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Semiconductors in the Patient Monitoring Systems Market to 2016 - Growth Dependent on Increasing Microcontroller and Analog IC Usage in Neonatal and Remote Patient Monitors

GBI Research, September 2012, Pages: 106

GBI Research’s new report, “Semiconductors in the Patient Monitoring Systems Market to 2016 - Growth Dependent on Increasing Microcontroller and Analog IC Usage in Neonatal and Remote Patient Monitors”, provides key information and analysis on the market opportunities of semiconductors in patient monitoring systems. The report provides information on industry dynamics, key suppliers, and the sales revenue and sales volume of semiconductors in patient monitoring systems.

The report also provides forecasts for semiconductors in patient monitoring systems based on product type, region and end-application until 2016. Market size forecasts until 2016 are provided for discrete semiconductors, ICs, sensors and optoelectronics. The application markets-fetal monitors, MEMs, neonatal monitors, multi-parameter patient monitoring, remote patient monitoring and blood pressure monitors for the semiconductors in patient monitoring systems are also discussed.

Scope

- The market size of semiconductors in patient monitoring systems in terms of sales revenue and sales volume. Historic data from 2004 to 2011 is provided, along with forecasts until 2016.

- The market size of discrete semiconductors, ICs, sensors and optoelectronics in terms of sales revenue and sales volume, including historic data from 2004 to 2011 and forecast data until 2016.

- The market in key regions, such as the North America, Asia-Pacific, Europe, Middle-East and Africa, and, South and Central America is discussed. Major countries in each region like the US, Canada, the UK, Germany, China and Japan are also covered.

- The market size for key applications, such as fetal monitors, neonatal monitors, MEMS, remote patient monitoring, blood pressure monitors and multi-parameter patient monitors are discussed

- Comprehensive profiles of key companies, such as Texas Instruments, STMicroelectronics, Infineon and so on are given.

- Analytical frameworks, such as Porter’s five forces analysis and Growth Prospect Analysis, are used to give a comprehensive view of the global market for semiconductors in patient monitoring systems.

Reasons to buy

- Exploit growth opportunities in the global market for semiconductors in patient monitoring systems.

- Devise market-entry and expansion strategies for semiconductors in patient monitoring systems.

- Develop business strategies from Porter's five forces analysis.

- Identify key growth markets for your products.

- Know the demand potential of the semiconductors in patient monitoring systems.

1 Table of Contents
1.1 List of Tables
1.2 List of Figures

2 Introduction

3 Overview
3.1 Patient Monitoring Systems
3.1.1 Remote Patient Monitoring Devices
3.1.2 Micro-electromechanical Systems
3.1.3 Non-invasive Blood Pressure Monitors
3.1.4 Multiparameter Patient Monitoring
3.1.5 Neonatal Monitors
3.1.6 Fetal Monitors
3.2 Semiconductors in Patient Monitoring Systems
3.2.1 Discrete Semiconductors
3.2.2 Optoelectronics
3.2.3 Sensors
3.2.4 Integrated Circuits

4 Semiconductors in Patient Monitoring Systems, Technological Developments
4.1 FPGA Technology
4.2 Advancements in Wireless and Sensor Technologies

5 Semiconductors in Patient Monitoring Systems, Industry Dynamics
5.1 Semiconductors in Patient Monitoring Systems – Key Market Drivers
5.1.1 Aging Population and Growing Medical Needs to Increase the Market for Semiconductors
5.1.2 Remote Patient Monitoring Devices to Drive the Future Growth of Semiconductors
5.1.3 Demand for Portable, Miniature and Low Cost Patient Monitoring Devices Increase the Importance of Semiconductor Technology
5.2 Semiconductors in Patient Monitoring Systems – Key Market Restraints
5.2.1 Mature Markets in Developed Countries Limits the Overall Growth of Semiconductors
5.3 Semiconductors in Patient Monitoring Systems – Key Challenges
5.3.1 Miniaturization of Device is leading to Thermal Management Issues
5.3.2 Network-related Challenges of Monitoring Devices that Use Wireless Networks
5.4 Semiconductors in Patient Monitoring Systems – Future Trends
5.4.1 Wireless Patient Monitoring Devices are expected to Use PAN and WBAN
5.4.2 Device to Measure Intracranial Pressure May Enter the Market in the Coming Years

6 Semiconductors in Patient Monitoring Systems – Porter’s Five Forces Analysis

7 Semiconductors in Patient Monitoring Systems - Analysis and Forecasts

8 Semiconductors in Patient Monitoring Systems Analysis by Product Types
8.1 Integrated Circuits (ICs)
8.2 ICs Market Breakdown by Key Types
8.2.1 Microcontrollers
8.2.2 Microprocessors
8.2.3 Memory
8.2.4 DSPs
8.2.5 Analog ICs
8.2.6 Logic ICs
8.3 Discretes
8.4 Optoelectronics
8.5 Sensors

9 Semiconductors in Patient Monitoring Systems – Analysis by Key Regions
9.1 Asia-Pacific
9.1.1 Japan
9.1.2 China
9.1.3 India
9.1.4 Taiwan
9.2 Europe
9.2.1 Germany
9.2.2 France
9.2.3 UK
9.3 North America
9.3.1 US
9.3.2 Canada
9.4 South and Central America
9.5 Middle East and Africa

10 Semiconductors in Patient Monitoring Systems – Analysis by End-Applications
10.1 Blood Pressure Monitors
10.2 Fetal Monitors
10.3 MEMS
10.4 Multi-parameter Patient Monitoring Systems
10.5 Neonatal Monitors
10.6 Remote Patient Monitoring Systems

11 Semiconductors in Patient Monitoring Systems, Key Suppliers
11.1 Semiconductors in Patient Monitoring Systems - Competitive Landscape
11.2 Semiconductors in Patient Monitoring Systems, Key Suppliers

12 Semiconductors in Patient Monitoring Systems, Key Company Profiles
12.1 Texas Instruments
12.1.1 Texas Instruments – Business Description
12.1.2 Texas Instruments – Key Products
12.1.3 Texas Instruments – SWOT Analysis
12.1.4 Texas Instruments – Latest Developments
12.1.5 Texas Instruments – Mergers and Acquisitions (M&As)
12.2 Company Profile – STMicroelectronics N.V
12.2.1 STMicroelectronics – Business Description
12.2.2 STMicroelectronics – Key Products
12.2.3 STMicroelectronics – SWOT Analysis
12.2.4 STMicroelectronics – Latest Developments
12.2.5 STMicroelectronics – M&As
12.3 Freescale Semiconductor, Inc.
12.3.1 Freescale Semiconductor, Inc. – Business Description
12.3.2 Freescale Semiconductor, Inc. – Major Products and Services
12.3.3 Freescale Semiconductor, Inc. – SWOT Analysis
12.3.4 Freescale Semiconductor, Inc. – Recent Developments
12.4 Toshiba Corporation
12.4.1 Toshiba Corporation – Business Description
12.4.2 Toshiba Corporation – Key Products
12.4.3 Toshiba Corporation – SWOT
12.4.4 Toshiba Corporation – Latest Developments
12.5 Infineon Technologies
12.5.1 Infineon Technologies – Business Description
12.5.2 Infineon Technologies – Key Products
12.5.3 Infineon Technologies – SWOT Analysis
12.5.4 Infineon Technologies – Latest Developments

13 Appendix
13.1 About GBI Research
13.2 Glossary of Terms
13.3 Bibliography
13.4 Methodology
13.4.1 Market Size Estimates
13.4.2 Market Size Forecasts
13.4.3 Geographies Discussed
13.4.4 Coverage
13.4.5 Secondary Research
13.4.6 Primary Research
13.4.7 Expert Panel Validation
13.5 Contact Us
13.6 Disclaimer

1.1 List of Tables
Table 1: Percentage of People Aged 65 Years and Above in Key Countries, (%), 2000 and 2011
Table 2: Porter’s Five Forces Analysis, Semiconductors in Patient Monitoring Systems
Table 3: Semiconductors in Patient Monitoring Systems, Global, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 4: Semiconductors in Patient Monitoring Systems, ICs, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 5: Semiconductors in Patient Monitoring Systems, Microcontrollers, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 6: Semiconductors in Patient Monitoring Systems, Microprocessors, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 7: Semiconductors in Patient Monitoring Systems, Memory, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 8: Semiconductors in Patient Monitoring Systems, DSPs, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 9: Semiconductors in Patient Monitoring Systems, Analog ICs, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 10: Semiconductors in Patient Monitoring Systems, Logic ICs, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 11: Semiconductors in Patient Monitoring Systems, Discretes, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 12: Semiconductors in Patient Monitoring Systems, Optoelectronics, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 13: Semiconductors in Patient Monitoring Systems, Sensors, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 14: Semiconductors in Patient Monitoring Systems, Asia-Pacific, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 15: Semiconductors in Patient Monitoring Systems, Japan, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 16: Semiconductors in Patient Monitoring Systems, China, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 17: Semiconductors in Patient Monitoring Systems, India, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 18: Semiconductors in Patient Monitoring Systems, Taiwan, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 19: Semiconductors in Patient Monitoring Systems, Europe, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 20: Semiconductors in Patient Monitoring Systems, Germany, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 21: Semiconductors in Patient Monitoring Systems, France, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 22: Semiconductors in Patient Monitoring Systems, UK, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 23: Semiconductors in Patient Monitoring Systems, North America, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 24: Semiconductors in Patient Monitoring Systems, US, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 25: Semiconductors in Patient Monitoring Systems, Canada, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 26: Semiconductors in Patient Monitoring Systems, South and Central America, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 27: Semiconductors in Patient Monitoring Systems, MEA, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Table 28: Semiconductors in Blood Pressure Monitors, Sales Revenue ($m), 2004–2016
Table 29: Semiconductors in Fetal Monitors, Sales Revenue ($m), 2004–2016
Table 30: Semiconductors in MEMS, Sales Revenue ($m), 2004–2016
Table 31: Semiconductors in Multi-parameter Patient Monitoring Systems, Sales Revenue ($m), 2004–2016
Table 32: Semiconductors in Neonatal Monitors, Sales Revenue ($m), 2004–2016
Table 33: Semiconductors in Remote Patient Monitoring Systems, Sales Revenue ($m), 2004–2016
Table 34: Semiconductors in Patient Monitoring Systems, Competitive Landscape, 2011
Table 35: Semiconductors in Patient Monitoring Systems, Key Suppliers, 2011
Table 36: Texas Instruments, Key Facts, 2011
Table 37: Texas Instruments, Key Products
Table 38: Texas Instruments, SWOT Analysis
Table 39: STMicroelectronics, Key Facts, 2011
Table 40: STMicroelectronics N.V., Key Products
Table 41: STMicroelectronics N.V., SWOT Analysis
Table 42: Freescale Semiconductor, Inc., Key Facts, 2011
Table 43: Freescale Semiconductor, Inc., SWOT Analysis
Table 44: Toshiba Corporation, Key Facts, 2011
Table 45: Toshiba Corporation, SWOT Analysis
Table 46: Infineon Technologies AG, Key Facts, 2011
Table 47: Infineon Technologies, Key Products
Table 48: Infineon Technologies, SWOT Analysis
Table 49: Semiconductors in Patient Monitoring Systems, Glossary of Terms

1.2 List of Figures
Figure 1: Semiconductors in Patient Monitoring Systems – Key Market Drivers
Figure 2: Remote Patient Monitoring, Sales Volume (Absolute Units), 2011 and 2016
Figure 3: Semiconductors in Patient Monitoring Systems, Global, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 4: Semiconductors in Patient Monitoring Systems, Growth Prospects by Product Types, 2011
Figure 5: Semiconductors in Patient Monitoring Systems, ICs, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 6: Semiconductors in Patient Monitoring Systems, Microcontrollers, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 7: Semiconductors in Patient Monitoring Systems, Microprocessors, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 8: Semiconductors in Patient Monitoring Systems, Memory, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 9: Semiconductors in Patient Monitoring Systems, DSPs, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 10: Semiconductors in Patient Monitoring Systems, Analog ICs, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 11: Semiconductors in Patient Monitoring Systems, Logic ICs, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 12: Semiconductors in Patient Monitoring Systems, Discretes, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 13: Semiconductors in Patient Monitoring Systems, Optoelectronics, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 14: Semiconductors in Patient Monitoring Systems, Sensors, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 15: Semiconductors in Patient Monitoring Systems, Growth Prospects by Key Regions, 2011
Figure 16: Semiconductors in Patient Monitoring Systems, Asia-Pacific, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 17: Semiconductors in Patient Monitoring Systems, Japan, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 18: Semiconductors in Patient Monitoring Systems, China, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 19: Semiconductors in Patient Monitoring Systems, India, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 20: Semiconductors in Patient Monitoring Systems, Taiwan, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 21: Semiconductors in Patient Monitoring Systems, Europe, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 22: Semiconductors in Patient Monitoring Systems, Germany, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 23: Semiconductors in Patient Monitoring Systems, France, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 24: Semiconductors in Patient Monitoring Systems, UK, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 25: Semiconductors in Patient Monitoring Systems, North America, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 26: Semiconductors in Patient Monitoring Systems, US, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 27: Semiconductors in Patient Monitoring Systems, Canada, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 28: Semiconductors in Patient Monitoring Systems, South and Central America, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 29: Semiconductors in Patient Monitoring Systems, MEA, Sales Revenue ($m) and Sales Volume (Million), 2004–2016
Figure 30: Semiconductors in Patient Monitoring Systems, Growth Prospects by End-applications, 2011
Figure 31: Semiconductors in Blood Pressure Monitors, Sales Revenue ($m), 2004–2016
Figure 32: Semiconductors in Fetal Monitors, Sales Revenue ($m), 2004–2016
Figure 33: Semiconductors in MEMS, Sales Revenue ($m), 2004–2016
Figure 34: Semiconductors in Multi-parameter Patient Monitoring Systems, Sales Revenue ($m), 2004–2016
Figure 35: Semiconductors in Neonatal Monitors, Sales Revenue ($m), 2004–2016
Figure 36: Semiconductors in Remote Patient Monitoring Systems, Sales Revenue ($m), 2004–2016

Medical Monitoring Systems Evolve to Cater for the Aging Population

The evolution of medical monitoring devices is spurring on developments in the semiconductor industry, states a new report by business experts GBI Research.

The new report* states that semiconductors form an essential element in many patient monitoring devices, and the pressure is on to better serve individuals with smaller, faster, and more advanced gizmos.

The global population is aging and the prevalence of chronic diseases is growing, so the demand for healthcare services is interminably increasing. As many national healthcare programs attempt to cut expenditure, there is a growing need for reliable and cost-effective technology to provide round-the-clock observation of critically ill patients, and the use of technology could help to alleviate staffing pressures.

Patient monitoring can track an individual’s blood pressure, temperature, oxygen-saturation, or respiration, and can also offer data conversion, processing and controlling. Semiconductors are embedded in patient monitoring devices, and are critically important for the device to operate. The sale of semiconductors therefore increases as the demand for patient monitoring devices climbs. Developments in semiconductor technologies also mean leaps and bounds in progress for patient monitoring abilities.

Small and portable patient monitoring devices represent an improvement in a patient’s quality of life, as they allow treatment to be conducted in more convenient locations – at home or elsewhere. Semiconductor components are therefore steadily shrinking to meet this need, becoming more compact in order to downsize the monitoring equipment. The miniaturization of patient monitoring devices, obtained through cutting-edge semiconductor technology, opens the possibility of mounting equipment within mobile clinics, ambulances and doctors’ offices. Thin-film capacitors, resistors and substrate technologies, alongside System-in-Package (SiP) IC technology and high-energy batteries can help in this.

GBI Research expects the market for semiconductors in patient monitoring devices to grow at a high rate over the next few years, from $1.8 billion in 2011 to $2.4 billion by 2015. This will be due to their increasing number of applications in various patient monitoring devices, and the growing demand for telehealth monitoring services and wireless devices. The global market is expected to change significantly, with developing countries in Asia-Pacific emerging as a powerful rival to the matured market in North America.

* Semiconductors in the Patient Monitoring Systems Market to 2016 - Growth Dependent on Increasing Microcontroller and Analog IC Usage in Neonatal and Remote Patient Monitors

This report provides key information and analysis on the market opportunities of semiconductors in patient monitoring systems. It provides information on industry dynamics, key suppliers, and the sales revenue and sales volume of semiconductors in patient monitoring systems. The report also provides forecasts for semiconductors in patient monitoring systems based on product type, region and end-application until 2016. Market size forecasts until 2016 are provided for discrete semiconductors, ICs, sensors and optoelectronics. The application markets - fetal monitors, MEMs, neonatal monitors, multi-parameter patient monitoring, remote patient monitoring and blood pressure monitors for the semiconductors in patient monitoring systems are also discussed.

- Freescale Semiconductor
- Infineon Technologies
- STMicroelectronics
- Texas Instruments
- Toshiba Corporation

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Semiconductors in the Patient Monitoring Systems Market to 2016 - Growth Dependent on Increasing Microcontroller and Analog IC Usage in Neonatal and Remote Patient Monitors

GBI Research, September 2012, Pages: 106

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