

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Fleet of ‘roboats’ could collect garbage or self-assemble into floating structures in Amsterdam’s many canals — ScienceDaily

The city of Amsterdam envisions a future where fleets of autonomous boats cruise its many canals to transport goods and people, collect trash, or self-assemble into floating stages and bridges. To further that vision, MIT researchers have given new capabilities to their fleet of robotic boats — which are being developed as part of an ongoing project — that let them target and clasp onto each other, and keep trying if they fail.

About a quarter of Amsterdam’s surface area is water, with 165 canals winding alongside busy city streets. Several years ago, MIT and the Amsterdam Institute for Advanced Metropolitan Solutions (AMS Institute) teamed up on the “Roboat” project. The idea is to build a fleet of autonomous robotic boats — rectangular hulls equipped with sensors, thrusters, microcontrollers, GPS modules, cameras, and other hardware — that provides intelligent mobility on water to relieve congestion in the city’s busy streets.

One of project’s objectives is to create roboat units that provide on-demand transportation on waterways. Another objective is using the roboat units to automatically form “pop-up” structures, such as foot bridges, performance stages, or even food markets. The structures could then automatically disassemble at set times and reform into target structures for different activities. Additionally, the roboat units could be used as agile sensors to gather data on the city’s infrastructure, and air and water quality, among other things.

In 2016, MIT researchers tested a roboat prototype that cruised around Amsterdam’s canals, moving forward, backward, and laterally along a preprogrammed path. Last year, researchers designed low-cost, 3-D-printed, one-quarter scale versions of the boats, which were more efficient and agile, and came equipped with advanced trajectory-tracking algorithms.

In a paper presented at the International Conference on Robotics and Automation, the researchers describe roboat units that can now identify and connect to docking stations. Control algorithms guide the roboats to the target, where they automatically connect to a customized latching mechanism with millimeter precision. Moreover, the roboat notices if it has missed the connection, backs up, and tries again.

The researchers tested the latching technique in a swimming pool at MIT and in the Charles River, where waters are rougher. In both instances, the roboat units were usually able to successfully connect in about 10 seconds, starting from around 1 meter away, or they succeeded after a few failed attempts. In Amsterdam, the system could be especially useful for overnight garbage collection. Roboat units could sail around a canal, locate and latch onto platforms holding trash containers, and haul them back to collection facilities.

“In Amsterdam, canals were once used for transportation and other things the roads are now used for. Roads near canals are now very congested — and have noise and pollution — so the city wants to add more functionality back to the canals,” says first author Luis Mateos, a graduate student in the Department of Urban Studies and Planning (DUSP) and a researcher in the MIT Senseable City Lab. “Self-driving technologies can save time, costs and energy, and improve the city moving forward.”

“The aim is to use roboat units to bring new capabilities to life on the water,” adds co-author Daniela Rus, director of the Computer Science and Artificial Intelligence Laboratory (CSAIL) and the Andrew and Erna Viterbi Professor of Electrical Engineering and Computer Science. “The new latching mechanism is very important for creating pop-up structures. Roboat does not need latching for autonomous transportation on water, but you need the latching to create any structure, whether it’s mobile or fixed.”

Joining Mateos on the paper are: Wei Wang, a joint postdoc in CSAIL and the Senseable City Lab; Banti Gheneti, a graduate student in the Department of Electrical Engineering and Computer Science; Fabio Duarte, a DUSP and Senseable City Lab research scientist; and Carlo Ratti, director of the Senseable City Lab and a principal investigator and professor of the practice in DUSP.

Making the connection

Each roboat is equipped with latching mechanisms, including ball and socket components, on its front, back, and sides. The ball component resembles a badminton shuttlecock — a cone-shaped, rubber body with a metal ball at the end. The socket component is a wide funnel that guides the ball component into a receptor. Inside the funnel, a laser beam acts like a security system that detects when the ball crosses into the receptor. That activates a mechanism with three arms that closes around and captures the ball, while also sending a feedback signal to both roboats that the connection is complete.

On the software side, the roboats run on custom computer vision and control techniques. Each roboat has a LIDAR system and camera, so they can autonomously move from point to point around the canals. Each docking station — typically an unmoving roboat — has a sheet of paper imprinted with an augmented reality tag, called an AprilTag, which resembles a simplified QR code. Commonly used for robotic applications, AprilTags enable robots to detect and compute their precise 3-D position and orientation relative to the tag.

Both the AprilTags and cameras are located in the same locations in center of the roboats. When a traveling roboat is roughly one or two meters away from the stationary AprilTag, the roboat calculates its position and orientation to the tag. Typically, this would generate a 3-D map for boat motion, including roll, pitch, and yaw (left and right). But an algorithm strips away everything except yaw. This produces an easy-to-compute 2-D plane that measures the roboat camera’s distance away and distance left and right of the tag. Using that information, the roboat steers itself toward the tag. By keeping the camera and tag perfectly aligned, the roboat is able to precisely connect.

The funnel compensates for any misalignment in the roboat’s pitch (rocking up and down) and heave (vertical up and down), as canal waves are relatively small. If, however, the roboat goes beyond its calculated distance, and doesn’t receive a feedback signal from the laser beam, it knows it has missed. “In challenging waters, sometimes roboat units at the current one-quarter scale, are not strong enough to overcome wind gusts or heavy water currents,” Mateos says. “A logic component on the roboat says, ‘You missed, so back up, recalculate your position, and try again.'”

Future iterations

The researchers are now designing roboat units roughly four times the size of the current iterations, so they’ll be more stable on water. Mateos is also working on an update to the funnel that includes tentacle-like rubber grippers that tighten around the pin — like a squid grasping its prey. That could help give the roboat units more control when, say, they’re towing platforms or other roboats through narrow canals.

In the works is also a system that displays the AprilTags on an LCD monitor that changes codes to signal multiple roboat units to assemble in a given order. At first, all roboat units will be given a code to stay exactly a meter apart. Then, the code changes to direct the first roboat to latch. After, the screen switches codes to order the next roboat to latch, and so on. “It’s like the telephone game. The changing code passes a message to one roboat at a time, and that message tells them what to do,” Mateos says.

The research was funded by the AMS Institute and the City of Amsterdam.

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Source/Repost=> http://technewsdestination.com/fleet-of-roboats-could-collect-garbage-or-self-assemble-into-floating-structures-in-amsterdams-many-canals-sciencedaily/ ** Alex Hammer | Founder and CEO at Ecommerce ROI ** http://technewsdestination.com

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dorcasrempel · 6 years ago

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Autonomous boats can target and latch onto each other

The city of Amsterdam envisions a future where fleets of autonomous boats cruise its many canals to transport goods and people, collect trash, or self-assemble into floating stages and bridges. To further that vision, MIT researchers have given new capabilities to their fleet of robotic boats — which are being developed as part of an ongoing project — that lets them target and clasp onto each other, and keep trying if they fail.

One of project’s objectives is to create roboat units that provide on-demand transporation on waterways. Another objective is using the roboat units to automatically form “pop-up” structures, such as foot bridges, performance stages, or even food markets. The structures could then automatically disassemble at set times and reform into target structures for different activities. Additionally, the roboat units could be used as agile sensors to gather data on the city’s infrastructure, and air and water quality, among other things.

“The aim is to use roboat units to bring new capabilities to life on the water,” adds co-author Daniela Rus, director of the Computer Science and Artificial Intelligence Laboratory (CSAIL) and the Andrew and Erna Viterbi Professor of Electrical Engineering and Computer Science. “The new latching mechanism is very important for creating pop-up structures. Roboat does not need latching for autonomous transporation on water, but you need the latching to create any structure, whether it’s mobile or fixed.”

Making the connection

Future iterations

Darwin Caldwell, the research director of Advanced Robotics at the Italian Institute of Technology, envisions even more possible applications for the autonomous latching capability. “I can certainly see this type of autonomous docking being of use in many areas of robotic ‘refuelling’ and docking … beyond aquatic/naval systems,” he says, “including inflight refuelling, space docking, cargo container handling, [and] robot in-house recharging.”

The research was funded by the AMS Institute and the City of Amsterdam.

Autonomous boats can target and latch onto each other syndicated from https://osmowaterfilters.blogspot.com/

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