The report segments the market on the basis of the end-users: governments, military, commercial, industrial, and medical. It also mentions end-user applications with respect to satellites (which are used both by the government and the military), advanced electronics used in nuclear weapons, and avionics used in the aviation industry with respect to high-altitude aircraft. Rad-hard is a method used to make electronic components and semiconductors immune or resistant to radiation-induced malfunctions, mainly electromagnetic and particle radiation. The global rad-hard electronics market is expected to grow at a stable rate during the forecast period due to the increased number of nuclear power plants and satellites and high demand for these electronics from commercial satellites and military. Satellites require a larger share of rad-hard electronics compared with nuclear power plants or reactors.
The analysts forecast the global radiation hardened products market to grow at a CAGR of 3.37% during the period 2016-2020.
Covered in this report
The report covers the present scenario and the growth prospects of the global radiation hardened products market for 2016-2020. To calculate the market size, the report contains a detailed discussion of the major drivers influencing the market's growth, outlines the major challenges faced by vendors and the market as a whole, and examines key trends that are emerging in the market.
The market is divided into the following segments based on geography:
The report, Global Radiation Hardened Products Market 2016-2020, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years. The report also includes a discussion of the key vendors operating in this market.
- Honeywell Aerospace
- Bae Systems
- Texas Instruments
Other prominent vendors
- Data Device Corporation
- Linear Technology
- Ridgetop Group
- Vorago Technologies
- Increase in space exploration in BRIC nations.
- For a full, detailed list, view the full report
- Advances in radiation-resistant packaging/shielding.
- For a full, detailed list, view the full report
- Relaxation in export compliance for aircraft and satellite electronics suppliers.
- For a full, detailed list, view the full report
Key questions answered in this report
- What will the market size be in 2020 and what will the growth rate be?
- What are the key market trends?
- What is driving this market?
- What are the challenges to market growth?
- Who are the key vendors in this market space?
- What are the market opportunities and threats faced by the key vendors?
- What are the strengths and weaknesses of the key vendors?
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- Report coverage
- Base year and forecast period
- Vendor segmentation
- Market segmentation
- Geographical segmentation
- Common currency conversion rates
- Top-vendor offerings
- Research methodology
- Economic indicators
- Key market highlights
- Market overview
- Effects of radiation on electronics
- Market size and forecast
- Five forces analysis
- Nuclear power reactors
- Weapon systems
- Defense and military
- Rise in defense expenditure on ISR
- Surging demand for commercial satellites
- Growth of nuclear power plants
- Increase in space exploration in BRIC nations
Part 11: Market challenges
- Growing preference for radiation-tolerant devices
- Advances in radiation-resistant packaging/shielding
- Shrinking defense and government spending
- Shift toward COTS products
Part 13: Market trends
Part 14: Vendor landscape
- Competitive scenario
- Other prominent vendors
- List of abbreviations
List of Exhibits
Exhibit 01: Segmentation of global rad-hard electronics market
Exhibit 02: Global rad-hard electronics market by detailed end-user segment and application
Exhibit 03: Key countries in APAC, EMEA, and RoW
Exhibit 04: Standard currency conversion rates
Exhibit 05: Top vendor offerings
Exhibit 06: Rad-hard electronics market value chain
Exhibit 07: Depiction of radiation levels at different altitude
Exhibit 08: Global rad-hard electronics market 2015-2020 ($ millions)
Exhibit 09: Five forces analysis
Exhibit 10: Global rad-hard electronics market by application 2015-2020
Exhibit 11: Global rad-hard electronics market by application 2015-2020 ($ millions)
Exhibit 12: Global rad-hard electronics market by satellite 2015-2020 ($ millions)
Exhibit 13: Global rad-hard electronics market by avionics 2015-2020 ($ millions)
Exhibit 14: Global rad-hard electronics market by nuclear power reactor 2015-2020 ($ millions)
Exhibit 15: Global rad-hard electronics market by weapon system 2015-2020 ($ millions)
Exhibit 16: Global rad-hard electronics market by other 2015-2020 ($ millions)
Exhibit 17: Global rad-hard electronics market by end user 2015-2020 (% share)
Exhibit 18: Global rad-hard electronics market by end-user 2015-2020 ($ millions)
Exhibit 19: Global rad-hard electronics market by government 2015-2020 ($ millions)
Exhibit 20: Global rad-hard electronics market by defense and military 2015-2020 ($ millions)
Exhibit 21: Global rad-hard electronics market by commercial 2015-2020 ($ millions)
Exhibit 22: Global rad-hard electronics market by others 2015-2020 ($ millions)
Exhibit 23: Global rad-hard electronics market by geography 2015-2020 (% share)
Exhibit 24: Global rad-hard electronics market by geography 2015-2020 ($ millions)
Exhibit 25: Key leading countries
Exhibit 26: Rad-hard electronics market in US 2015-2020 ($ millions)
Exhibit 27: Rad-hard electronics market in APAC 2015-2020 ($ millions)
Exhibit 28: Rad-hard electronics market in EMEA 2015-2020 ($ millions)
Exhibit 29: Global rad-hard electronics market in ROW 2015-2020 ($ millions)
Exhibit 30: Impact of drivers
Exhibit 31: Impact of drivers and challenges
Exhibit 32: Expected penetration rate of smartphones 2015 and 2020
Exhibit 33: Other prominent vendors
The author of the report recognizes the following companies as the key players in the global radiation hardened products market: Honeywell Aerospace, Bae Systems, Texas Instruments, STMicroelectronics, Atmel, Microsemi, and Xilinx.
Other prominent vendors in the market are: Cobham, VPT, Data Device Corporation, Linear Technology, Ridgetop, and Vorago Technologies.
Commenting on the report, an analyst from the research team said: “One of latest trends in the market is relaxation in export compliance for aircraft and satellite electronics suppliers. Agencies such as International Traffic in Arms Regulations (ITAR) of the US restrict the sale of defense-related electronics due to national security concerns. This has affected the US-based space and airplane electronics manufacturers and OEMs, including rad-hard electronics manufacturers. The ITAR might relax these regulations further for the supply of electronics for non-combat-related aircraft and commercial satellites. The regulations in place in the US was solely meant to keep technological know-how within the country. However, the departments of state and commerce in the US are bringing changes in the ITAR and Export Administration Regulations (EAR). The changes will allow US-based vendors to supply rad-hard electronics internationally and enable better competitive pricing and quality improvements among the vendors as most rad-hard electronics are expensive and hard to acquire.”
According to the report, one of the primary drivers in the market is growth of nuclear power plants. As of 2015, there are 444 nuclear reactors in 30 countries. The rising need for sustainable energy is driving the nuclear power reactor segment. Rad-hard versions or sensors, power control circuits, MPUs and MCUs, and rugged robots and cameras are some of the most commonly used rad-hard devices in nuclear reactors. Rad-hard electronics have the capability to withstand high-temperature conditions and radiation levels present in nuclear reactors. Also, monitoring equipment that is used in nuclear reactors often uses rad-hard electronics, although the exposure time of monitoring equipment to high-frequency radiations is low. Rad-hard electronics in nuclear reactors have also proved to be an economically viable option compared to conventional electronics due to longer shelf life. Also, the number of nuclear reactor installations across the globe is expected to increase. Between 2015 and 2025 we expect 63 new nuclear reactors to commence operations. Factors such as these will increase the adoption of rad-hard electronics in nuclear power plants.
Further, the report states that one major challenge in the market is growing preference for radiation-tolerant devices. The demand for strategic rad-hard components is driven by the dose rate requirements of applications such as satellites, high-altitude aircraft, and nuclear reactors. Rad-hard grades are driven either by total ionizing dose (TID) for GEOs or by systems requiring higher SEU assurances and lower memory upsets. Radiation-tolerant devices are used in LEO satellites and military systems or subsystems as they can handle the radiation exposure at those levels. Radiation-tolerant devices are cheaper and readily available than rad-hard products. Most radiation-tolerant devices can perform in radiation environments, with 30-100 Krad. Satellites constitute the largest segment that consumes rad-hard electronics. In 2015, it contributed 68.39% to the total revenue of the global rad-hard electronics market. Due to shrinking budget allocations for satellites programs, unmanned platforms and projects that are made for shorter life spans use radiation-tolerant devices. Radiation-tolerant devices are preferred mainly due to the high costs involved in the procurement of rad-hard products.
The study was conducted using an objective combination of primary and secondary information including inputs from key participants in the industry. The report contains a comprehensive market and vendor landscape in addition to a SWOT analysis of the key vendors.