Semiconductor Devices for High Temperature Applications: Market Opportunities

Summary

A surge in temperature requirements for new applications in industrial, oil drilling and aviation markets have compelled designers to develop a complete portfolio of semiconductor devices for hightemperature applications to handle high operating temperatures. With an increase in temperature, the characteristics of semiconductor devices degrade due to variances in threshold voltages and carrier mobility, augmented junction current leakage and intrinsic carrier density. The characterization and qualification of semiconductors operating at high temperatures are crucial to ensure that quality, reliability and functionality all meet the requirements of the intended application. The qualification of any high-temperature semiconductor device needs to consider the operating life of the overall device, its reliability and its packaging.

The market for semiconductor devices for high-temperature applications is growing rapidly. The major factor attributed to its growth is the benefits associated with the adoption of these devices, such as reduced costs and improved efficiency. The global market is also being propelled by several industries such as electronics, defense and aerospace, automotive, and optoelectronics in which there is demand for semiconductor devices that are capable of operating reliably in harsh environments, including extremely high temperatures. Further rapid technological advancements coupled with vast improvements in the ability of these devices to operate in diverse environments are also strongly
boosting global market growth. Remarkable growth in the market for semiconductor devices for hightemperature applications is expected through the end of 2023. Market revenue was $REDACTED billion in 2017 and is expected to reach nearly $REDACTED billion in 2023, growing at a compound annual growth rate (CAGR)of REDACTED% during the forecast period.

The various types of semiconductor devices for high-temperature applications include GaN, SiC, GaAs, and diamond semiconductor substrate. Diamond is anticipated to be the fastest growing segment of the global market and is estimated to expand at a CAGR of REDACTED% from 2018 to 2023. Diamond is considered an ideal material for semiconductors. Though diamond is an integral jewelry material, its unique properties are anticipated to change the way electronic products are powered. Silicon carbide was the largest revenue-generating segment in 2017 and is expected to witness substantial growth throughout the forecast period. This segment generated revenue of over $REDACTED billion in 2017 and is expected to increase $REDACTED billion in 2022, growing at a CAGR of REDACTED% during the forecast period. Gallium nitride wassecond position in terms of revenue in 2017, due to advancements in technology coupled with expansion of application areas for GaN-based devices.

Geographically, the market is segmented into North America, Europe, Asia-Pacific, Latin America, and RoW. North America garnered the highest revenue in 2017 at $REDACTED million. It is expected to continue to dominate the revenue share, with an expected value of $REDACTED billion in 2023. Since North America is aquick adopter of technological advances, the market for semiconductor devices for high-temperature applications has swiftly formed a strong base in the region. However, the Asia-Pacific region holds the second largest share of the global market and has substantial market potential. Asia-Pacific is expected to expand at a CAGR of REDACTED% during the forecast period from 2018 through 2023 to reach $REDACTED billion in 2023, up from $REDACTED million in 2017. Emerging nations in this region are experiencing substantialeconomic growth, which is expected to drive growth of the semiconductor devices for high-tempera ture applications market during the forecast period.

Chapter 1 Introduction
Study Goals and Objectives
Reasons for Doing This Study
Scope of Report
Research Methodology
Intended Audience
Information Sources
Geographic Breakdown
Analysts Credentials
BCC Custom Research
Related BCC Research Reports
Chapter 2 Summary and Highlights
Chapter 3 Market and Technology Background
Market Definition and Evolution of Semiconductor Devices for High-Temperature Applications
Future Outlook and Expectations
Market Dynamics
Drivers
Restraints
Key Developments in Semiconductor Devices for High-Temperature Applications
Gallium Nitride
Silicon Carbide
Gallium Arsenide
Diamond
Quotes by Key Opinion Leaders
Value Chain Analysis
Raw Materials
Components
Design and Conception
Manufacture
Assembly, Packaging and Testing
Customer Service
Chapter 4 Market Breakdown by Gallium Nitride
Introduction
GaN Market Breakdown by GaN Product
Power Semiconductors
Schottky Diodes
High Electron Mobility Transistors
Integrated Circuits
GaN-on-Si
GaN RF Devices
HEMTs
GaN-based ICs
GaN-based Opto-semiconductors
GaN Market Breakdown by Wafer Size
2-inch Wafer Size
4-inch Wafer Size
6-inch Wafer Size
8-inch Wafer Size
GaN Market Breakdown by Application
Information and Communication Technology Applications
Automotive Applications
Consumer Electronics Applications
Defense and Aerospace Applications
Industrial and Medical Applications
Other Applications
Chapter 5 Market Breakdown by Silicon Carbide
Introduction
SiC Market Breakdown by SiC Product
Black Silicon Carbide
Green Silicon Carbide
Other Materials
SiC Market Breakdown by Application
Power Electronics and Semiconductor Applications
Steel and Energy Applications
Automotive Applications
Aerospace and Aviation Applications
Military and Defense Applications
Medical and Healthcare Applications
Other Applications
Chapter 6 Market Breakdown by GaAs
Introduction
GaAs Market Breakdown by Wafer Production Method
Liquid-Encapsulated Czochralski Method
Vertical Gradient Freeze Method
Molecular Beam Epitaxy
Metal-Organic Vapor Phase Epitaxy
Other Methods
GaAs Market Breakdown by Application
Mobile Devices
Photovoltaic Devices
Wireless Communications
Optoelectronic Devices
Aerospace and Defense Applications
Other Applications
Chapter 7 Market Breakdown by Diamond Semiconductor Substrate
Introduction
Diamond Semiconductor Substrate Market by Type
Natural Diamond
Synthetic Diamond
Diamond Semiconductor Substrate Market by Application
Healthcare Applications
Consumer Electronics
Construction and Mining Applications
Other Applications
Chapter 8 Market Breakdown by Region
Introduction
North America
Market Snapshot
Europe
Market Snapshot
Asia-Pacific
Market Snapshot
Latin America
Market Snapshot
Rest of the World
Market Snapshot
Chapter 9 Analysis of Market Opportunities
Development of 5G and Automotive Technology as Drivers of the GaN and SiC Markets
Huge Opportunities Offered by Diamond
Growth Opportunities Offered by the Oil and Gas Industry
Untapped Opportunities in Developing Countries
Market Share Analysis
Chapter 10 Patent Review and New Developments
Patent Review by Year and Country
Important Patents for Semiconductor Devices for High-Temperature Applications
Chapter 11 Company Profiles
Top Ten Suppliers
CREE INC.
FUJITSU LTD.
GAN SYSTEMS INC.
GENERAL ELECTRIC
INFINEON TECHNOLOGIES AG
NXP SEMICONDUCTORS NV
QORVO INC.
RENESAS ELECTRONICS CORP.
TEXAS INSTRUMENTS INC.
TOSHIBA CORP.
Top Ten Buyers
ALLEGRO MICROSYSTEMS LLC
COBHAM PLC
LATTICE SEMICONDUCTOR CORP.
PULSE ELECTRONICS CORP.
SHARP MICROELECTRONICS OF THE AMERICAS
SMART MODULAR TECHNOLOGIES (WWH) INC.
TDK CORP.
VICOR CORP.
Supply Chain Participants
ADVANCED WIRELESS SEMICONDUCTOR COMPANY
APPLIED DIAMOND INC.
ASCATRON AB
AVOGY INC.
EFFICIENT POWER CONVERSION CORP.
GENESIC SEMICONDUCTOR INC.
INTELLIGENT EPITAXY TECHNOLOGY INC.
LITTELFUSE INC.
NEXGEN POWER SYSTEMS INC.
NORSTEL AB
ROHM SEMICONDUCTOR
SUMITOMO ELECTRIC SEMICONDUCTOR MATERIALS INC.
THE DOW CHEMICAL CO.
TRANSPHORM INC.
UNITED SILICON CARBIDE INC.

List Of Tables


Summary Table : Global Market for Semiconductor Devices for High-Temperature Applications, by Material Type, Through 2023
Table 1 : Global Market for GaN Semiconductor Devices for High-Temperature Applications, by Region, Through 2023
Table 2 : Global Market for GaN Power Semiconductors for High-Temperature Applications, by Type, Through 2023
Table 3 : Global Market for GaN Power Semiconductors for High-Temperature Applications, by Wafer Size, Through 2023
Table 4 : Global Market for GaN Power Semiconductors for High-Temperature Applications, by Application, Through 2023
Table 5 : Global Market for GaN RF Devices for High-Temperature Applications, by Type, Through 2023
Table 6 : Global Market for GaN RF Devices for High-Temperature Applications, by Wafer Size, Through 2023
Table 7 : Global Market for GaN RF Devices for High-Temperature Applications, by Application, Through 2023
Table 8 : Global Market for GaN 2-inch Wafer Size, by GaN Product, Through 2023
Table 9 : Global Market for GaN 2-inch Wafer Size, by Application, Through 2023
Table 10 : Global Market for GaN 4-inch Wafer Size, by GaN Product, Through 2023
Table 11 : Global Market for GaN 4-inch Wafer Size, by Application, Through 2023
Table 12 : Global Market for GaN 6-inch Wafer Size, by GaN Product, Through 2023
Table 13 : Global Market for GaN 6-inch Wafer Size, by Application, Through 2023
Table 14 : Global Market for GaN 8-inch Wafer Size, by GaN Product, Through 2023
Table 15 : Global Market for GaN 8-inch Wafer Size, by Application, Through 2023
Table 16 : Global Market for GaN Applications in Information and Communication Technology, by GaN Product, Through 2023
Table 17 : Global Market for GaN Applications in Information and Communication Technology, by Wafer Size, Through 2023
Table 18 : Global Market for GaN Applications in Automotive, by GaN Product, Through 2023
Table 19 : Global Market for GaN Applications in Automotive, by Wafer Size, Through 2023
Table 20 : Global Market for GaN Applications in Consumer Electronics, by GaN Product, Through 2023
Table 21 : Global Market for GaN Applications in Consumer Electronics, by Wafer Size, Through 2023
Table 22 : Global Market for GaN Applications in Defense and Aerospace, by GaN Product, Through 2023
Table 23 : Global Market for GaN Applications in Defense and Aerospace, by Wafer Size, Through 2023
Table 24 : Global Market for GaN Applications in Industry and Medicine, by GaN Product, Through 2023
Table 25 : Global Market for GaN Applications in Industry and Medicine, by Wafer Size, Through 2023
Table 26 : Global Market for GaN in Other Applications, by GaN Product, Through 2023
Table 27 : Global GaN Market for Other Applications, by Wafer Size, Through 2023
Table 28 : Global Market for SiC Semiconductor Devices for High-Temperature Applications, by Region, Through 2023
Table 29 : Global Market for Black Silicon Carbide, by SiC Application, Through 2023
Table 30 : Global Market for Green Silicon Carbide, by SiC Application, Through 2023
Table 31 : Global Market for Other SiC Products, by SiC Application, Through 2023
Table 32 : Global Market for SiC Applications in Power Electronics and Semiconductors, by SiC Product, Through 2023
Table 33 : Global Market for SiC Applications in Steel and Energy, by SiC Product, Through 2023
Table 34 : Global Market for SiC Applications in Automotive, by SiC Product, Through 2023
Table 35 : Global Market for SiC Applications in Aerospace and Aviation, by SiC Product, Through 2023
Table 36 : Global Market for SiC Applications in the Military and Defense Industry, by SiC Product, Through 2023
Table 37 : Global Market for SiC Applications in Medical and Healthcare, by SiC Product, Through 2023
Table 38 : Global Market for SiC in Other Applications, by SiC Product, Through 2023
Table 39 : Global Market for GaAs Semiconductor Devices for High-Temperature Applications, by Region, Through 2023
Table 40 : Global Market for the GaAs Liquid-Encapsulated Czochralski Wafer Technique, by Application, Through 2023
Table 41 : Global Market for the GaAs Vertical Gradient Freeze Wafer Technique, by Application, Through 2023
Table 42 : Global Market for the GaAs MBE Wafer Technique, by Application, Through 2023
Table 43 : Global Market for the GaAs Metal-Organic Vapor Phase Epitaxy Wafer Technique, by Application, Through 2023
Table 44 : Global Market for Other GaAs Wafers, by Application, Through 2023
Table 45 : Global Market for GaAs in Mobile Devices, by Wafer Production Method, Through 2023
Table 46 : Global Market for GaAs in Photovoltaic Devices, by Wafer Production Method, Through 2023
Table 47 : Global Market for GaAs in Wireless Communication, by Wafer Production Method, Through 2023
Table 48 : Global Market for GaAs in Optoelectronic Devices, by Wafer Production Method, Through 2023
Table 49 : Global Market for GaAs in Aerospace and Defense, by Wafer Production Method, Through 2023
Table 50 : Global Market for GaAs in Other Applications, by Wafer Production Method, Through 2023
Table 51 : Global Market for Diamond Semiconductor Substrate for High-Temperature Applications, by Region, Through 2023
Table 52 : Global Market for Natural Diamond Semiconductor Substrate, by Application, Through 2023
Table 53 : Global Market for Synthetic Diamond Semiconductor Substrate, by Application, Through 2023
Table 54 : Global Market for Healthcare Applications of Diamond Semiconductor Substrate, by Type, Through 2023
Table 55 : Global Market for Consumer Electronics Applications of Diamond Semiconductor Substrate, by Type, Through 2023
Table 56 : Global Market for Construction and Mining Applications of Diamond Semiconductor Substrate, by Type, Through 2023
Table 57 : Global Market for Other Applications of Diamond Semiconductor Substrate, by Type, Through 2023
Table 58 : North American Market for Semiconductor Devices for High-Temperature Applications, by Country, Through 2023
Table 59 : North American Market for Semiconductor Devices for High-Temperature Applications, by Type, Through 2023
Table 60 : European Market for Semiconductor Devices for High-Temperature Applications, by Country, Through 2023
Table 61 : European Market for Semiconductor Devices for High-Temperature Applications, by Type, Through 2023
Table 62 : Asia-Pacific Market for Semiconductor Devices for High-Temperature Applications, by Country, Through 2023
Table 63 : Asia-Pacific Market for Semiconductor Devices for High-Temperature Applications, by Type, Through 2023
Table 64 : Latin American Market for Semiconductor Devices for High-Temperature Applications, by Country, Through 2023
Table 65 : Latin American Market for Semiconductor Devices for High-Temperature Applications, by Type, Through 2023
Table 66 : Rest of the World Market for Semiconductor Devices for High-Temperature Applications, by Country, Through 2023
Table 67 : Rest of the World Market for Semiconductor Devices for High-Temperature Applications, by Type, Through 2023
Table 68 : Market Share Analysis of Semiconductor Devices for High-Temperature Applications, 2017
Table 69 : High-Voltage Semiconductor Device
Table 70 : Temperature Sensing Semiconductor Device
Table 71 : High-Tech Temperature Control Device for Semiconductor Manufacturing Facility
Table 72 : Semiconductor Device Having Temperature Sensor Circuits
Table 73 : Temperature Sensor Circuit and Semiconductor Device Including Temperature Sensor Circuit
Table 74 : Aluminum Nitride Electrostatic Chuck Used in High-Temperature and High Plasma Power Density Semiconductor Manufacturing Process
Table 75 : Semiconductor Device Including a Temperature Sensor Circuit
Table 76 : Semiconductor Device with Temperature Detecting Diode
Table 77 : Semiconductor Device and Temperature Sensor System
Table 78 : Semiconductor Switch with Integrated Temperature Sensor
Table 79 : Method for Manufacturing Semiconductor Substrate, Method for Manufacturing Semiconductor Device, Semiconductor Substrate, and Semiconductor Device
Table 80 : Semiconductor Device Having a Positive Temperature Coefficient Structure
Table 81 : Power Up of Semiconductor Device Having a Temperature Circuit and Method Therefore
Table 82 : Power Semiconductor Device with Temperature Protection
Table 83 : Low Temperature Formation of High-Quality Silicon Oxide Films in Semiconductor Device Manufacturing
Table 84 : Temperature Estimation Device and Semiconductor Device
Table 85 : High-Tech Temperature Control Device of Semiconductor Manufacturing Equipment
Table 86 : Semiconductor Device
Table 87 : Light- and Temperature-Sensitive Semiconductor Sensor
Table 88 : Remote Communication and Powered Sensing/Control/Identification Devices Using High-Temperature Compatible Semiconductor Materials
Table 89 : Improving Life of a Semiconductor by Reducing Temperature Changes Therein via Switching Frequency
Table 90 : Semiconductor Device, Temperature Sensor and Power Supply Voltage Monitor
Table 91 : Semiconductor Device and Semiconductor Module
Table 92 : Semiconductor Device and Semiconductor Device Package Including the Same
Table 93 : Semiconductor Device with Structure with Positive Temperature Coefficient
Table 94 : High-Frequency Semiconductor Device
Table 95 : High Frequency Semiconductor Module
Table 96 : Semiconductor Device
Table 97 : High-Temperature Ceramic Socket Configured to Test Packaged Semiconductor Device
Table 98 : Package for High-Frequency Semiconductor and High-Frequency Semiconductor Device
Table 99 : Developments at Cree Inc., 2018
Table 100 : Developments at Fujitsu Ltd., 2017 and 2018
Table 101 : Developments at GaN Systems Inc., 2018
Table 102 : Developments at General Electric, 2017
Table 103 : Developments at Infineon Technologies AG, 2016 and 2018
Table 104 : Developments at NXP Semiconductor, 2018
Table 105 : Developments at Qorvo Inc., 2018
Table 106 : Developments at Renesas Electronics Corp., 2018
Table 107 : Developments at Texas Instruments Inc., 2018
Table 108 : Developments at Toshiba Corp., 2017
Table 109 : Developments at Allegro MicroSystems LLC, 2018
Table 110 : Developments at Cobham PLC, 2016
Table 111 : Developments at Lattice Semiconductor Corp., 2016 and 2017
Table 112 : Developments at Pulse Electronics Corp., 2018
Table 113 : Developments at Sharp Microelectronics of the Americas, 2016
Table 114 : Developments at SMART Modular Technologies Inc.,2016, 2017 and 2018
Table 115 : Developments at TDK Corp., 2017 and 2018
Table 116 : Developments at Vicor Corp., 2018
Table 117 : Developments at Ascatron AB, 2017
Table 118 : Developments at EPC Corp., 2018
Table 119 : Developments at Littelfuse Inc., 2018
Table 120 : Developments at NexGen Power Systems Inc., 2018
Table 121 : Developments at Norstel AB, 2017
Table 122 : Developments at ROHM Semiconductor,2017 and 2018
Table 123 : Developments at Sumitomo Electric Semiconductor Materials Inc., 2017 and 2018
Table 124 : Developments at Transphorm Inc., 2018
Table 125 : Developments at United Silicon Carbide Inc., 2016, 2017 and 2018

List Of Figures


Summary Figure : Global Market for Semiconductor Devices for High-Temperature Applications, by Material Type, 2017-2023
Figure 1 : Value Chain for Semiconductor Devices for High-Temperature Applications
Figure 2 : Global Market for GaN Semiconductor Devices for High-Temperature Applications, by Region, 2017-2023
Figure 3 : Global Market for GaN Power Semiconductors for High-Temperature Applications, by Type, 2017-2023
Figure 4 : Global Market for GaN Power Semiconductors for High-Temperature Applications, by Wafer Size, 2017-2023
Figure 5 : Global Market for GaN Power Semiconductors for High-Temperature Applications, by Application, 2017-2023
Figure 6 : Global Market for GaN RF Devices for High-Temperature Applications, by Type, 2017-2023
Figure 7 : Global Market for GaN RF Devices for High-Temperature Applications, by Wafer Size, 2017-2023
Figure 8 : Global Market for GaN RF Devices for High-Temperature Applications, by Application, 2017-2023
Figure 9 : Global Market for GaN 2-inch Wafer Size, by GaN Products, 2017-2023
Figure 10 : Global Market for GaN 2-inch Wafer Size, by Application, 2017-2023
Figure 11 : Global Market for GaN 4-inch Wafer Size, by GaN Product, 2017-2023
Figure 12 : Global Market for GaN 4-inch Wafer Size, by Application, 2017-2023
Figure 13 : Global Market for GaN 6-inch Wafer Size, by GaN Product, 2017-2023
Figure 14 : Global Market for GaN 6-inch Wafer Size, by Application, 2017-2023
Figure 15 : Global Market for GaN 8-inch Wafer Size, by GaN Product, 2017-2023
Figure 16 : Global Market for GaN 8-inch Wafer Size, by Application, 2017-2023
Figure 17 : Global Market for GaN Applications in Information and Communication Technology, by GaN Product, 2017-2023
Figure 18 : Global Market for GaN Applications in Information and Communication Technology, by Wafer Size, 2017-2023
Figure 19 : Global Market for GaN Applications in Automotive, by GaN Product, 2017-2023
Figure 20 : Global Market for GaN Applications in Automotive, by Wafer Size, 2017-2023
Figure 21 : Global Market for GaN Applications in Consumer Electronics, by GaN Product, 2017-2023
Figure 22 : Global Market for GaN Applications in Consumer Electronics, by Wafer Size, 2017-2023
Figure 23 : Global Market for GaN Applications in Defense and Aerospace, by GaN Product, 2017-2023
Figure 24 : Global Market for GaN Applications in Defense and Aerospace, by Wafer Size, 2017-2023
Figure 25 : Global Market for GaN Applications in Industry and Medicine, by GaN Product, 2017-2023
Figure 26 : Global Market for GaN Applications in Industry and Medicine, by Wafer Size, 2017-2023
Figure 27 : Global Market for GaN in Other Applications, by GaN Products, 2017-2023
Figure 28 : Global GaN Market for Other Applications, by Wafer Size, 2017-2023
Figure 29 : Global Market for SiC Semiconductor Devices for High-Temperature Applications, by Region, 2017-2023
Figure 30 : Global Market for Black Silicon Carbide, by SiC Application, 2017-2023
Figure 31 : Global Market for Green Silicon Carbide, by SiC Application, 2017-2023
Figure 32 : Global Market for Other SiC Products, by SiC Application, 2017-2023
Figure 33 : Global Market for SiC Applications in Power Electronics and Semiconductors, by SiC Product, 2017-2023
Figure 34 : Global Market for SiC Applications in Steel and Energy, by SiC Product, 2017-2023
Figure 35 : Global Market for SiC Applications in Automotive, by SiC Product, 2017-2023
Figure 36 : Global Market for SiC Applications in Aerospace and Aviation, by SiC Product, 2017-2023
Figure 37 : Global Market for SiC Applications in the Military and Defense Industry, by SiC Product, 2017-2023
Figure 38 : Global Market for SiC Applications in Medical and Healthcare, by SiC Product, 2017-2023
Figure 39 : Global Market for SiC in Other Applications, by SiC Product, 2017-2023
Figure 40 : Global Market for GaAs Semiconductor Devices for High-Temperature Applications, by Region, 2017-2023
Figure 41 : Global Market for the GaAs Liquid-Encapsulated Czochralski Wafer Technique, by Application, 2017-2023
Figure 42 : Global Market for the GaAs Vertical Gradient Freeze Wafer Technique, by Application, 2017-2023
Figure 43 : Global Market for GaAs MBE Wafer Technique, by Application, 2017-2023
Figure 44 : Global Market for the GaAs Metal-Organic Vapor Phase Epitaxy Wafer Technique, by Application, 2017-2023
Figure 45 : Global Market for Other GaAs Wafers, by Application, 2017-2023
Figure 46 : Global Market for GaAs in Mobile Devices, by Wafer Production Method, 2017-2023
Figure 47 : Global Market for GaAs in Photovoltaic Devices, by Wafer Production Method, 2017-2023
Figure 48 : Global Market for GaAs in Wireless Communications, by Wafer Production Method, 2017-2023
Figure 49 : Global Market for GaAs in Optoelectronic Devices, by Wafer Production Method, 2017-2023
Figure 50 : Global GaAs Market for GaAs in Aerospace and Defense, by Wafer Production Method, 2017-2023
Figure 51 : Global Market for GaAs in Other Applications, by Wafer Production Method, 2017-2023
Figure 52 : Global Market for Diamond Semiconductor Substrate for High-Temperature Applications, by Region, 2017-2023
Figure 53 : Global Market for Natural Diamond Semiconductor Substrate, by Application, 2017-2023
Figure 54 : Global Market for Synthetic Diamond Semiconductor Substrate, by Application, 2017-2023
Figure 55 : Global Market for Healthcare Applications of Diamond Semiconductor Substrate, by Type, 2017-2023
Figure 56 : Global Market for Consumer Electronics Applications of Diamond Semiconductor Substrate, by Type, 2017-2023
Figure 57 : Global Market for Construction and Mining Applications of Diamond Semiconductor Substrate, by Type, 2017-2023
Figure 58 : Global Market for Other Applications of Diamond Semiconductor Substrate, by Type, 2017-2023
Figure 59 : North American Market for Semiconductor Devices for High-Temperature Applications, by Country, 2017-2023
Figure 60 : North American Market for Semiconductor Devices for High-Temperature Applications, by Type, 2017-2023
Figure 61 : European Market for Semiconductor Devices for High-Temperature Applications, by Country, 2017-2023
Figure 62 : European Market for Semiconductor Devices for High-Temperature Applications, by Type, 2017-2023
Figure 63 : European Market for Semiconductor Devices for High-Temperature Applications, by Type, 2017-2023
Figure 64 : Asia-Pacific Market for Semiconductor Devices for High-Temperature Applications, by Type, 2017-2023
Figure 65 : Latin American Market for Semiconductor Devices for High-Temperature Applications, by Country, 2017-2023
Figure 66 : Latin American Market for Semiconductor Devices for High-Temperature Applications, by Type, 2017-2023
Figure 67 : Rest of the World Market for Semiconductor Devices for High-Temperature Applications, by Country, 2017-2023
Figure 68 : Rest of the World Market for Semiconductor Devices for High-Temperature Applications, by Type, 2017-2023
Figure 69 : Shares of Patents Related to Semiconductor Devices for High-Temperature Applications, by Year, 2013-2017
Figure 70 : Shares of Patents Related to Semiconductor Devices for High-Temperature Applications, by Region, 2015-2017

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