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Radiation-hardened Electronics Market - Forecast(2024 - 2030)
Radiation Hardened Electronics Market Overview
The Global Radiation Hardened Electronics Market is estimated to reach $XX million growing at a CAGR of XX% from 2020 to 2025. Radiation Hardening is the process of developing electronic components that continue to resist the damages caused by ionizing radiation encountered in high-altitude flights, around nuclear reactors, particle accelerators and in the space flights. Radiation hardened electronics are one of the highly emerging markets with diverse range of applications across varied industry verticals such as Aerospace, Military & Defense and others. With the rising number of ballistic missiles in the inventory of global militaries, the demand for radiation hardened electronic equipment is on the rise. Typically these equipment require less tolerance than satellite electronics. With the rising global military budgets combined with the arms race between Russia, China and the U.S, the market for military radiation hardened devices and equipment, particularly for missiles is set to rise significantly.
Report Coverage
The report: “Radiation Hardened Electronics Market – Forecast (2020-2025)”, by Industry ARC covers an in-depth analysis of the following segments of “Radiation Hardened Electronics Market”.
By Material - Silicon, Hydrogenated Amorphous Silicon, Silicon Carbide, Gallium Nitride, Gallium Arsenide, Others
By Components - Microprocessors and Controllers, Discrete Semiconductors, Power Sources, Memory, Sensors, Field-Programmable Gate Array, Analog & Mixed Signals, Optoelectronics, Others
By Industry Verticals - Aerospace, Military & Defense, Nuclear, Space, Medical, Space, Medical, Consumer Electronics, Others
By Geography - North America (U.S, Canada, Mexico), South America(Brazil, Argentina and others), Europe(Germany, UK, France, Italy, Spain, Russia and Others), APAC(China, Japan India, SK, Aus and Others), and RoW (Middle east and Africa)
Key Takeaways
- Growing prevalence of radiation hardened electronics in space applications coupled with the increase in demand for failure free critical components in military & defense applications are driving the growth of the market.
- Growing prevalence of radiation hardened electronics in space applications coupled with the increase in demand for failure free critical components in military & defense applications are driving the growth of the market.
- North America is expected to dominate the global Radiation Hardened Electronics Market in the forecast period 2020-2025. With the U.S. country accounted for the majority of shares followed by Canada and Mexico. The biggest market driver for radiation-hardened electronics is low-Earth-orbit space applications in communications and Earth observation.
Radiation Hardened Electronics Market Segment Analysis - By Material
By Material the Market is segmented as Silicon, Hydrogenated Amorphous Silicon, Silicon Carbide, Gallium Nitride, Gallium Arsenide, Others. Silicon is witnessing a significant growth in the market as electronic components made up of silicon are preferred for innovative solutions as they support both strategic and space missions. The increase in the interest of manufacturers to build critical microelectronic devices such as microprocessor with enhanced reliability to withstand even in harsh conditions such as space and military field deployments. In 2019, the U.S. Government signed contract with Silicon Technologies, Inc to develop Radiation Hardened by Design (RHBD), such contracts are contributing significantly towards boosting the share of silicon material among others in the market.
Radiation Hardened Electronics Market Segment Analysis - By Industry Verticals
By Industry Verticals the market is segmented into Aerospace, Military & Defense, Nuclear, Space, Medical, Space, Medical, Consumer Electronics, Others. Military & Defense sector is witnessing a significant growth in the market to cut down time of testing, assembly and manufacture. Powerful ISR payloads enabled by the supercomputing performance of modern processors and computers are being developed and deployed in operated and un-operated ground, sea, air, and especially space platforms. There is demand for more processing, more bandwidth, and more memory for increased on-orbit storage which will be realized by making use of advanced FPGAs and multicore processors. Currently, space and military companies are looking for more COTS as well as innovative products driving the growth of the market
Radiation Hardened Electronics Market Segment Analysis - Geography
Global Radiation Hardened Electronics Market is dominated by North America with a market share xx% in 2019. Rising demand for radiation hardened electronics market propels the growth of the radiation hardened and radiation tolerant electronics market in the U.S. The government’s demand for systems that are hardened for weapons effects, such as the SBIRS [Space-Based Infrared Surveillance] system to monitor for weapons launches and other initiatives like global positioning system (GPS) program to update the nation’s navigation satellites electronic components that will be able to survive and operate through nuclear events etc. further creates opportunities for the rad-hard products market growth. High presence of manufacturers in this country is also a contributing factor for the significant demand for these devices. The U.S. government space experts are working with the Boeing Co. to create a new generation of radiation-hardened microprocessors for a wide variety of space applications to provide some of the most advanced processor technologies with broad industry and software support for future space missions. One of most notable rad-hard by design projects is the High Performance Spaceflight Computing (HPSC) Processor Chiplet program.
Radiation Hardened Electronics Market Drivers
Rise in demand for communication satellite:
Rising ISR (Intelligence, Surveillance, and Reconnaissance) processes, multicore processor technology and FPGA advancements have boosted the radiation hardened electronics market. There is demand for more processing, more bandwidth, and more memory for increased on-orbit storage which will be realized by making use of advanced FPGAs and multicore processors. Currently there are around 350 satellites in operation for military usage with around 250 of these being purely for militaristic applications. The growing launch of military communications satellites by U.S., China, India, and Germany are anticipated to play a critical role in the growth of the military segment. In July 2020, Airbus Defense and Space signed a deal with the Ministry of Defense (MOD) of the United Kingdom to extend and develop the Skynet fleet. This contract involves the development, production, assembly, cyber protection, integration, testing and launch of a military communications satellite, Skynet 6A, scheduled for launch in 2025. With this contract Airbus is completely committed to supply the armed forces around the world with world-class strategic communications facilities.
Growth of nuclear power:
The growth of the nuclear power generation sector has played a major role in the growth of this market. With the recent Fukushima Nuclear Power Plant Disaster, increased focus on making the design criteria for radiation hardened equipment more stringent. This has resulted in increased usage of custom radiation hardened equipment over COTS. The growing automation in this sector has opened up the market for various electronic equipment, such as machine vision systems and robotics, which are radiation hardened, thereby driving the market.
Radiation Hardened Electronics Market Challenges
One of the restraining factor in the growth of the market is precision:
Radiation-hardened circuits are majorly used in the manufacturing process of satellites which spot missiles, thus, they need extensive testing of exotic materials involved within the circuits. For example, the accelerometers are raising the demand for accuracy, as they are used to guide spacecraft and missiles through precise engineering. The risk associated in maintaining an accurate testing and design manufacturing environment are hindering the growth of the radiation hardened electronics market.
Market Landscape
Radiation Hardened Electronics Market is dominated by major companies such as Microsemi Corporation, BAE System, Xilinx Inc, Honeywell Aerospace, Texas Instruments Inc., COBHAM PLC, Microchip Technology Inc, 3D PLUS SA, ST Microelectronics NV, XILINX Inc., among others.
Acquisitions/Technology Launches
- November, 2017- Intersil launched rad-hard quad power supply sequencers called ISL70321SEH designed to drive point-of load (POL) regulators that power high performance FPGAs and complex, multi-rail power systems. Such product developments are anticipated to drive the demand for power sources in the rad-hard and rad-tolerant electronics market.
- July, 2018- Maxim Integrated Products, Inc. has introduced DS28E83 Deep Cover authenticator which is a mixed signal device developed to protect surgical tool data from memory-disruptive, high-energy gamma radiation used in sterilization. Moreover, this device provides tool security with capabilities such as secure tool use management and counterfeit prevention, thereby enhancing patient safety and includes both elliptic curve digital signature algorithm (ECDSA) and Secure Hash Algorithm-256 (SHA-256)-based cryptographic features
1. Radiation-hardened Electronics Market - Overview
1.1 Definitions and Scope
2. Radiation-hardened Electronics Market - Executive summary
2.1 Market Revenue, Market Size and Key Trends by Company
2.2 Key Trends by type of Application
2.3 Key Trends segmented by Geography
3. Radiation-hardened Electronics Market
3.1 Comparative analysis
3.1.1 Product Benchmarking - Top 10 companies
3.1.2 Top 5 Financials Analysis
3.1.3 Market Value split by Top 10 companies
3.1.4 Patent Analysis - Top 10 companies
3.1.5 Pricing Analysis
4. Radiation-hardened Electronics Market - Startup companies Scenario Premium
4.1 Top 10 startup company Analysis by
4.1.1 Investment
4.1.2 Revenue
4.1.3 Market Shares
4.1.4 Market Size and Application Analysis
4.1.5 Venture Capital and Funding Scenario
5. Radiation-hardened Electronics Market - Industry Market Entry Scenario Premium
5.1 Regulatory Framework Overview
5.2 New Business and Ease of Doing business index
5.3 Case studies of successful ventures
5.4 Customer Analysis - Top 10 companies
6. Radiation-hardened Electronics Market Forces
6.1 Drivers
6.2 Constraints
6.3 Challenges
6.4 Porters five force model
6.4.1 Bargaining power of suppliers
6.4.2 Bargaining powers of customers
6.4.3 Threat of new entrants
6.4.4 Rivalry among existing players
6.4.5 Threat of substitutes
7. Radiation-hardened Electronics Market - Strategic analysis
7.1 Value chain analysis
7.2 Opportunities analysis
7.3 Product life cycle
7.4 Suppliers and distributors Market Share
8. Radiation-hardened Electronics Market - By Component (Market Size -$Million / $Billion)
8.1 Power Management
8.1.1 LDO Linear Regulators
8.1.2 Mosfets & Diodes
8.2 Application-Specific Integrated Circuit (ASIC)
8.3 Memory
8.3.1 Dynamic Random-Access Memory (DRAM)
8.3.2 Static Random-Access Memory (SRAM)
8.3.3 Non-Volatile Memories (NVMS)
8.3.4 Others
8.4 Logic
8.5 Field-Programmable Gate Array (FPGA)
9. Radiation-hardened Electronics Market - By Manufacturing Technique (Market Size -$Million / $Billion)
9.1 Radiation Hardening By Design
9.2 Radiation Hardening By Process
10. Radiation-hardened Electronics - By Application (Market Size -$Million / $Billion)
10.1 Segment type Size and Market Share Analysis
10.2 Application Revenue and Trends by type of Application
10.3 Application Segment Analysis by Type
10.3.1 Space
10.3.1.1 Commercial
10.3.1.2 Military
10.3.2 Aerospace & Defense
10.3.3 Nuclear Power Plants
11. Radiation-hardened Electronics - By Geography (Market Size -$Million / $Billion)
11.1 Radiation-hardened Electronics Market - North America Segment Research
11.2 North America Market Research (Million / $Billion)
11.2.1 Segment type Size and Market Size Analysis
11.2.2 Revenue and Trends
11.2.3 Application Revenue and Trends by type of Application
11.2.4 Company Revenue and Product Analysis
11.2.5 North America Product type and Application Market Size
11.2.5.1 U.S
11.2.5.2 Canada
11.2.5.3 Mexico
11.2.5.4 Rest of North America
11.3 Radiation-hardened Electronics- South America Segment Research
11.4 South America Market Research (Market Size -$Million / $Billion)
11.4.1 Segment type Size and Market Size Analysis
11.4.2 Revenue and Trends
11.4.3 Application Revenue and Trends by type of Application
11.4.4 Company Revenue and Product Analysis
11.4.5 South America Product type and Application Market Size
11.4.5.1 Brazil
11.4.5.2 Venezuela
11.4.5.3 Argentina
11.4.5.4 Ecuador
11.4.5.5 Peru
11.4.5.6 Colombia
11.4.5.7 Costa Rica
11.4.5.8 Rest of South America
11.5 Radiation-hardened Electronics- Europe Segment Research
11.6 Europe Market Research (Market Size -$Million / $Billion)
11.6.1 Segment type Size and Market Size Analysis
11.6.2 Revenue and Trends
11.6.3 Application Revenue and Trends by type of Application
11.6.4 Company Revenue and Product Analysis
11.6.5 Europe Segment Product type and Application Market Size
11.6.5.1 U.K
11.6.5.2 Germany
11.6.5.3 Italy
11.6.5.4 France
11.6.5.5 Netherlands
11.6.5.6 Belgium
11.6.5.7 Denmark
11.6.5.8 Spain
11.6.5.9 Rest of Europe
11.7 Radiation-hardened Electronics - APAC Segment Research
11.8 APAC Market Research (Market Size -$Million / $Billion)
11.8.1 Segment type Size and Market Size Analysis
11.8.2 Revenue and Trends
11.8.3 Application Revenue and Trends by type of Application
11.8.4 Company Revenue and Product Analysis
11.8.5 APAC Segment - Product type and Application Market Size
11.8.5.1 China
11.8.5.2 Australia
11.8.5.3 Japan
11.8.5.4 South Korea
11.8.5.5 India
11.8.5.6 Taiwan
11.8.5.7 Malaysia
11.8.5.8 Hong kong
11.8.5.9 Rest of APAC
11.9 Radiation-hardened Electronics - Middle East Segment and Africa Segment Research
11.10 Middle East & Africa Market Research (Market Size -$Million / $Billion)
11.10.1 Segment type Size and Market Size Analysis
11.10.2 Revenue and Trend Analysis
11.10.3 Application Revenue and Trends by type of Application
11.10.4 Company Revenue and Product Analysis
11.10.5 Middle East Segment Product type and Application Market Size
11.10.5.1 Israel
11.10.5.2 Saudi Arabia
11.10.5.3 UAE
11.10.6 Africa Segment Analysis
11.10.6.1 South Africa
11.10.6.2 Rest of Middle East & Africa
12. Radiation-hardened Electronics Market - Entropy
12.1 New product launches
12.2 M&A s, collaborations, JVs and partnerships
13. Radiation-hardened Electronics Market - Industry / Segment Competition landscape Premium
13.1 Market Share Analysis
13.1.1 Market Share by Country- Top companies
13.1.2 Market Share by Region- Top 10 companies
13.1.3 Market Share by type of Application - Top 10 companies
13.1.4 Market Share by type of Product / Product category- Top 10 companies
13.1.5 Market Share at global level - Top 10 companies
13.1.6 Best Practises for companies
14. Radiation-hardened Electronics Market - Key Company List by Country Premium
15. Radiation-hardened Electronics Market Company Analysis
15.1 Market Share, Company Revenue, Products, M&A, Developments
15.2 BAE Systems PLC
15.3 Honeywell Aerospace
15.4 Intersil Corporation
15.5 Key Innovators the Radiation-Hardened Electronics Market
15.6 Linear Technology Corporation
15.7 Microchip Technology Inc.
15.8 Microsemi Corp.
15.9 St Microelectronics NV
15.10 Company 10
15.11 Company 11 & More
16.1 Abbreviations
16.2 Sources
17. Radiation-hardened Electronics Market - Methodology
17.1 Research Methodology
17.1.1 Company Expert Interviews
17.1.2 Industry Databases
17.1.3 Associations
17.1.4 Company News
17.1.5 Company Annual Reports
17.1.6 Application Trends
17.1.7 New Products and Product database
17.1.8 Company Transcripts
17.1.9 R&D Trends
17.1.10 Key Opinion Leaders Interviews
17.1.11 Supply and Demand Trends
1.1 Definitions and Scope
2. Radiation-hardened Electronics Market - Executive summary
2.1 Market Revenue, Market Size and Key Trends by Company
2.2 Key Trends by type of Application
2.3 Key Trends segmented by Geography
3. Radiation-hardened Electronics Market
3.1 Comparative analysis
3.1.1 Product Benchmarking - Top 10 companies
3.1.2 Top 5 Financials Analysis
3.1.3 Market Value split by Top 10 companies
3.1.4 Patent Analysis - Top 10 companies
3.1.5 Pricing Analysis
4. Radiation-hardened Electronics Market - Startup companies Scenario Premium
4.1 Top 10 startup company Analysis by
4.1.1 Investment
4.1.2 Revenue
4.1.3 Market Shares
4.1.4 Market Size and Application Analysis
4.1.5 Venture Capital and Funding Scenario
5. Radiation-hardened Electronics Market - Industry Market Entry Scenario Premium
5.1 Regulatory Framework Overview
5.2 New Business and Ease of Doing business index
5.3 Case studies of successful ventures
5.4 Customer Analysis - Top 10 companies
6. Radiation-hardened Electronics Market Forces
6.1 Drivers
6.2 Constraints
6.3 Challenges
6.4 Porters five force model
6.4.1 Bargaining power of suppliers
6.4.2 Bargaining powers of customers
6.4.3 Threat of new entrants
6.4.4 Rivalry among existing players
6.4.5 Threat of substitutes
7. Radiation-hardened Electronics Market - Strategic analysis
7.1 Value chain analysis
7.2 Opportunities analysis
7.3 Product life cycle
7.4 Suppliers and distributors Market Share
8. Radiation-hardened Electronics Market - By Component (Market Size -$Million / $Billion)
8.1 Power Management
8.1.1 LDO Linear Regulators
8.1.2 Mosfets & Diodes
8.2 Application-Specific Integrated Circuit (ASIC)
8.3 Memory
8.3.1 Dynamic Random-Access Memory (DRAM)
8.3.2 Static Random-Access Memory (SRAM)
8.3.3 Non-Volatile Memories (NVMS)
8.3.4 Others
8.4 Logic
8.5 Field-Programmable Gate Array (FPGA)
9. Radiation-hardened Electronics Market - By Manufacturing Technique (Market Size -$Million / $Billion)
9.1 Radiation Hardening By Design
9.2 Radiation Hardening By Process
10. Radiation-hardened Electronics - By Application (Market Size -$Million / $Billion)
10.1 Segment type Size and Market Share Analysis
10.2 Application Revenue and Trends by type of Application
10.3 Application Segment Analysis by Type
10.3.1 Space
10.3.1.1 Commercial
10.3.1.2 Military
10.3.2 Aerospace & Defense
10.3.3 Nuclear Power Plants
11. Radiation-hardened Electronics - By Geography (Market Size -$Million / $Billion)
11.1 Radiation-hardened Electronics Market - North America Segment Research
11.2 North America Market Research (Million / $Billion)
11.2.1 Segment type Size and Market Size Analysis
11.2.2 Revenue and Trends
11.2.3 Application Revenue and Trends by type of Application
11.2.4 Company Revenue and Product Analysis
11.2.5 North America Product type and Application Market Size
11.2.5.1 U.S
11.2.5.2 Canada
11.2.5.3 Mexico
11.2.5.4 Rest of North America
11.3 Radiation-hardened Electronics- South America Segment Research
11.4 South America Market Research (Market Size -$Million / $Billion)
11.4.1 Segment type Size and Market Size Analysis
11.4.2 Revenue and Trends
11.4.3 Application Revenue and Trends by type of Application
11.4.4 Company Revenue and Product Analysis
11.4.5 South America Product type and Application Market Size
11.4.5.1 Brazil
11.4.5.2 Venezuela
11.4.5.3 Argentina
11.4.5.4 Ecuador
11.4.5.5 Peru
11.4.5.6 Colombia
11.4.5.7 Costa Rica
11.4.5.8 Rest of South America
11.5 Radiation-hardened Electronics- Europe Segment Research
11.6 Europe Market Research (Market Size -$Million / $Billion)
11.6.1 Segment type Size and Market Size Analysis
11.6.2 Revenue and Trends
11.6.3 Application Revenue and Trends by type of Application
11.6.4 Company Revenue and Product Analysis
11.6.5 Europe Segment Product type and Application Market Size
11.6.5.1 U.K
11.6.5.2 Germany
11.6.5.3 Italy
11.6.5.4 France
11.6.5.5 Netherlands
11.6.5.6 Belgium
11.6.5.7 Denmark
11.6.5.8 Spain
11.6.5.9 Rest of Europe
11.7 Radiation-hardened Electronics - APAC Segment Research
11.8 APAC Market Research (Market Size -$Million / $Billion)
11.8.1 Segment type Size and Market Size Analysis
11.8.2 Revenue and Trends
11.8.3 Application Revenue and Trends by type of Application
11.8.4 Company Revenue and Product Analysis
11.8.5 APAC Segment - Product type and Application Market Size
11.8.5.1 China
11.8.5.2 Australia
11.8.5.3 Japan
11.8.5.4 South Korea
11.8.5.5 India
11.8.5.6 Taiwan
11.8.5.7 Malaysia
11.8.5.8 Hong kong
11.8.5.9 Rest of APAC
11.9 Radiation-hardened Electronics - Middle East Segment and Africa Segment Research
11.10 Middle East & Africa Market Research (Market Size -$Million / $Billion)
11.10.1 Segment type Size and Market Size Analysis
11.10.2 Revenue and Trend Analysis
11.10.3 Application Revenue and Trends by type of Application
11.10.4 Company Revenue and Product Analysis
11.10.5 Middle East Segment Product type and Application Market Size
11.10.5.1 Israel
11.10.5.2 Saudi Arabia
11.10.5.3 UAE
11.10.6 Africa Segment Analysis
11.10.6.1 South Africa
11.10.6.2 Rest of Middle East & Africa
12. Radiation-hardened Electronics Market - Entropy
12.1 New product launches
12.2 M&A s, collaborations, JVs and partnerships
13. Radiation-hardened Electronics Market - Industry / Segment Competition landscape Premium
13.1 Market Share Analysis
13.1.1 Market Share by Country- Top companies
13.1.2 Market Share by Region- Top 10 companies
13.1.3 Market Share by type of Application - Top 10 companies
13.1.4 Market Share by type of Product / Product category- Top 10 companies
13.1.5 Market Share at global level - Top 10 companies
13.1.6 Best Practises for companies
14. Radiation-hardened Electronics Market - Key Company List by Country Premium
15. Radiation-hardened Electronics Market Company Analysis
15.1 Market Share, Company Revenue, Products, M&A, Developments
15.2 BAE Systems PLC
15.3 Honeywell Aerospace
15.4 Intersil Corporation
15.5 Key Innovators the Radiation-Hardened Electronics Market
15.6 Linear Technology Corporation
15.7 Microchip Technology Inc.
15.8 Microsemi Corp.
15.9 St Microelectronics NV
15.10 Company 10
15.11 Company 11 & More
*Financials would be provided on a best efforts basis for private companies
16. Radiation-hardened Electronics Market - Appendix16.1 Abbreviations
16.2 Sources
17. Radiation-hardened Electronics Market - Methodology
17.1 Research Methodology
17.1.1 Company Expert Interviews
17.1.2 Industry Databases
17.1.3 Associations
17.1.4 Company News
17.1.5 Company Annual Reports
17.1.6 Application Trends
17.1.7 New Products and Product database
17.1.8 Company Transcripts
17.1.9 R&D Trends
17.1.10 Key Opinion Leaders Interviews
17.1.11 Supply and Demand Trends
LIST OF TABLES
1.Global Radiation-Hardened Electronics Market By Component Market 2019-2024 ($M)2.Global Radiation-Hardened Electronics Market By Manufacturing Technique Market 2019-2024 ($M)
2.1 Radiation Hardening By Design Market 2019-2024 ($M) - Global Industry Research
2.2 Radiation Hardening By Process Market 2019-2024 ($M) - Global Industry Research
3.Global Radiation-Hardened Electronics Market By Component Market 2019-2024 (Volume/Units)
4.Global Radiation-Hardened Electronics Market By Manufacturing Technique Market 2019-2024 (Volume/Units)
4.1 Radiation Hardening By Design Market 2019-2024 (Volume/Units) - Global Industry Research
4.2 Radiation Hardening By Process Market 2019-2024 (Volume/Units) - Global Industry Research
5.North America Radiation-Hardened Electronics Market By Component Market 2019-2024 ($M)
6.North America Radiation-Hardened Electronics Market By Manufacturing Technique Market 2019-2024 ($M)
6.1 Radiation Hardening By Design Market 2019-2024 ($M) - Regional Industry Research
6.2 Radiation Hardening By Process Market 2019-2024 ($M) - Regional Industry Research
7.South America Radiation-Hardened Electronics Market By Component Market 2019-2024 ($M)
8.South America Radiation-Hardened Electronics Market By Manufacturing Technique Market 2019-2024 ($M)
8.1 Radiation Hardening By Design Market 2019-2024 ($M) - Regional Industry Research
8.2 Radiation Hardening By Process Market 2019-2024 ($M) - Regional Industry Research
9.Europe Radiation-Hardened Electronics Market By Component Market 2019-2024 ($M)
10.Europe Radiation-Hardened Electronics Market By Manufacturing Technique Market 2019-2024 ($M)
10.1 Radiation Hardening By Design Market 2019-2024 ($M) - Regional Industry Research
10.2 Radiation Hardening By Process Market 2019-2024 ($M) - Regional Industry Research
11.APAC Radiation-Hardened Electronics Market By Component Market 2019-2024 ($M)
12.APAC Radiation-Hardened Electronics Market By Manufacturing Technique Market 2019-2024 ($M)
12.1 Radiation Hardening By Design Market 2019-2024 ($M) - Regional Industry Research
12.2 Radiation Hardening By Process Market 2019-2024 ($M) - Regional Industry Research
13.MENA Radiation-Hardened Electronics Market By Component Market 2019-2024 ($M)
14.MENA Radiation-Hardened Electronics Market By Manufacturing Technique Market 2019-2024 ($M)
14.1 Radiation Hardening By Design Market 2019-2024 ($M) - Regional Industry Research
14.2 Radiation Hardening By Process Market 2019-2024 ($M) - Regional Industry Research
LIST OF FIGURES
1.US Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)2.Canada Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
3.Mexico Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
4.Brazil Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
5.Argentina Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
6.Peru Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
7.Colombia Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
8.Chile Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
9.Rest of South America Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
10.UK Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
11.Germany Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
12.France Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
13.Italy Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
14.Spain Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
15.Rest of Europe Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
16.China Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
17.India Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
18.Japan Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
19.South Korea Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
20.South Africa Radiation-hardened Electronics Market Revenue, 2019-2024 ($M)
21.North America Radiation-hardened Electronics By Application
22.South America Radiation-hardened Electronics By Application
23.Europe Radiation-hardened Electronics By Application
24.APAC Radiation-hardened Electronics By Application
25.MENA Radiation-hardened Electronics By Application
26.BAE Systems PLC, Sales /Revenue, 2015-2018 ($Mn/$Bn)
27.Honeywell Aerospace, Sales /Revenue, 2015-2018 ($Mn/$Bn)
28.Microsemi Corp., Sales /Revenue, 2015-2018 ($Mn/$Bn)
29.Microchip Technology Inc., Sales /Revenue, 2015-2018 ($Mn/$Bn)
30.St Microelectronics NV, Sales /Revenue, 2015-2018 ($Mn/$Bn)
31.Intersil Corporation, Sales /Revenue, 2015-2018 ($Mn/$Bn)
32.Linear Technology Corporation, Sales /Revenue, 2015-2018 ($Mn/$Bn)
33.Key Innovators the Radiation-Hardened Electronics Market, Sales /Revenue, 2015-2018 ($Mn/$Bn)