Bharat Book Bureau

A comprehensive survey of usage and markets through 2013 for: GaAs, GaP, InP, SiC, Sapphire and bulk-GaN

IN 2011, SAPPHIRE WILL EXCEED 50% OF THE CS PROCESSED SURFACE

Silicon largely dominates the semiconductor business as the reference material. However, specific applications such as optoelectronics, RF or power electronics require material properties that cannot be offered by silicon.

GaAs, GaN, GaP, GaAs, InP, SiC and Sapphire substrates now account for 1.1% of the 7,504 million square inches annually processed in semiconductor foundries. However, that small portion of processed area is compensated by a higher merchant price leading to a $880M raw substrate market size in 2009 and reaching the billion dollar threshold in 2010.

Up to now, GaAs was the leading material in volume thanks to the wireless technology and red / orange / yellow LED demand, but sapphire will take the lead from 2011 driven by the booming business in white LED for LCD backlight and general illumination.

These materials have been protected from silicon competition because they allow device performance not reachable by the semiconductor material (Frequency, power, thermal conductivity, robustness, junction temperature, voltage breakdown…). Even though compound materials have market prices dramatically higher than Si, Technical Specs have been, and will remain, the main driver for the adoption of these CS substrates and related technologies. All the considered materials are now available in a 4 inch format except bulk GaN that has just been released in 3 inch in Japan. This diameter expansion helps to lower the manufacturing cost of CS-based devices and to mass market affordable products.

This new report offers a unique panorama of the compound semiconductor substrate business in a single package. It highlights the main metrics and the key market trends that will help material and equipment vendors to position their R&D efforts and anticipate the changes and forecasted evolution of their business.

For each material (GaAs, GaP, GaN, SiC, InP and Sapphire), the report describes:

The main targeted devices and related market size
List and market shares of the main material suppliers (merchant and captive) with product description
List and ranking of the main material users with final products description
Substrate market value and volume ($, units, Msq.in.), split by diameter and electrical specs (Semi-conductive, semi-insulating) in the 2008-2013 time frame
Overview of current developments and new innovations
Projection of the CS materials market in 2013 and beyond.

COMPANIES CITED IN THE REPORT

Acme Corporation, AdTech, Agility, Alpha Crystal, Alphion, Ammono Sp, Anadigic, AOI, Avago, Avanex, AWSC, AXT, Bookham, Bridgestone, ComSeCore, Cotomat, Covega, Cree, Crysband, Crystal Applied Technology, Crystal On, Crystal Photonics, Crystal Q, Crystalwise, Cyoptics, Denselight, Denso, Dow Corning, Dowa, Elma Malachit JSC, Epistar, Epiworks, Eudyna, Exiton, Finisar, Freiberger, Fujitsu, Furukawa, GCS, GE, GigaCom, Goldeneye Inc., Hitachi (OpNext), Hitachi Cable, Hittite Microwave, HRL, II-VI, Iljin Display, Infinera, Inlustra Technologies LLC, InPACT, IntelliEPI, Intexys Photonics, IQE, JDSU, Juropol, Kopin, Kyma, Kyocera, Lumileds, LumiLOG, M/A-Com, Magnachip, Mimix Broadband, Mitsubishi Chemical, Mitsubishi Electric, MJ Corporation, Modulight, Monocrystal PLC, Multiplex, Namiki, NanoGaN Ltd., N-Crystals, NEC, Neomax, NeosemiTech, Nikko Materials / Acrotec, Nippon Steel, Norstel, Northrop Grumman, NTT, OKI, OMMIC, Ostendo, Oxford Inst. / TDI, PAM Xiamen, Panasonic, Peregrine, Phostec, Picogiga, Renesas, RMFD, Rohm, Rubicon, Saint-Gobain Crystals, Samsung-Corning, Santur, Sapphicon, Sapphire Technology, SEH, Sensor Electronic Technology: SET, Shinkosha, Showa Denko, SiCrystal, Silian, Sino American SAS, Skyworks, Sony, Soraa, Inc., Sumika, Sumitomo Electric SEI, Sumitomo Metal Mining, Svedice, TankeBlue, Tera Xtal Technology, Thales, TOPCO Scientific, TopGaN, TriQuint, UCSB, UMS, Unipress, Vitesse, VPEC, Wafer Tech. / IQE, Wafer Works, Win Semi, Xiamen Powerway, Xindium

Benefits of the report for equipment and material suppliers:

Analysis of the structure of the compound semi material industry and evolution of the value chain
Calculations of wafer volumes to be produced including diameter evolution for each market segments and each materials
Description of the competing technologies using new materials with market penetration forecasts
Listing and ranking of the key material makers with related market shares

Table of Contents:

GLOSSARY
EXECUTIVE SUMMARY

• Compound Semiconductor substrates segmentation & usage
• Annual consumption of CS materials in surface area (Million Inch²). 2008-2013
• CS materials bulk substrate market size in $M. 2008-2013
• Evolution of CS materials consumption over silicon
• Relative evolution of processed surface for various CS materials. 2008 & 2013
• What can create disruptions in the next 5 years?
• CS substrate business risk analysis: Today status and possible evolutions
• 2009 bulk CS wafers average market price GaAs substrate market

GaAs substrate market
• Introduction
• Key GaAs Players Revenue Trends 05-09
• Main targeted applications of GaAs-based devices
• Key advantages of GaAs-based devices
• GaAs value-chain and position of key players
• Growth methods of GaAs substrates
• GaAs substrate main vendors growth technique and products
• S.I. GaAs Applications, frequency range and devices:
• SI GaAs content in cell phones: 3G iPhone
• SI GaAs $ content in cell phones
• GaAs $ content in wireless LAN
• 2009 GaAs RFIC market breakdown by application at device level
• PA Shipment volume 2008-2013 forecasts
• SI GaAs Technology Risk
• SI GaAs Emerging Applications: Smart Grid
• 2008-2013 SI GaAs substrates annual consumption, split by diameter
• 2009 GaAs RF epiwafer vendors market share
• 2009 RF device maker market shares
• 2009 TOP-10 GaAs RF device maker revenues
• GaAs RF device maker recent consolidation activity 2009 GaAs RF Foundry Market Share

• SC GaAs: LED applications
• SC GaAs: Laser Diode Applications
• SC GaAs applications: solar CPV
• SC GaAs substrates 2009 market breakdown by application in Msi

• 2009 estimation of SI + SC GaAs bulk substrate vendors market shares
• 2008-2013 SI + SC GaAs substrates consumption in million inch²
• 2008-2013 GaAs substrates SI + SC market size in $M

• Conclusions

GaP substrate market
• GaP: applications for LED
• GaP substrates 2009 market breakdown in Msi
• GaP wafer market volume in units, split by diameter to 2013
• GaP wafer market size in M$, split by diameter to 2013

Sapphire Substrate Market
• Introduction
• Manufacturing Cost Breakdown
• Map of Sapphire Supplier Locations
• 2009 Sapphire vendor revenues
Breakdown by region

• Sapphire for LED
• Diameter Trends
• Sapphire Wafer Diameter Roadmap
• Time to market
• Sapphire for Nitride LEDs
• LED Market Generalities
• Market segmentation
• LED Regional Production Capacity as of early 2009 in LED chip units
• Sapphire Substrates for LED Market Price Projection Split by diameter
• 2005-2013 Sapphire Substrates Market for LED In volume, by diameter & related market size
• 2005-2013 Sapphire Substrates Market for LED In value, split by diameter
• Sapphire Substrate Consumption for LED.
Regional usage breakdown 2008 and 2009
• Conclusions

Silicon-on-Sapphire
• Antenna Switch Module (ASM) Market
• Comparison of Cell-phone Antenna Switching Module (ASM) Technologies
• Si CMOS vs. SoS UltraCMOS® Architecture Comparison
• RF Switch Technology Market Breakdown 2005-2013
• SoS Sapphire Substrate ASP 2005-2013
• Sapphire Substrates for SoS Applications. Market size and volume 2005-2013
• 2009 r-plane Sapphire Wafer Orders Estimate Split by company
• Conclusions

SiC Substrate Market
• State-of-the-art in SiC Crystal Growth
• SiC Material: From polytype to devices
• Main SiC Material Manufacturing Site Locations. Bulk and/or epi-foundry
• Material Polytypes, Doping & Orientation Commercially Available
• SiC Substrate Vendor Revenues & Related Market Shares. 2006, 2007, 2008 & 2009
• Wafer Diameter Evolution in Production for Power Electronics 2005-2019
• Wafer Diameter Evolution in Production for GaN/SiC LED 2005-2019
• Wafer Diameter Evolution in Production for GaN/SiC RF devices
• 2005-2019 SiC Raw Substrate Price Evolution Split by type (S.I. / n-type) and diameter (2”, 3”, 4” and 6”)
• Market Projection for SiC Substrates in Various Applications 2008-2019
• Market Volume Projection of SiC Wafers for power electronics split by diameter 2008-2019
• Conclusions

Bulk and free-standing GaN substrate market
• Targeted applications
• Roadmap to 2015: Sensitivity to dislocation density in active layer for various nitride devices
• Bulk or Free-Standing GaN Substrates mass-market introduction in various applications
• Market Boosters / Market Killers
• 2 Options for Blue Laser Substrates: Free-standing vs. ELO GaN
• Specifications: 2009 production status
• Specifications: R&D status
• 2” FS & ELO GaN Substrates 2007-2015 market price
• Non-polar & Semi-polar GaN main interests
• Non-polar & Semi-polar GaN Substrates R&D status
• Non or Semi-polar GaN Substrate Size Tentative roadmap to 2020
• Estimated monthly production capacity
• Overall FS & ELO GaN Market Volume in Various Applications to 2013
• Overall FS & ELO GaN Market Size in Various Applications to 2013
• Conclusion

InP substrate market
• Introduction
• Main targeted applications of InP-based devices
• InP crystal growth flow chart
• InP material value-chain & ASP in 2007
• Application overview
• Main data of the InP device manufacturing process and ASP

• Optical Devices
• InP-based Optical Applications
• InP optical devices main players along the value chain
• Where InP-based devices can be found in a FO network?
• InP telecom lasers: optical fiber network structure
• InP telecom lasers: Metro and Access FO Networks
• State of the art of current network levels
• Challenges for InP devices in the telecom market
• Electron Devices
• InP electronic devices main players along the value chain
• InP HEMT and HBT technology
• High Speed InP IC applications
• 2005-2012 InP-based devices market size
• Main InP material vendors
• 2009 revenues and product breakdown
• 2009 InP material vendors market shares
• Usage of InP wafers and Substrates diameter breakdown
• 2008-2013 InP wafer market volume (Merchant & captive) split by diameter
• 2008-2013 InP wafer market size (Merchant & captive) split by diameter
• Conclusion

General conclusion and perspectives

For more please visit
http://www.bharatbook.com/detail.asp?id=143408&rt=Compound-Semiconductor-Substrates-2010.html

OR Contact us at
207, Hermes Atrium, Sector 11, CBD Belapur, Navi Mumbai - 400 614, India.
Phone : +91 22 2757 8668 / 2757 9438
Fax : +91 22 2757 9131
E-mail : info@bharatbook.com
Website : www.bharatbook.com

A comprehensive survey of usage and markets through 2013 for: GaAs, GaP, InP, SiC, Sapphire and bulk-GaN

IN 2011, SAPPHIRE WILL EXCEED 50% OF THE CS PROCESSED SURFACE

Silicon largely dominates the semiconductor business as the reference material. However, specific applications such as optoelectronics, RF or power electronics require material properties that cannot be offered by silicon.

GaAs, GaN, GaP, GaAs, InP, SiC and Sapphire substrates now account for 1.1% of the 7,504 million square inches annually processed in semiconductor foundries. However, that small portion of processed area is compensated by a higher merchant price leading to a $880M raw substrate market size in 2009 and reaching the billion dollar threshold in 2010.

Up to now, GaAs was the leading material in volume thanks to the wireless technology and red / orange / yellow LED demand, but sapphire will take the lead from 2011 driven by the booming business in white LED for LCD backlight and general illumination.

These materials have been protected from silicon competition because they allow device performance not reachable by the semiconductor material (Frequency, power, thermal conductivity, robustness, junction temperature, voltage breakdown…). Even though compound materials have market prices dramatically higher than Si, Technical Specs have been, and will remain, the main driver for the adoption of these CS substrates and related technologies. All the considered materials are now available in a 4 inch format except bulk GaN that has just been released in 3 inch in Japan. This diameter expansion helps to lower the manufacturing cost of CS-based devices and to mass market affordable products.

This new report offers a unique panorama of the compound semiconductor substrate business in a single package. It highlights the main metrics and the key market trends that will help material and equipment vendors to position their R&D efforts and anticipate the changes and forecasted evolution of their business.

For each material (GaAs, GaP, GaN, SiC, InP and Sapphire), the report describes:

The main targeted devices and related market size
List and market shares of the main material suppliers (merchant and captive) with product description
List and ranking of the main material users with final products description
Substrate market value and volume ($, units, Msq.in.), split by diameter and electrical specs (Semi-conductive, semi-insulating) in the 2008-2013 time frame
Overview of current developments and new innovations
Projection of the CS materials market in 2013 and beyond.

COMPANIES CITED IN THE REPORT

Acme Corporation, AdTech, Agility, Alpha Crystal, Alphion, Ammono Sp, Anadigic, AOI, Avago, Avanex, AWSC, AXT, Bookham, Bridgestone, ComSeCore, Cotomat, Covega, Cree, Crysband, Crystal Applied Technology, Crystal On, Crystal Photonics, Crystal Q, Crystalwise, Cyoptics, Denselight, Denso, Dow Corning, Dowa, Elma Malachit JSC, Epistar, Epiworks, Eudyna, Exiton, Finisar, Freiberger, Fujitsu, Furukawa, GCS, GE, GigaCom, Goldeneye Inc., Hitachi (OpNext), Hitachi Cable, Hittite Microwave, HRL, II-VI, Iljin Display, Infinera, Inlustra Technologies LLC, InPACT, IntelliEPI, Intexys Photonics, IQE, JDSU, Juropol, Kopin, Kyma, Kyocera, Lumileds, LumiLOG, M/A-Com, Magnachip, Mimix Broadband, Mitsubishi Chemical, Mitsubishi Electric, MJ Corporation, Modulight, Monocrystal PLC, Multiplex, Namiki, NanoGaN Ltd., N-Crystals, NEC, Neomax, NeosemiTech, Nikko Materials / Acrotec, Nippon Steel, Norstel, Northrop Grumman, NTT, OKI, OMMIC, Ostendo, Oxford Inst. / TDI, PAM Xiamen, Panasonic, Peregrine, Phostec, Picogiga, Renesas, RMFD, Rohm, Rubicon, Saint-Gobain Crystals, Samsung-Corning, Santur, Sapphicon, Sapphire Technology, SEH, Sensor Electronic Technology: SET, Shinkosha, Showa Denko, SiCrystal, Silian, Sino American SAS, Skyworks, Sony, Soraa, Inc., Sumika, Sumitomo Electric SEI, Sumitomo Metal Mining, Svedice, TankeBlue, Tera Xtal Technology, Thales, TOPCO Scientific, TopGaN, TriQuint, UCSB, UMS, Unipress, Vitesse, VPEC, Wafer Tech. / IQE, Wafer Works, Win Semi, Xiamen Powerway, Xindium

Benefits of the report for equipment and material suppliers:

Analysis of the structure of the compound semi material industry and evolution of the value chain
Calculations of wafer volumes to be produced including diameter evolution for each market segments and each materials
Description of the competing technologies using new materials with market penetration forecasts
Listing and ranking of the key material makers with related market shares

Table of Contents:

GLOSSARY
EXECUTIVE SUMMARY

• Compound Semiconductor substrates segmentation & usage
• Annual consumption of CS materials in surface area (Million Inch²). 2008-2013
• CS materials bulk substrate market size in $M. 2008-2013
• Evolution of CS materials consumption over silicon
• Relative evolution of processed surface for various CS materials. 2008 & 2013
• What can create disruptions in the next 5 years?
• CS substrate business risk analysis: Today status and possible evolutions
• 2009 bulk CS wafers average market price GaAs substrate market

GaAs substrate market
• Introduction
• Key GaAs Players Revenue Trends 05-09
• Main targeted applications of GaAs-based devices
• Key advantages of GaAs-based devices
• GaAs value-chain and position of key players
• Growth methods of GaAs substrates
• GaAs substrate main vendors growth technique and products
• S.I. GaAs Applications, frequency range and devices:
• SI GaAs content in cell phones: 3G iPhone
• SI GaAs $ content in cell phones
• GaAs $ content in wireless LAN
• 2009 GaAs RFIC market breakdown by application at device level
• PA Shipment volume 2008-2013 forecasts
• SI GaAs Technology Risk
• SI GaAs Emerging Applications: Smart Grid
• 2008-2013 SI GaAs substrates annual consumption, split by diameter
• 2009 GaAs RF epiwafer vendors market share
• 2009 RF device maker market shares
• 2009 TOP-10 GaAs RF device maker revenues
• GaAs RF device maker recent consolidation activity 2009 GaAs RF Foundry Market Share

• SC GaAs: LED applications
• SC GaAs: Laser Diode Applications
• SC GaAs applications: solar CPV
• SC GaAs substrates 2009 market breakdown by application in Msi

• 2009 estimation of SI + SC GaAs bulk substrate vendors market shares
• 2008-2013 SI + SC GaAs substrates consumption in million inch²
• 2008-2013 GaAs substrates SI + SC market size in $M

• Conclusions

GaP substrate market
• GaP: applications for LED
• GaP substrates 2009 market breakdown in Msi
• GaP wafer market volume in units, split by diameter to 2013
• GaP wafer market size in M$, split by diameter to 2013

Sapphire Substrate Market
• Introduction
• Manufacturing Cost Breakdown
• Map of Sapphire Supplier Locations
• 2009 Sapphire vendor revenues
Breakdown by region

• Sapphire for LED
• Diameter Trends
• Sapphire Wafer Diameter Roadmap
• Time to market
• Sapphire for Nitride LEDs
• LED Market Generalities
• Market segmentation
• LED Regional Production Capacity as of early 2009 in LED chip units
• Sapphire Substrates for LED Market Price Projection Split by diameter
• 2005-2013 Sapphire Substrates Market for LED In volume, by diameter & related market size
• 2005-2013 Sapphire Substrates Market for LED In value, split by diameter
• Sapphire Substrate Consumption for LED.
Regional usage breakdown 2008 and 2009
• Conclusions

Silicon-on-Sapphire
• Antenna Switch Module (ASM) Market
• Comparison of Cell-phone Antenna Switching Module (ASM) Technologies
• Si CMOS vs. SoS UltraCMOS® Architecture Comparison
• RF Switch Technology Market Breakdown 2005-2013
• SoS Sapphire Substrate ASP 2005-2013
• Sapphire Substrates for SoS Applications. Market size and volume 2005-2013
• 2009 r-plane Sapphire Wafer Orders Estimate Split by company
• Conclusions

SiC Substrate Market
• State-of-the-art in SiC Crystal Growth
• SiC Material: From polytype to devices
• Main SiC Material Manufacturing Site Locations. Bulk and/or epi-foundry
• Material Polytypes, Doping & Orientation Commercially Available
• SiC Substrate Vendor Revenues & Related Market Shares. 2006, 2007, 2008 & 2009
• Wafer Diameter Evolution in Production for Power Electronics 2005-2019
• Wafer Diameter Evolution in Production for GaN/SiC LED 2005-2019
• Wafer Diameter Evolution in Production for GaN/SiC RF devices
• 2005-2019 SiC Raw Substrate Price Evolution Split by type (S.I. / n-type) and diameter (2”, 3”, 4” and 6”)
• Market Projection for SiC Substrates in Various Applications 2008-2019
• Market Volume Projection of SiC Wafers for power electronics split by diameter 2008-2019
• Conclusions

Bulk and free-standing GaN substrate market
• Targeted applications
• Roadmap to 2015: Sensitivity to dislocation density in active layer for various nitride devices
• Bulk or Free-Standing GaN Substrates mass-market introduction in various applications
• Market Boosters / Market Killers
• 2 Options for Blue Laser Substrates: Free-standing vs. ELO GaN
• Specifications: 2009 production status
• Specifications: R&D status
• 2” FS & ELO GaN Substrates 2007-2015 market price
• Non-polar & Semi-polar GaN main interests
• Non-polar & Semi-polar GaN Substrates R&D status
• Non or Semi-polar GaN Substrate Size Tentative roadmap to 2020
• Estimated monthly production capacity
• Overall FS & ELO GaN Market Volume in Various Applications to 2013
• Overall FS & ELO GaN Market Size in Various Applications to 2013
• Conclusion

InP substrate market
• Introduction
• Main targeted applications of InP-based devices
• InP crystal growth flow chart
• InP material value-chain & ASP in 2007
• Application overview
• Main data of the InP device manufacturing process and ASP

• Optical Devices
• InP-based Optical Applications
• InP optical devices main players along the value chain
• Where InP-based devices can be found in a FO network?
• InP telecom lasers: optical fiber network structure
• InP telecom lasers: Metro and Access FO Networks
• State of the art of current network levels
• Challenges for InP devices in the telecom market
• Electron Devices
• InP electronic devices main players along the value chain
• InP HEMT and HBT technology
• High Speed InP IC applications
• 2005-2012 InP-based devices market size
• Main InP material vendors
• 2009 revenues and product breakdown
• 2009 InP material vendors market shares
• Usage of InP wafers and Substrates diameter breakdown
• 2008-2013 InP wafer market volume (Merchant & captive) split by diameter
• 2008-2013 InP wafer market size (Merchant & captive) split by diameter
• Conclusion

General conclusion and perspectives

For more please visit
http://www.bharatbook.com/detail.asp?id=143408&rt=Compound-Semiconductor-Substrates-2010.html

OR Contact us at
207, Hermes Atrium, Sector 11, CBD Belapur, Navi Mumbai - 400 614, India.
Phone : +91 22 2757 8668 / 2757 9438
Fax : +91 22 2757 9131
E-mail : info@bharatbook.com
Website : www.bharatbook.com

LED chips offer high brightness and power efficiency; and also have lower carbon emissions than traditional technologies such as incandescent and halogen lighting. This aspect has made LED lighting popular with government organizations, which are now putting LED lighting in public places and government offices.

When used for illumination purposes, LEDs are also more cost-effective than traditional lighting sources. The global LED chips market is thus witnessing an increasing demand, and companies are expanding their manufacturing capabilities to meet this demand. High brightness LED chips currently enjoy high growth as the backlighting application in TVs is shifting from traditional CCFL technology to LED technology.

Existing studies and third party market reports do not provide a comprehensive understanding of the LED chips market and there is a lack of focus on its various applications. In this report, we size and analyze the LED chips market and its various application markets, and also provide a geographic split, which is not present in any other third party reports.
Global Sm
Market Estimates and Forecasts

The report categorizes the global LED Chips market as follows:
• Applications (Backlighting, Illumination, Automotives, Signs and Signals)
• Color (Blue chips, Red chips, Green chips and others)

The report will provide market data, market drivers, trends and opportunities, top-selling products, key players, and competitive outlook. This report will also provide market tables for covering the applications and sub segments. In addition, the report also provides more than 20 company profiles for the market.
What makes our reports unique?

- We provide the longest market segmentation chain in this industry- not many reports provide market breakdown upto level 5.
- We provide 10% customization. Normally it is seen that clients do not find specific market intelligence that they are looking for. Our customization will ensure that you necessarily get the market intelligence you are looking for and we get a loyal customer.
- We conduct detailed market positioning, product positioning and competitive positioning. Entry strategies, gaps and opportunities are identified for all the stakeholders.
- Comprehensive market analysis for the following sectors:
Pharmaceuticals, Medical Devices, Biotechnology, Semiconductor and Electronics, Energy and Power Supplies, Food and Beverages, Chemicals, Advanced Materials, Industrial Automation, and Telecom and IT. We also analyze retailers and super-retailers, technology providers, and research and development (R&D) companies.

Key questions answered

- Which are the high-growth segments/cash cows and how is the market segmented in terms of applications and color?
- What are market estimates and forecasts; which markets are doing well and which are not?
- Where are the gaps and opportunities; what is driving the market?
- Which are the key playing fields? Which are the winning edge imperatives?
- How is the competitive outlook; who are the main players in each of the segments; what are the key selling products; what are their strategic directives, operational strengths and product pipelines? Who is doing what?

TABLE OF CONTENTS:

EXECUTIVE SUMMARY
MARKET OVERVIEW
APPLICATIONS WISE MARKET
COLOR WISE MARKET
GEOGRAPHIC ANALYSIS
COMPETITIVE LANDSCAPE

1 INTRODUCTION
1.1 KEY TAKE-AWAYS
1.2 REPORT DESCRIPTION
1.3 MARKETS COVERED
1.4 STAKEHOLDERS
1.5 RESEARCH METHODOLOGY

2 SUMMARY

3 MARKET OVERVIEW
3.1 EVOLUTION OF LED (LIGHT-EMITTING DIODE)
3.2 AN OVERVIEW OF LED CHIPS
3.2.1 MULTI-CHIP LED
3.2.2 SINGLE CHIP LED
3.3 COMPOUNDS
3.3.1 GALLIUM NITRIDE
3.3.2 GALLIUM ARSENIDE
3.3.3 GALLIUM PHOSPHIDE
3.4 MARKET TRENDS OF LED CHIPS
3.5 INDUSTRY LIFE CYCLE OF LED CHIPS
3.6 DEMAND VERSUS SUPPLY ANALYSIS
3.7 THE PORTER FIVE FORCES MODEL
3.7.1 HIGH THREAT FROM NEW ENTRANTS
3.7.2 THREAT FROM THE PRODUCT SUBSTITUTES
3.7.3 SUPPLIER BARGAINING POWER
3.7.4 CUSTOMER’S BARGAINING POWER
3.7.5 COMPETITION FROM OTHER FIRMS
3.8 POTENTIAL OF LED CHIPS IN CONSUMER ELECTRONICS MARKET
3.9 LED TV – THE LATEST APPLICATION OF LED CHIPS
3.10 RPCVD TECHNOLOGY – NEW DIMENSION OF LED CHIP MANUFACTURING

4 MARKET ANALYSIS
4.1 DRIVERS
4.1.1 BACKLIGHTING APPLICATION BOOSTING THE LED CHIP MARKET
4.1.2 POWER EFFICIENCY OF LED CHIPS
4.1.3 R&D INVESTMENTS AND GOVERNMENT INITIATIVES
4.2 RESTRAINTS & OPPORTUNITIES
4.2.1 SHORTAGE OF THE MOCVD TOOL
4.2.2 CONCENTRATION OF MANUFACTURING UNITS IN SOUTH EAST ASIA INCREASING THE SHIPMENT COST
4.2.3 LOWER PRICE OF COMPETING TECHNOLOGIES
4.2.4 GROWING NUMBER OF APPLICATIONS

5 REVENUE FORECAST
5.1 REVENUE FOR LED CHIPS FROM VARIOUS APPLICATIONS
5.1.1 BACKLIGHTING
5.1.2 ILLUMINATION
5.1.3 AUTOMOTIVE
5.1.4 SIGNS & SIGNAL
5.1.5 OTHERS
5.2 REVENUE FOR VARIOUS LED CHIPS
5.2.1 BLUE LED CHIPS
5.2.2 RED LED CHIPS
5.2.3 GREEN LED CHIPS
5.2.4 OTHERS

6 COMPETITIVE LANDSCAPE

7 GEOGRAPHICAL ANALYSIS
7.1 NORTH AMERICA
7.2 EUROPE
7.3 APAC
7.4 ROW

8 PATENTS ANALYSIS

9 COMPANY PROFILES
9.1 BRIGHT LED ELECTRONICS CORPORATION
9.2 AVA TECHNOLOGIES INC.
9.3 BRIDGELUX
9.4 CREE
9.5 DOWA ELECTRONICS MATERIALS CO LTD
9.6 EPISTAR CORPORATION
9.7 FORMOSA EPITAXY
9.8 GOLDENEYE INC.
9.9 HITACHI CABLE
9.10 HUGA OPTECH
9.11 KINGBRIGHT
9.12 NICHIA CORPORATION
9.13 OPTEK TECHNOLOGY LTD
9.14 OSA OPTO LIGHT GMBH
9.15 OSRAM OPTO SEMICONDUCTORS
9.16 PERKIN ELMER
9.17 PHILIPS LUMILEDS
9.18 SEMILEDS
9.19 SEOUL SEMICONDUCTORS
9.20 SHOWA DENKO
9.21 TECKORE

LIST OF TABLES

SUMMARY TABLE GLOBAL LED CHIPS MARKET BY APPLICATIONS 2007 – 2014 ($MILLION)
TABLE 1 ADVANTAGES OF LED
TABLE 2 DISADVANTAGES OF LED
TABLE 3 COMPARISON BETWEEN SINGLE CHIP LED AND MULTI CHIP LED
TABLE 4 COMPARISON OF VARIOUS GALLIUM COMPOUNDS ON DIFFERENT PARAMETERS
TABLE 5 COMPARISON OF MANUFACTURING COSTS FOR MOCVD AND RPCVD TECHNOLOGIES
TABLE 6 COST COMPARISON OF LED CHIP BASED BULB AND INCANDESCENT BULB
TABLE 7 LED CHIP REVENUE, BY APPLICATION 2007 -2014 ($MILLION)
TABLE 8 INITIATIVES FROM GOVERNMENTS IN DIFFERENT COUNTRIES TO PHASE OUT INCANDESCENT BULBS
TABLE 9 COMPARISON BETWEEN LED LIGHTING AND CONVENTIONAL LIGHTING IN AUTOMOTIVES
TABLE 10 LED CHIP MARKET BY COLOR 2007-2014 ($MILLION)
TABLE 11 MERGERS AND ACQUISITION (2007- JANUARY 2010)
TABLE 12 AGREEMENTS, COLLABORATIONS, PARTNERSHIPS AND JOINT VENTURES (2008 – MARCH 2010)
TABLE 13 NEW PRODUCT DEVELOPMENT AND EXPANSIONS (2007 - APRIL 2010)

LIST OF FIGURES

FIGURE 1 DEVELOPMENT OF LED FAMILY
FIGURE 2 PRICE AND BRIGHTNESS LEVELS OF VARIOUS GALLIUM COMPOUNDS
FIGURE 3 TREND ANALYSIS OF LED CHIP MARKET (1990 – 2014)
FIGURE 4 PRODUCT LIFE CYCLE OF LED CHIP INDUSTRY
FIGURE 5 DEMAND AND SUPPLY ANALYSIS OF LED CHIP MARKET
FIGURE 6 PORTER FIVE FORCES MODEL FOR LED CHIPS
FIRGURE 7 PENETRATION RATE OF LED CHIPS IN VARIOUS DOMAINS OF CONSUMER ELECTRONICS
FIGURE 8 COMPARISON OF GROWTH RATE OF LCD TVS AND LED BACKLIT LCD TVS
FIGURE 9 TRANSITION IN BACKLIGHTING TECHNOLOGY
FIGURE 10 COST GAP ANALYSIS OF LED AND COMPETITIVE TECHNOLOGIES (2010 - 2014)
FIGURE 11 LIFE CYCLE FOR BACKLIGHTING APPLICATION
FIGURE 12 MARKET FOR LED CHIPS FROM APPLICATION IN BACKLIGHTING
FIGURE 13 LONG RUN AVERAGE COST CURVE OF LED BACKLIT AND CCFL BACKLIT LCD PANELS
FIGURE 14 MARKET FOR LED CHIPS FROM APPLICATION IN ILLUMINATION
FIGURE 15 COST VERSUS PERFORMANCE OF MAJOR LIGHTING TECHNOLOGIES
FIGURE 16 PRODUCT LIFE CYCLE FOR LED AND OTHER LIGHTING SOURCES
FIGURE 17 MARKET FOR LED CHIPS MARKET FROM APPLICATION IN AUTOMOTIVE SECTOR
FIGURE 18 MARKET PENETRATION OF LED CHIP FOR APPLICATION IN AUTOMOTIVE INDUSTRY
FIGURE 19 THE PRICE CURVE OF LED CHIPS FOR AUTOMOTIVE APPLICATIONS
FIGURE 20 GLOBAL PENETRATION OF LED CHIPS FOR USE IN TRAFFIC SIGNALS
FIGURE 21 LED CHIP MARKET FOR SIGNS AND SIGNALS APPLICATION
FIGURE 22 LIFE CYCLE OF SIGNS & SIGNALS APPLICATION OF LED CHIPS
FIGURE 23 COMPARISON BETWEEN GLOBAL GDP GROWTH AND LED SIGNAGE MARKET
FIGURE 24 LED CHIP MARKET FOR OTHER APPLICATIONS
FIGURE 25 BLUE LED CHIP MARKET
FIGURE 26 COMPARISON OF BLUE CHIP LED AND CCFL
FIGURE 27 RED LED CHIP MARKET
FIGURE 28 GREEN LED CHIPS MARKET
FIGURE 29 MARKET FOR OTHER LED CHIPS
FIGURE 30 INDUSTRIES GROWTH STRATEGY
FIGURE 31 GROWTH RATE OF WORLD LED CHIP MARKET BY YEAR
FIGURE 32 NORTH AMERICAN LED CHIP MARKET
FIGURE 33 EUROPEAN LED CHIP MARKET
FIGURE 34 APAC LED CHIP MARKET
FIGURE 35 ROW LED CHIP MARKET
FIGURE 36 PATENT REGISTRATIONS IN VARIOUS REGIONS
FIGURE 37 NUMBER OF PATENTS FILED INCREASING OVER YEARS

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With rapidly increasing urbanization and economic liberalization, the criminal activities at different levels of the society have become a common practice in India. Moreover, the growing incidences of terrorist attacks have significantly changed the perception of Indian consumer for better and advanced safety and security needs. The frightening terrorist attack in Mumbai on November 26, 2008 indicates to a clear need of deploying and upgrading security equipments to modern and hi-tech across the country.

Closed Circuit Television (CCTV) has emerged as the most viable solution for security surveillance in the Indian electronic security market, says our latest research report “Indian CCTV Market Analysis”. The research has estimated that the Indian electronics security market valued around Rs. 1600 Crore in 2008 and CCTV accounted for more than a third of this market. This segment has been growing at a much faster rate than other segments such as access control, intrusion alarm or fire detection alarm.

Our end-user analysis points out that at present the government/public sector demand remains high for overall security systems followed by industrial and commercial sector. However, it is found that the demand for electronics security systems from residential sector will outpace the growth in other end-users segments. Special events such as Commonwealth Games 2010 will also add growth to the Indian CCTV market, which is forecasted to grow at a CAGR of more than 34% during 2010-2012.

“Indian CCTV Market Analysis” contains an extensive research and rational analysis of the CCTV market in India. It offers comprehensive study of the factors which are driving up the demand for CCTV surveillance systems in the country coupled with the steps taken by the government to deal deal with security threats. The report briefly explains the electronic security market demand across various end-user segments and how is it important for the CCTV players. Besides, the report talks about key geographical market where demand for surveillance systems will boom in near future along with analysis of key players in the Indian CCTV market.

Table of Contents:

1. Analyst View
2. Indian Electronic Security Market Overview
2.1 Market Segmentation
3. CCTV Market Analysis
3.1 Current Market Size
3.2 Future Outlook
3.3 Key Market Trends and Developments
3.3.1 Emerging Security Needs
3.3.2 Focus on IP-based Surveillance
3.3.3 Technological Innovation
3.3.4 Declining Cost
4. End-user Analysis
4.1 Public Sector
4.2 Industrial Sector
4.3 Commercial Sector
4.4 Residential Sector
4.5 Retail Sector
5. Major Geographical Markets
6. Growth Inhibitors

List of Figures:

Figure 2-1: Electronic Security Market (Crore Rs), 2008 & 2009
Figure 2-2: Forecast for Electronic Security Market (Crore Rs), 2010-2012
Figure 2-3: Electronic Security Market by Product (%), 2008
Figure 2-4: Electronic Security Market by End-user (%), 2008
Figure 2-5: Forecast for Electronic Security Market by Product (%), 2012
Figure 2-6: Forecast for Electronic Security Market by End-user (%), 2012
Figure 3-1: CCTV Surveillance Market (Crore Rs), 2008 & 2009
Figure 3-2: Forecast for CCTV Surveillance Market (Crore Rs), 2010-2012
Figure 4-1: Public Sector Demand for Electronic Security Market (Crore Rs), 2008 & 2012
Figure 4-2: Industrial Sector Demand for Electronic Security Market (Crore Rs), 2008 & 2012
Figure 4-3: Commercial Sector Demand for Electronic Security Market (Crore Rs), 2008 & 2012
Figure 4-4: Residential Sector Demand for Electronic Security Market (Crore Rs), 2008 & 2012
Figure 4-5: Retail Sector Demand for Electronic Security Market (Crore Rs), 2008 & 2012

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Barack Obamas Energy Plan Watch Video

Barack Hussein Obama II is the President-elect of the United States and the first African American to be elected President of the United States. Obama was the junior United States Senator from Illinois from 2005 until he resigned on November 16, 2008, following his election to the Presidency.

In his New Energy for America plan, Obama proposes to reduce overall U.S. oil consumption by at least 35%, or 10 million barrels per day, by 2030 in order to offset imports from OPEC nations. Obama voted in favor of the Energy Policy Act of 2005, which provided incentives (chiefly tax breaks) to reduce national consumption of energy and to encourage a wide range of alternative energy sources. It also resulted in a net tax increase on oil companies.

Some of the highlights of Barack Obama’s Energy Plan include:

- Provide short-term relief to American families facing pain at the pump;

- Help create five million new jobs by trategically investing $150 billion over the
next ten years to catalyze private efforts to build a clean energy future; and

- Within 10 years save more oil than the U.S. currently imports from the Middle East and Venezuela combined.

This 62-page report examines at what energy changes Obama is planning for the United States of America. It includes profiles of Obama’s

Appointee choices:

Steven Chu, Energy Secretary
Lisa Jackson, Administrator, Environmental Protection Agency
Carol Browner, Assistant to the President for Energy and Climate Change
Ken Salazar, Secretary of the Interior
Tom Vilsack, Secretary of Agriculture
Nancy Sutley, Chair of Council on Environmental Quality
Heather Zichal, Deputy Assistant to the President for Energy and Climate Change
Jane Lubchenco, NOAA Administrator

Table of Contents:

Executive Summary 4
Barack Obama Profile 5
Introduction 5
2008 Presidential Campaign 5
Presidential Transition of Barack Obama 8
Political Position of Obama 10
Obama’s Energy Policy History 13
Introduction 13
What will Obama’s Energy Plan Achieve? 14
Obama’s Energy and Environment Team 16
Steven Chu, Energy Secretary 16
Lisa Jackson, Administrator, Environmental Protection Agency 19
Carol Browner, Assistant to the President for Energy and Climate Change 20
Ken Salazar, Secretary of the Interior 23
Tom Vilsack, Secretary of Agriculture 25
Nancy Sutley, Chair of Council on Environmental Quality 27
Heather Zichal, Deputy Assistant to the President for Energy and Climate Change 28
Jane Lubchenco, NOAA Administrator 28
Obama’s Proposals 32
Reducing CO2 Emissions by 2050 32
Investing in a Clean Energy Economy 33
Setting Market Standards to Allow Investment and Innovation 38
Investing in Energy Efficiency 39
Strengthening of Oil Security and Ensuring Energy Independence 42
Combat Climate Change around the World 44
Boosting the Developments of Hybrid Vehicles 47
Adopting a New Size-based Classification System for Fuel Economy Standards 48
Increasing the Availability of Renewable Fuels 49
Developing Clean Coal Technologies Further 50
Boosting the Role of the Low-Income Home Energy Assistance Program 50
Providing Emergency Energy Rebate 51
Promoting the Supply of Domestic Energy 51
Diversification of Energy Sources 52
Investing in a Smart Grid 53
Overall Improvements in the Electric Grid 54
Energy Trading and Markets 54
Obama vs. McCain Energy Plans Comparison 56
Appendix 58
Fossil Fuel Reserves-to-Production (R/P) Ratios at End of 2007 58
Global Oil Consumption per Capita in 2007 59
Global Energy Consumption 2007 60
Proved Reserves of Oil at end of 2007 61
Distribution of Proved Reserves of Oil in 1987, 1997, and 2007 62
Global Energy Consumption Forecast (2003-2030) 63
Global Energy Consumption Forecast by Fuel Type (1980-2030) 64
Glossary 65

List of Figures

Figure 1: U.S. Passenger Vehicle Fuel Economy with 3% Annual Improvement (2008-2020) 49
Fossil Fuel Reserves-to-Production (R/P) Ratios at End of 2007 58

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Game On!

This industry, although very competitive, is scoring well. The industry has historically proven itself resistant to recession conditions, and the current economic downturn being experienced is unlikely to make a dent in the ongoing strong growth. The primary force behind this growth is the unwillingness of older gamers to stop playing. Woot!

IBISWORLD INDUSTRY MARKET RESEARCH REPORT

This is the replacement for IBISWorld’s March 2009 edition of Video Games in the US report.

Industry Market Research Synopsis

This Industry Market Research report from IBISWorld provides a detailed analysis of the Video Games in the US industry, including key growth trends, statistics, forecasts, the competitive environment including market shares and the key issues facing the industry.

Industry Definition

This report is concerned with the broader operations of all aspects of video games in the US. Gaming consoles, games made for those consoles, as well as games produced specifically for PCs make up the retail segment of the report. Also, the development and manufacture of games, consoles and accessories constitute a notable share of the market. Finally, growing revenue from subscribing to online gaming complements the industry products.

Report Contents

The Key Statistics chapter provides the key indicators for the industry for at least the last three years. The statistics included are industry revenue, industry gross product, employment, establishments, exports, imports, domestic demand and total wages.

The Market Characteristics chapter covers the following: Market Size, Linkages, Demand Determinants, Domestic and International Markets, Basis of Competition and Life Cycle. The Market Size section gives the size of the domestic market as well as the size of the export market. The Linkages section lists the industry’s major supplier and major customer industries. The Demand Determinants section lists the key factors which are likely to cause demand to rise or fall. The Domestic and International Markets section defines the market for the products and services of the industry. This section provides the size of the domestic market and the proportion accounted for by imports and exports and trends in the levels of imports and exports. The Basis of Competition section outlines the key types of competition between firms within the industry as well as highlighting competition from substitute products in alternative industries. The Life Cycle section provides an analysis of which stage of development the industry is at.

The Segmentation chapter covers the following: Products and Service Segmentation, Major Market Segments, Industry Concentration and Geographic Spread. The Products and Service Segmentation section details the key products and/or services provided by this industry, highlighting the most important where possible to demonstrate which have a more significant influence over industry results as a whole. The Major Market Segments section details the key client industries and/or groups as well as giving an indication as to which of these are the most important to the industry. The Industry Concentration section provides an indicator of how much industry revenue is accounted for by the top four players. The Geographic Spread section provides a guide to the regional share of industry revenue/gross product.

The Industry Conditions chapter covers the following: Barriers to Entry, Taxation, Industry Assistance, Regulation and Deregulation, Cost Structure, Capital and Labor Intensity, Technology and Systems, Industry Volatility and Globalization. The Barriers to Entry section outlines factors that can prevent a new company from entering this industry and also gives an indication of the extent to which this occurs. The Taxation section details all kinds of taxation that are specific or are particularly important to this industry, including taxation concessions. The Industry Assistance section refers to any government and/or other measures designed to improve the performance of this industry. The Regulation and Deregulation section details any applicable regulation and/or deregulation to this industry. The Cost Structure section details the average costs for a company operating in this industry as a percentage of total revenue. The Capital and Labor Intensity section provides a guide to the amount of capital used in production/providing a service compared to the amount of labor in the total mix of inputs. The Technology and Systems section acknowledges the latest technology and/or systems available to this industry within the country. Technology refers to machinery and equipment and systems refers to methods of production that enable better and more efficient production. The Industry Volatility section refers to the year on year fluctuations which occur in industry output. The Globalization section gives an indication of the extent to which the industry is global based on factors such as the level of foreign ownership, the proportion of demand accounted for by foreign operators and the volume of production conducted in other countries.

The Performance chapter provides an analysis of both the industry’s Current Performance and Historical Performance. The Current Performance section provides the key analysis for the industry over the past five years with key performance indicators discussed. The Historical Performance section details previously important events in the development of the industry.

The Key Competitors chapter lists the major players in the industry as well as an analysis of each major player’s activities in the industry. Market share information is included where possible.

The Key Factors chapter covers the industry’s Key Sensitivities and Key Success Factors. The Key Sensitivities section outlines the key factors that are outside the control of an operator in the industry, but are likely to have significant impact on a business. The Key Success Factors section details the factors within the control of an industry operator and which should be followed in order to be successful in the industry. Often this will include behavior that will help to minimize the effects of the Key Sensitivities.

The Outlook chapter is a key analysis section of the report and outlines expectations for the key industry indicators over the next five year period, including forecasts.

Table of Contents:

INDUSTRY DEFINITION
Activities (Products and Services)
Similar Industries
Other Related Industries

KEY STATISTICS
Current Prices
Constant Prices
Real Growth
Ratio Table

SEGMENTATION
Products and Service Segmentation
Major Market Segments
Industry Concentration
Geographic Spread

MARKET CHARACTERISTICS
Market Size
Linkages
Demand Determinants
Domestic and International Markets
Basis of Competition

Life Cycle

INDUSTRY CONDITIONS
Barriers to Entry
Taxation
Industry Assistance
Regulation and Deregulation
Cost Structure
Capital and Labor Intensity
Technology and Systems
Industry Volatility
Globalization

KEY FACTORS
Key Sensitivities
Key Success Factors

KEY COMPETITORS
Major Players
Player Performance
Other Players

INDUSTRY PERFORMANCE
Current Performance
Historical Performance

OUTLOOK

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Printed electronics is a term that encompasses thin film transistor circuits (TFTCs), displays, interconnects, power, sensors and even actuators. Thousands of companies have now entered this market. The printing companies today will be the new electronic giants tomorrow. This report is vital reading to understand the opportunity of the technology, players, needs and timelines, giving global coverage from the biggest printing companies in East Asia to paper and packaging companies in Scandinavia to applications of the technology in the Americas.

Printed electronics is a term that encompasses thin film transistor circuits (TFTCs), displays, interconnects, power, sensors and even actuators. Over one thousand companies have now entered this market. These printing, materials, paper and chemical companies of today will be the new electronic giants tomorrow. This report introduces the technologies, companies, timelines and opportunities for those looking to get involved in the subject.”

Here, for the first time is the big picture, including how printed electronics is the gateway to edible, foldable, rollable, conformal, wearable, biodegradable and other electronics and electrics. It covers the future of lighting and the newly created mass markets for disposable electronics and affordable solar cells in vast areas but it also covers the impediments to some rollouts including materials shortages and incremental improvements to existing products instead of “thinking outside the box”. For the first few years it will be “electronic printing”, mainly replacing print such as barcodes, books, signage and billboards not electronics and this is explained with a profusion of examples.

This report is vital reading to understand the opportunity of the technology, players, needs and timelines, giving global coverage. It is a sister publication to Printed & Organic Electronics Forecasts, Players and Opportunities 2008-2028 which focuses on forecasts.

All significant developments in printed electronics are closely analysed in this report. Unusually, we also look at the many printed electronic devices and displays - electrochromic, electroluminescent, etc. - that are already a commercial reality even on flexible substrates, not just the promise of so-called OLEDs. Today’s successes also employ conductors, batteries, inductors, antennas, capacitors and electrically active materials that are printed. The moving colour billboard, the gift card and the smart skin patch that are printed on flexible plastic are a reality today and there are lessons to be learned. Other advances are close behind, including printed thin film fuel cells and lasers. Later will come self-adjusting ‘use by’ dates, printed microprocessors, ubiquitous printed lighting and other wonders, including printing electronics directly onto things. All this is explained in simple language.

For the first time, this report describes the technical and market development and the many new applications, new suppliers and new users being created as a result. There are many comparison tables and new and dramatic illustrations from the smart airport to the next smart military aircraft, the car interior of the next Jaguar car and even examples of electronics as art - newly made possible. Nothing is more up to date than this compelling read

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This report analyzes and quantifi es the huge potential of “plastic electronics.”

NanoMarkets believes that over the next few years plastic electronics — using conductive polymers or organic molecules on a plastic substrate — will enable entirely new types of products that would not be economically viable using any other technology. Such products will include:

• Roll-up displays for mobile communications

• Flexible solar panels for buildings, cell phones and portable medical equipment

• Intelligent packaging and RFIDs

• Sensor arrays that can be “printed” on buildings

• Low-cost non-volatile computer memories and optical interconnects

This report begins with a thorough analysis of plastic electronics technology. We discuss in detail what the intrinsic advantages of plastic electronics are, what the current limitations are and how they will be resolved. We also take a look at what materials are and will be used for plastic electronics and how plastic electronics is being boosted by other developments in nanoelectronics. We then continue with a discussion of emerging manufacturing approaches for plastic electronics. The dream of plastic electronics advocates is that it will enable circuitry to be printed in much the same way that books and newspapers are printed, radically lowering manufacturing costs compared to CMOS. But of the many different ways now being considered for making plastic electronic devices, which look most likely to succeed?

This NanoMarkets Report:

• Provides eight-year forecasts for plastic logic technology in seven different product categories (processors/logic, memory, interconnects, thermal
management, sensors, displays, and solar panels)

• For each product category,it breaks out the kinds of applications in which they will be used — everything from telecom infrastructure equipment to iPod-type
devices

• Examines how the plastic electronics industry is evolving.

• Answers questions such as: Which major electronics and materials fi rms are investing in this area? What  are the leading start-ups? Which OEMs are leading
the pack in actually using plastic electronics in their products? How are new production methods lowering barriers to entry in this business?

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The report “Consumer Electronics Market in Brazil (2007-2011)” provides an extensive research and rational analysis on the consumer electronics market of one of the fastest growing consumer markets of the world - Brazil. This report helps clients to analyze the opportunities and factors critical to the success of consumer electronics industry in the country.

The report has divided the market segments into white line, sound and images, mobile phones, and computers for better evaluation of the market. The overview on opportunities and future forecast helps the clients analyze the future course of direction and major growth areas of the industry. 

Market Analysis

Brazil is ranked as the third most attractive consumer electronics market from investment point of view among the E7 countries (including China, India, Brazil, Russia, Indonesia, Mexico and Turkey). The Brazilian consumer electronics market increased with CAGR of 8.69% for the period spanning 2002-2006.

In the white line category, washing machines and freezers will grow substantially during the forecasted period (2007-2011) as the penetration of these products is low in the country.

In the sound and images category, there is still a lot of potential for the growth of the TV and DVD sales as the number of households is increasing and people are looking for new and innovative products. Same is true for mobile phones - in Brazil; the penetration rate of mobile phones was low at just 53 mobile phones per 100 inhabitants in 2006, leaving great scope for companies to play in the market.

The continuous development and digital technologies are revolutionizing the consumer electronics industry. Moreover, the continuously falling prices of consumer electronics with increasing disposable income are giving reasons to more consumers to spend on electronics products and this is indicating that the consumer electronics industry has bright future ahead in Brazil.

Key Findings 

• Washing machines, freezers, and personal computers are among the consumer electronics with low penetration rates, indicating ample room for growth in sales in the medium-term.
• In terms of sales volume, refrigerators will have the highest sales followed by washing machines in the whine line goods during the forecasted period (2007-2011).
• In the images and sound segment, the DVD sales will increase with the CAGR value of 8% and have the largest market in terms of volume by 2011.
• Retailer credit will play a critical role in driving the consumer electronics sales coming from the lower socio-economic segments. Although price will also continue to be a key driver, financing options such as installment plans will drive the penetration into these segments.
• It is expected that per head disposable income in Brazil will increase at a CAGR of 1.38% during 2007-2011 and will push the consumer electronics market in the country.

Key Issues & Facts Analyzed 

• How is the Brazil consumer electronics industry performing?
• What is the market scenario of the consumer electronics industry by products?
• What are the factors critical to the success of Brazil consumer electronics industry?
• What are the opportunity areas that exist in the industry?
• What is the future outlook of the industry?
• Who are the major players in the Brazil consumer electronics industry?

Research Methodology Used

Information Sources
Information has been sourced from books, newspapers, trade journals, and white papers, industry portals, government agencies, trade associations, monitoring industry news and developments, and through access to more than 3000 paid databases.

Analysis Method
The analysis method includes ratio analysis, historical trend analysis, linear regression analysis using software tools, judgmental forecasting, and cause and effect analysis

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Carbon nanotubes (CNTs) have been demonstrated to have remarkable physical, electrical and thermal properties and are likely to find numerous applications. Within the electronics sphere, CNTs promise high-capacity non-volatile computer memories, television displays with better performance than anything now on the market, a solution for high-speed chip interconnection, ultra-fast processors and logic, low-cost highly responsive sensors, and even new kinds of packaging and thermal management products.

This report examines this promise from a market perspective and answers the following questions:

• Where are the near term opportunities for carbon nanotubes electronics? Are the firms promising field emission displays and nanotube memory by 2006 being too optimistic or are there real opportunities in these areas?

• What are the other emerging technologies that will compete with CNT electronics and how well will CNTs meet such challenges? For example, how will CNT memories shape up against other non-volatile nanomemories, nanotube interconnects against silicon photonics, and CNT-based processors against processors built with III-V materials?

• How well will CNT electronics fit in a CMOS world? What is required of CNT electronics in terms of materials and process compatibility with CMOS and how will those requirements change over time?

• Which large semiconductor firms are making the development of CNT-based electronics a priority? How far have they come with their R&D and what challenges do they face? Are there any entrepreneurial opportunities in this space and where should venture capitalists be placing their money in this space?

This report answers all these questions and more. It also reviews the state of the art in carbon nanotube electronics and provides detailed forecasts of revenue generation in this sector broken out by type of product (processors/logic, memory, interconnects, displays, sensors, and thermal management products.) Each of these forecasts is then further broken out by end user segment (e.g. cell phones and handhelds, military, enterprise computing, etc.) Also provided are profiles of 12 firms that are commercializing carbon nanotubes electronics along with an analysis of how these efforts fit in with their general strategies.

This report is intended for business development and marketing executives, product managers and other planners in the semiconductor, electronics and advanced materials sectors. It will also of considerable interest to venture capitalists, investment bankers and other investors.

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