Power over Ethernet Chipsets Market

Description

Power over ethernet chipsets market is expected to grow at a stable rate during the forecast period 2017 to 2025. Ethernet is the system of connecting different computer systems for making a local area network (LAN) having defined protocols that controls passing of information for avoiding simultaneous transmission between two or more systems. Power over ethernet (PoE) is a specific technology required for ethernet LANs that allows the passage of electric current by data cables further being required for operation of devices. Power over Ethernet Chipsets market globally is segmented into product type, applications, and geography. Flexibility, easier maintenance are some of the crucial factors that affects the market for PoE chipsets. This technology is used across different industries such as automotive and healthcare among others. Flexibility along with easier maintenance are some crucial factors that positively affects the market for PoE chipsets providing a better flexibility than traditional wiring.

Market Drivers

1- Easier maintenance, less downtime, better installation flexibility, improved fault tolerance, better safety, and reliability are important factors that drive the growth of power over ethernet chipsets market.
2- Use of power over ethernet chipsets allows easy installation of devices along with better safety and reliability further making all these important factors to drive overall growth of the market.
 

Market Segmentation

1- By product type, the global market for PoE chipsets has been segmented into ethernet switches, proximity sensors, wireless radio access points and VoIP phones among others.
2- By application, the market has been segmented into healthcare facilities, data centers, offices and educational institutions.
3- By geography, power over ethernet chipset market has been segmented into North America, Europe, Asia-Pacific, Middle East & Africa (MEA) and Latin America.

Leading Players

Kinetic Technologies (The U.S.),
B&B Electronics (The U.S.),
Cisco (The U.S.), Maxim Integrated (The U.S.),
Microsemi Corporation (The U.S.),
ON Semiconductor (The U.S.),
STMicroelectronics (Switzerland) and
Silicon Laboratories (The U.S.).

  

 1.     Introduction
 1.1.         Study Objective
 1.2.         Assumptions
 1.3.         Acronyms
 1.4.         Study Stakeholder Analysis, Mendelows Matrix
 1.5.         Research Scope
 1.6.         Market Segmentation
 1.7.         Research Limitations
 2.     Research Methodology
 2.1.         Parameters
 2.1.1. Economic
 2.1.2. Statistical
 2.1.3. Geographic
 2.2.         Data Sources
 2.2.1. Primary Research
 2.2.1.1.          Excerpts of Interview with Key Industry Personnel
 2.2.1.2.          Directory of Some of the Key Industry Personnel
 2.2.1.3.          Primary Interviews, Breakdown
 2.2.1.4.          Primary Data Collection Process
 2.2.1.5.          Primary Data Sources
 2.2.2. Secondary Research
 2.2.2.1.          Secondary Data Collection Process
 2.2.2.2.          Proprietary Databases of Factor & Equilibrium
 2.3.         Research Process
 2.4.         Market Size Estimation Technique
 2.4.1. Top Down Approach
 2.4.2. Bottom Up Approach
 2.4.3. Forecasting Technique
 3.     Executive Summary
 3.1.         Power over Ethernet Chipsets Market Size Estimation, By Type (USD Million and Thousand Units)
 3.2.         Power over Ethernet Chipsets Market Size Estimation, By Application (USD Million and Thousand Units)
 3.3.         Power over Ethernet Chipsets Market Growth Estimation, By Region (%)
 4.     Market Overview
 4.1.         Market Definition
 4.2.         Product Definition
 4.3.         Industry Evolution Analysis
 4.4.         Key Trends Analysis
 4.5.         Product Lifecycle Analysis, Region
 4.6.         Factor & Equilibrium Vendor Positioning Matrix
 4.7.         Porter Five Force Analysis
 4.7.1. Bargaining Power of Buyer
 4.7.2. Bargaining Power of Supplier
 4.7.3. Threat of Substitutes
 4.7.4. Threat of New Entrants
 4.7.5. Competitive Rivalry
 4.8.         Market Opportunity Analysis
 4.9.         Patent Analysis
 4.10.       Industry Regulations
 4.11.       Market Attractiveness Analysis
 4.11.1.   By Geography
 4.11.2.   By Types
 4.11.3.   By Application
 4.11.4.   By Region
 5.     Competitive Scenario
 5.1.         Market Share Analysis of Key Players
 5.2.         Competitive Strategies of Leading Players
 5.3.         List of Organic and Inorganic Growth Activities
 6.     Global Power over Ethernet Chipsets Market , By Type (USD Million and Thousand Units)
 6.1.         Overview
 6.2.         Technology Trends
 6.3.         Market Dynamics
 6.3.1. Drivers
 6.3.2. Restraints
 6.3.3. Opportunities
 6.4.         Market Opportunity Heat Map, By Type
 6.5.         Ethernet Switches
 6.5.1. Comparative Analysis of major vendors
 6.6.         Proximity Sensors
 6.6.1. Comparative Analysis of major vendors
 6.7.         Wireless Radio Access Points
 6.7.1. Comparative Analysis of major vendors
 6.8.         VoIP Phones
 6.8.1. Comparative Analysis of major vendors
 6.9.         Others
 7.     Global Power over Ethernet Chipsets Market , By Application (USD Million and Thousand Units)
 7.1.         Overview
 7.2.         Purchasing Trends
 7.3.         Market Dynamics
 7.3.1. Drivers
 7.3.2. Restraints
 7.3.3. Opportunities
 7.3.4. Market Opportunity Heat Map, By Application
 7.4.         Healthcare Facilities
 7.5.         Data Centers
 7.6.         Offices
 7.7.         Educational Institutions
 7.8.         Others
 8.     North America Power over Ethernet Chipsets Market (USD Million and Thousand Units)
 8.1.         Overview
 8.2.         Pricing Dynamics
 8.2.1. Drivers
 8.2.2. Restraints
 8.3.         North America Power over Ethernet Chipsets Market , By Type (USD Million and Thousand Units)
 8.3.1. Ethernet Switches
 8.3.2. Proximity Sensors
 8.3.3. Wireless Radio Access Points
 8.3.4. VoIP Phones
 8.3.5. Others
 8.4.         North America Power over Ethernet Chipsets Market, By Application (USD Million and Thousand Units)
 8.4.1. Healthcare Facilities
 8.4.2. Data Centers
 8.4.3. Offices
 8.4.4. Educational Institutions
 8.4.5. Others
 8.5.         North America Power over Ethernet Chipsets Market , By Country (USD Million and Thousand Units)
 8.5.1. The U.S.
 8.5.2. Rest of North America
 9.     Europe Power over Ethernet Chipsets Market (USD Million and Thousand Units)
 9.1.         Overview
 9.2.         Pricing Dynamics
 9.2.1. Drivers
 9.2.2. Restraints
 9.3.         Europe Power over Ethernet Chipsets Market , By Type (USD Million and Thousand Units)
 9.3.1. Ethernet Switches
 9.3.2. Proximity Sensors
 9.3.3. Wireless Radio Access Points
 9.3.4. VoIP Phones
 9.3.5. Others
 9.4.         Europe Power over Ethernet Chipsets Market, By Application (USD Million and Thousand Units)
 9.4.1. Healthcare Facilities
 9.4.2. Data Centers
 9.4.3. Offices
 9.4.4. Educational Institutions
 9.4.5. Others
 9.5.         Europe Power over Ethernet Chipsets Market , By Country (USD Million and Thousand Units)
 9.5.1. The U.K
 9.5.2. Germany
 9.5.3. France
 9.5.4. CIS + Scandinavia
 9.5.5. Rest of the Europe
 10.  Asia Pacific Power over Ethernet Chipsets Market (USD Million and Thousand Units)
 10.1.       Overview
 10.2.       Pricing Dynamics
 10.2.1.   Drivers
 10.2.2.   Restraints
 10.3.       Asia Pacific Power over Ethernet Chipsets Market , By Type (USD Million and Thousand Units)
 10.3.1.   Ethernet Switches
 10.3.2.   Proximity Sensors
 10.3.3.   Wireless Radio Access Points
 10.3.4.   VoIP Phones
 10.3.5.   Others
 10.4.       Asia Pacific Power over Ethernet Chipsets Market, By Application (USD Million and Thousand Units)
 10.4.1.   Healthcare Facilities
 10.4.2.   Data Centers
 10.4.3.   Offices
 10.4.4.   Educational Institutions
 10.4.5.   Others
 10.5.       Asia Pacific Power over Ethernet Chipsets Market , By Country (USD Million and Thousand Units)
 10.5.1.   China
 10.5.2.   Japan
 10.5.3.   Taiwan
 10.5.4.   Latin Korea
 10.5.5.   Rest of the Asia Pacific
 11.  Middle East & Africa (MEA) Power over Ethernet Chipsets Market (USD Million and Thousand Units)
 11.1.       Overview
 11.2.       Pricing Dynamics
 11.2.1.   Drivers
 11.2.2.   Restraints
 11.3.       Middle East & Africa (MEA) Power over Ethernet Chipsets Market , By Type (USD Million and Thousand Units)
 11.3.1.   Ethernet Switches
 11.3.2.   Proximity Sensors
 11.3.3.   Wireless Radio Access Points
 11.3.4.   VoIP Phones
 11.3.5.   Others
 11.4.       Middle East & Africa (MEA) Power over Ethernet Chipsets Market, By Application (USD Million and Thousand Units)
 11.4.1.   Healthcare Facilities
 11.4.2.   Data Centers
 11.4.3.   Offices
 11.4.4.   Educational Institutions
 11.4.5.   Others
 11.5.       Middle East & Africa (MEA) Power over Ethernet Chipsets Market , By Country (USD Million and Thousand Units)
 11.5.1.   Israel
 11.5.2.   South Africa
 11.5.3.   Rest of the MEA
 12.  Latin America Power over Ethernet Chipsets Market (USD Million and Thousand Units)
 12.1.       Overview
 12.2.       Pricing Dynamics
 12.2.1.   Drivers
 12.2.2.   Restraints
 12.3.       Latin America Power over Ethernet Chipsets Market , By Type (USD Million and Thousand Units)
 12.3.1.   Ethernet Switches
 12.3.2.   Proximity Sensors
 12.3.3.   Wireless Radio Access Points
 12.3.4.   VoIP Phones
 12.3.5.   Others
 12.4.       Latin America Power over Ethernet Chipsets Market, By Application (USD Million and Thousand Units)
 12.4.1.   Healthcare Facilities
 12.4.2.   Data Centers
 12.4.3.   Offices
 12.4.4.   Educational Institutions
 12.4.5.   Others
 12.5.       Latin America Power over Ethernet Chipsets Market , By Country (USD Million and Thousand Units)
 12.5.1.   Brazil
 12.5.2.   Mexico
 12.5.3.   Rest of the Latin America
 13.  Company Profiles
 13.1.       Kinetic Technologies
 13.1.1.   Company Details (Name, Headquarter, Foundation Year, Website and Employee Strength)
 13.1.2.   Primary Business Segment
 13.1.3.   SWOT Analysis
 13.1.4.   Financial Overview
 13.1.5.   Strategy Mapping
 **Similar details would be provided for all the below mentioned companies


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