The radiation-hardened electronics market size was valued at US$ 1,520.86 million in 2021 and is projected to reach US$ 2,045.04 million by 2028; it is expected to grow at a CAGR of 4.3% from 2021 to 2028.
The defense, aerospace, and energy industries rely heavily on radiation hardening and radiation survivability testing. Electronic components such as circuits, transistors, resistors, diodes, capacitors, single-board computer CPUs, and sensors are designed and manufactured to be less susceptible to damage from radiation and extreme temperatures (from -55°C to 125°C); these are known as radiation-hardened electronics or rad-hard electronics. The electronics industry is creating high-reliability integrated circuits for various space applications. Different levels of reliability are being tailored for specific missions where SWaP, cost, and performance are critical priorities. Radiation is one of the most harmful forces for deployed aerospace & defense electronics systems. This force exists naturally in space and at high altitudes or is unleashed in large amounts when nuclear bombs are detonated. Thus, radiation-hardened electronic components should be deployed to reduce the damage from the harsh environment.
The biggest threat to satellites is radiation generated from solar flares, resulting in system failures. Due to the lack of air protection, these satellites are vulnerable to solar flares. As a result, radiation hardening is required to withstand space radiation while protecting electronic components. Furthermore, electrical components used in space activities are manufactured with a life expectancy of at least 15 years without failure. High-energy particles in space destroy the electronics. These reasons influence the global space industry to adopt rad-hard electronics, further boosting its share in the radiation-hardened electronics market share.
Based on the radiation-hardened electronics market report, the radiation-hardened electronics market is segmented into component, manufacturing technique, application, and geography. Based on component, the radiation-hardened electronics market is segmented into power management components, analog and digital mixed signal devices, memory, and controllers & processors. Based on manufacturing techniques, the market is segmented into Radiation Hardening by Design (RHBD) and Radiation Hardening by Process (RHBP). Based on application, the radiation-hardened electronics market is segmented into aerospace & defense, nuclear power plant, space, and others. Based on geography, the radiation-hardened electronics market is segmented into North America, Europe, Asia Pacific, Middle East and Africa, and South America.
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Radiation-Hardened Electronics Market: Strategic Insights
Market Size Value in US$ 1,520.86 million in 2021 Market Size Value by US$ 2,045.04 million by 2028 Growth rate CAGR of 4.3% from 2021 to 2028. Forecast Period 2021- 2028 Base Year 2021
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Radiation-Hardened Electronics Market: Strategic Insights
| Market Size Value in | US$ 1,520.86 million in 2021 |
| Market Size Value by | US$ 2,045.04 million by 2028 |
| Growth rate | CAGR of 4.3% from 2021 to 2028. |
| Forecast Period | 2021- 2028 |
| Base Year | 2021 |
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Impact of COVID-19 Pandemic on Radiation-Hardened Electronics Market
In North America, the coronavirus (COVID-19) spread caused enormous concern and economic damage. Due to the COVID-19 epidemic, the US was one of the worst-affected countries in the world, leading governments to put a number of restrictions on industrial, commercial, and public activities in the nation in order to prevent the virus spread. As a result of the suspension of operations in a variety of industries, the closure of various manufacturing units, and people's refusal to enter the workforce, demand for radiation-hardened electronics progressively decreased, influencing the radiation-hardened electronics market negatively.
Moreover, the business conditions were quite robust in the second half of fiscal 2021 as organizations and individuals adjusted to the new environment. However, supply systems were strained since many suppliers had not anticipated the amount of economic vigor that happened. Nonetheless, with the recovery in economic circumstances, many businesses were able to get back on track. For instance, in fiscal 2021, Microchip Technologies, a US-based semiconductor firm, set new records for net sales, non-GAAP gross margins, operating income, net income, and EPS.
Lucrative Regions for Radiation-Hardened Electronics Market
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Market Insights– Radiation-Hardened Electronics Market
Rising Adoption of Radiation-Hardened Electronics Market
Over the years, satellites have experienced high adoption across various industries such as communication, networking, television broadcast, and space-based surveillance. The satellites are prone to solar flares, which leads to system failures. This influences the adoption of radiation-hardened electronics across the end-use industries such as aerospace & defense, nuclear power plants, and space. A few of the major procurement of radiation-hardened electronics across the globe are mentioned below:
- The European Space Agency (ESA) granted CAES, a leader in advanced mission-critical electronics, a contract to create a fault- and radiation-tolerant system-on-chip in December 2021. The project, which the Swedish National Space Agency funds, will develop a 16-core, space-hardened microprocessor based on the open RISC-V instruction set architecture to improve performance and power efficiency in satellite and spacecraft applications (ISA).
- Alphacore Inc. was awarded a Phase I contract by NASA in April 2021 to develop single-chip DC-DC converters for harsh environments. It plans to build a digitally regulated, high switching rate, digital hysteresis-based DC-DC converter for use in space and extreme environments. The company is currently developing the product, which will contain features, including support for up to 4.5V input supply and 4A load current, a 10MHz switching rate, a digital slow-start (SS) option, and digitally controlled regulation loop parameters.
- The US government awarded Silicon Technologies Inc. (STI) a 2-year contract in July 2019 to create Radiation Hardened by Design (RHBD), Process Portable, and Mixed Signal Design IP. The primary goal of this arrangement was to increase the US government's access to radiation-hardened equipment. This arrangement is for radiation-hardened electronic prototype demonstrations for new electronic component solutions to support strategic and space missions by the US government.
Thus, the rise in procuring radiation-hardened electronics by various organizations is fueling the global radiation-hardened electronics market growth.
Component-Based Radiation-Hardened Electronics
Market Insights
Based on component, the global radiation-hardened electronics market is segmented into power management components, analog & digital mixed signal devices, memory, and controllers & processors. The power management component is the largest and the fastest growing segment during the forecast period. The rising demand for MOSFETs and diodes for high-end applications in the space & military industries is principally responsible for the rise of the power management component segment.
Manufacturing Technique-Based Radiation-Hardened Electronics
Market Insights
Based on manufacturing technique, the global radiation-hardened electronics market is bifurcated into radiation hardening by design (RHBD) and radiation hardening by process (RHBP). Due to lesser cost per chip, a large production volume, and customization simplicity, the radiation hardening by design (RHBD) manufacturing approach is predicted to grow at a faster rate in the radiation-hardened electronics industry. RHBD memory, microcontrollers, and ASICs are largely employed in nuclear power facilities and the defense & space industries.
Application-Based Radiation-Hardened Electronics
Market Insights
Based on application, the global radiation-hardened electronics market is segmented into aerospace & defense, nuclear power plant, space, and others. In the radiation-hardened electronics market, the space application segment is expected to grow at the fastest rate. Due to the growing use of rad-hard components in TV broadcasting, telephone satellites, nanosatellites & microsatellites, and the high demand for earth observation satellites, the space application sector accounted for the largest share of the radiation-hardened electronics market.
Players operating in the radiation-hardened electronics market are mainly focused on the development of advanced and efficient products.
- In March 2022, Honeywell partnered with SAPA Placencia, a leading producer of electric power solutions and a global leader in heavy vehicle gearboxes. The partnership was founded to work on improving electric power production for military ground vehicles.
- In February 2022, BAE Systems was awarded a US$60 million contract from the Army Contracting Command. The program's principal purpose is to provide the US government and aerospace sector with onshore access to cutting-edge microelectronics technology. Cadence Design Systems, Carnegie Mellon University, Novellus, Reliable MicroSystems, and Sandia National Laboratories will be part of a team that will carry out this work.
Report Coverage
Revenue forecast, Company Analysis, Industry landscape, Growth factors, and Trends
Segment Covered
Component, Manufacturing Technique, and Application
Regional Scope
North America, Europe, Asia Pacific, Middle East & Africa, South & Central America
Country Scope
Australia, Brazil, Canada, China, France, Germany, India, Italy, Japan, Mexico, Russian Federation, Saudi Arabia, South Africa, South Korea, United Arab Emirates, United Kingdom, United States
Frequently Asked Questions
The rise in procurement of radiation-hardened electronics by various organizations is driving the growth of the global radiation-hardened electronics market. Over the years, satellites have experienced high adoption across various industries such as communication, networking, television broadcast, and space-based surveillance. The satellites are prone to solar flares, which leads to system failures. This influences the adoption of radiation-hardened electronics across the end-use industries such as aerospace and defense, nuclear power plants, and space. Some of the major procurement of radiation-hardened electronics across the globe are mentioned below:
The European Space Agency (ESA) granted CAES, a leader in advanced mission-critical electronics, a contract to create a fault- and radiation-tolerant system-on-chip in December 2021. The project, which the Swedish National Space Agency funds, will develop a 16-core, space-hardened microprocessor based on the open RISC-V instruction set architecture to improve performance and power efficiency in satellite and spacecraft applications (ISA).
Alphacore Inc. was awarded a Phase I contract by NASA in April 2021 to develop single-chip DC-DC converters for harsh environments. It plans to build a digitally regulated, high switching rate, digital hysteresis-based DC-DC converter for use in space and extreme environments. Support for up to 4.5V input supply and 4A load current, a 10MHz switching rate, a digital slow-start (SS) option, and digitally controlled regulation loop parameters will be some other features of the product which the company is currently developing.
The US held the largest market share in the radiation-hardened electronics market. The US military is on the path to develop integrated technologies in order to generate futuristic weaponry. These weapons employ radiation-hardened electronics, such as an EMP explosion or an electromagnetic discharge, to wipe out all electronics within a radius and increase collateral damage. However, in the country, device availability has been a source of concern. RHBD (radiation-hardened by design) chips, for instance, are not generally accessible in the United States, causing supply-chain delays that stall programs that require them. As a result, enterprises in the region are partnering to expand the Radiation Hardened Semiconductor Platform in order to monitor this gap. For instance, CAES and SkyWater Technology announced a deal in June 2021 to enhance the design and manufacturing of SkyWater's strategic radiation-protected integrated circuits and systems-in-package. SkyWater's DOD-accredited Trusted, on-shore semiconductor supply chain will be strengthened by the expansion of this critical RadHard microelectronic design and manufacturing ecosystem
Based on the component type, the market is segmented into power management components, analog and digital mixed-signal devices, memory, controllers, and processors. The power management component is the largest and fastest-growing segment during the forecasted period. The rising demand for MOSFETs and diodes for high-end applications in the space and military industries is principally responsible for the rise of the power management component segment. Linear voltage regulators with adjustable or fixed output voltages (positive and negative voltage options), highly efficient point-of-load (switching) regulators, and solid-state relays (SSR), including radiation-hardened single-pole, double-throw (SPDT) SSR are among the power components of radiation-hardened electronics power products.
BAE Systems; Honeywell International Inc.; Infineon Technologies AG; Texas Instruments Incorporated; Cobham Limited are the five key players in the radiation-hardened electronics market. These companies have shown consistent growth in revenue and larger volumes of sales. Additionally, the well-established top five players are offering a comprehensive product portfolio and have a prominent presence in terms of share in the radiation-hardened electronics market.
The increase in demand for radiation-hardened electronics by the end-use industries has influenced manufacturers to invest in product development. Some of the major players operating in the market include BAE Systems; Microchip Technology Inc.; Texas Instruments Incorporated; Renesas Electronics Corporation; and Xilinx, Inc. Some of the recent product developments across the global radiation-hardened electronics market such as:- In October 2021, VORAGO Technologies announced the Arm Cortex-M4 VA41628 and VA41629, 2 new radiation-hardened microcontrollers designed to give flexibility in space-based missions for the aerospace and defense sector. Consumers of the product will be able to upgrade from previous generations of rad-hard arm microcontrollers with functional compatibility and a more powerful entry-level M4 core and scale up to more highly integrated M4 core options with code compatibility owing to the new product additions to VORAGO's M4 family. In September 2021, Honeywell and Synopsys, Inc. agreed to collaborate on developing a design infrastructure to facilitate the development of cutting-edge radiation-hardened and radiation-tolerant Application-Specific Integrated Circuits (ASICs). Honeywell's military and aerospace customers will be able to build and install ASICs for next-generation systems more quickly, including satellites and space vehicles. The partnership brings together.
Based on manufacturing techniques, the market is segmented into radiation hardening by design (RHBD), and radiation hardening by process (RHBP). The radiation hardening by design (RHBD) segment led the radiation-hardened electronics market with a larger share in 2021. RHBD approaches can benefit from advances in power, performance, and area reduction made possible by today's commercially accessible CMOS technology. Edgeless transistors, also known as Enclosed Designing Transistors (ELT), are a well-known RHBD layout approach for reducing leakage current caused by total ionizing dose effects. Because of its cheap cost per chip, large volume of production, and simplicity of customization, the radiation hardening by design (RHBD) manufacturing approach is predicted to grow at the highest rate in the radiation-hardened electronics industry.
1. Introduction
1.1 Study Scope
1.2 The Insight Partners Research Report Guidance
1.3 Market Segmentation
2. Key Takeaways
3. Research Methodology
3.1 Coverage
3.2 Secondary Research
3.3 Primary Research
4. Radiation-Hardened Electronics Market Landscape
4.1 Market Overview
4.2 PEST Analysis
4.2.1 North America
4.2.2 Europe
4.2.3 APAC
4.2.4 MEA
4.2.5 SAM
4.3 Ecosystem Analysis
5. Radiation-Hardened Electronics Market – Key Market Dynamics
5.1 Market Drivers
5.1.1 Rising Adoption of Radiation-Hardened Electronics
5.1.2 Increasing Investment in Space Programs
5.2 Market Restraints
5.2.1 High Complexity in Designing Radiation-Hardened Electronics
5.3 Market Opportunities
5.4 Future Trends
5.4.1 Rising Adoption of radiation-hardened electronics for Medical Applications
5.5 Impact Analysis of Drivers and Restraints
6. Radiation-Hardened Electronics – Global Market Analysis
6.1 Global Radiation-Hardened Electronics Market Overview
6.2 Global Radiation-Hardened Electronics Market Revenue Forecast and Analysis
6.3 Market Positioning – Five Key Players
7. Radiation-Hardened Electronics Market Analysis – by Component
7.1 Overview
7.2 Radiation-Hardened Electronics Market, by Component (2020 and 2028)
7.3 Power Management Components
7.3.1 Overview
7.3.2 Power Management Components: Radiation-Hardened Electronics Market Revenue and Forecast To 2028 (US$ Million)
7.4 Analog and Digital Mixed Signal Devices
7.4.1 Overview
7.4.2 Analog and Digital Mixed Signal Devices: Radiation-Hardened Electronics Market Revenue and Forecast To 2028 (US$ Million)
7.5 Memory
7.5.1 Overview
7.5.2 Memory: Radiation-Hardened Electronics Market Revenue and Forecast To 2028 (US$ Million)
7.6 Controllers and Processors
7.6.1 Overview
7.6.2 Controllers and Processors: Radiation-Hardened Electronics Market Revenue and Forecast To 2028 (US$ Million)
8. Global Radiation-Hardened Electronics Market Analysis – by Manufacturing Technique
8.1 Overview
8.2 Radiation-Hardened Electronics Market, by Manufacturing Technique (2020 and 2028)
8.3 Radiation Hardening by Design (RHBD)
8.3.1 Overview
8.3.2 Radiation Hardening by Design (RHBD): Radiation-Hardened Electronics Market Revenue and Forecast To 2028 (US$ Million)
8.4 Radiation Hardening by Process (RHBP)
8.4.1 Overview
8.4.2 Radiation Hardening by Process (RHBP): Radiation-Hardened Electronics Market Revenue and Forecast To 2028 (US$ Million)
9. Global Radiation-Hardened Electronics Market Analysis – by Application
9.1 Overview
9.2 Radiation-Hardened Electronics Market, by Application (2020 and 2028)
9.3 Aerospace & Defense
9.3.1 Overview
9.3.2 Aerospace & Defense: Radiation-Hardened Electronics Market Revenue and Forecast To 2028 (US$ Million)
9.4 Nuclear Power Plant
9.4.1 Overview
9.4.2 Nuclear Power Plant: Radiation-Hardened Electronics Market Revenue and Forecast To 2028 (US$ Million)
9.5 Space
9.5.1 Overview
9.5.2 Space: Radiation-Hardened Electronics Market Revenue and Forecast To 2028 (US$ Million)
9.6 Others
9.6.1 Overview
9.6.2 Others: Radiation-Hardened Electronics Market Revenue and Forecast To 2028 (US$ Million)
10. Radiation-Hardened Electronics Market – Geographic Analysis
10.1 Overview
10.2 North America: Radiation-Hardened Electronics Market
10.2.1 North America: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.2.2 North America: Radiation-Hardened Electronics Market, by Component
10.2.3 North America: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.2.4 North America: Radiation-Hardened Electronics Market, by Application
10.2.5 North America: Radiation-Hardened Electronics Market, by Key Country
10.2.5.1 US: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.2.5.1.1 US: Radiation-Hardened Electronics Market, by Component
10.2.5.1.2 US: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.2.5.1.3 US: Radiation-Hardened Electronics Market, by Application
10.2.5.2 Canada: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.2.5.2.1 Canada: Radiation-Hardened Electronics Market, by Component
10.2.5.2.2 Canada: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.2.5.2.3 Canada: Radiation-Hardened Electronics Market, by Application
10.2.5.3 Mexico: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.2.5.3.1 Mexico: Radiation-Hardened Electronics Market, by Component
10.2.5.3.2 Mexico: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.2.5.3.3 Mexico: Radiation-Hardened Electronics Market, by Application
10.3 Europe: Radiation-Hardened Electronics Market
10.3.1 Europe: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.3.2 Europe: Radiation-Hardened Electronics Market, by Component
10.3.3 Europe: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.3.4 Europe: Radiation-Hardened Electronics Market, by Application
10.3.5 Europe: Radiation-Hardened Electronics Market, by Key Country
10.3.5.1 Germany: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.3.5.1.1 Germany: Radiation-Hardened Electronics Market, by Component
10.3.5.1.2 Germany: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.3.5.1.3 Germany: Radiation-Hardened Electronics Market, by Application
10.3.5.2 France: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.3.5.2.1 France: Radiation-Hardened Electronics Market, by Component
10.3.5.2.2 France: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.3.5.2.3 France: Radiation-Hardened Electronics Market, by Application
10.3.5.3 Italy: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.3.5.3.1 Italy: Radiation-Hardened Electronics Market, by Component
10.3.5.3.2 Italy: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.3.5.3.3 Italy: Radiation-Hardened Electronics Market, by Application
10.3.5.4 UK: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.3.5.4.1 UK: Radiation-Hardened Electronics Market, by Component
10.3.5.4.2 UK: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.3.5.4.3 UK: Radiation-Hardened Electronics Market, by Application
10.3.5.5 Russia: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.3.5.5.1 Russia: Radiation-Hardened Electronics Market, by Component
10.3.5.5.2 Russia: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.3.5.5.3 Russia: Radiation-Hardened Electronics Market, by Application
10.3.5.6 Rest of Europe: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.3.5.6.1 Rest of Europe: Radiation-Hardened Electronics Market, by Component
10.3.5.6.2 Rest of Europe: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.3.5.6.3 Rest of Europe: Radiation-Hardened Electronics Market, by Application
10.4 APAC: Radiation-Hardened Electronics Market
10.4.1 APAC: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.4.2 APAC: Radiation-Hardened Electronics Market, by Component
10.4.3 APAC: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.4.4 APAC: Radiation-Hardened Electronics Market, by Application
10.4.5 APAC: Radiation-Hardened Electronics Market, by Key Country
10.4.5.1 Australia: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.4.5.1.1 Australia: Radiation-Hardened Electronics Market, by Component
10.4.5.1.2 Australia: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.4.5.1.3 Australia: Radiation-Hardened Electronics Market, by Application
10.4.5.2 China: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.4.5.2.1 China: Radiation-Hardened Electronics Market, by Component
10.4.5.2.2 China: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.4.5.2.3 China: Radiation-Hardened Electronics Market, by Application
10.4.5.3 India: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.4.5.3.1 India: Radiation-Hardened Electronics Market, by Component
10.4.5.3.2 India: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.4.5.3.3 India: Radiation-Hardened Electronics Market, by Application
10.4.5.4 Japan: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.4.5.4.1 Japan: Radiation-Hardened Electronics Market, by Component
10.4.5.4.2 Japan: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.4.5.4.3 Japan: Radiation-Hardened Electronics Market, by Application
10.4.5.5 South Korea: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.4.5.5.1 South Korea: Radiation-Hardened Electronics Market, by Component
10.4.5.5.2 South Korea: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.4.5.5.3 South Korea: Radiation-Hardened Electronics Market, by Application
10.4.5.6 Rest of APAC: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.4.5.6.1 Rest of APAC: Radiation-Hardened Electronics Market, by Component
10.4.5.6.2 Rest of APAC: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.4.5.6.3 Rest of APAC: Radiation-Hardened Electronics Market, by Application
10.5 MEA: Radiation-Hardened Electronics Market
10.5.1 MEA: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.5.2 MEA: Radiation-Hardened Electronics Market, by Component
10.5.3 MEA: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.5.4 MEA: Radiation-Hardened Electronics Market, by Application
10.5.5 MEA: Radiation-Hardened Electronics Market, by Key Country
10.5.5.1 South Africa: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.5.5.1.1 South Africa: Radiation-Hardened Electronics Market, by Component
10.5.5.1.2 South Africa: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.5.5.1.3 South Africa: Radiation-Hardened Electronics Market, by Application
10.5.5.2 Saudi Arabia: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.5.5.2.1 Saudi Arabia: Radiation-Hardened Electronics Market, by Component
10.5.5.2.2 Saudi Arabia: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.5.5.2.3 Saudi Arabia: Radiation-Hardened Electronics Market, by Application
10.5.5.3 UAE: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.5.5.3.1 UAE: Radiation-Hardened Electronics Market, by Component
10.5.5.3.2 UAE: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.5.5.3.3 UAE: Radiation-Hardened Electronics Market, by Application
10.5.5.4 Rest of MEA: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.5.5.4.1 Rest of MEA: Radiation-Hardened Electronics Market, by Component
10.5.5.4.2 Rest of MEA: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.5.5.4.3 Rest of MEA: Radiation-Hardened Electronics Market, by Application
10.6 SAM: Radiation-Hardened Electronics Market
10.6.1 SAM: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.6.2 SAM: Radiation-Hardened Electronics Market, by Component
10.6.3 SAM: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.6.4 SAM: Radiation-Hardened Electronics Market, by Application
10.6.5 SAM: Radiation-Hardened Electronics Market, by Key Country
10.6.5.1 Brazil: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.6.5.1.1 Brazil: Radiation-Hardened Electronics Market, by Component
10.6.5.1.2 Brazil: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.6.5.1.3 Brazil: Radiation-Hardened Electronics Market, by Application
10.6.5.2 Rest of SAM: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
10.6.5.2.1 Rest of SAM: Radiation-Hardened Electronics Market, by Component
10.6.5.2.2 Rest of SAM: Radiation-Hardened Electronics Market, by Manufacturing Technique
10.6.5.2.3 Rest of SAM: Radiation-Hardened Electronics Market, by Application
11. Radiation-Hardened Electronics Market - COVID-19 Impact Analysis
11.1 Overview
11.2 North America: Impact Assessment of COVID-19 Pandemic
11.3 Europe: Impact Assessment of COVID-19 Pandemic
11.4 Asia Pacific: Impact Assessment of COVID-19 Pandemic
11.5 Middle East & Africa: Impact Assessment of COVID-19 Pandemic
11.6 South America Impact Assessment of COVID-19 Pandemic
12. Industry Landscape
12.1 Overview
12.2 Market Initiative
12.3 Merger and Acquisition
12.4 New Development
13. Company Profiles
13.1 BAE Systems
13.1.1 Key Facts
13.1.2 Business Description
13.1.3 Products and Services
13.1.4 Financial Overview
13.1.5 SWOT Analysis
13.1.6 Key Developments
13.2 Data Device Corporation
13.2.1 Key Facts
13.2.2 Business Description
13.2.3 Products and Services
13.2.4 Financial Overview
13.2.5 SWOT Analysis
13.2.6 Key Developments
13.3 Honeywell International Inc.
13.3.1 Key Facts
13.3.2 Business Description
13.3.3 Products and Services
13.3.4 Financial Overview
13.3.5 SWOT Analysis
13.3.6 Key Developments
13.4 INFINEON TECHNOLOGIES AG
13.4.1 Key Facts
13.4.2 Business Description
13.4.3 Products and Services
13.4.4 Financial Overview
13.4.5 SWOT Analysis
13.4.6 Key Developments
13.5 Renesas Electronics Corporation
13.5.1 Key Facts
13.5.2 Business Description
13.5.3 Products and Services
13.5.4 Financial Overview
13.5.5 SWOT Analysis
13.5.6 Key Developments
13.6 Texas Instruments Incorporated
13.6.1 Key Facts
13.6.2 Business Description
13.6.3 Products and Services
13.6.4 Financial Overview
13.6.5 SWOT Analysis
13.6.6 Key Developments
13.7 STMicroelectronics
13.7.1 Key Facts
13.7.2 Business Description
13.7.3 Products and Services
13.7.4 Financial Overview
13.7.5 SWOT Analysis
13.7.6 Key Developments
13.8 Xilinx, Inc. (AMD)
13.8.1 Key Facts
13.8.2 Business Description
13.8.3 Products and Services
13.8.4 Financial Overview
13.8.5 SWOT Analysis
13.8.6 Key Developments
13.9 VORAGO Technologies
13.9.1 Key Facts
13.9.2 Business Description
13.9.3 Products and Services
13.9.4 Financial Overview
13.9.5 SWOT Analysis
13.9.6 Key Developments
13.10 Microchip Technology Inc.
13.10.1 Key Facts
13.10.2 Business Description
13.10.3 Products and Services
13.10.4 Financial Overview
13.10.5 SWOT Analysis
13.10.6 Key Developments
14. Appendix
14.1 About The Insight Partners
14.2 Word IndexLIST OF TABLES
Table 1. Global Radiation-Hardened Electronics Market Revenue and Forecast to 2028 (US$ Million)
Table 2. North America: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 3. North America: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 4. North America: Radiation-Hardened Electronics Market, by Application – Revenue and Forecast to 2028 (US$ Million)
Table 5. North America: Radiation-Hardened Electronics Market Revenue Share, by Key Country (2020 and 2028)
Table 6. US: Radiation-Hardened Electronics Market, by Component–Revenue and Forecast to 2028 (US$ Million)
Table 7. US: Radiation-Hardened Electronics Market, by Manufacturing Technique–Revenue and Forecast to 2028 (US$ Million)
Table 8. US: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 9. Canada: Radiation-Hardened Electronics Market, by Component–Revenue and Forecast to 2028 (US$ Million)
Table 10. Canada: Radiation-Hardened Electronics Market, by Manufacturing Technique–Revenue and Forecast to 2028 (US$ Million)
Table 11. Canada: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 12. Mexico: Radiation-Hardened Electronics Market, by Component–Revenue and Forecast to 2028 (US$ Million)
Table 13. Mexico: Radiation-Hardened Electronics Market, by Manufacturing Technique–Revenue and Forecast to 2028 (US$ Million)
Table 14. Mexico: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 15. Europe: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 16. Europe: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 17. Europe: Radiation-Hardened Electronics Market, by Application – Revenue and Forecast to 2028 (US$ Million)
Table 18. Europe: Radiation-Hardened Electronics Market Revenue Share, by Key Country (2020 and 2028)
Table 19. Germany: Radiation-Hardened Electronics Market, by Component–Revenue and Forecast to 2028 (US$ Million)
Table 20. Germany: Radiation-Hardened Electronics Market, by Manufacturing Technique–Revenue and Forecast to 2028 (US$ Million)
Table 21. Germany: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 22. France: Radiation-Hardened Electronics Market, by Component–Revenue and Forecast to 2028 (US$ Million)
Table 23. France: Radiation-Hardened Electronics Market, by Manufacturing Technique–Revenue and Forecast to 2028 (US$ Million)
Table 24. France: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 25. Italy: Radiation-Hardened Electronics Market, by Component–Revenue and Forecast to 2028 (US$ Million)
Table 26. Italy: Radiation-Hardened Electronics Market, by Manufacturing Technique–Revenue and Forecast to 2028 (US$ Million)
Table 27. Italy: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 28. UK: Radiation-Hardened Electronics Market, by Component–Revenue and Forecast to 2028 (US$ Million)
Table 29. UK: Radiation-Hardened Electronics Market, by Manufacturing Technique–Revenue and Forecast to 2028 (US$ Million)
Table 30. UK: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 31. Russia: Radiation-Hardened Electronics Market, by Component–Revenue and Forecast to 2028 (US$ Million)
Table 32. Russia: Radiation-Hardened Electronics Market, by Manufacturing Technique–Revenue and Forecast to 2028 (US$ Million)
Table 33. Russia: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 34. Rest of Europe: Radiation-Hardened Electronics Market, by Component–Revenue and Forecast to 2028 (US$ Million)
Table 35. Rest of Europe: Radiation-Hardened Electronics Market, by Manufacturing Technique–Revenue and Forecast to 2028 (US$ Million)
Table 36. Rest of Europe: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 37. APAC: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 38. APAC: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 39. APAC: Radiation-Hardened Electronics Market, by Application – Revenue and Forecast to 2028 (US$ Million)
Table 40. APAC: Radiation-Hardened Electronics Market, by Country – Revenue and Forecast to 2028 (US$ Million)
Table 41. Australia: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 42. Australia: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 43. Australia: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 44. China: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 45. China: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 46. China: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 47. India: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 48. India: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 49. India: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 50. Japan: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 51. Japan: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 52. Japan: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 53. South Korea: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 54. South Korea: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 55. South Korea: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 56. Rest of APAC: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 57. Rest of APAC: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 58. Rest of APAC: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 59. MEA: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 60. MEA: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 61. MEA: Radiation-Hardened Electronics Market, by Application – Revenue and Forecast to 2028 (US$ Million)
Table 62. MEA: Radiation-Hardened Electronics Market, by Country – Revenue and Forecast to 2028 (US$ Million)
Table 63. South Africa: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 64. South Africa: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 65. South Africa: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 66. Saudi Arabia: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 67. Saudi Arabia: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 68. Saudi Arabia: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 69. UAE: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 70. UAE: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 71. UAE: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 72. Rest of MEA: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 73. Rest of MEA: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 74. Rest of MEA: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 75. SAM: Radiation-Hardened Electronics Market, by Component– Revenue and Forecast to 2028 (US$ Million)
Table 76. SAM: Radiation-Hardened Electronics Market, by Manufacturing Technique– Revenue and Forecast to 2028 (US$ Million)
Table 77. SAM: Radiation-Hardened Electronics Market, by Application – Revenue and Forecast to 2028 (US$ Million)
Table 78. SAM: Radiation-Hardened Electronics Market, by Country – Revenue and Forecast to 2028 (US$ Million)
Table 79. Brazil: Radiation-Hardened Electronics Market, by Component–Revenue and Forecast to 2028 (US$ Million)
Table 80. Brazil: Radiation-Hardened Electronics Market, by Manufacturing Technique–Revenue and Forecast to 2028 (US$ Million)
Table 81. Brazil: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 82. Rest of SAM: Radiation-Hardened Electronics Market, by Component–Revenue and Forecast to 2028 (US$ Million)
Table 83. Rest of SAM: Radiation-Hardened Electronics Market, by Manufacturing Technique–Revenue and Forecast to 2028 (US$ Million)
Table 84. Rest of SAM: Radiation-Hardened Electronics Market, by Application–Revenue and Forecast to 2028 (US$ Million)
Table 85. List of Abbreviation
LIST OF FIGURES
Figure 1. Radiation-Hardened Electronics Market Segmentation
Figure 2. Radiation-Hardened Electronics Market Segmentation – by Geography
Figure 3. Global Radiation-Hardened Electronics Market Overview
Figure 4. Radiation-Hardened Electronics Market, by Component
Figure 5. Radiation-Hardened Electronics Market, by Manufacturing Technique
Figure 6. Radiation-Hardened Electronics Market, by Application
Figure 7. Radiation-Hardened Electronics Market, by Geography
Figure 8. North America PEST Analysis
Figure 9. Europe PEST Analysis
Figure 10. APAC PEST Analysis
Figure 11. MEA PEST Analysis
Figure 12. SAM PEST Analysis
Figure 13. Radiation-Hardened Electronics Market- Ecosystem Analysis
Figure 14. Radiation-Hardened Electronics Market: Impact Analysis of Drivers and Restraints
Figure 15. Geographic Overview of Radiation-Hardened Electronics Market
Figure 16. Global Radiation-Hardened Electronics Market Revenue Forecast and Analysis (US$ Million)
Figure 17. Radiation-Hardened Electronics Market, by Component (2020 and 2028)
Figure 18. Power Management Components: Radiation-Hardened Electronics Market Revenue and Forecast to 2028 (US$ Million)
Figure 19. Analog and Digital Mixed Signal Devices: Radiation-Hardened Electronics Market Revenue and Forecast to 2028 (US$ Million)
Figure 20. Memory: Radiation-Hardened Electronics Market Revenue and Forecast to 2028 (US$ Million)
Figure 21. Controllers and Processors: Radiation-Hardened Electronics Market Revenue and Forecast to 2028 (US$ Million)
Figure 22. Radiation-Hardened Electronics Market, by Manufacturing Technique (2020 and 2028)
Figure 23. Radiation Hardening by Design (RHBD): Radiation-Hardened Electronics Market Revenue and Forecast to 2028 (US$ Million)
Figure 24. Radiation Hardening by Process (RHBP): Radiation-Hardened Electronics Market Revenue and Forecast to 2028 (US$ Million)
Figure 25. Radiation-Hardened Electronics Market, by Application (2020 and 2028)
Figure 26. Aerospace & Defense: Radiation-Hardened Electronics Market Revenue and Forecast to 2028 (US$ Million)
Figure 27. Nuclear Power Plant: Radiation-Hardened Electronics Market Revenue and Forecast to 2028 (US$ Million)
Figure 28. Space: Radiation-Hardened Electronics Market Revenue and Forecast to 2028 (US$ Million)
Figure 29. Others: Radiation-Hardened Electronics Market Revenue and Forecast to 2028 (US$ Million)
Figure 30. Radiation-Hardened Electronics Market Revenue Share, by Region (2020 and 2028)
Figure 31. North America: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 32. North America: Radiation-Hardened Electronics Market Revenue Share, by Component (2020 and 2028)
Figure 33. North America: radiation-hardened electronics Market Revenue Share, by Manufacturing Technique (2020 and 2028)
Figure 34. North America: Radiation-Hardened Electronics Market Revenue Share, by Application (2020 and 2028)
Figure 35. North America: Radiation-Hardened Electronics Market Revenue Share, by Key Country (2020 and 2028)
Figure 36. US: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 37. Canada: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 38. Mexico: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 39. Europe: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 40. Europe: Radiation-Hardened Electronics Market Revenue Share, by Component (2020 and 2028)
Figure 41. Europe: Radiation-Hardened Electronics Market Revenue Share, by Application (2020 and 2028)
Figure 42. Europe: Radiation-Hardened Electronics Market Revenue Share, by Application (2020 and 2028)
Figure 43. Europe: Radiation-Hardened Electronics Market Revenue Share, by Key Country (2020 and 2028)
Figure 44. Germany: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 45. France: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 46. Italy: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 47. UK: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 48. Russia: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 49. Rest of Europe: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 50. APAC: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 51. APAC: Radiation-Hardened Electronics Market Revenue Share, by Component (2020 and 2028)
Figure 52. APAC: Radiation-Hardened Electronics Market Revenue Share, by Manufacturing Technique (2020 and 2028)
Figure 53. APAC: Radiation-Hardened Electronics Market Revenue Share, by Application (2020 and 2028)
Figure 54. APAC: Radiation-Hardened Electronics Market Revenue Share, by Key Country (2020 and 2028)
Figure 55. Australia: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 56. China: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 57. India: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 58. Japan: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 59. South Korea: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 60. Rest of APAC: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 61. MEA: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 62. MEA: Radiation-Hardened Electronics Market Revenue Share, by Component (2022 and 2028)
Figure 63. MEA: Radiation-Hardened Electronics Market Revenue Share, by Manufacturing Technique (2022 and 2028)
Figure 64. MEA: Radiation-Hardened Electronics Market Revenue Share, by Application (2022 and 2028)
Figure 65. MEA: Radiation-Hardened Electronics Market Revenue Share, by Key Country (2022 and 2028)
Figure 66. South Africa: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 67. Saudi Arabia: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 68. UAE: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 69. Rest of MEA: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 70. SAM: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 71. SAM: Radiation-Hardened Electronics Market Revenue Share, by Component (2022 and 2028)
Figure 72. SAM: Radiation-Hardened Electronics Market Revenue Share, by Manufacturing Technique (2022 and 2028)
Figure 73. SAM: Radiation-Hardened Electronics Market Revenue Share, by Application (2022 and 2028)
Figure 74. SAM: Radiation-Hardened Electronics Market Revenue Share, by Key Country (2021 and 2028)
Figure 75. Brazil: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 76. Rest of SAM: Radiation-Hardened Electronics Market – Revenue and Forecast to 2028 (US$ Million)
Figure 77. Impact of COVID-19 Pandemic in North American Country Markets
Figure 78. Impact of COVID-19 Pandemic in Europe Country Markets
Figure 79. Impact of COVID-19 Pandemic in Asia Pacific Country Markets
Figure 80. Impact of COVID-19 Pandemic in Middle East & Africa Country Markets
Figure 81. Impact of COVID-19 Pandemic in South America Country Markets
- BAE Systems
- Data Device Corporation
- Honeywell International Inc.
- Infineon Technologies AG
- Renesas Electronics Corporation
- Texas Instruments Incorporated
- STMicroelectronics
- Xilinx, Inc. (AMD)
- VORAGO Technologies
- Microchip Technology Inc.
The Insight Partners performs research in 4 major stages: Data Collection & Secondary Research, Primary Research, Data Analysis and Data Triangulation & Final Review.
- Data Collection and Secondary Research:
As a market research and consulting firm operating from a decade, we have published many reports and advised several clients across the globe. First step for any study will start with an assessment of currently available data and insights from existing reports. Further, historical and current market information is collected from Investor Presentations, Annual Reports, SEC Filings, etc., and other information related to company’s performance and market positioning are gathered from Paid Databases (Factiva, Hoovers, and Reuters) and various other publications available in public domain.
Several associations trade associates, technical forums, institutes, societies and organizations are accessed to gain technical as well as market related insights through their publications such as research papers, blogs and press releases related to the studies are referred to get cues about the market. Further, white papers, journals, magazines, and other news articles published in the last 3 years are scrutinized and analyzed to understand the current market trends.
- Primary Research:
The primarily interview analysis comprise of data obtained from industry participants interview and answers to survey questions gathered by in-house primary team.
For primary research, interviews are conducted with industry experts/CEOs/Marketing Managers/Sales Managers/VPs/Subject Matter Experts from both demand and supply side to get a 360-degree view of the market. The primary team conducts several interviews based on the complexity of the markets to understand the various market trends and dynamics which makes research more credible and precise.
A typical research interview fulfils the following functions:
- Provides first-hand information on the market size, market trends, growth trends, competitive landscape, and outlook
- Validates and strengthens in-house secondary research findings
- Develops the analysis team’s expertise and market understanding
Primary research involves email interactions and telephone interviews for each market, category, segment, and sub-segment across geographies. The participants who typically take part in such a process include, but are not limited to:
- Industry participants: VPs, business development managers, market intelligence managers and national sales managers
- Outside experts: Valuation experts, research analysts and key opinion leaders specializing in the electronics and semiconductor industry.
Below is the breakup of our primary respondents by company, designation, and region:
Once we receive the confirmation from primary research sources or primary respondents, we finalize the base year market estimation and forecast the data as per the macroeconomic and microeconomic factors assessed during data collection.
- Data Analysis:
Once data is validated through both secondary as well as primary respondents, we finalize the market estimations by hypothesis formulation and factor analysis at regional and country level.
- 3.1 Macro-Economic Factor Analysis:
We analyse macroeconomic indicators such the gross domestic product (GDP), increase in the demand for goods and services across industries, technological advancement, regional economic growth, governmental policies, the influence of COVID-19, PEST analysis, and other aspects. This analysis aids in setting benchmarks for various nations/regions and approximating market splits. Additionally, the general trend of the aforementioned components aid in determining the market's development possibilities.
- 3.2 Country Level Data:
Various factors that are especially aligned to the country are taken into account to determine the market size for a certain area and country, including the presence of vendors, such as headquarters and offices, the country's GDP, demand patterns, and industry growth. To comprehend the market dynamics for the nation, a number of growth variables, inhibitors, application areas, and current market trends are researched. The aforementioned elements aid in determining the country's overall market's growth potential.
- 3.3 Company Profile:
The “Table of Contents” is formulated by listing and analyzing more than 25 - 30 companies operating in the market ecosystem across geographies. However, we profile only 10 companies as a standard practice in our syndicate reports. These 10 companies comprise leading, emerging, and regional players. Nonetheless, our analysis is not restricted to the 10 listed companies, we also analyze other companies present in the market to develop a holistic view and understand the prevailing trends. The “Company Profiles” section in the report covers key facts, business description, products & services, financial information, SWOT analysis, and key developments. The financial information presented is extracted from the annual reports and official documents of the publicly listed companies. Upon collecting the information for the sections of respective companies, we verify them via various primary sources and then compile the data in respective company profiles. The company level information helps us in deriving the base number as well as in forecasting the market size.
- 3.4 Developing Base Number:
Aggregation of sales statistics (2020-2022) and macro-economic factor, and other secondary and primary research insights are utilized to arrive at base number and related market shares for 2022. The data gaps are identified in this step and relevant market data is analyzed, collected from paid primary interviews or databases. On finalizing the base year market size, forecasts are developed on the basis of macro-economic, industry and market growth factors and company level analysis.
- Data Triangulation and Final Review:
The market findings and base year market size calculations are validated from supply as well as demand side. Demand side validations are based on macro-economic factor analysis and benchmarks for respective regions and countries. In case of supply side validations, revenues of major companies are estimated (in case not available) based on industry benchmark, approximate number of employees, product portfolio, and primary interviews revenues are gathered. Further revenue from target product/service segment is assessed to avoid overshooting of market statistics. In case of heavy deviations between supply and demand side values, all thes steps are repeated to achieve synchronization.
We follow an iterative model, wherein we share our research findings with Subject Matter Experts (SME’s) and Key Opinion Leaders (KOLs) until consensus view of the market is not formulated – this model negates any drastic deviation in the opinions of experts. Only validated and universally acceptable research findings are quoted in our reports.
We have important check points that we use to validate our research findings – which we call – data triangulation, where we validate the information, we generate from secondary sources with primary interviews and then we re-validate with our internal data bases and Subject matter experts. This comprehensive model enables us to deliver high quality, reliable data in shortest possible time.
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