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USA Smart Sensor Market

  • Report Code: SM 1008
  • Publish Date: Upcoming
  
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A sensor with an interfacing circuit forms a smart sensor, which is capable of making decision, logical function, and two-way communications. The major benefits offered by a smart sensor are high reliability, minimal cost, high performance, and scalability. The major challenge associated with the smart sensor is its pre-defined embedded functions that have to be provided during designing of smart sensors. These are used in various applications such as aerospace & defense, automotive, biomedical, industrial automation, building automation, and consumer electronics among others. It measure brightness, acceleration, temperature, humidity, and material property. Due to the flexibility and miniaturization, smart sensors have now been integrated in automotive products, consumer electronics products, and wearable devices.

 

The smart sensor is segmented on the basis of types, which include flow sensor, dissolved oxygen sensor, turbidity sensor, oxidation reduction potential (ORP) sensor, pH sensor, temperature sensor, pressure sensor, and touch sensor among others. The pressure sensors are expected to witness a high growth rate in the coming years, owing to its adoption in varied electronic devices, such as smartphones. The three major technologies incorporated in these sensors are micro-electro-mechanical system (MEMS) technology, complementary metal-oxide-semiconductor (CMOS) technology, and optical spectroscopy. MEMS and CMOS technology form the main stream technologies. The main components that are used in the development of smart sensors include analog-to-digital converter (ADC), digital-to-analog converter (DAC), transceivers, amplifiers, and microcontroller among others. The U.S. smart sensor market was valued at $57.41 million in 2012, and is projected to reach $483 million by 2018, at a CAGR of 37%.

 

The market report offers a comprehensive overview of market share, value chain analysis, and market metrics including drivers, restraints, and upcoming opportunities. It also provides noteworthy insights on recent market trends, company profiles, growth strategies, and recent developments.

 

Key Take Away:

  • The total revenue of the U.S. smart sensor market is expected to grow at an estimated CAGR of 37% from 2013 to 2018
  • Analysis of the U.S. market with special focus on high growth application in each vertical
  • Detailed evaluation of the mature and emerging market for sensor types, components, technology, and application
  • The key trends related to the technology, types, and applications that shape and influence the smart sensor markets
  • Illustrative segmentation, analysis, forecast, and a comprehensive overview of the U.S. market
  • Detailed competitive landscape with identification of key players, in terms of market share analysis and market rankings
  • Competitive intelligence that includes company profiles, key player strategies, and game-changing developments such as product launches and acquisitions
  • SWOT analysis of top players in the market
  • Detailed Porter's analysis to define the current market scenario
  • Value chain analysis to illustrate how the business of the smart sensor is carried out, and how the major stakeholders are being listed

 

Customization Options:

With Market data, you can also customize MMM assessments that are in accordance to your company’s specific needs. Customize to get comprehensive industry standard and deep dive analysis on the following parameters:

 

Component Analysis

  • In-depth trend analysis of components and various types of smart sensors in the competitive scenario
  • Component Matrix, which gives a detailed comparison of component portfolio of each company mapped in the U.S.
  • Component Matrix, which gives a detailed comparison of component portfolio for technologies in the smart sensor market (MEMS, CMOS and Optical)
  • Comprehensive coverage of regulations followed in the U.S.

 

Data from Manufacturing Firms

  • Fast turn-around analysis of manufacturing firms, with respect to recent market events and trends
  • Expert opinion about different components and types of smart sensors
  • Qualitative inputs on macro-economic indicators, mergers, and acquisition in the U.S.
  • In-depth analysis of different applications and technologies in the smart sensor market

 

Shipment/ Volume Data

  • Value of components shipped annually in the U.S.-Tracking done
  • Quantitative input of smart sensor applications in each country - Tracking done

 

Trend analysis of Applications

  • Application Matrix, which gives detailed comparison of application portfolio of each company mapped in the U.S. and different types of smart sensors
  • Application Matrix, which give detailed comparison of application portfolio for different components and technologies used in the smart sensor market


1 Introduction
1.1 Objective of the study
1.2 Market Definitions
1.3 Market Segmentation & Aspects Covered
1.4 Research Methodology
1.4.1 Assumptions (Market Size, Forecast, etc)

 

2 Executive Summary
 

3 Market Overview
 

4 Smart Sensor-USA, By Applications
4.1 Smart Sensor-USA-Industrial Automation applications
4.1.1 Smart Sensor-USA-Industrial Automation applications, By Types
4.1.1.1 Smart Sensor-USA-Industrial Automation applications-Flow Sensor
4.1.1.2 Smart Sensor-USA-Industrial Automation applications-Pressure Sensor
4.1.1.3 Smart Sensor-USA-Industrial Automation applications-PH Sensor
4.1.1.4 Smart Sensor-USA-Industrial Automation applications-Oxidation-Reduction Potential (ORP) Sensor
4.1.1.5 Smart Sensor-USA-Industrial Automation applications-Temperature Sensor
4.1.1.6 Smart Sensor-USA-Industrial Automation applications-Touch sensor
4.1.1.7 Smart Sensor-USA-Industrial Automation applications-Turbidity Sensor
4.1.1.8 Smart Sensor-USA-Industrial Automation applications-Dissolved Oxygen Sensor
4.2 Smart Sensor-USA-Biomedical
4.2.1 Smart Sensor-USA-Biomedical, By Types
4.2.1.1 Smart Sensor-USA-Biomedical-PH Sensor
4.2.1.2 Smart Sensor-USA-Biomedical-Oxidation-Reduction Potential (ORP) Sensor
4.2.1.3 Smart Sensor-USA-Biomedical-Flow Sensor
4.2.1.4 Smart Sensor-USA-Biomedical-Temperature Sensor
4.2.1.5 Smart Sensor-USA-Biomedical-Turbidity Sensor
4.2.1.6 Smart Sensor-USA-Biomedical-Dissolved Oxygen Sensor
4.2.1.7 Smart Sensor-USA-Biomedical-Touch sensor
4.2.1.8 Smart Sensor-USA-Biomedical-Pressure Sensor
4.3 Smart Sensor-USA-Consumer Electronics
4.3.1 Smart Sensor-USA-Consumer Electronics, By Types
4.3.1.1 Smart Sensor-USA-Consumer Electronics-Temperature Sensor
4.3.1.2 Smart Sensor-USA-Consumer Electronics-Touch sensor
4.3.1.3 Smart Sensor-USA-Consumer Electronics-Pressure Sensor
4.3.1.4 Smart Sensor-USA-Consumer Electronics-Flow Sensor
4.3.1.5 Smart Sensor-USA-Consumer Electronics-Turbidity Sensor
4.3.1.6 Smart Sensor-USA-Consumer Electronics-Dissolved Oxygen Sensor
4.3.1.7 Smart Sensor-USA-Consumer Electronics-Oxidation-Reduction Potential (ORP) Sensor
4.3.1.8 Smart Sensor-USA-Consumer Electronics-PH Sensor
4.4 Smart Sensor-USA-Building Automation
4.4.1 Smart Sensor-USA-Building Automation, By Types
4.4.1.1 Smart Sensor-USA-Building Automation-Pressure Sensor
4.4.1.2 Smart Sensor-USA-Building Automation-Temperature Sensor
4.4.1.3 Smart Sensor-USA-Building Automation-Touch sensor
4.4.1.4 Smart Sensor-USA-Building Automation-Flow Sensor
4.4.1.5 Smart Sensor-USA-Building Automation-PH Sensor
4.4.1.6 Smart Sensor-USA-Building Automation-Oxidation-Reduction Potential (ORP) Sensor
4.4.1.7 Smart Sensor-USA-Building Automation-Dissolved Oxygen Sensor
4.4.1.8 Smart Sensor-USA-Building Automation-Turbidity Sensor
4.5 Smart Sensor-USA-Automotive
4.5.1 Smart Sensor-USA-Automotive, By Types
4.5.1.1 Smart Sensor-USA-Automotive Sensors-Dissolved Oxygen Sensor
4.5.1.2 Smart Sensor-USA-Automotive Sensors-Flow Sensor
4.5.1.3 Smart Sensor-USA-Automotive Sensors-Pressure Sensor
4.5.1.4 Smart Sensor-USA-Automotive Sensors-Touch sensor
4.5.1.5 Smart Sensor-USA-Automotive Sensors-Temperature Sensor
4.5.1.6 Smart Sensor-USA-Automotive Sensors-Turbidity Sensor
4.5.1.7 Smart Sensor-USA-Automotive Sensors-Oxidation-Reduction Potential (ORP) Sensor
4.5.1.8 Smart Sensor-USA-Automotive Sensors-PH Sensor
4.6 Smart Sensor-USA-Aerospace & Defense
4.6.1 Smart Sensor-USA-Aerospace & Defense, By Types
4.6.1.1 Smart Sensor-USA-Aerospace & Defense-Pressure Sensor
4.6.1.2 Smart Sensor-USA-Aerospace & Defense-Dissolved Oxygen Sensor
4.6.1.3 Smart Sensor-USA-Aerospace & Defense-Turbidity Sensor
4.6.1.4 Smart Sensor-USA-Aerospace & Defense-Touch sensor
4.6.1.5 Smart Sensor-USA-Aerospace & Defense-Flow Sensor
4.6.1.6 Smart Sensor-USA-Aerospace & Defense-Temperature Sensor
4.6.1.7 Smart Sensor-USA-Aerospace & Defense-Oxidation-Reduction Potential (ORP) Sensor
4.6.1.8 Smart Sensor-USA-Aerospace & Defense-PH Sensor

 

5 Smart Sensor-USA, By Components
5.1 Smart Sensor-USA-ADC
5.2 Smart Sensor-USA-Transceivers
5.3 Smart Sensor-USA-Amplifier
5.4 Smart Sensor-USA-Microcontroller
5.5 Smart Sensor-USA-DAC

 

6 Smart Sensor-USA, By Types
6.1 Smart Sensor-USA-Pressure Sensor
6.1.1 Smart Sensor-USA-Pressure Sensor, By Applications
6.1.1.1 Smart Sensor-USA-Industrial Automation applications-Pressure Sensor
6.1.1.2 Smart Sensor-USA-Building Automation-Pressure Sensor
6.1.1.3 Smart Sensor-USA-Consumer Electronics-Pressure Sensor
6.1.1.4 Smart Sensor-USA-Aerospace & Defense-Pressure Sensor
6.1.1.5 Smart Sensor-USA-Automotive Sensors-Pressure Sensor
6.1.1.6 Smart Sensor-USA-Biomedical-Pressure Sensor
6.1.2 Smart Sensor-USA-Pressure Sensor, By Technologies
6.1.2.1 CMOS-USA-Pressure Sensor
6.1.2.2 MEMS Technology-USA-Pressure Sensor
6.1.2.3 Optical Spectroscopy-USA-Pressure Sensor
6.2 Smart Sensor-USA-Flow Sensor
6.2.1 Smart Sensor-USA-Flow Sensor, By Applications
6.2.1.1 Smart Sensor-USA-Industrial Automation applications-Flow Sensor
6.2.1.2 Smart Sensor-USA-Biomedical-Flow Sensor
6.2.1.3 Smart Sensor-USA-Consumer Electronics-Flow Sensor
6.2.1.4 Smart Sensor-USA-Automotive Sensors-Flow Sensor
6.2.1.5 Smart Sensor-USA-Building Automation-Flow Sensor
6.2.1.6 Smart Sensor-USA-Aerospace & Defense-Flow Sensor
6.2.2 Smart Sensor-USA-Flow Sensor, By Technologies
6.2.2.1 CMOS-USA-Flow Sensor
6.2.2.2 MEMS Technology-USA-Flow Sensor
6.2.2.3 Optical Spectroscopy-USA-Flow Sensor
6.3 Smart Sensor-USA-Temperature Sensor
6.3.1 Smart Sensor-USA-Temperature Sensor, By Applications
6.3.1.1 Smart Sensor-USA-Consumer Electronics-Temperature Sensor
6.3.1.2 Smart Sensor-USA-Industrial Automation applications-Temperature Sensor
6.3.1.3 Smart Sensor-USA-Building Automation-Temperature Sensor
6.3.1.4 Smart Sensor-USA-Biomedical-Temperature Sensor
6.3.1.5 Smart Sensor-USA-Aerospace & Defense-Temperature Sensor
6.3.1.6 Smart Sensor-USA-Automotive Sensors-Temperature Sensor
6.3.2 Smart Sensor-USA-Temperature Sensor, By Technologies
6.3.2.1 CMOS-USA-Temperature Sensor
6.3.2.2 MEMS Technology-USA-Temperature Sensor
6.3.2.3 Optical Spectroscopy-USA-Temperature Sensor
6.4 Smart Sensor-USA-Touch sensor
6.4.1 Smart Sensor-USA-Touch sensor, By Applications
6.4.1.1 Smart Sensor-USA-Consumer Electronics-Touch sensor
6.4.1.2 Smart Sensor-USA-Building Automation-Touch sensor
6.4.1.3 Smart Sensor-USA-Industrial Automation applications-Touch sensor
6.4.1.4 Smart Sensor-USA-Biomedical-Touch sensor
6.4.1.5 Smart Sensor-USA-Automotive Sensors-Touch sensor
6.4.1.6 Smart Sensor-USA-Aerospace & Defense-Touch sensor
6.4.2 Smart Sensor-USA-Touch sensor, By Technologies
6.4.2.1 CMOS-USA-Touch sensor
6.4.2.2 MEMS Technology-USA-Touch sensor
6.4.2.3 Optical Spectroscopy-USA-Touch sensor
6.5 Smart Sensor-USA-Dissolved Oxygen Sensor
6.5.1 Smart Sensor-USA-Dissolved Oxygen Sensor, By Applications
6.5.1.1 Smart Sensor-USA-Biomedical-Dissolved Oxygen Sensor
6.5.1.2 Smart Sensor-USA-Automotive Sensors-Dissolved Oxygen Sensor
6.5.1.3 Smart Sensor-USA-Industrial Automation applications-Dissolved Oxygen Sensor
6.5.1.4 Smart Sensor-USA-Aerospace & Defense-Dissolved Oxygen Sensor
6.5.1.5 Smart Sensor-USA-Building Automation-Dissolved Oxygen Sensor
6.5.1.6 Smart Sensor-USA-Consumer Electronics-Dissolved Oxygen Sensor
6.5.2 Smart Sensor-USA-Dissolved Oxygen Sensor, By Technologies
6.5.2.1 CMOS-USA-Dissolved Oxygen Sensor
6.5.2.2 MEMS Technology-USA-Dissolved Oxygen Sensor
6.5.2.3 Optical Spectroscopy-USA-Dissolved Oxygen Sensor
6.6 Smart Sensor-USA-Turbidity Sensor
6.6.1 Smart Sensor-USA-Turbidity Sensor, By Applications
6.6.1.1 Smart Sensor-USA-Biomedical-Turbidity Sensor
6.6.1.2 Smart Sensor-USA-Industrial Automation applications-Turbidity Sensor
6.6.1.3 Smart Sensor-USA-Consumer Electronics-Turbidity Sensor
6.6.1.4 Smart Sensor-USA-Aerospace & Defense-Turbidity Sensor
6.6.1.5 Smart Sensor-USA-Automotive Sensors-Turbidity Sensor
6.6.1.6 Smart Sensor-USA-Building Automation-Turbidity Sensor
6.6.2 Smart Sensor-USA-Turbidity Sensor, By Technologies
6.6.2.1 CMOS-USA-Turbidity Sensor
6.6.2.2 MEMS Technology-USA-Turbidity Sensor
6.6.2.3 Optical Spectroscopy-USA-Turbidity Sensor
6.7 Smart Sensor-USA-Oxidation-Reduction Potential (ORP) Sensor
6.7.1 Smart Sensor-USA-Oxidation-Reduction Potential (ORP) Sensor, By Applications
6.7.1.1 Smart Sensor-USA-Biomedical-Oxidation-Reduction Potential (ORP) Sensor
6.7.1.2 Smart Sensor-USA-Industrial Automation applications-Oxidation-Reduction Potential (ORP) Sensor
6.7.1.3 Smart Sensor-USA-Building Automation-Oxidation-Reduction Potential (ORP) Sensor
6.7.1.4 Smart Sensor-USA-Consumer Electronics-Oxidation-Reduction Potential (ORP) Sensor
6.7.1.5 Smart Sensor-USA-Aerospace & Defense-Oxidation-Reduction Potential (ORP) Sensor
6.7.1.6 Smart Sensor-USA-Automotive Sensors-Oxidation-Reduction Potential (ORP) Sensor
6.7.2 Smart Sensor-USA-Oxidation-Reduction Potential (ORP) Sensor, By Technologies
6.7.2.1 CMOS-USA-Oxidation-Reduction Potential (ORP) Sensor
6.7.2.2 MEMS Technology-USA-Oxidation-Reduction Potential (ORP) Sensor
6.7.2.3 Optical Spectroscopy-USA-Oxidation-Reduction Potential (ORP) Sensor
6.8 Smart Sensor-USA-PH Sensor
6.8.1 Smart Sensor-USA-PH Sensor, By Applications
6.8.1.1 Smart Sensor-USA-Biomedical-PH Sensor
6.8.1.2 Smart Sensor-USA-Industrial Automation applications-PH Sensor
6.8.1.3 Smart Sensor-USA-Building Automation-PH Sensor
6.8.1.4 Smart Sensor-USA-Consumer Electronics-PH Sensor
6.8.1.5 Smart Sensor-USA-Aerospace & Defense-PH Sensor
6.8.1.6 Smart Sensor-USA-Automotive Sensors-PH Sensor
6.8.2 Smart Sensor-USA-PH Sensor, By Technologies
6.8.2.1 CMOS-USA-PH Sensor
6.8.2.2 MEMS Technology-USA-PH Sensor
6.8.2.3 Optical Spectroscopy-USA-PH Sensor

 

7 Smart Sensor-USA, By Technologies
7.1 CMOS-USA
7.1.1 CMOS-USA, By Types
7.1.1.1 CMOS-USA-Temperature Sensor
7.1.1.2 CMOS-USA-Touch sensor
7.1.1.3 CMOS-USA-Pressure Sensor
7.1.1.4 CMOS-USA-Flow Sensor
7.1.1.5 CMOS-USA-Dissolved Oxygen Sensor
7.1.1.6 CMOS-USA-Turbidity Sensor
7.1.1.7 CMOS-USA-Oxidation-Reduction Potential (ORP) Sensor
7.1.1.8 CMOS-USA-PH Sensor
7.2 MEMS Technology-USA
7.2.1 MEMS Technology-USA, By Types
7.2.1.1 MEMS Technology-USA-Pressure Sensor
7.2.1.2 MEMS Technology-USA-Flow Sensor
7.2.1.3 MEMS Technology-USA-Temperature Sensor
7.2.1.4 MEMS Technology-USA-Touch sensor
7.2.1.5 MEMS Technology-USA-Dissolved Oxygen Sensor
7.2.1.6 MEMS Technology-USA-Turbidity Sensor
7.2.1.7 MEMS Technology-USA-Oxidation-Reduction Potential (ORP) Sensor
7.2.1.8 MEMS Technology-USA-PH Sensor
7.3 Optical Spectroscopy-USA
7.3.1 Optical Spectroscopy-USA, By Types
7.3.1.1 Optical Spectroscopy-USA-Flow Sensor
7.3.1.2 Optical Spectroscopy-USA-Pressure Sensor
7.3.1.3 Optical Spectroscopy-USA-Temperature Sensor
7.3.1.4 Optical Spectroscopy-USA-Touch sensor
7.3.1.5 Optical Spectroscopy-USA-Oxidation-Reduction Potential (ORP) Sensor
7.3.1.6 Optical Spectroscopy-USA-PH Sensor
7.3.1.7 Optical Spectroscopy-USA-Dissolved Oxygen Sensor
7.3.1.8 Optical Spectroscopy-USA-Turbidity Sensor

 

8 Smart Sensor-USA, By Companies
8.1 Competitive landscape
8.2 Smart Sensor-USA-Siemens AG
8.3 Smart Sensor-USA-Asea Brown Boveri Ltd.(ABB)
8.4 Smart Sensor-USA-Infineon Technologies AG
8.5 Smart Sensor-USA-Analog Device

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