Radiation-Hardened Electronics Market

Industry Overview

The Global Radiation-Hardened Electronics Market is projected to experience substantial growth, reaching USD 3.8 billion by 2030 with a CAGR of 3.6% during the forecast period from 2023 to 2030. Starting at USD 1.8 billion in 2023, this market caters to the specific needs of electronic components, packages, and devices designed for high-altitude environments.

These radiation-hardened electronics are created using materials like silicon, silicon carbide, gallium nitride, and hydrogenated amorphous silicon. They are engineered to withstand high-energy radiation, as well as ionizing, gamma, and neutron radiation that can be generated by nuclear reactors. Rigorous tests, including total ionizing dose (TID), enhanced low dose rate effects (ELDRS), neutron and proton displacement damage, and single event effects (SET, SEL, SEE, and SEB), are conducted to ensure the reliability of these radiation-hardened products.

Switching regulators, microprocessors, and power supply devices are commonly employed in satellites, aircraft, and nuclear power plants, making radiation-hardened electronics crucial for these industries. Their applications extend across various sectors, including aviation, space exploration, military operations, and defense systems. With their ability to withstand harsh radiation environments, these components play a vital role in ensuring the functionality and safety of critical systems.

The COVID-19 outbreak has led to risks and uncertainties globally and the radiation-hardened electronics market has also been impacted by it.  High import taxes resulting from trade tensions between China and the United States had a significant impact on radiation-hardened component imports in the United States. Additionally, supply chain disruptions harmed US-based market leaders and produced supply-demand mismatches. and also an unplanned halt in production plants had a significant impact on overall market growth.

Market Segmentation

Insight by Product Type

Based on product type, the global radiation-hardened electronics market is bifurcated into custom-made and commercial-off-the-shelf (COTS). The commercial off-the-shelf is anticipated to have a faster growth due to the high bandwidth that is required in satellite applications and enhanced performance.

Insight by Material Type

Based on material type, the global radiation-hardened electronics market is segmented into silicon, hydrogenated amorphous silicon, silicon carbide, gallium nitride, gallium arsenide, and others. Silicon is anticipated to have significant growth during 2023-2030. Electronic components composed of silicon are selected for innovative solutions and assist both strategic and space missions, resulting in significant market growth. Manufacturers' increased interest in developing crucial microelectronic equipment, such as microprocessors, that are more reliable in hostile environments, such as space and military field deployments, resulting in the growth of the segment.

Insight by Component

Based on component, the global radiation-hardened electronics market is segmented into Memory, Logic, Power Management, Field-Programmable Gate Array, Application Specific Integrated Circuit, Analog & Digital Mix Signals, and Controllers & Processors. Power management is anticipated to have a constant growth during 2023-2030 owing to increased demand for metal-oxide-semiconductor field-effect transistor (MOSFETs) also called metal-oxide-silicon transistor (MOSTs) and diodes for various high-end applications in space, aerospace, and defense industries, resulting in the growth of the segment in the radiation-hardened electronics market. Furthermore, the power MOSFETs are employed in high-reliability requirements and developed for outer space requirements because they have good durability against high-energy charged particles and ionizing radiation.

Insight by Manufacturing Techniques

Based on manufacturing techniques, the global radiation-hardened electronics market is classified into Radiation-Hardening-By-Design (RHBD), Radiation-Hardening-By-Process (RHBP), and Radiation-Hardening-By-Software (RHBS). The RHBD is anticipated to grow significantly owing to ease in modification, reduction in cost per ship, and large-scale production. RHBD memory, microcontrollers, and ASICs are largely employed in nuclear power facilities, as well as the defense and space industries. Because RHBD enables easy adjustments by various government programs based on the intended applications, the market for RHBD designs is boosted during COVID-19.

Insight by Application

Based on application, the global radiation-hardened electronics market is classified into space, aerospace & defense, nuclear power plants, commercial satellites, medical, and others. Space is anticipated to grow at a higher pace during 2022-2030 owing to the increased adoption of radiation-hardened components in telephone satellites, TV broadcasting, several types of satellites, and rising demand for earth observation satellites for weather updates and research. Additionally, the increasing number of space missions worldwide will drive the development of the radiation-hardened electronics market.

Global Radiation-Hardened Electronics Market Report Coverage

Industry Dynamics

Industry Trends

With the mounting growth in internet accessibility globally, technological development like 5G, blockchain, cloud services, IoT, and AI has led to economic growth. Furthermore, development in the ICT sector led to growth in GDP, labor productivity, and increased R&D expenditure globally. These are the trends prevalent in the market that will lead to the growth of the global radiation-hardened electronics market.

Growth Drivers

The global growth of the radiation-hardened electronics market will be driven by various factors. Firstly, the increasing intelligence, surveillance, and reconnaissance (ISR) operations worldwide create a demand for advanced technologies. Additionally, the development of field-programming gate arrays (FPGAs) and multicore processor technologies, particularly for military and space applications, contributes to the market's expansion.

The demand for radiation-hardened electronics is further amplified by specific industries. Communication satellites require reliable and durable electronic systems, fueling the market growth. Similarly, the nuclear power industry necessitates electronic systems capable of withstanding radiation exposure, driving the demand for radiation-hardened electronics. Furthermore, the rising number of space missions and continuous technological advancements contribute to the market's upward trajectory.

The radiation-hardened electronics market benefits from several key factors. The increasing number of space missions and exploratory activities, along with the widespread adoption of power management devices in manufacturing, contribute to its expansion. Moreover, the establishment of autonomous military operations in hostile environments and the growing demand for radiation-hardened electronics in nuclear and healthcare sectors play a significant role.

Furthermore, the market growth is propelled by the rising demand for diodes, transistors, and MOSFETs in defense and space applications. Technological advancements, such as the development of highly reliable integrated circuits and improvements in field-programmable gate array (FPGA) technology, further drive the expansion of the radiation-hardened electronics market.

Challenges

Radiation hardened electronics growth may be hampered by problems in constructing actual testing conditions, personalized requirements of high-end consumers, as well as costly research and design expenditures. Furthermore, the development of small satellites having smaller life cycles may hinder the growth of the market.

Opportunities

The increasing R&D activities, the surge in the need for reconfigurable radiation-hardened components, and the increased adoption of commercial-off-the-shelf products in satellites and other space applications will create novel opportunities for the development of the radiation-hardened electronics market.

Geographic Overview

North America contributes to the largest market share in the radiation-hardened electronics market owing to the presence of major industry players and prominent space and defence institutes in the region that will propel the growth of the radiation-hardened components.

Because of the use of technologically improved target products for various space-related equipment, Europe's radiation-hardened electronics industry contributes the second-largest share in the global market.

Competitive Insight

The electronics manufacturing sector is very competitive, and as the global environment changes and applications diversify, companies must adapt their product portfolios to meet the changing needs of end consumers. There in a need to upgrade contracts so as to improve the capabilities of the current fleet of operational military assets, resulting in the growth of the market. Players are heavily spending in R&D of complex product offerings in order to secure long-term contracts and increase market share. Furthermore, the active participants in the radiation-hardened electronics market have been promoting technological innovations in platforms, associated products, and solutions through constant R&D.

For more than 50 years, BAE Systems' sophisticated, radiation-hardened electronic components, cards, processors, and modules have enabled civil, commercial, and national security space operations. Rad-hard, space-qualified electronics products include radiation-hardened Single Board Computers (SBCs) (RAD5545® SpaceVPX Multi-Core Single Board Computer and RAD750® SBC), Rad-hard Standard Components (SRAM, C-RAM, PROM, and FPGAs), Rad-hard Application-Specific Integrated Circuits (ASICs).

To avoid radiation damage in space and aerospace applications, radiation-hardened microchips in electronic devices are required. Infineon HIRel offers an extensive range of radiation-hardened semiconductors.  The Infineon rad-hard MOSFET power transistors are the global benchmark in radiation hardness and electrical performance, thanks to the unique CoolMOSTM superjunction technology.  Infineon supplies best-in-class radiation-hard powerMOS transistors for all kinds of space applications, with extremely low specific RDS(ON) and a comfortable Safe Operating Area (SOA) regarding SEE.

In January 2022, BAE Systems has been awarded a $60 million contract by Army Contracting Command-Rock Island to create next-generation, radiation-hardened by design microelectronics. The contract's efforts could lead to better access to more advanced process nodes for the US defense and aerospace communities in the future. The program's principal purpose is to provide the US government and aerospace sector with onshore access to cutting-edge microelectronics technology.

In June 2021, Microchip Technology Inc. has certified its M6 MRH25N12U3 radiation-hardened 250V, 0.21 Ohm Rds(on) metal–oxide–semiconductor field-effect transistor (MOSFET) for commercial and defense space applications. In power conversion circuits such as point-of-load converters, DC-DC converters, motor drives, and controllers, and general-purpose switching, Microchip's radiation-hardened M6 MRH25N12U3 MOSFET serves as the principal switching element. The MOSFET can endure the harsh environments of space, improve power circuitry dependability, and meet all MIL-PRF19500/746 criteria with improved performance.

Some of the major players operating in the radiation-hardened electronics market include Microchip Technology Inc., BAE Systems, Infineon Technologies AG, STMicroelectronics, Renesas Electronics Corporation, Honeywell International Inc., Advanced Micro Devices, Inc (Previously known as Xilinx Incorporation), Texas Instruments Incorporated, Analog Devices, Inc., and Teledyne Technologies Inc.

The Radiation-Hardened Electronics Market report offers a comprehensive market segmentation analysis along with an estimation for the forecast period 2023–2030.

Segments Covered in the Report

• By Product Type
  • Custom-Made
  • Commercial-off-the-Shelf
• By Material Type
  • Silicon
  • Hydrogenated Amorphous Silicon
  • Silicon Carbide
  • Gallium Nitride
  • allium Arsenide
  • Others
• By Component
  • Memory
  • Logic
  • Power Management
  • Field-Programmable Gate Array
  • Application-Specific Integrated Circuit
  • Analog & Digital Mix Signals
  • Controllers & Processors
• By Manufacturing Techniques
  • Radiation-Hardening-By-Design (RHBD)
  • Radiation-Hardening-By-Process (RHBP)
  • Radiation-Hardening-By-Software (RHBS)
• By Application
  • Space
  • Aerospace & Defense
  • Nuclear Power Plants
  • Commercial Satellites
  • Medical
  • Others

Region Covered in the Report

• North America
  • U.S.
  • Canada
  • Mexico
• Europe
  • Germany
  • U.K.
  • France
  • Italy
  • Spain
  • Russia
  • Rest of Europe
• Asia-Pacific (APAC)
  • China
  • Japan
  • India
  • South Korea
  • Rest of Asia-Pacific
• Rest of the World (RoW)
  • Brazil
  • Saudi Arabia
  • South Africa
  • U.A.E.
  • Other Countries

1.    Research Overview

        1.1.    The Report Offers
        1.2.    Market Coverage
                1.2.1.    By Product Type
                1.2.2.    By Material Type
                1.2.3.    By Component
                1.2.4.    By Manufacturing Techniques
                1.2.5.    By Application
                1.2.6.    By Region
        1.3.    Research Phases
        1.4.    Limitations
        1.5.    Market Methodology
                1.5.1.    Data Sources
                        1.5.1.1. Primary Research
                        1.5.1.2. Secondary Research
                1.5.2.    Methodology
                        1.5.2.1. Data Exploration
                        1.5.2.2. Forecast Parameters
                        1.5.2.3. Data Validation
                        1.5.2.4. Assumptions
                1.5.3.    Study Period & Data Reporting Unit

2.    Executive Summary

3.    Industry Overview

        3.1.    Industry Dynamics
                3.1.1.    Market Growth Drivers
                3.1.2.    Market Restraints
                3.1.3.    Key Market Trends
                3.1.4.    Major Opportunities
        3.2.    Industry Ecosystem
                3.2.1.    Porter’s Five Forces Analysis
                3.2.2.    Recent Development Analysis
                3.2.3.    Value Chain Analysis
        3.3.    Competitive Insight
                3.3.1.    Competitive Position of Industry Players
                3.3.2.    Market Attractive Analysis
                3.3.3.    Market Share Analysis

4.    Global Market Estimate and Forecast

        4.1.    Global Market Overview
        4.2.    Global Market Estimate and Forecast to 2030

5.    Market Segmentation Estimate and Forecast

        5.1.    By Product Type
                5.1.1.    Custom-Made
                        5.1.1.1. Market Definition
                        5.1.1.2. Market Estimation and Forecast to 2030  
                5.1.2.    Commercial-off-the-Shelf
                        5.1.2.1. Market Definition
                        5.1.2.2. Market Estimation and Forecast to 2030
        5.2.    By Material Type
                5.2.1.    Silicon
                        5.2.1.1. Market Definition
                        5.2.1.2. Market Estimation and Forecast to 2030
                5.2.2.    Hydrogenated Amorphous Silicon
                        5.2.2.1. Market Definition
                        5.2.2.2. Market Estimation and Forecast to 2027
                5.2.3.    Silicon Carbide
                        5.2.3.1. Market Definition
                        5.2.3.2. Market Estimation and Forecast to 2030
                5.2.4.    Gallium Nitride
                        5.2.4.1. Market Definition
                        5.2.4.2. Market Estimation and Forecast to 2030
                5.2.5.    allium Arsenide
                        5.2.5.1. Market Definition
                        5.2.5.2. Market Estimation and Forecast to 2030
                5.2.6.    Others
                        5.2.6.1. Market Definition
                        5.2.6.2. Market Estimation and Forecast to 2030
        5.3.    By Component   
                5.3.1.    Memory
                        5.3.1.1. Market Definition
                        5.3.1.2. Market Estimation and Forecast to 2030
                5.3.2.    Logic
                        5.3.2.1. Market Definition
                        5.3.2.2. Market Estimation and Forecast to 2030
                5.3.3.    Power Management
                        5.3.3.1. Market Definition
                        5.3.3.2. Market Estimation and Forecast to 2030
                5.3.4.    Field-Programmable Gate Array
                        5.3.4.1. Market Definition
                        5.3.4.2. Market Estimation and Forecast to 2030
                5.3.5.    Application Specific Integrated Circuit
                        5.3.5.1. Market Definition
                        5.3.5.2. Market Estimation and Forecast to 2030
                5.3.6.    Analog & Digital Mix Signals
                        5.3.6.1. Market Definition
                        5.3.6.2. Market Estimation and Forecast to 2030
                5.3.7.    Controllers & Processors
                        5.3.7.1. Market Definition
                        5.3.7.2. Market Estimation and Forecast to 2030
        5.4.    By Manufacturing Techniques
                5.4.1.    Radiation-Hardening-By-Design (RHBD)
                        5.4.1.1. Market Definition
                        5.4.1.2. Market Estimation and Forecast to 2030
                5.4.2.    Radiation-Hardening-By-Process (RHBP)
                        5.4.2.1. Market Definition
                        5.4.2.2. Market Estimation and Forecast to 2030
                5.4.3.    Radiation-Hardening-By-Software (RHBS)
                        5.4.3.1. Market Definition
                        5.4.3.2. Market Estimation and Forecast to 2030
        5.5.    By Application
                5.5.1.    Space
                        5.5.1.1. Market Definition
                        5.5.1.2. Market Estimation and Forecast to 2030
                5.5.2.    Aerospace & Defense
                        5.5.2.1. Market Definition
                        5.5.2.2. Market Estimation and Forecast to 2030       
                5.5.3.    Nuclear Power Plants
                        5.5.3.1. Market Definition
                        5.5.3.2. Market Estimation and Forecast to 2030
                5.5.4.    Commercial Satellites
                        5.5.4.1. Market Definition
                        5.5.4.2. Market Estimation and Forecast to 2030
                5.5.5.    Medical
                        5.5.5.1. Market Definition
                        5.5.5.2. Market Estimation and Forecast to 2030      
                5.5.6.    Others
                        5.5.6.1. Market Definition
                        5.5.6.2. Market Estimation and Forecast to 2030
                
6.    North America Market Estimate and Forecast

        6.1.    By Product Type
        6.2.    By Material Type
        6.3.    By Component
        6.4.    By Manufacturing Technique
        6.5.    By Application
        6.6.    By Country – U.S., Canada, and Mexico
                6.6.1.    U.S. Market Estimate and Forecast
                6.6.2.    Canada Market Estimate and Forecast
                6.6.3.    Mexico Market Estimate and Forecast

7.    Europe Market Estimate and Forecast

        7.1.    By Product Type
        7.2.    By Material Type
        7.3.    By Component
        7.4.    By Manufacturing Technique
        7.5.    By Application
        7.6.    By Country – Germany, U.K., France, Italy, Spain, Russia, and Rest of Europe
                7.6.1.    Germany Market Estimate and Forecast
                7.6.2.    France Market Estimate and Forecast
                7.6.3.    U.K. Market Estimate and Forecast
                7.6.4.    Italy Market Estimate and Forecast
                7.6.5.    Spain Market Estimate and Forecast
                7.6.6.    Rest of Europe Market Estimate and Forecast

8.    Asia-Pacific Market Estimate and Forecast

        8.1.    By Product Type
        8.2.    By Material Type
        8.3.    By Component
        8.4.    By Manufacturing Technique
        8.5.    By Application
        8.6.    By Country – China, Japan, India, South Korea, and Rest of Asia-Pacific
                8.6.1.    China Market Estimate and Forecast
                8.6.2.    Japan Market Estimate and Forecast
                8.6.3.    India Market Estimate and Forecast
                8.6.4.    South Korea Market Estimate and Forecast
                8.6.5.    Singapore Market Estimate and Forecast
                8.6.6.    Rest of Asia-Pacific Market Estimate and Forecast

9.    Rest of the World (RoW) Market Estimate and Forecast

        9.1.    By Product Type
        9.2.    By Material Type
        9.3.    By Component
        9.4.    By Manufacturing Technique
        9.5.    By Application
        9.6.    By Country – Brazil, Saudi Arabia, South Africa, U.A.E., and Other Countries
                9.6.1.    Brazil Market Estimate and Forecast
                9.6.2.    Saudi Arabia Market Estimate and Forecast
                9.6.3.    South Africa Market Estimate and Forecast
                9.6.4.    Other Countries Market Estimate and Forecast

10.    Company Profiles

        10.1.    Microchip Technology Inc.
                10.1.1.    Snapshot
                10.1.2.    Overview
                10.1.3.    Offerings
                10.1.4.    Financial Insight
                10.1.5.    Recent Developments
        10.2.    BAE Systems
                10.2.1.    Snapshot
                10.2.2.    Overview
                10.2.3.    Offerings
                10.2.4.    Financial Insight
                10.2.5.    Recent Developments
        10.3.    Infineon Technologies AG
                10.3.1.    Snapshot
                10.3.2.    Overview
                10.3.3.    Offerings
                10.3.4.    Financial Insight
                10.3.5.    Recent Developments
        10.4.    STMicroelectronics
                10.4.1.    Snapshot
                10.4.2.    Overview
                10.4.3.    Offerings
                10.4.4.    Financial Insight
                10.4.5.    Recent Developments
        10.5.    Renesas Electronics Corporation
                10.5.1.    Snapshot
                10.5.2.    Overview
                10.5.3.    Offerings
                10.5.4.    Financial Insight
                10.5.5.    Recent Developments
        10.6.    Honeywell International Inc.
                10.6.1.    Snapshot
                10.6.2.    Overview
                10.6.3.    Offerings
                10.6.4.    Financial Insight
                10.6.5.    Recent Developments
        10.7.    Advanced Micro Devices, Inc (Previously known as Xilinx Incorporation)
                10.7.1.    Snapshot
                10.7.2.    Overview
                10.7.3.    Offerings
                10.7.4.    Financial Insight
                10.7.5.    Recent Developments
        10.8.    Texas Instruments Incorporated
                10.8.1.    Snapshot
                10.8.2.    Overview
                10.8.3.    Offerings
                10.8.4.    Financial Insight
                10.8.5.    Recent Developments
        10.9.    Analog Devices, Inc.
                10.9.1.    Snapshot
                10.9.2.    Overview
                10.9.3.    Offerings
                10.9.4.    Financial Insight
                10.9.5.    Recent Developments
        10.10.   Teledyne Technologies Inc.
                10.10.1. Snapshot
                10.10.2. Overview
                10.10.3. Offerings
                10.10.4. Financial Insight
                10.10.5. Recent Developments

11.    Appendix

        11.1.    Exchange Rates
        11.2.    Abbreviations

Note: Financial insight and recent developments of different companies are subject to the availability of information in the secondary domain.

List of Tables

Table 1 Sources
Table 2 Study Periods
Table 3 Data Reporting Unit
Table 4 Global Radiation-Hardened Electronics Market Size, By Product Type, 2018 - 2023 (USD Billion)
Table 5 Global Radiation-Hardened Electronics Market Size, By Product Type,2025 - 2030 (USD Billion)
Table 6 Global Radiation-Hardened Electronics Market Size, By Material Type, 2018 - 2023 (USD Billion)
Table 7 Global Radiation-Hardened Electronics Market Size, By Material Type,2025 - 2030 (USD Billion)
Table 8 Global Radiation-Hardened Electronics Market Size, By Component, 2018 - 2023 (USD Billion)
Table 9 Global Radiation-Hardened Electronics Market Size, By Component,2025 - 2030 (USD Billion)
Table 10 Global Radiation-Hardened Electronics Market Size, By Manufacturing Techniques, 2018 - 2023 (USD Billion)
Table 11 Global Radiation-Hardened Electronics Market Size, By Manufacturing Techniques,2025 - 2030 (USD Billion)
Table 12 Global Radiation-Hardened Electronics Market Size, By Application, 2018 - 2023 (USD Billion)
Table 13 Global Radiation-Hardened Electronics Market Size, By Application,2025 - 2030 (USD Billion)
Table 14 Global Radiation-Hardened Electronics Market Size, By Region, 2018 - 2023 (USD Billion)
Table 15 Global Radiation-Hardened Electronics Market Size, By Region,2025 - 2030 (USD Billion)
Table 16 North America Radiation-Hardened Electronics Market Size, By Product Type, 2018 - 2023 (USD Billion)
Table 17 North America Radiation-Hardened Electronics Market Size, By Product Type,2025 - 2030 (USD Billion)
Table 18 North America Radiation-Hardened Electronics Market Size, By Material Type, 2018 - 2023 (USD Billion)
Table 19 North America Radiation-Hardened Electronics Market Size, By Material Type,2025 - 2030 (USD Billion)
Table 20 North America Radiation-Hardened Electronics Market Size, By Component, 2018 - 2023 (USD Billion)
Table 21 North America Radiation-Hardened Electronics Market Size, By Component,2025 - 2030 (USD Billion)
Table 22 North America Radiation-Hardened Electronics Market Size, By Manufacturing Techniques, 2018 - 2023 (USD Billion)
Table 23 North America Radiation-Hardened Electronics Market Size, By Manufacturing Techniques,2025 - 2030 (USD Billion)
Table 24 North America Radiation-Hardened Electronics Market Size, By Application, 2018 - 2023 (USD Billion)
Table 25 North America Radiation-Hardened Electronics Market Size, By Application,2025 - 2030 (USD Billion)
Table 26 North America Radiation-Hardened Electronics Market Size, By Region, 2018 - 2023 (USD Billion)
Table 27 North America Radiation-Hardened Electronics Market Size, By Region,2025 - 2030 (USD Billion)
Table 28 Europe Radiation-Hardened Electronics Market Size, By Product Type, 2018 - 2023 (USD Billion)
Table 29 Europe Radiation-Hardened Electronics Market Size, By Product Type,2025 - 2030 (USD Billion)
Table 30 Europe Radiation-Hardened Electronics Market Size, By Material Type, 2018 - 2023 (USD Billion)
Table 31 Europe Radiation-Hardened Electronics Market Size, By Material Type,2025 - 2030 (USD Billion)
Table 32 Europe Radiation-Hardened Electronics Market Size, By Component, 2018 - 2023 (USD Billion)
Table 33 Europe Radiation-Hardened Electronics Market Size, By Component,2025 - 2030 (USD Billion)
Table 34 Europe Radiation-Hardened Electronics Market Size, By Manufacturing Techniques, 2018 - 2023 (USD Billion)
Table 35 Europe Radiation-Hardened Electronics Market Size, By Manufacturing Techniques,2025 - 2030 (USD Billion)
Table 36 Europe Radiation-Hardened Electronics Market Size, By Application, 2018 - 2023 (USD Billion)
Table 37 Europe Radiation-Hardened Electronics Market Size, By Application,2025 - 2030 (USD Billion)
Table 38 Europe Radiation-Hardened Electronics Market Size, By Region, 2018 - 2023 (USD Billion)
Table 39 Europe Radiation-Hardened Electronics Market Size, By Region,2025 - 2030 (USD Billion)
Table 40 Asia-Pacific Radiation-Hardened Electronics Market Size, By Product Type, 2018 - 2023 (USD Billion)
Table 41 Asia-Pacific Radiation-Hardened Electronics Market Size, By Product Type,2025 - 2030 (USD Billion)
Table 42 Asia-Pacific Radiation-Hardened Electronics Market Size, By Material Type, 2018 - 2023 (USD Billion)
Table 43 Asia-Pacific Radiation-Hardened Electronics Market Size, By Material Type,2025 - 2030 (USD Billion)
Table 44 Asia-Pacific Radiation-Hardened Electronics Market Size, By Component, 2018 - 2023 (USD Billion)
Table 45 Asia-Pacific Radiation-Hardened Electronics Market Size, By Component,2025 - 2030 (USD Billion)
Table 46 Asia-Pacific Radiation-Hardened Electronics Market Size, By Manufacturing Techniques, 2018 - 2023 (USD Billion)
Table 47 Asia-Pacific Radiation-Hardened Electronics Market Size, By Manufacturing Techniques,2025 - 2030 (USD Billion)
Table 48 Asia-Pacific Radiation-Hardened Electronics Market Size, By Application, 2018 - 2023 (USD Billion)
Table 49 Asia-Pacific Radiation-Hardened Electronics Market Size, By Application,2025 - 2030 (USD Billion)
Table 50 Asia-Pacific Radiation-Hardened Electronics Market Size, By Region, 2018 - 2023 (USD Billion)
Table 51 Asia-Pacific Radiation-Hardened Electronics Market Size, By Region,2025 - 2030 (USD Billion)
Table 52 RoW Radiation-Hardened Electronics Market Size, By Product Type, 2018 - 2023 (USD Billion)
Table 53 RoW Radiation-Hardened Electronics Market Size, By Product Type,2025 - 2030 (USD Billion)
Table 54 RoW Radiation-Hardened Electronics Market Size, By Material Type, 2018 - 2023 (USD Billion)
Table 55 RoW Radiation-Hardened Electronics Market Size, By Material Type,2025 - 2030 (USD Billion)
Table 56 RoW Radiation-Hardened Electronics Market Size, By Component, 2018 - 2023 (USD Billion)
Table 57 RoW Radiation-Hardened Electronics Market Size, By Component,2025 - 2030 (USD Billion)
Table 58 RoW Radiation-Hardened Electronics Market Size, By Manufacturing Techniques, 2018 - 2023 (USD Billion)
Table 59 RoW Radiation-Hardened Electronics Market Size, By Manufacturing Techniques,2025 - 2030 (USD Billion)
Table 60 RoW Radiation-Hardened Electronics Market Size, By Application, 2018 - 2023 (USD Billion)
Table 61 RoW Radiation-Hardened Electronics Market Size, By Application,2025 - 2030 (USD Billion)
Table 62 RoW Radiation-Hardened Electronics Market Size, By Region, 2018 - 2023 (USD Billion)
Table 63 RoW Radiation-Hardened Electronics Market Size, By Region,2025 - 2030 (USD Billion)
Table 64 Snapshot – Microchip Technology Inc.
Table 65 Snapshot – BAE Systems
Table 66 Snapshot – Infineon Technologies AG
Table 67 Snapshot – STMicroelectronics
Table 68 Snapshot – Renesas Electronics Corporation
Table 69 Snapshot – Honeywell International Inc.
Table 70 Snapshot – Advanced Micro Devices, Inc (Previously known as Xilinx Incorporation)
Table 71 Snapshot – Texas Instruments Incorporated
Table 72 Snapshot – Analog Devices, Inc.
Table 73 Snapshot – Teledyne Technologies Inc.

List of Figures

Figure 1 Market Coverage
Figure 2 Research Phases
Figure 3 Secondary Sources for Different Parameters
Figure 4 Methodology
Figure 5 Data Mining & Exploration
Figure 6 Data Triangulation
Figure 7 Assumptions for Market Estimation and Forecast
Figure 8 Market Synopsis
Figure 9 Global Radiation-Hardened Electronics Market - Growth Drivers and Restraints
Figure 10 Competitive Benchmark
Figure 11 Global Radiation-Hardened Electronics Market Highlight
Figure 12 Global Radiation-Hardened Electronics Market Size, By Product Type, 2018 - 2030 (USD Billion)
Figure 13 Global Radiation-Hardened Electronics Market Size, By Material Type, 2018 - 2030 (USD Billion)
Figure 14 Global Radiation-Hardened Electronics Market Size, By Component, 2018 - 2030 (USD Billion)
Figure 15 Global Radiation-Hardened Electronics Market Size, By Manufacturing Techniques, 2018 - 2030 (USD Billion)
Figure 16 Global Radiation-Hardened Electronics Market Size, By Application, 2018 - 2030 (USD Billion)
Figure 17 Global Radiation-Hardened Electronics Market Size, By Region, 2018 - 2030 (USD Billion)
Figure 18 North America Radiation-Hardened Electronics Market Highlight
Figure 19 North America Radiation-Hardened Electronics Market Size, By Product Type, 2018 - 2030 (USD Billion)
Figure 20 North America Radiation-Hardened Electronics Market Size, By Material Type, 2018 - 2030 (USD Billion)
Figure 21 North America Radiation-Hardened Electronics Market Size, By Component, 2018 - 2030 (USD Billion)
Figure 22 North America Radiation-Hardened Electronics Market Size, By Manufacturing Techniques, 2018 - 2030 (USD Billion)
Figure 23 North America Radiation-Hardened Electronics Market Size, By Application, 2018 - 2030 (USD Billion)
Figure 24 North America Radiation-Hardened Electronics Market Size, By Region, 2018 - 2030 (USD Billion)
Figure 25 Europe Radiation-Hardened Electronics Market Highlight
Figure 26 Europe Radiation-Hardened Electronics Market Size, By Product Type, 2018 - 2030 (USD Billion)
Figure 27 Europe Radiation-Hardened Electronics Market Size, By Material Type, 2018 - 2030 (USD Billion)
Figure 28 Europe Radiation-Hardened Electronics Market Size, By Component, 2018 - 2030 (USD Billion)
Figure 29 Europe Radiation-Hardened Electronics Market Size, By Manufacturing Techniques, 2018 - 2030 (USD Billion)
Figure 30 Europe Radiation-Hardened Electronics Market Size, By Application, 2018 - 2030 (USD Billion)
Figure 31 Europe Radiation-Hardened Electronics Market Size, By Region, 2018 - 2030 (USD Billion)
Figure 34 Asia-Pacific Radiation-Hardened Electronics Market Highlight
Figure 35 Asia-Pacific Radiation-Hardened Electronics Market Size, By Product Type, 2018 - 2030 (USD Billion)
Figure 36 Asia-Pacific Radiation-Hardened Electronics Market Size, By Material Type, 2018 - 2030 (USD Billion)
Figure 37 Asia-Pacific Radiation-Hardened Electronics Market Size, By Component, 2018 - 2030 (USD Billion)
Figure 38 Asia-Pacific Radiation-Hardened Electronics Market Size, By Manufacturing Techniques, 2018 - 2030 (USD Billion)
Figure 39 Asia-Pacific Radiation-Hardened Electronics Market Size, By Application, 2018 - 2030 (USD Billion)
Figure 40 Asia-Pacific Radiation-Hardened Electronics Market Size, By Region, 2018 - 2030 (USD Billion)
Figure 41 RoW Radiation-Hardened Electronics Market Highlight
Figure 42 RoW Radiation-Hardened Electronics Market Size, By Product Type, 2018 - 2030 (USD Billion)
Figure 43 RoW Radiation-Hardened Electronics Market Size, By Material Type, 2018 - 2030 (USD Billion)
Figure 44 RoW Radiation-Hardened Electronics Market Size, By Component, 2018 - 2030 (USD Billion)
Figure 45 RoW Radiation-Hardened Electronics Market Size, By Manufacturing Techniques, 2018 - 2030 (USD Billion)
Figure 46 RoW Radiation-Hardened Electronics Market Size, By Application, 2018 - 2030 (USD Billion)
Figure 47 RoW Radiation-Hardened Electronics Market Size, By Region, 2018 - 2030 (USD Billion)