放射線硬化エレクトロニクス市場：コンポーネント（ミックスドシグナルIC、プロセッサ＆コントローラ、メモリ、パワーマネジメント）、製造技術（RHBD、RHBP）、製品タイプ、アプリケーション、地域別（2022年〜2027年）

Radiation Hardened Electronics Market by Component (Mixed Signal ICs, Processors & Controllers, Memory, Power Management), Manufacturing Techniques (RHBD, RHBP), Product Type, Application and Geography (2022-2027)

放射線硬化型電子機器市場は、2022年の15億米ドルから2027年には18億米ドルへと、予測期間中にCAGR4.0％で成長すると予想されています。世界的な情報・監視・偵察（ISR）活動の拡大が、放射線硬化型電子機器の市... もっと見る

memory
power

出版社	出版年月	電子版価格	ページ数	図表数	言語
MarketsandMarkets マーケッツアンドマーケッツ	2022年5月24日	US$4,950 シングルユーザライセンスライセンス・価格情報注文方法はこちら	244	214	英語

日本語のページは自動翻訳を利用し作成しています。

サマリー

放射線硬化型電子機器市場は、2022年の15億米ドルから2027年には18億米ドルへと、予測期間中にCAGR4.0％で成長すると予想されています。世界的な情報・監視・偵察（ISR）活動の拡大が、放射線硬化型電子機器の市場を牽引しています。ISR宇宙作戦には、目標追跡、ミサイル警告、データカバレッジ、通信、その他の機能に使用される衛星群も含まれ、放射線硬化型電子機器の需要を加速している。さらに、商業衛星における放射線硬化型電子機器の需要の増加が、放射線硬化型電子機器システムの需要を高めています。
"予測期間中、メモリ部品市場はより高いCAGRで成長すると予想される"
コンポーネント分野のメモリは、予測期間中に最も速いCAGRで成長すると予想される。この成長は、航空宇宙＆宇宙分野における計算集約型アプリケーションに放射線硬化型メモリソリューションを採用する動きが活発化していることが背景にある。様々なセンサーやプロセッサーから得られる大量のデータを処理するために、高密度化と性能向上を実現することができます。航空宇宙産業は、地上でのデータ処理から、低レイテンシと高い計算能力を必要とする実際の衛星に移行しつつあります。SRAMは、高いメモリバンク制限とレイテンシの改善により、衛星搭載の画像処理に適したソリューションを提供しています。
"宇宙用放射線硬化型エレクトロニクス市場は予測期間中に最も高いCAGRで成長すると予想される"
複数の商業プレイヤーが通信やナビゲーションなどに関連する革新的な製品やサービスを開発したことで、宇宙分野の経済的重要性が高まっています。これは、新しい衛星システムの要件を推進し、放射線硬化エレクトロニクス市場の成長機会を促進することが期待される。Space Foundation Report 2021によると、世界の宇宙経済は、2019年と比較して4.4%増加し、4470億米ドルにまで増加しています。さらに、宇宙インフラをサポートするための政府の取り組みが増加していることも、市場成長のさらなる利点となっています。放射線硬化型コンポーネントの設計者は、政府および民生用宇宙アプリケーションの能力を高める傾向にある。したがって、宇宙船や衛星電子システムの放射線耐性と信号処理に対する要求が高まっている。景気後退やいくつかの宇宙計画の中止にもかかわらず、軍事・商業衛星アプリケーションにおける放射線硬化型電子部品の設計者やインテグレータからの需要は減少していない。様々な高放射線環境でより長い時間耐えられる高性能な信号処理ペイロードの必要性が、宇宙用アプリケーションにおける放射線硬化型電子部品の需要を促進しているのです。
"アジア太平洋地域の放射線硬化型電子機器市場は、2022年から2027年にかけて最高のCAGRを記録する"
アジア太平洋地域の放射線硬化型電子機器市場は、予測期間中に最も高いCAGRで成長すると予想されます。この成長は、宇宙／衛星産業に対する政府の取り組みや資金提供活動の高まりが原動力となっています。この地域の様々な国が、国産の衛星や宇宙船の開発・打ち上げに注力しています。例えば、2022年3月、武漢市政府は、ロケット、衛星、宇宙船の製造に関連するプロジェクトに788万米ドルの現金奨励金を提供すると発表した。宇宙産業に対するこうした財政的な優遇措置は、放射線硬化型コンポーネントの機会増加を促進すると予想されます。中国と日本の技術力と製造能力により、この地域は世界市場の厳しい競争相手となっている。インド宇宙研究機関（ISRO）、中国国家宇宙局（CNSA）、日本宇宙航空研究開発機構（JAXA）、インド情報機関、日本防衛省などは、放射線硬化型部品を有効に利用している有名な機関である。
プライマリーの故障
二次調査によって収集されたいくつかのセグメントやサブセグメントの市場規模を決定し、検証する過程において、放射線硬化型電子機器市場の主要な業界専門家との広範囲な一次インタビューが実施された。本レポートの主要参加者の内訳は以下の通りです。
- 企業タイプ別ティア1：35%、ティア2：40%、ティア3：25
- 役職別役職別：Cレベル経営者35%、役員25%、その他40
- 地域別地域別：アジア太平洋地域 -40%、北米地域 -30%、ヨーロッパ地域 -25%、その他の地域 -5
放射線硬化型エレクトロニクス市場の主要企業は、Microchip Technology Inc.（米国）、BAE Systems（英国）、Renesas Electronics Corporation（日本）、Infineon Technologies AG（ドイツ）、STMicroelectronics（スイス）、Xilinx, Inc（米国）、 Texas Instruments Incorporated（米国）、Honeywell International Inc（米国）、Teledyne Technologies Inc（米国）およびTTM Technologies, Inc（米国）です。本調査の対象となる中小企業/新興企業は、Cobham Limited（英国）、Analog Devices, Inc（米国）、Data Devices Corporation（米国）、3D Plus（フランス）、Mercury Systems, Inc.(米国）、PCB Piezotronics, Inc（米国）、Vorago（米国）、Micropac Industries, Inc（米国）、GSI technology, Inc（米国）、Everspin Technologies Inc（米国）、Semiconductor Components Industries, LLC（米国）、AiTech（米国）、Microelectronics Research Development Corporation（米国）、Space Micro, Inc（米国）および Triad Semiconductor ( 米国) です。
調査対象範囲
本レポートでは、放射線硬化型電子機器市場の成長に影響を与える促進要因、抑制要因、課題、機会などの主要な要因に関する詳細情報を記載しています。また、技術動向、貿易データ、特許分析も含んでいます。この調査レポートは、放射線硬化型電子機器市場をコンポーネント、製造技術、製品タイプ、地域に基づいて分類しています。業界主要企業の詳細な分析を行い、事業概要、提供するソリューションとサービス、採用した主要戦略（新製品の発表、取引（買収、提携、契約）、その他（拡張）、放射線硬化型エレクトロニクス市場におけるCOVID-19の影響などについての洞察を提供しています。
レポート購入の主なメリット
本レポートは、本市場のリーダー/新規参入企業にとって、以下のような点で役立つと思われます。
1.本レポートでは、放射線硬化型電子機器市場を包括的にセグメント化し、さまざまな地域にわたるすべてのサブセグメントについて、最も近い市場規模の予測を提供しています。
2.本レポートは、利害関係者が市場の脈絡を理解するのに役立ち、市場成長のための主要な推進要因、阻害要因、課題、機会に関する情報を提供します。
3.本レポートは、利害関係者が競合他社をより良く理解し、ビジネスにおける自社のポジションを向上させるためのより多くの洞察を得るのに役立つだろう。競争環境のセクションには、競合他社のエコシステム、製品の開発および発売、パートナーシップ、M&Aなどが含まれます。
4.市場シェア/ランクだけでなく、製品のフットプリントに基づいて、上位25社の分析は、利害関係者がこれらの主要なプレーヤーの市場のポジショニングを可視化するのに役立ちます。
5.また、特許分析、貿易データ、価格分析、今後数年間で市場を形成する技術動向についても取り上げています。

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1 INTRODUCTION 33
1.1 STUDY OBJECTIVES 33
1.2 MARKET DEFINITION AND SCOPE 33
1.3 INCLUSIONS AND EXCLUSIONS 34
1.4 STUDY SCOPE 34
1.4.1 MARKETS COVERED 34
FIGURE 1 RADIATION-HARDENED ELECTRONICS MARKET SEGMENTATION 34
1.4.2 YEARS CONSIDERED 35
1.5 CURRENCY 35
1.6 LIMITATIONS 35
1.7 MARKET STAKEHOLDERS 35
1.8 SUMMARY OF CHANGES 36
2 RESEARCH METHODOLOGY 37
2.1 RESEARCH DATA 37
FIGURE 2 RADIATION-HARDENED ELECTRONICS MARKET: RESEARCH DESIGN 38
2.2 SECONDARY AND PRIMARY RESEARCH 38
FIGURE 3 RADIATION-HARDENED ELECTRONICS MARKET: RESEARCH APPROACH 39
2.2.1 SECONDARY DATA 40
2.2.1.1 List of major secondary sources 40
2.2.1.2 Key data from secondary sources 41
2.2.2 PRIMARY DATA 41
2.2.2.1 Primary interviews with experts 41
2.2.2.2 Key data from primary sources 42
2.2.2.3 Key industry insights 42
2.2.2.4 Breakdown of primaries 43
2.3 MARKET SIZE ESTIMATION 43
2.3.1 BOTTOM-UP APPROACH 43
2.3.1.1 Approach for arriving at market size using bottom-up analysis 43
FIGURE 4 MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH 44
2.3.2 TOP-DOWN APPROACH 44
2.3.2.1 Approach for capturing market size using top-down analysis 44
FIGURE 5 MARKET SIZE ESTIMATION METHODOLOGY: TOP-DOWN APPROACH 45
FIGURE 6 MARKET SIZE ESTIMATION METHODOLOGY FOR RADIATION-HARDENED ELECTRONICS MARKET USING SUPPLY SIDE ANALYSIS 45
2.4 MARKET BREAKDOWN AND DATA TRIANGULATION 46
FIGURE 7 RADIATION-HARDENED ELECTRONICS MARKET: DATA TRIANGULATION 46
2.5 RESEARCH ASSUMPTIONS AND LIMITATIONS 47
2.5.1 RESEARCH ASSUMPTIONS 47
2.5.2 LIMITATIONS 47
2.6 RISK ASSESSMENT 48
3 EXECUTIVE SUMMARY 49
FIGURE 8 IMPACT ANALYSIS OF COVID-19 ON RADIATION-HARDENED ELECTRONICS MARKET 49
3.1 REALISTIC SCENARIO 50
TABLE 1 REALISTIC SCENARIO (POST-COVID-19) SCENARIO: RADIATION-HARDENED ELECTRONICS MARKET, 2022–2027 (USD MILLION) 50
3.2 OPTIMISTIC SCENARIO 50
TABLE 2 OPTIMISTIC SCENARIO (POST-COVID-19) SCENARIO: RADIATION-HARDENED ELECTRONICS MARKET, 2022–2027 (USD MILLION) 50
3.3 PESSIMISTIC SCENARIO 51
TABLE 3 PESSIMISTIC SCENARIO (POST-COVID-19) SCENARIO: RADIATION-HARDENED ELECTRONICS MARKET, 2022–2027 (USD MILLION) 51
FIGURE 9 POWER MANAGEMENT SEGMENT TO ACCOUNT FOR LARGEST SHARE OF RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, DURING FORECAST PERIOD 51
FIGURE 10 RHBD SEGMENT TO GROW AT HIGHEST CAGR IN RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, DURING FORECAST PERIOD 52
FIGURE 11 SPACE APPLICATION TO GROW AT HIGHEST CAGR IN RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION FROM 2022 TO 2027 52
FIGURE 12 NORTH AMERICA ACCOUNTED FOR LARGEST SHARE OF RADIATION-HARDENED ELECTRONICS MARKET IN 2021 53
4 PREMIUM INSIGHTS 54
4.1 ATTRACTIVE GROWTH OPPORTUNITIES IN RADIATION-HARDENED ELECTRONICS MARKET 54
FIGURE 13 INCREASING DEMAND FOR RADIATION-HARDENED ELECTRONICS IN COMMERCIAL SATELLITES EXPECTED TO PROPEL MARKET GROWTH 54
4.2 RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT 54
FIGURE 14 POWER MANAGEMENT SEGMENT TO ACCOUNT FOR LARGEST SHARE OF RADIATION-HARDENED ELECTRONICS MARKET FROM 2022 TO 2027 54
4.3 RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE 55
FIGURE 15 RHBD SEGMENT TO ACCOUNT FOR LARGEST SHARE OF RADIATION-HARDENED ELECTRONICS MARKET FROM 2022 TO 2027 55
4.4 RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE 55
FIGURE 16 COTS SEGMENT ESTIMATED TO LEAD MARKET IN 2022, ACCOUNTING FOR HIGHER MARKET SHARE 55
4.5 RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION 56
FIGURE 17 SPACE SEGMENT ESTIMATED TO LEAD RADIATION-HARDENED ELECTRONICS MARKET IN 2022 56
4.6 RADIATION-HARDENED ELECTRONICS MARKET, BY COUNTRY AND REGION 56
FIGURE 18 RADIATION-HARDENED ELECTRONICS MARKET IN CHINA TO GROW AT HIGHEST CAGR FROM 2022 TO 2027 56
5 MARKET OVERVIEW 57
5.1 INTRODUCTION 57
5.2 EVOLUTION: RADIATION-HARDENED ELECTRONICS MARKET 57
FIGURE 19 EVOLUTION OF RADIATION-HARDENED ELECTRONICS TECHNOLOGY 58
5.3 MARKET DYNAMICS 59
FIGURE 20 DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES: RADIATION-HARDENED ELECTRONICS MARKET 59
5.3.1 DRIVERS 60
FIGURE 21 DRIVERS FOR RADIATION-HARDENED ELECTRONICS MARKET AND THEIR IMPACT 60
5.3.1.1 Rising intelligence, surveillance, and reconnaissance (ISR) activities 60
5.3.1.2 Technology advancements in multicore processors used for military and space-grade applications 61
5.3.1.3 Increasing demand for radiation-hardened electronics in commercial satellites 61
5.3.1.4 Proliferation of electronic systems that can withstand severe nuclear environments 62
5.3.2 RESTRAINTS 62
FIGURE 22 RESTRAINTS IN RADIATION-HARDENED ELECTRONICS MARKET AND THEIR IMPACT 62
5.3.2.1 Difficulties in creating real testing environments 63
5.3.2.2 High costs associated with development and designing radiation-hardened products 63
5.3.3 OPPORTUNITIES 63
FIGURE 23 OPPORTUNITIES IN RADIATION-HARDENED ELECTRONICS MARKET AND THEIR IMPACT 63
5.3.3.1 Increasing space missions globally 64
5.3.3.2 Increasing demand for reconfigurable radiation-hardened electronics 64
5.3.3.3 Rising demand for commercial-off-the-shelf components in space satellites 65
5.3.4 CHALLENGES 65
FIGURE 24 CHALLENGES IN RADIATION-HARDENED ELECTRONICS MARKET AND THEIR IMPACT 65
5.3.4.1 Customized requirements from high-end consumers 65
5.4 SUPPLY/VALUE CHAIN ANALYSIS 66
FIGURE 25 VALUE CHAIN ANALYSIS: MAJOR VALUE IS ADDED DURING MANUFACTURING, FABRICATION & PACKAGING, AND INTERFACING & SOFTWARE DEVELOPMENT STAGES, 2021 66
5.5 ECOSYSTEM/MARKET MAP 68
FIGURE 26 RADIATION-HARDENED ELECTRONICS MARKET: ECOSYSTEM 68
TABLE 4 RADIATION-HARDENED ELECTRONICS MARKET: ECOSYSTEM 69
5.6 PRICING ANALYSIS 70
5.6.1 MIXED SIGNAL ICS 70
TABLE 5 AVERAGE SELLING PRICE OF COMPANIES OFFERING A/D & D/A CONVERTORS 70
5.6.2 PROCESSORS & CONTROLLERS 70
TABLE 6 AVERAGE SELLING PRICE OF PROCESSOR & CONTROLLER PRODUCTS 70
5.6.3 MEMORY 71
TABLE 7 AVERAGE SELLING PRICE OF COMPANIES OFFERING MEMORY PRODUCTS 71
5.6.4 POWER MANAGEMENT 71
FIGURE 27 AVERAGE SELLING PRICE OF POWER MANAGEMENT PRODUCTS 71
TABLE 8 AVERAGE SELLING PRICE ANALYSIS OF KEY PLAYERS 72
5.7 TRENDS/DISRUPTIONS IMPACTING CUSTOMERS 72
FIGURE 28 REVENUE SHIFT FOR RADIATION-HARDENED ELECTRONICS 72
5.8 TECHNOLOGY ANALYSIS 73
5.8.1 DEVELOPMENT IN PLASTIC PACKAGING FOR SPACE-GRADE ELECTRONICS 73
5.8.2 SMART CHIPSETS FOR SATELLITES 73
5.8.3 ADVANCED SPACE PACKAGING 73
5.8.4 RADIATION-HARDENED OPTICAL FIBER TECHNOLOGY 73
5.9 PORTER’S FIVE FORCES ANALYSIS 74
TABLE 9 RADIATION-HARDENED ELECTRONICS MARKET: PORTER’S FIVE FORCES ANALYSIS 74
5.9.1 INTENSITY OF COMPETITIVE RIVALRY 74
5.9.2 BARGAINING POWER OF SUPPLIERS 75
5.9.3 BARGAINING POWER OF BUYERS 75
5.9.4 THREAT OF SUBSTITUTES 75
5.9.5 THREAT OF NEW ENTRANTS 75
5.10 KEY STAKEHOLDERS & BUYING CRITERIA 76
5.10.1 KEY STAKEHOLDERS IN BUYING PROCESS 76
FIGURE 29 INFLUENCE OF STAKEHOLDERS IN BUYING PROCESS FOR TOP THREE INDUSTRIES 76
TABLE 10 INFLUENCE OF STAKEHOLDERS IN BUYING PROCESS FOR TOP THREE INDUSTRIES 76
5.10.2 BUYING CRITERIA 77
FIGURE 30 KEY BUYING CRITERIA FOR TOP THREE INDUSTRIES 77
TABLE 11 KEY BUYING CRITERIA FOR TOP THREE INDUSTRIES 77
5.11 CASE STUDY ANALYSIS 78
TABLE 12 ASSESSMENT OF 90 MM PROCESS HARDENING TECHNIQUE 78
TABLE 13 ASSESSMENT OF 4MBIT MRAM DEVICE IN SATELLITES 78
TABLE 14 ASSESSMENT OF RADIATION-HARDENED BY DESIGN MICROELECTRONICS 79
TABLE 15 ASSESSMENT FOR ARM MCUS FOR SPACE CONDITIONS 79
TABLE 16 MARKET ASSESSMENT FOR SSDS FOR LOW EARTH ORBIT SATELLITES 80
5.12 TRADE ANALYSIS 80
5.12.1 IMPORT SCENARIO 80
FIGURE 31 IMPORTS, BY KEY COUNTRY, 2017–2021 (USD MILLION) 80
5.12.2 EXPORT SCENARIO 81
FIGURE 32 EXPORTS, BY KEY COUNTRY, 2017–2021 (USD MILLION) 81
5.13 PATENT ANALYSIS 81
FIGURE 33 TOP TEN COMPANIES WITH HIGHEST NUMBER OF PATENT APPLICATIONS DURING LAST TEN YEARS 81
TABLE 17 TOP 20 PATENT OWNERS DURING LAST TEN YEARS 82
FIGURE 34 NUMBER OF PATENTS GRANTED PER YEAR FROM 2012 TO 2021 82
TABLE 18 LIST OF MAJOR PATENTS 82
5.14 KEY CONFERENCES & EVENTS DURING 2022-2023 85
TABLE 19 RADIATION-HARDENED ELECTRONICS MARKET: DETAILED LIST OF CONFERENCES & EVENTS 85
5.15 REGULATORY LANDSCAPE 86
5.15.1 REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 87
TABLE 20 NORTH AMERICA: LIST OF REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 87
TABLE 21 EUROPE: LIST OF REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 87
TABLE 22 ASIA PACIFIC: LIST OF REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 88
TABLE 23 REST OF THE WORLD: LIST OF REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 88
5.15.2 STANDARDS AND REGULATIONS RELATED TO MARKET 89
5.15.2.1 North America 89
5.15.2.1.1 US 89
5.15.2.1.1.1 MIL-STD-750D 89
5.15.2.1.1.2 MIL-STD-750F 89
5.15.2.1.1.3 Radiation Hardness Assurance SSB1_005 89
5.15.2.1.1.4 MIL-STD-975M (NASA) 89
5.15.2.1.2 Canada 90
5.15.2.1.2.1 Radiation Emitting Devices Regulations (C.R.C., c. 1370) 90
5.15.2.2 Europe 90
5.15.2.2.1 ECSS-Q-60-01A 90
5.15.2.2.2 ECSS-Q-ST-60-15C 90
5.15.2.2.3 ECSS-Q-HB-60-02A 90
5.15.2.3 Asia Pacific 90
5.15.2.3.1 India 90
5.15.2.3.1.1 IS:1885 90
5.15.2.3.2 Japan 90
5.15.2.3.2.1 Japan product safety compliance 90
5.15.2.3.2.2 JMR-001 91
6 MATERIAL SELECTION AND PACKAGING TYPES IN RADIATION-HARDENED ELECTRONICS MARKET 92
6.1 INTRODUCTION 92
6.2 MATERIAL SELECTION 92
6.2.1 SILICON 92
6.2.2 SILICON CARBIDE (SIC) 93
6.2.3 GALLIUM NITRIDE (GAN) 93
6.3 PACKAGING TYPES 94
6.3.1 FLIP-CHIP 94
6.3.2 CERAMIC PACKAGES 94
7 RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT 95
7.1 INTRODUCTION 96
FIGURE 35 POWER MANAGEMENT SEGMENT TO ACCOUNT FOR LARGEST SHARE OF RADIATION-HARDENED ELECTRONICS MARKET DURING FORECAST PERIOD 96
TABLE 24 RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT,
2018–2021 (USD MILLION) 96
TABLE 25 RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT,
2022–2027 (USD MILLION) 97
7.2 MIXED SIGNAL ICS 97
TABLE 26 RADIATION-HARDENED ELECTRONICS MARKET, BY ANALOG AND DIGITAL MIXED SIGNAL DEVICES, 2018–2021 (USD MILLION) 97
TABLE 27 RADIATION-HARDENED ELECTRONICS MARKET, BY ANALOG AND DIGITAL MIXED SIGNAL DEVICES, 2022–2027 (USD MILLION) 97
TABLE 28 RADIATION-HARDENED ELECTRONICS MARKET FOR MIXED SIGNAL ICS, BY MANUFACTURING TECHNIQUE, 2018–2021 (USD MILLION) 98
TABLE 29 RADIATION-HARDENED ELECTRONICS MARKET FOR MIXED SIGNAL ICS, BY MANUFACTURING TECHNIQUE, 2022–2027 (USD MILLION) 98
TABLE 30 RADIATION-HARDENED ELECTRONICS MARKET FOR MIXED SIGNAL ICS, BY PRODUCT TYPE, 2018–2021 (USD MILLION) 98
TABLE 31 RADIATION-HARDENED ELECTRONICS MARKET FOR MIXED SIGNAL ICS, BY PRODUCT TYPE, 2022–2027 (USD MILLION) 98
7.2.1 RAD-HARD A/D AND D/A CONVERTERS 99
7.2.1.1 Increasing usage in space applications 99
7.2.2 MULTIPLEXERS & REGISTERS 99
7.2.2.1 Improved performance of multiplexer in data acquisition systems 99
7.3 PROCESSORS & CONTROLLERS 99
TABLE 32 RADIATION-HARDENED ELECTRONICS MARKET, BY CONTROLLER & PROCESSOR COMPONENTS, 2018–2021 (USD MILLION) 99
TABLE 33 RADIATION-HARDENED ELECTRONICS MARKET, BY CONTROLLER & PROCESSOR COMPONENTS, 2022–2027 (USD MILLION) 100
TABLE 34 RADIATION-HARDENED ELECTRONICS MARKET FOR CONTROLLER & PROCESSOR COMPONENTS, BY MANUFACTURING TECHNIQUE,
2018–2021 (USD MILLION) 100
TABLE 35 RADIATION-HARDENED ELECTRONICS MARKET FOR CONTROLLER & PROCESSOR COMPONENTS, BY MANUFACTURING TECHNIQUE,
2022–2027 (USD MILLION) 100
TABLE 36 RADIATION-HARDENED ELECTRONICS MARKET FOR CONTROLLERS & PROCESSORS, BY PRODUCT TYPE, 2018–2021 (USD MILLION) 100
TABLE 37 RADIATION-HARDENED ELECTRONICS MARKET FOR CONTROLLERS & PROCESSORS, BY PRODUCT TYPE, 2022–2027 (USD MILLION) 101
7.3.1 MICROPROCESSOR UNIT (MPUS) 101
7.3.1.1 Developments in multicore processors for space & defense applications 101
7.3.2 MICROCONTROLLER UNIT (MCUS) 101
7.3.2.1 Development of ARM-based microcontrollers for spacecraft subsystems 101
7.3.3 APPLICATION-SPECIFIC INTEGRATED CIRCUITS (ASICS) 102
7.3.3.1 Increasing demand for highly customized design 102
7.3.4 FPGAS 102
7.3.4.1 Help eliminate costs related to re-designing or manual updating 102
7.4 MEMORY 103
TABLE 38 RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY TYPE,
2018–2021 (USD MILLION) 103
TABLE 39 RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY TYPE,
2022–2027 (USD MILLION) 103
TABLE 40 RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY COMPONENT, 2018–2021 (USD MILLION) 103
TABLE 41 RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY COMPONENT, 2022–2027 (USD MILLION) 104
TABLE 42 RADIATION-HARDENED ELECTRONICS MARKET FOR MEMORY COMPONENT, BY MANUFACTURING TECHNIQUE, 2018–2021 (USD MILLION) 104
TABLE 43 RADIATION-HARDENED ELECTRONICS MARKET FOR MEMORY COMPONENT, BY MANUFACTURING TECHNIQUE, 2022–2027 (USD MILLION) 104
TABLE 44 RADIATION-HARDENED ELECTRONICS MARKET FOR MEMORY COMPONENT, BY PRODUCT TYPE, 2018–2021 (USD MILLION) 104
TABLE 45 RADIATION-HARDENED ELECTRONICS MARKET FOR MEMORY, BY PRODUCT TYPE, 2022–2027 (USD MILLION) 105
7.4.1 VOLATILE MEMORY 105
7.4.1.1 Dynamic Random-Access Memory (DRAM) 105
7.4.1.1.1 Low retention time expected to increase adoption in spacecraft 105
7.4.1.2 Static random-access memory (SRAM) 105
7.4.1.2.1 High adoption in image processing applications 105
7.4.2 NON-VOLATILE MEMORIES 106
7.4.2.1 Magnetoresistive random-access memory (MRAM) 106
7.4.2.1.1 Increasing developments in MRAM technologies for space environment 106
7.4.2.2 FLASH 106
7.4.2.2.1 Increasing requirement for NOR flash memory in processing applications 106
7.4.2.3 Others (ReRAM, EEPROM, NVRAM) 106
7.5 POWER MANAGEMENT 107
TABLE 46 RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT COMPONENT, 2018–2021 (USD MILLION) 107
TABLE 47 RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT COMPONENT, 2022–2027 (USD MILLION) 107
TABLE 48 RADIATION-HARDENED ELECTRONICS MARKET FOR POWER MANAGEMENT COMPONENT, BY MANUFACTURING TECHNIQUE, 2018–2021 (USD MILLION) 108
TABLE 49 RADIATION-HARDENED ELECTRONICS MARKET FOR POWER MANAGEMENT COMPONENT, BY MANUFACTURING TECHNIQUE, 2022–2027 (USD MILLION) 108
TABLE 50 RADIATION-HARDENED ELECTRONICS MARKET FOR POWER MANAGEMENT COMPONENT, BY PRODUCT TYPE, 2018–2021 (USD MILLION) 108
TABLE 51 RADIATION-HARDENED ELECTRONICS MARKET FOR POWER MANAGEMENT COMPONENT, BY PRODUCT TYPE, 2022–2027 (USD MILLION) 108
7.5.1 MOSFETS 109
7.5.1.1 Increasing adoption of MOSFET devices for outer space applications 109
7.5.2 DIODES 109
7.5.2.1 Integration of ceramic packaging technology helps improve performance in space applications 109
7.5.3 THYRISTORS 109
7.5.3.1 Increasing adoption in aerospace & defense applications 109
7.5.4 IGBTS 110
7.5.4.1 High current density and low power dissipation 110
7.6 OTHERS (SENSORS, ACCELEROMETERS, CAPACITORS, SINGLE BOARD COMPUTERS (SBC)) (QUALITATIVE) 110
8 RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE 111
8.1 INTRODUCTION 112
FIGURE 36 RHBD SEGMENT TO LEAD RADIATION-HARDENED ELECTRONICS MARKET DURING FORECAST PERIOD 112
TABLE 52 RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, 2018–2021 (USD MILLION) 113
TABLE 53 RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, 2022–2027 (USD MILLION) 113
8.2 RADIATION-HARDENING BY DESIGN (RHBD) 113
TABLE 54 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2018–2021 (USD MILLION) 114
TABLE 55 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2022–2027 (USD MILLION) 114
TABLE 56 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY MIXED SIGNAL ICS, 2018–2021 (USD MILLION) 114
TABLE 57 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY MIXED SIGNAL ICS, 2022–2027 (USD MILLION) 115
TABLE 58 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY PROCESSORS & CONTROLLERS, 2018–2021 (USD MILLION) 115
TABLE 59 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY PROCESSORS & CONTROLLERS, 2022–2027 (USD MILLION) 115
TABLE 60 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY,
2018–2021 (USD MILLION) 115
TABLE 61 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY,
2022–2027 (USD MILLION) 116
TABLE 62 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT, 2018–2021 (USD MILLION) 116
TABLE 63 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT, 2022–2027 (USD MILLION) 116
8.2.1 TOTAL IONIZING DOZE 116
8.2.1.1 Long-term ionizing damage due to protons, electrons, and photons can result in malfunctioning of electronic components 116
8.2.2 SINGLE EVENT EFFECT (SEE) 117
8.2.2.1 RHBD approach is favored by space electronics 117
8.3 RADIATION-HARDENING BY PROCESS (RHBP) 117
TABLE 64 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2018–2021 (USD MILLION) 118
TABLE 65 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2022–2027 (USD MILLION) 118
TABLE 66 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY MIXED SIGNAL ICS, 2018–2021 (USD MILLION) 118
TABLE 67 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY MIXED SIGNAL ICS, 2022–2027 (USD MILLION) 118
TABLE 68 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY PROCESSORS & CONTROLLERS, 2018–2021 (USD MILLION) 119
TABLE 69 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY PROCESSORS & CONTROLLERS, 2022–2027 (USD MILLION) 119
TABLE 70 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY,
2018–2021 (USD MILLION) 119
TABLE 71 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY,
2022–2027 (USD MILLION) 119
TABLE 72 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT, 2018–2021 (USD MILLION) 120
TABLE 73 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT, 2022–2027 (USD MILLION) 120
8.3.1 SILICON ON INSULATOR (SOI) 120
8.3.1.1 Integration of SOI ICs on insulating layers provides benefits in high radiation environments 120
8.3.2 SILICON ON SAPPHIRE (SOS) 121
8.3.2.1 High resistance to radiation increases its demand in aerospace and military applications 121
8.4 RADIATION HARDENING BY SOFTWARE (RHBS) (QUALITATIVE) 121
9 RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE 122
9.1 INTRODUCTION 123
FIGURE 37 COTS SEGMENT TO HAVE LARGER SHARE AND REGISTER A HIGHER CAGR DURING FORECAST PERIOD 123
TABLE 74 RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE,
2018–2021 (USD MILLION) 123
TABLE 75 RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE,
2022–2027 (USD MILLION) 124
9.2 COMMERCIAL-OFF-THE-SHELF (COTS) 124
9.2.1 INCREASING ADOPTION IN COMMERCIAL AND MILITARY SATELLITES OWING TO ITS LOW-COST BENEFITS 124
TABLE 76 RADIATION-HARDENED ELECTRONICS MARKET FOR COTS, BY COMPONENT, 2018–2021 (USD MILLION) 125
TABLE 77 RADIATION-HARDENED ELECTRONICS MARKET FOR COTS, BY COMPONENT, 2022–2027 (USD MILLION) 125
TABLE 78 RADIATION-HARDENED ELECTRONICS MARKET FOR COTS, BY MIXED SIGNAL ICS, 2018–2021 (USD MILLION) 125
TABLE 79 RADIATION-HARDENED ELECTRONICS MARKET FOR COTS, BY MIXED SIGNAL ICS, 2022–2027 (USD MILLION) 125
TABLE 80 RADIATION-HARDENED ELECTRONICS MARKET FOR COTS, BY PROCESSORS & CONTROLLERS, 2018–2021 (USD MILLION) 126
TABLE 81 RADIATION-HARDENED ELECTRONICS MARKET FOR COTS, BY PROCESSORS & CONTROLLERS, 2022–2027 (USD MILLION) 126
TABLE 82 RADIATION-HARDENED ELECTRONICS MARKET FOR COTS, BY MEMORY, 2018–2021 (USD MILLION) 126
TABLE 83 RADIATION-HARDENED ELECTRONICS MARKET FOR COTS, BY MEMORY, 2022–2027 (USD MILLION) 126
TABLE 84 RADIATION-HARDENED ELECTRONICS MARKET FOR COTS, BY POWER MANAGEMENT, 2018–2021 (USD MILLION) 127
TABLE 85 RADIATION-HARDENED ELECTRONICS MARKET FOR COTS, BY POWER MANAGEMENT, 2022–2027 (USD MILLION) 127
9.3 CUSTOM-MADE 127
9.3.1 HIGH PREFERENCE FOR CUSTOM-MADE RADIATION-HARDENED ELECTRONICS IN DEFENSE MISSION-CRITICAL APPLICATIONS 127
TABLE 86 RADIATION-HARDENED ELECTRONICS MARKET FOR CUSTOM-MADE, BY COMPONENT, 2018–2021 (USD MILLION) 128
TABLE 87 RADIATION-HARDENED ELECTRONICS MARKET FOR CUSTOM-MADE, BY COMPONENT, 2022–2027 (USD MILLION) 128
TABLE 88 RADIATION-HARDENED ELECTRONICS MARKET FOR CUSTOM-MADE, BY MIXED SIGNAL ICS, 2018–2021 (USD MILLION) 128
TABLE 89 RADIATION-HARDENED ELECTRONICS MARKET FOR CUSTOM-MADE, BY MIXED SIGNAL ICS, 2022–2027 (USD MILLION) 128
TABLE 90 RADIATION-HARDENED ELECTRONICS MARKET FOR CUSTOM-MADE, BY PROCESSORS & CONTROLLERS, 2018–2021 (USD MILLION) 129
TABLE 91 RADIATION-HARDENED ELECTRONICS MARKET FOR CUSTOM-MADE, BY PROCESSORS & CONTROLLERS, 2022–2027 (USD MILLION) 129
TABLE 92 RADIATION-HARDENED ELECTRONICS MARKET FOR CUSTOM-MADE, BY MEMORY, 2018–2021 (USD MILLION) 129
TABLE 93 RADIATION-HARDENED ELECTRONICS MARKET FOR CUSTOM-MADE, BY MEMORY, 2022–2027 (USD MILLION) 129
TABLE 94 RADIATION-HARDENED ELECTRONICS MARKET FOR CUSTOM-MADE, BY POWER MANAGEMENT, 2018–2021 (USD MILLION) 130
TABLE 95 RADIATION-HARDENED ELECTRONICS MARKET FOR CUSTOM-MADE, BY POWER MANAGEMENT, 2022–2027 (USD MILLION) 130
10 RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION 131
10.1 INTRODUCTION 132
FIGURE 38 SPACE (SATELLITES) APPLICATION SEGMENT TO HOLD LARGEST SHARE AND REGISTER HIGHEST CAGR DURING FORECAST PERIOD 132
TABLE 96 RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION,
2018–2021 (USD MILLION) 133
TABLE 97 RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION,
2022–2027 (USD MILLION) 133
10.2 SPACE (SATELLITES) 134
10.2.1 PROLIFERATION IN GLOBAL SPACE ECONOMY TO DRIVE GROWTH OPPORTUNITIES FOR RADIATION-HARDENED ELECTRONIC MANUFACTURERS 134
TABLE 98 RADIATION-HARDENED ELECTRONICS MARKET FOR SPACE APPLICATION, 2018–2021 (USD MILLION) 134
TABLE 99 RADIATION-HARDENED ELECTRONICS MARKET FOR SPACE APPLICATION, 2022–2027 (USD MILLION) 134
TABLE 100 RADIATION-HARDENED ELECTRONICS MARKET FOR SPACE APPLICATION, BY REGION, 2018–2021 (USD MILLION) 135
TABLE 101 RADIATION-HARDENED ELECTRONICS MARKET FOR SPACE APPLICATION, BY REGION, 2022–2027 (USD MILLION) 135
10.2.2 COMMERCIAL 136
10.2.2.1 Small satellites 136
10.2.2.2 New space 137
10.2.2.3 Nanosatellites 137
10.2.3 MILITARY 137
10.3 AEROSPACE & DEFENSE 138
10.3.1 INCREASING FUNDING FOR MILITARY SECTOR IN EMERGING COUNTRIES TO DRIVE MARKET GROWTH 138
TABLE 102 RADIATION-HARDENED ELECTRONICS MARKET FOR AEROSPACE & DEFENSE APPLICATION, 2018–2021 (USD MILLION) 138
TABLE 103 RADIATION-HARDENED ELECTRONICS MARKET FOR AEROSPACE & DEFENSE APPLICATION, 2022–2027 (USD MILLION) 139
TABLE 104 RADIATION-HARDENED ELECTRONICS MARKET FOR AEROSPACE & DEFENSE, BY REGION, 2018–2021 (USD MILLION) 139
TABLE 105 RADIATION-HARDENED ELECTRONICS MARKET FOR AEROSPACE & DEFENSE, BY REGION, 2022–2027 (USD MILLION) 139
10.3.2 WEAPONS 139
10.3.3 VEHICLES 140
10.4 NUCLEAR POWER PLANTS 140
10.4.1 RISING CONSTRUCTION OF NUCLEAR REACTORS FOR POWER GENERATION TO DRIVE MARKET GROWTH 140
TABLE 106 RADIATION-HARDENED ELECTRONICS MARKET FOR NUCLEAR POWER PLANTS, BY REGION, 2018–2021 (USD MILLION) 140
TABLE 107 RADIATION-HARDENED ELECTRONICS MARKET FOR NUCLEAR POWER PLANTS, BY REGION, 2022–2027 (USD MILLION) 141
10.5 MEDICAL 141
10.5.1 INTEGRATION OF EMI SHIELDING AND FILTERING IN ELECTRONICS USED IN IMPLANTABLE DEVICES 141
10.5.2 IMPLANTABLE MEDICAL DEVICES 141
TABLE 108 RADIATION-HARDENED ELECTRONICS MARKET FOR MEDICAL APPLICATION, 2018–2021 (USD MILLION) 141
TABLE 109 RADIATION-HARDENED ELECTRONICS MARKET FOR MEDICAL APPLICATION, 2022–2027 (USD MILLION) 142
TABLE 110 RADIATION-HARDENED ELECTRONICS MARKET FOR MEDICAL APPLICATION, BY REGION, 2018–2021 (USD MILLION) 142
TABLE 111 RADIATION-HARDENED ELECTRONICS MARKET FOR MEDICAL APPLICATION, BY REGION, 2022–2027 (USD MILLION) 142
10.5.3 RADIOLOGY 142
10.6 OTHERS 143
TABLE 112 RADIATION-HARDENED ELECTRONICS MARKET FOR OTHER APPLICATIONS, BY REGION, 2018–2021 (USD MILLION) 143
TABLE 113 RADIATION-HARDENED ELECTRONICS MARKET FOR OTHER APPLICATIONS, BY REGION, 2022–2027 (USD MILLION) 143
11 GEOGRAPHIC ANALYSIS 144
11.1 INTRODUCTION 145
FIGURE 39 GEOGRAPHIC SNAPSHOT: COUNTRIES SUCH AS INDIA, CHINA, AND UAE ARE EMERGING AS NEW POTENTIAL RAPIDLY GROWING MARKETS 145
FIGURE 40 RADIATION-HARDENED ELECTRONICS MARKET, BY GEOGRAPHY 146
TABLE 114 RADIATION-HARDENED ELECTRONICS MARKET, BY REGION,
2018–2021 (USD MILLION) 146
TABLE 115 RADIATION-HARDENED ELECTRONICS MARKET, BY REGION,
2022–2027 (USD MILLION) 146
11.2 NORTH AMERICA 147
FIGURE 41 US LED RADIATION-HARDENED ELECTRONICS MARKET IN NORTH AMERICA IN 2021 147
FIGURE 42 NORTH AMERICA: RADIATION-HARDENED ELECTRONICS MARKET SNAPSHOT (2021) 148
FIGURE 43 US TO DOMINATE RADIATION-HARDENED ELECTRONICS MARKET IN NORTH AMERICA IN 2027 148
11.2.1 US 149
11.2.1.1 Increase in space missions from government and private agencies have accelerated demand for radiation-hardened components 149
11.2.2 CANADA 149
11.2.2.1 Ongoing developments in satellites expected to drive market in Canada 149
11.2.3 MEXICO 150
11.2.3.1 Growing economy and increasing urban mobility increase demand for satellites 150
TABLE 116 RADIATION-HARDENED ELECTRONICS MARKET IN NORTH AMERICA, BY COUNTRY, 2018–2021 (USD MILLION) 150
TABLE 117 RADIATION-HARDENED ELECTRONICS MARKET IN NORTH AMERICA, BY COUNTRY, 2022–2027 (USD MILLION) 150
11.3 EUROPE 151
FIGURE 44 EUROPE: RADIATION-HARDENED ELECTRONICS MARKET SNAPSHOT (2021) 152
FIGURE 45 FRANCE TO LEAD RADIATION-HARDENED ELECTRONICS MARKET IN EUROPE IN 2027 152
11.3.1 UK 153
11.3.1.1 Increasing initiatives by government and private entities in regional space sector expected to drive market growth 153
11.3.2 GERMANY 153
11.3.2.1 Proliferation in national space programs expected to boost demand for radiation-hardened electronics 153
11.3.3 FRANCE 154
11.3.3.1 Increasing partnership strategies in space industry expected to increase competitiveness of France in European Union 154
11.3.4 REST OF EUROPE 154
TABLE 118 RADIATION-HARDENED ELECTRONICS MARKET IN EUROPE, BY COUNTRY, 2018–2021 (USD MILLION) 154
TABLE 119 RADIATION-HARDENED ELECTRONICS MARKET IN EUROPE, BY COUNTRY, 2022–2027 (USD MILLION) 155
11.4 ASIA PACIFIC 155
FIGURE 46 ASIA PACIFIC: RADIATION-HARDENED ELECTRONICS MARKET SNAPSHOT (2021) 156
FIGURE 47 CHINA TO DOMINATE RADIATION-HARDENED ELECTRONICS MARKET IN ASIA PACIFIC IN 2027 157
11.4.1 CHINA 157
11.4.1.1 Advancements in space missions in China expected to drive market 157
11.4.2 INDIA 158
11.4.2.1 Increasing developments by ISRO expected to drive market in India 158
11.4.3 JAPAN 158
11.4.3.1 Involvement of private space companies in government space programs expected to drive market 158
11.4.4 SOUTH KOREA 158
11.4.4.1 Private–public investments in infrastructure, industrial, commercial, military, space, and defense projects 158
11.4.5 REST OF ASIA PACIFIC 159
TABLE 120 RADIATION-HARDENED ELECTRONICS MARKET IN ASIA PACIFIC, BY COUNTRY, 2018–2021 (USD MILLION) 159
TABLE 121 RADIATION-HARDENED ELECTRONICS MARKET IN ASIA PACIFIC, BY COUNTRY, 2022–2027 (USD MILLION) 159
11.5 REST OF THE WORLD (ROW) 160
FIGURE 48 REST OF THE WORLD: RADIATION-HARDENED ELECTRONICS MARKET SNAPSHOT (2021) 160
FIGURE 49 MIDDLE EAST TO ACCOUNT FOR LARGEST SHARE OF RADIATION-HARDENED ELECTRONICS MARKET IN REST OF THE WORLD IN 2027 161
11.5.1 MIDDLE EAST 161
11.5.1.1 Saudi Arabia 161
11.5.1.1.1 Government focus on enhancing military space applications to support market growth 161
11.5.1.2 UAE 162
11.5.1.2.1 Increasing initiatives by government to accelerate research & development in space sector 162
11.5.1.3 Rest of the Middle East 162
11.5.2 SOUTH AMERICA 162
11.5.2.1 Continued tie-ups with foreign space agencies for space missions expected to drive market 162
11.5.3 AFRICA 162
11.5.3.1 Increasing investments by governments to boost market growth 162
TABLE 122 RADIATION-HARDENED ELECTRONICS MARKET IN REST OF THE WORLD, BY REGION, 2018–2021 (USD MILLION) 163
TABLE 123 RADIATION-HARDENED ELECTRONICS MARKET IN REST OF THE WORLD, BY REGION, 2022–2027 (USD MILLION) 163
TABLE 124 RADIATION-HARDENED ELECTRONICS MARKET IN MIDDLE EAST, BY COUNTRY, 2018–2021 (USD MILLION) 163
TABLE 125 RADIATION-HARDENED ELECTRONICS MARKET IN MIDDLE EAST, BY COUNTRY, 2022–2027 (USD MILLION) 163
12 COMPETITIVE LANDSCAPE 164
12.1 OVERVIEW 164
12.2 KEY PLAYERS’ STRATEGIES/RIGHT TO WIN 164
TABLE 126 OVERVIEW OF STRATEGIES ADOPTED BY KEY PLAYERS IN RADIATION-HARDENED ELECTRONICS MARKET 164
12.2.1 PRODUCT PORTFOLIOS 165
12.2.2 REGIONAL FOCUS 166
12.2.3 ORGANIC/INORGANIC STRATEGIES 166
12.3 TOP FIVE COMPANY REVENUE ANALYSIS 166
FIGURE 50 GLOBAL RADIATION-HARDENED ELECTRONICS MARKET: REVENUE ANALYSIS OF TOP FIVE PLAYERS, 2017–2021 166
12.4 MARKET SHARE ANALYSIS, 2021 167
TABLE 127 DEGREE OF COMPETITION, RADIATION-HARDENED ELECTRONICS MARKET (2021) 167
12.5 COMPANY EVALUATION QUADRANT, 2021 170
12.5.1 STAR 170
12.5.2 EMERGING LEADERS 170
12.5.3 PERVASIVE 170
12.5.4 PARTICIPANTS 170
FIGURE 51 RADIATION-HARDENED ELECTRONICS MARKET: COMPANY EVALUATION QUADRANT, 2021 171
12.6 STARTUP/SME EVALUATION QUADRANT, 2021 171
12.6.1 PROGRESSIVE COMPANY 171
12.6.2 RESPONSIVE COMPANY 172
12.6.3 DYNAMIC COMPANY 172
12.6.4 STARTING BLOCK COMPANY 172
FIGURE 52 RADIATION-HARDENED ELECTRONICS MARKET, STARTUP/SME EVALUATION QUADRANT, 2021 172
12.7 RADIATION-HARDENED ELECTRONICS MARKET: COMPANY FOOTPRINT (15 COMPANIES) 173
TABLE 128 COMPANY FOOTPRINT 173
TABLE 129 COMPANY COMPONENT FOOTPRINT (15 COMPANIES) 173
TABLE 130 COMPANY APPLICATION FOOTPRINT (15 COMPANIES) 174
TABLE 131 COMPANY REGION FOOTPRINT (15 COMPANIES) 175
12.8 COMPETITIVE BENCHMARKING 176
TABLE 132 RADIATION-HARDENED ELECTRONICS MARKET: DETAILED LIST OF KEY STARTUPS/SMES 176
TABLE 133 RADIATION-HARDENED ELECTRONICS MARKET: COMPETITIVE BENCHMARKING OF KEY STARTUPS/SMES 177
12.9 COMPETITIVE SCENARIOS AND TRENDS 178
12.9.1 PRODUCT LAUNCHES 178
TABLE 134 PRODUCT LAUNCHES, JUNE 2021 – MARCH 2022 178
12.9.2 DEALS 179
TABLE 135 DEALS, AUGUST 2020 – SEPTEMBER 2021 179
12.9.3 OTHERS 181
TABLE 136 EXPANSIONS, AUGUST 2020 - JANUARY 2022 181
13 COMPANY PROFILES 182
13.1 KEY PLAYERS 182
(Business overview, Products/solutions offered, Recent developments, Product launches/developments, Deals, MnM view, Key strengths/right to win, Strategic choices, and Weaknesses and competitive threats)*
13.1.1 MICROCHIP TECHNOLOGY INC. 182
TABLE 137 MICROCHIP TECHNOLOGY INC.: BUSINESS OVERVIEW 182
FIGURE 53 MICROCHIP TECHNOLOGY INC: COMPANY SNAPSHOT 183
13.1.2 BAE SYSTEMS 189
TABLE 138 BAE SYSTEMS: BUSINESS OVERVIEW 189
FIGURE 54 BAE SYSTEMS: COMPANY SNAPSHOT 190
13.1.3 RENESAS ELECTRONICS CORPORATION 194
TABLE 139 RENESAS ELECTRONICS CORPORATION: BUSINESS OVERVIEW 194
FIGURE 55 RENESAS ELECTRONICS CORPORATION: COMPANY SNAPSHOT 195
13.1.4 INFINEON TECHNOLOGIES AG 199
TABLE 140 INFINEON TECHNOLOGIES AG: BUSINESS OVERVIEW 199
FIGURE 56 INFINEON TECHNOLOGIES AG: COMPANY SNAPSHOT 200
13.1.5 STMICROELECTRONICS 204
TABLE 141 STMICROELECTRONICS: BUSINESS OVERVIEW 204
FIGURE 57 STMICROELECTRONICS: COMPANY SNAPSHOT 205
13.1.6 XILINX, INC. (ADVANCED MICRO DEVICES, INC) 209
TABLE 142 XILINX, INC.: BUSINESS OVERVIEW 209
FIGURE 58 XILINX, INC.: COMPANY SNAPSHOT 210
13.1.7 TEXAS INSTRUMENTS INCORPORATED 212
TABLE 143 TEXAS INSTRUMENTS INCORPORATED: BUSINESS OVERVIEW 212
FIGURE 59 TEXAS INSTRUMENTS INCORPORATED: COMPANY SNAPSHOT 213
13.1.8 HONEYWELL INTERNATIONAL INC. 216
TABLE 144 HONEYWELL INTERNATIONAL INC.: BUSINESS OVERVIEW 216
FIGURE 60 HONEYWELL INTERNATIONAL INC.: COMPANY SNAPSHOT 217
13.1.9 TELEDYNE TECHNOLOGIES INC. 220
TABLE 145 TELEDYNE TECHNOLOGIES INC.: BUSINESS OVERVIEW 220
FIGURE 61 TELEDYNE TECHNOLOGIES INC.: COMPANY SNAPSHOT 221
13.1.10 TTM TECHNOLOGIES, INC. 223
TABLE 146 TTM TECHNOLOGIES, INC.: BUSINESS OVERVIEW 223
FIGURE 62 TTM TECHNOLOGIES, INC.: COMPANY SNAPSHOT 224
13.2 OTHER PLAYERS 226
13.2.1 COBHAM LIMITED 226
13.2.2 ANALOG DEVICES, INC 227
13.2.3 DATA DEVICE CORPORATION 228
13.2.4 3D PLUS 229
13.2.5 MERCURY SYSTEMS, INC. 230
13.2.6 PCB PIEZOTRONICS, INC. 230
13.2.7 VORAGO 231
13.2.8 MICROPAC INDUSTRIES, INC. 232
13.2.9 GSI TECHNOLOGY, INC. 233
13.2.10 EVERSPIN TECHNOLOGIES INC 233
13.2.11 SEMICONDUCTOR COMPONENTS INDUSTRIES, LLC (ON SEMICONDUCTOR) 234
13.2.12 AITECH 234
13.2.13 MICROELECTRONICS RESEARCH DEVELOPMENT CORPORATION 235
13.2.14 SPACE MICRO INC 236
13.2.15 TRIAD SEMICONDUCTOR 237
*Details on Business overview, Products/solutions offered, Recent developments, Product launches/developments, Deals, MnM view, Key strengths/right to win, Strategic choices, and Weaknesses and competitive threats might not be captured in case of unlisted companies

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Table of Contents

Summary

The radiation hardened electronics market is expected to grow from USD 1.5 billion in 2022 to USD 1.8 billion by 2027, at a CAGR of 4.0% during the forecast period. Growing intelligence, surveillance, and reconnaissance (ISR) operations worldwide is driving the market for radiation hardened electronics. ISR space operations also include the constellation of satellites that is used for tracking targets, missile warning, data coverage, communication, and other capabilities, which accelerates the demand for radiation-hardened electronics. Furthermore, increasing demand for radiation hardened electronics in commercial satellites has increased the demand for radiation-hardened electronics systems.
“The market for memory component is expected to grow at higher CAGR during the forecast period”
Memory in component segment is expected to grow at the fastest CAGR during the forecast period. The growth is driven with the increasing adoption of radiation-hardened memory solutions for compute intensive applications in the aerospace & space sector. It helps to deliver high density and improved performance to handle large amount of data obtained from various sensors and processors. The aerospace industry is shifting from data processing from ground to actual satellites which require low latency and high computational power. SRAM is offering a better solution for image processing in on board satellites by offering high memory bank restriction and improved latency.
“Radiation hardened electronics market for space application is expected to grow with the highest CAGR during the forecast period”
The economic importance of the space sector has increased, as several commercial players have developed innovative products and services related to telecommunication, navigation, etc. This is expected to propel the requirement for new satellite systems, driving the growth opportunities for radiation hardened electronics market. According to Space Foundation Report 2021, the global space economy has increased to USD 447 billion, with an increase of 4.4% in comparison to 2019. Moreover, increasing government initiatives to support the space infrastructure is a further advantage for market growth. Radiation-hardened component designers tend to increase capabilities for government and consumer space applications. Thus, there is a growing requirement for radiation immunity and signal processing for spacecraft and satellite electronic systems. Despite the economic slowdown and cancellations of several space programs, the demand from designers and integrators for radiation-hardened electronic components in the military & commercial satellite applications has not decreased. The need for high-performance signal processing payloads that can survive in a variety of high-radiation environments for longer periods of time is driving the demand for radiation hardened electronics in space applications.
“Radiation hardened electronics market in Asia Pacific region to register highest CAGR between 2022 and 2027”
The radiation hardened electronics market in Asia Pacific is expected to grow at the highest CAGR during the forecast period. The growth is driven with the rising government initiatives and funding activities for space/satellite industry. Various countries in the region are focusing on developing and launching homegrown satellites and spacecraft. For instance, in March 2022, the Wuhan city government announced providing USD 7.88 million cash incentives for projects connected with manufacturing rockets, satellites, and spacecraft. These financial incentives for the space industry are expected to drive increase in opportunities for radiation-hardened components. Technological and manufacturing abilities of China and Japan make the region a tough competitor in the global market. The Indian Space Research Organization (ISRO), China National Space Administration (CNSA), Japan Aerospace Exploration Agency (JAXA), Indian Intelligence Agencies, and Japan Ministry of Defense are some of the renowned institutions making effective use of radiation-hardened components.
Breakdown of primaries
In the process of determining and verifying the market size for several segments and subsegments gathered through secondary research, extensive primary interviews have been conducted with key industry experts in the radiation hardened electronics market space. The break-up of primary participants for the report has been shown below:
• By Company Type: Tier 1 – 35%, Tier 2 – 40%, and Tier 3 – 25%
• By Designation: C-level Executives – 35%, Directors – 25%, and Others – 40%
• By Region: Asia Pacific –40%, North America– 30%, Europe – 25%, and Rest of the World – 5%
Key players in the radiation hardened electronics market are Microchip Technology Inc. (US), BAE Systems (UK), Renesas Electronics Corporation (Japan), Infineon Technologies AG (Germany), STMicroelectronics (Switzerland), Xilinx, Inc. (US), Texas Instruments Incorporated (US), Honeywell International Inc. (US), Teledyne Technologies Inc. (US), and TTM Technologies, Inc. (US). SMEs/startups covered in the study are Cobham Limited (UK), Analog Devices, Inc (US), Data Devices Corporation (US), 3D Plus (France), Mercury Systems, Inc. (US), PCB Piezotronics, Inc (US), Vorago (US), Micropac Industries, Inc (US), GSI technology, Inc (US), Everspin Technologies Inc (US), Semiconductor Components Industries, LLC (US), AiTech (US), Microelectronics Research Development Corporation (US), Space Micro, Inc (US), and Triad Semiconductor ( US).
Research Coverage:
The report describes the detailed information regarding the major factors such as drivers, restraints, challenges, and opportunities influencing the growth of the radiation hardened electronics market. It also includes technology trends, trade data, and patent analysis. This research report categorizes the radiation hardened electronics market based on component, manufacturing techniques, product type, and region. A detailed analysis of the key industry players was carried out to provide insights into their business overviews; solutions and services offered; key strategies adopted that include new product launches, deals (acquisitions, partnerships, agreements, and contracts), and others (expansions), and COVID-19 impact on radiation hardened electronics market.
Key Benefits of Buying the Report
The report would help leaders/new entrants in this market in the following ways:
1. This report segments the radiation hardened electronics market comprehensively and provides the closest market size projection for all subsegments across different regions.
2. The report helps stakeholders understand the pulse of the market and provides them with information on key drivers, restraints, challenges, and opportunities for market growth.
3. This report would help stakeholders understand their competitors better and gain more insights to improve their position in the business. The competitive landscape section includes competitor ecosystem, product developments and launches, partnerships, and mergers and acquisitions.
4. The analysis of the top 25 companies, based on market share/rank as well as the product footprint will help stakeholders visualize the market positioning of these key players.
5. Patent analysis, trade data, pricing analysis, and technological trends that will shape the market in the coming years has also been covered in this report.

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放射線硬化エレクトロニクス市場：コンポーネント（ミックスドシグナルIC、プロセッサ＆コントローラ、メモリ、パワーマネジメント）、製造技術（RHBD、RHBP）、製品タイプ、アプリケーション、地域別（2022年〜2027年）

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ご注文は、お電話またはWEBから承ります。お見積もりの作成もお気軽にご相談ください。

本レポートと同分野（半導体）の最新刊レポート

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