Radiation-Hardened Electronics Market Outlook, Industry Survey and Analysis to 2022

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Radiation hardening is the process of producing electronic components and systems unaffected by destruction or failures triggered by ionizing radiations like those that are faced in outer space, during nuclear accidents or even around nuclear reactors. Radiation hardening components are centered on non-hardened equivalents with optimum design and production variabilities that condense the vulnerability to radiation damage. Maximum semiconductor electronic components are vulnerable to radiation damage. Radiation-hardened products are classically verified to one or more subsequent effect tests such as enhanced low dose rate effects (ELDRS), neutron and proton displacement damage, ionizing dose (TID), etc.

Radiation-Hardened Electronics Market

Outlook, Industry Survey and Analysis to

2022

Radiation hardening is the process of producing

electronic components and systems unaffected by

destruction or failures triggered by ionizing radiations

like those that are faced in outer space, during nuclear

accidents or even around nuclear reactors.”

Radiation hardening is the process of producing electronic components and systems unaffected by destruction or failures

triggered by ionizing radiations like those that are faced in outer space, during nuclear accidents or even around nuclear

reactors. Radiation hardening components are centered on non-hardened equivalents with optimum design and

production variabilities that condense the vulnerability to radiation damage. Maximum semiconductor electronic

components are vulnerable to radiation damage. Radiation-hardened products are classically verified to one or more

subsequent effect tests such as enhanced low dose rate effects (ELDRS), neutron and proton displacement damage,

ionizing dose (TID), etc.

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The usual sources of exposure of electronics to ionizing radiations include nuclear reactors in power plant for sensors,

control circuits, residual radiation from isotopes in chip packaging materials, nuclear explosions in concern with military

electronics, cosmic radiations for spacecraft, particle accelerators for control electronics like particle detector devices,

and so on. There are a number of factors that propel the growth of the global Radiation-Hardened Electronics Market

such as the several applications in defence, space, communication, etc.


On the other hand, there are factors that hamper the growth of the global Radiation-Hardened Electronics Market like

the high expenditure on the development as well as design related to the development of components. The global

Radiation-Hardened Electronics Market is classified on the basis of manufacturing technique, component, application,

end–users, and geography. On the basis of manufacturing technique, the global Radiation-Hardened Electronics Market

is classified as Radiation Hardening by Design (RHBD) and Radiation Hardening by Process (RHBP). On the basis of

component, the global Radiation-Hardened Electronics Market is classified as Power Management, ASIC, Logic,

Memory, and FPGA.

During the forecast period, the Power Management component is projected to rise at the highest rate of the global

Radiation-Hardened Electronics Market. The factors that drive the growth of Power Management component include

an amplified demand for diodes, transistors, and MOSFETs in several applications such as Space and Defense.

MOSFETs are the extensively utilized Power Management components by more or less all the industries. In addition,

there are also progressively more high-tech improvements that are principally concentrating on incorporating Radiation-

Hardened Electronics Power Management component chipsets in numerous devices.

On the basis of application, the global Radiation-Hardened Electronics market is classified as Space (Satellite),

Aerospace & Defense, and Nuclear Power Plant. In 2015, the global Radiation-Hardened Electronics market was

dominated by Space (Satellite) sector. The Space (Satellite) sector is further classified into commercial applications and

military applications. The factor that propels the growth of Space (Satellite) application is the rising number of space

operations directed all over the world. On the basis of end-users, the global Radiation-Hardened Electronics Market is

classified as Government, Defense and military, and Commercial.

On the basis of geography, the global Radiation-Hardened Electronics Market is classified as North America, Europe,

Asia Pacific, and Rest of the World. The North American market accounts for the major share of the global Radiation-

Hardened Electronics Market. It is traced by Europe and Asia Pacific. The largest share in the North American region

is dominated by U.S.; traced by Canada and Mexico. This large market share is contributed to the rising demand for

Radiation-Hardened Electronics components subsequently due to existence of large number of Radiation-Hardened

Electronics component manufacturers.

Some of the prominent players that fuel the growth of global Radiation-Hardened Electronics Market include Microsemi

Corporation, Atmel Corporation, Xilinx, Inc., Intersil Corporation, Texas Instruments, Inc., BAE Systems, Honeywell

Aerospace, STMicroelectronics NV, Maxwell Technologies, Inc., and Linear Technology Corporation.

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Market Segments:

Geographically, this report is segmented into several key Regions, with production, consumption, revenue

(million USD), market share and growth rate of Radiation-Hardened Electronics in these regions, from 2012 to

2022 (forecast), covering

• United States

• EU


• China

• Japan

• South Korea

• Taiwan

Global Radiation-Hardened Electronics market competition by top manufacturers, with production, price,

revenue (value) and market share for each manufacturer; the top players including

• Honeywell international Inc.

• Linear Technology

• BAE Systems

• Atmel Corporation

• STMicroelectronics

• Xilinx Inc

• Maxwell Technologies

• Intersil Americas LLC

• Texas Instruments Incorporated

• Microsemi Corporation

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On the basis of product, this report displays the production, revenue, price, market share and growth rate of

each type, primarily split into

• Logic

• Application-Specific Integrated Circuit

• Memory

• Field-Programmable Gate Array


On the basis on the end users/applications, this report focuses on the status and outlook for major

applications/end users, consumption (sales), market share and growth rate of Radiation-Hardened Electronics

for each application, including

• Nuclear Power Plant

• Space

• Defense & Aerospace

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