세계의 내방사선성 일렉트로닉스 시장 (~2029년) : 혼합 신호 IC, 프로세서 및 컨트롤러, 메모리, 전원 관리

■ 영문 제목 : Radiation Hardened Electronics Market by Component (Mixed Signal ICs, Processors & Controllers, Memory, Power Management), Manufacturing Techniques (RHBD, RHBP), Product Type, Application and Geography - Global Forecast to 2029

MarketsandMarkets 회사가 출판한 조사자료로, 코드는 SE2934-24 입니다.■ 상품코드 : SE2934-24
■ 조사/발행회사 : MarketsandMarkets
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가격옵션 설명
- 납기는 즉일~2일소요됩니다. 3일이상 소요되는 경우는 별도표기 또는 연락드립니다.
- 지불방법은 계좌이체/무통장입금 또는 카드결제입니다.
"세계의 내방사선성 일렉트로닉스 시장은 2024년 17억 달러에서 2029년 21억 달러로 성장할 것으로 예상되며, 예측 기간 동안 연평균 4.8%의 성장률을 보일 것으로 예상됩니다." 내방사선성 일렉트로닉스의 수요는 우주 응용 분야, 정부 이니셔티브 및 기술 발전으로 인해 증가하고 있습니다.

"메모리 부품은 2024년부터 2029년까지 더 높은 CAGR로 성장할 것으로 예상됩니다."
부품 분야의 메모리는 예측 기간 동안 가장 빠른 CAGR로 성장할 것으로 예상됩니다. 메모리 장치는 데이터를 저장하고 통신 및 기능을 가능하게 하는 하드웨어 부품입니다. 우주선이나 핵무기와 같은 중요한 용도에 사용되는 메모리 제품은 반도체 부품이 받는 총 이온화 선량(TID)을 줄이기 위해 방사선 경화가 필요합니다. 항공우주 및 우주 분야의 계산량이 많은 애플리케이션은 다양한 프로세서 노드와 센서에서 발생하는 대량의 데이터를 처리하기 위해 고밀도, 고성능의 방사선 경화 메모리 솔루션에 대한 수요가 증가하고 있습니다.

"예측 기간 동안 우주 응용 분야가 가장 큰 시장 점유율을 차지할 것으로 예상됩니다."
내방사선성 일렉트로닉스는 폭풍우를 견디고 다양한 우주 응용 분야에서 안정적인 작동을 보장하기 위해 특별히 설계됐습니다. 인공위성을 관리하는 온보드 컴퓨터의 핵심부터 로켓을 조종하는 유도 시스템까지, 이 견고한 부품들은 놀랍도록 다양한 작업에 전력을 공급합니다. 통신, 연료 효율성, 과학 데이터 수집, 심지어 먼 행성 표면에서 복잡한 로봇 조종까지 다양한 작업을 수행합니다.

"북미 지역의 내방사선성 일렉트로닉스 시장, 2024년부터 2029년까지 가장 큰 시장 규모를 기록할 것 입니다."
2023년 내방사선성 일렉트로닉스 시장에서 가장 큰 점유율을 차지한 지역은 북미 지역입니다. 이 분야의 지속적인 기술 발전, 다양한 정부 우주 기관의 존재, 주요 시장 플레이어의 대부분이 이 지역에 존재한다는 점 등이 이 지역의 내방사선성 일렉트로닉스의 성장 잠재력을 뒷받침하고 있습니다. 미국 정부는 내방사선성 일렉트로닉스의 제조를 위해 지속적으로 노력하고 있습니다.

1차 분석
2차 연구를 통해 수집된 여러 세그먼트 및 하위 세그먼트의 시장 규모를 결정하고 검증하는 과정에서 내방사선성 일렉트로닉스 시장의 주요 산업 전문가를 대상으로 광범위한 1차 인터뷰를 실시했습니다.
- 기업 유형별 : Tier 1 - 40%, Tier 2 - 30%, Tier 3 - 30%.
- 직급별 : C레벨 임원 : 40%, 이사 : 40%, 기타 : 20%.
- 지역별 : 북미 : 40%, 유럽 : 30%, 아시아 태평양 : 20%, 기타 지역 : 10%

내방사선성 일렉트로닉스 시장의 주요 기업으로는 Microchip Technology Inc.(US), BAE Systems (UK), Renesas Electronics Corporation (Japan), Infineon Technologies AG (Germany), STMicroelectronics (Switzerland), AMD (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), 및 Triad Semiconductor (US)등이 있습니다.

조사 범위
이 보고서는 내방사선성 일렉트로닉스 시장의 성장에 영향을 미치는 촉진 요인, 저해 요인, 도전 과제, 기회 등 주요 요인에 대한 자세한 정보를 제공합니다. 또한, 기술 동향, 무역 데이터, 특허 분석 등의 정보도 수록되어 있습니다. 이 보고서는 부품, 제조 기술, 제품 유형, 지역별로 내방사선성 일렉트로닉스 시장을 분류하고 있습니다. 주요 산업 플레이어를 자세히 분석하여 사업 개요, 제공 제품, 신제품 출시, 거래, 기타(사업 확장)를 포함한 주요 전략, 불황이 내방사선성 일렉트로닉스 시장에 미치는 영향에 대한 통찰력을 제공합니다.

이 보고서를 구매해야 하는 이유
이 보고서는 내방사선성 일렉트로닉스 시장 전체 및 하위 부문의 수익에 대한 가장 근접한 추정치에 대한 정보를 제공하여 시장 리더/신규 진입자에게 도움을 줍니다. 이 보고서는 이해관계자들이 경쟁 현황을 이해하고 더 나은 비즈니스 포지셔닝과 적절한 시장 진입 전략을 계획할 수 있는 통찰력을 확보하는 데 도움이 될 것입니다. 또한 시장의 맥박을 이해하고 주요 촉진 요인, 저해 요인, 기회 및 도전 과제에 대한 정보를 제공합니다.

이 보고서는 다음 사항에 대한 통찰력을 제공합니다.
- 주요 요인(우주 응용 분야에서 방사선 경화 전자제품의 사용 증가), 저해 요인(실제 테스트 환경 구축의 어려움), 기회(유리한 정부 이니셔티브와 우주 임무 증가), 과제(고급 소비자를 위한 맞춤형 요구) 등을 분석합니다.
- 제품 개발/혁신 : 내방사선성 일렉트로닉스 시장의 성장 기술, R&D 활동, 신제품/신서비스 출시에 대한 심층적인 통찰력을 제공합니다.
- 시장 개발 : 인접 시장에 대한 포괄적인 정보를 제공합니다. 이 보고서는 다양한 지역의 내방사선성 일렉트로닉스 시장을 분석합니다.
- 시장 다각화 : 내방사선성 일렉트로닉스 시장의 신제품 및 서비스, 미개척 지역, 최근 개발 및 투자에 대한 자세한 정보를 제공합니다.
- 경쟁 평가 : 내방사선성 일렉트로닉스 시장의 주요 업체인 Microchip Technology Inc.(US), BAE Systems (UK), Renesas Electronics Corporation (Japan), Infineon Technologies AG (Germany), STMicroelectronics (Switzerland)등의 시장 점유율, 성장 전략, 서비스 및 제품에 대한 상세한 평가하고 있습니다.
■ 보고서 개요

1 서론
2 조사 방법
3 개요
4 프리미엄 인사이트
5 시장 개요
6 세계의 내방사선성 일렉트로닉스 시장에서의 재료 선택 및 포장 유형
7 세계의 내방사선성 일렉트로닉스 시장 규모 : 부품별
8 세계의 내방사선성 일렉트로닉스 시장 규모 : 제조 기술별
9 세계의 내방사선성 일렉트로닉스 시장 규모 : 제품 유형별
10 세계의 내방사선성 일렉트로닉스 시장 규모 : 용도별
11 지역별 분석
12 경쟁 현황
13 기업 정보
14 부록

■ 보고서 목차

1 INTRODUCTION 32
1.1 STUDY OBJECTIVES 32
1.2 MARKET DEFINITION 32
1.2.1 MARKETS COVERED 33
FIGURE 1 MARKET SEGMENTATION 33
1.3 REGIONAL SCOPE 33
1.3.1 YEARS CONSIDERED 34
1.3.2 INCLUSIONS AND EXCLUSIONS 34
1.4 CURRENCY 34
1.5 STAKEHOLDERS 35
1.6 SUMMARY OF CHANGES 35
1.7 LIMITATIONS 35
1.8 RECESSION IMPACT 35
2 RESEARCH METHODOLOGY 36
2.1 RESEARCH DATA 36
FIGURE 2 PROCESS FLOW: RADIATION-HARDENED ELECTRONICS MARKET ESTIMATION 36
FIGURE 3 RESEARCH DESIGN 37
2.1.1 SECONDARY AND PRIMARY RESEARCH 38
2.1.1.1 Key industry insights 39
2.1.2 SECONDARY DATA 39
2.1.2.1 List of key secondary sources 39
2.1.2.2 Key data from secondary sources 40
2.1.3 PRIMARY DATA 40
2.1.3.1 Breakdown of primaries 40
2.1.3.2 Key data from primary sources 41
2.2 MARKET SIZE ESTIMATION 41
2.2.1 BOTTOM-UP APPROACH 42
2.2.1.1 Approach to obtain market size using bottom-up analysis (demand side) 42
FIGURE 4 MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH 42
2.2.2 TOP-DOWN APPROACH 43
2.2.2.1 Approach to capture market size using top-down analysis 43
FIGURE 5 MARKET SIZE ESTIMATION METHODOLOGY: TOP-DOWN APPROACH 43
2.3 DATA TRIANGULATION 44
FIGURE 6 DATA TRIANGULATION 44
2.4 RESEARCH ASSUMPTIONS 45
2.5 LIMITATIONS 45
2.6 RISK ASSESSMENT 46
2.7 APPROACH TO ANALYZE IMPACT OF RECESSION ON RADIATION-HARDENED ELECTRONICS MARKET 46
3 EXECUTIVE SUMMARY 47
3.1 RADIATION-HARDENED ELECTRONICS MARKET: RECESSION IMPACT 47
FIGURE 7 RECESSION IMPACT ON RADIATION-HARDENED ELECTRONICS MARKET, 2020–2029 (USD MILLION) 47
FIGURE 8 POWER MANAGEMENT SEGMENT TO ACCOUNT FOR LARGEST SHARE, BY COMPONENT, DURING FORECAST PERIOD 48
FIGURE 9 RADIATION-HARDENED BY DESIGN – FASTEST SEGMENT DURING FORECAST PERIOD 49
FIGURE 10 SPACE APPLICATION TO GROW AT HIGHEST CAGR IN RADIATION-HARDENED ELECTRONICS MARKET FROM 2024 TO 2029 49
FIGURE 11 NORTH AMERICA ACCOUNTED FOR LARGEST MARKET SHARE IN 2023 50
4 PREMIUM INSIGHTS 51
4.1 ATTRACTIVE GROWTH OPPORTUNITIES IN RADIATION-HARDENED ELECTRONICS MARKET 51
FIGURE 12 INCREASING DEMAND FOR RADIATION-HARDENED ELECTRONICS IN COMMERCIAL SATELLITES EXPECTED TO PROPEL MARKET GROWTH 51
4.2 RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT 52
FIGURE 13 POWER MANAGEMENT SEGMENT TO ACCOUNT FOR LARGEST SHARE FROM 2024 TO 2029 52
4.3 RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE 52
FIGURE 14 RADIATION-HARDENED BY DESIGN SEGMENT TO DOMINATE MARKET FROM 2024 TO 2029 52
4.4 RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE 53
FIGURE 15 COTS SEGMENT TO LEAD MARKET WITH MAJOR SHARE THROUGH 2029 53
4.5 RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION 53
FIGURE 16 SPACE SEGMENT TO COMMAND LARGEST SHARE OF RADIATION-HARDENED ELECTRONICS MARKET IN 2024 53
4.6 RADIATION-HARDENED ELECTRONICS MARKET, BY COUNTRY AND REGION 54
FIGURE 17 RADIATION-HARDENED ELECTRONICS MARKET IN CHINA TO GROW AT HIGHEST CAGR FROM 2024 TO2029 54
5 MARKET OVERVIEW 55
5.1 INTRODUCTION 55
5.2 EVOLUTION: RADIATION-HARDENED ELECTRONICS MARKET 55
FIGURE 18 EVOLUTION OF RADIATION-HARDENED ELECTRONICS TECHNOLOGY 56
5.3 MARKET DYNAMICS 56
FIGURE 19 DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES: RADIATION-HARDENED ELECTRONICS MARKET 56
5.3.1 DRIVERS 57
FIGURE 20 DRIVERS FOR RADIATION-HARDENED ELECTRONICS MARKET AND THEIR IMPACT 57
5.3.1.1 Rising intelligence, surveillance, and reconnaissance (ISR) activities 57
5.3.1.2 Technology advancements in multicore processors used for military and space applications 58
5.3.1.3 Increasing demand for use in commercial satellites 58
5.3.1.4 Proliferation of electronic systems that can withstand severe nuclear environments 59
5.3.2 RESTRAINTS 59
FIGURE 21 RESTRAINTS IN RADIATION-HARDENED ELECTRONICS MARKET AND THEIR IMPACT 59
5.3.2.1 Difficulties in creating real testing environments 60
5.3.2.2 High costs associated with development of radiation-hardened products 60
5.3.3 OPPORTUNITIES 60
FIGURE 22 OPPORTUNITIES IN RADIATION-HARDENED ELECTRONICS MARKET AND THEIR IMPACT 60
5.3.3.1 Increasing space missions globally 61
5.3.3.2 Demand for reconfigurable radiation-hardened electronics 61
5.3.3.3 Rising demand for commercial-off-the-shelf components in space satellites 62
5.3.4 CHALLENGES 62
FIGURE 23 CHALLENGES IN RADIATION-HARDENED ELECTRONICS MARKET AND THEIR IMPACT 62
5.3.4.1 Customization requirements from high-end consumers 62
5.4 TRENDS/DISRUPTIONS IMPACTING CUSTOMERS 63
FIGURE 24 REVENUE SHIFT FOR RADIATION-HARDENED ELECTRONICS 63
5.5 PRICING ANALYSIS 64
5.5.1 AVERAGE SELLING PRICE OF POWER MANAGEMENT PRODUCTS 64
FIGURE 25 AVERAGE SELLING PRICE OF POWER MANAGEMENT PRODUCTS 64
5.5.2 POWER MANAGEMENT 64
TABLE 1 AVERAGE SELLING PRICE ANALYSIS OF KEY PLAYERS 65
5.5.3 MIXED SIGNAL ICS 65
TABLE 2 AVERAGE SELLING PRICE OF A/D & D/A CONVERTERS 65
5.5.4 PROCESSORS & CONTROLLERS 65
TABLE 3 AVERAGE SELLING PRICE OF PROCESSORS & CONTROLLERS 66
5.5.5 MEMORY 66
TABLE 4 AVERAGE SELLING PRICE OF MEMORY PRODUCTS 66
5.6 SUPPLY/VALUE CHAIN ANALYSIS 66
FIGURE 26 VALUE CHAIN ANALYSIS: MAJOR VALUE ADDED DURING MANUFACTURING, FABRICATION & PACKAGING AND INTERFACING & SOFTWARE DEVELOPMENT 67
5.7 ECOSYSTEM/MARKET MAP 69
FIGURE 27 RADIATION-HARDENED ELECTRONICS MARKET: ECOSYSTEM 69
TABLE 5 RADIATION-HARDENED ELECTRONICS MARKET: ECOSYSTEM 70
5.8 INVESTMENT AND FUNDING SCENARIO 71
FIGURE 28 FUNDS AUTHORIZED BY COMPANIES IN RADIATION-HARDENED ELECTRONICS MARKET 71
5.9 TECHNOLOGY ANALYSIS 71
5.9.1 DEVELOPMENT OF PLASTIC PACKAGING FOR SPACE-GRADE ELECTRONICS 71
5.9.2 SMART CHIPSETS FOR SATELLITES 71
5.9.3 ADVANCED PACKAGING OF SPACE ELECTRONICS 72
5.10 PORTER’S FIVE FORCES ANALYSIS 72
TABLE 6 RADIATION-HARDENED ELECTRONICS MARKET: PORTER’S FIVE FORCES ANALYSIS 72
5.10.1 INTENSITY OF COMPETITIVE RIVALRY 73
5.10.2 BARGAINING POWER OF SUPPLIERS 73
5.10.3 BARGAINING POWER OF BUYERS 73
5.10.4 THREAT OF SUBSTITUTES 73
5.10.5 THREAT OF NEW ENTRANTS 74
5.11 KEY STAKEHOLDERS & BUYING CRITERIA 74
5.11.1 KEY STAKEHOLDERS IN BUYING PROCESS 74
FIGURE 29 INFLUENCE OF STAKEHOLDERS ON BUYING PROCESS FOR TOP THREE INDUSTRIES 74
TABLE 7 INFLUENCE OF STAKEHOLDERS ON BUYING PROCESS FOR TOP THREE INDUSTRIES 74
5.11.2 BUYING CRITERIA 75
FIGURE 30 KEY BUYING CRITERIA FOR TOP THREE INDUSTRIES 75
TABLE 8 KEY BUYING CRITERIA FOR TOP THREE INDUSTRIES 75
5.12 CASE STUDY ANALYSIS 75
TABLE 9 ASSESSMENT OF 90 MM PROCESS HARDENING TECHNIQUE 76
TABLE 10 ASSESSMENT OF 4MBIT MRAM DEVICE IN SATELLITES 76
TABLE 11 ASSESSMENT OF RADIATION-HARDENED BY DESIGN MICROELECTRONICS 77
TABLE 12 ASSESSMENT OF ARM MCUS FOR SPACE CONDITIONS 77
TABLE 13 ASSESSMENT OF SSDS FOR LOW EARTH ORBIT SATELLITES 78
5.13 TRADE ANALYSIS 78
5.13.1 IMPORT SCENARIO 78
FIGURE 31 IMPORTS, BY KEY COUNTRY, 2019–2022 (USD THOUSAND) 78
5.13.2 EXPORT SCENARIO 79
FIGURE 32 EXPORTS, BY KEY COUNTRY, 2019–2022 (USD THOUSAND) 79
5.14 PATENT ANALYSIS 80
FIGURE 33 TOP 10 COMPANIES WITH HIGHEST NUMBER OF PATENT APPLICATIONS IN LAST 10 YEARS 80
TABLE 14 TOP 20 PATENT OWNERS IN LAST 10 YEARS 80
FIGURE 34 NUMBER OF PATENTS GRANTED PER YEAR FROM 2013 TO 2023 81
TABLE 15 LIST OF MAJOR PATENTS 81
5.15 KEY CONFERENCES & EVENTS DURING 2024–2025 83
TABLE 16 RADIATION-HARDENED ELECTRONICS MARKET: CONFERENCES & EVENTS 83
5.16 REGULATORY LANDSCAPE 84
5.16.1 REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 84
TABLE 17 NORTH AMERICA: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 85
TABLE 18 EUROPE: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 85
TABLE 19 ASIA PACIFIC: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 86
TABLE 20 REST OF THE WORLD: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 86
5.16.2 STANDARDS AND REGULATIONS RELATED TO MARKET 86
5.16.2.1 North America 87
5.16.2.1.1 US 87
5.16.2.1.1.1 MIL-STD-750D 87
5.16.2.1.1.2 MIL-STD-750F 87
5.16.2.1.1.3 Radiation Hardness Assurance SSB1_005 87
5.16.2.1.1.4 MIL-STD-975M (NASA) 87
5.16.2.1.2 Canada 87
5.16.2.1.2.1 Radiation Emitting Devices Regulations (C.R.C., c. 1370) 87
5.16.2.2 Europe 88
5.16.2.2.1 ECSS-Q-60-01A 88
5.16.2.2.2 ECSS-Q-ST-60-15C 88
5.16.2.2.3 ECSS-Q-HB-60-02A 88
5.16.2.3 Asia Pacific 88
5.16.2.3.1 India 88
5.16.2.3.1.1 IS:1885 88
5.16.2.3.2 Japan 88
5.16.2.3.2.1 Japan Product Safety Compliance 88
5.16.2.3.2.2 JMR-001 88
6 MATERIAL SELECTION AND PACKAGING TYPES IN RADIATION-HARDENED ELECTRONICS MARKET 89
6.1 INTRODUCTION 89
6.2 MATERIAL SELECTION 89
6.2.1 SILICON 89
6.2.2 SILICON CARBIDE (SIC) 89
6.2.3 GALLIUM NITRIDE (GAN) 90
6.2.4 GALLIUM ARSENIDE (GAAS) 90
6.3 PACKAGING TYPES 91
6.3.1 FLIP-CHIP 91
6.3.2 CERAMIC PACKAGES 91
7 RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT 92
7.1 INTRODUCTION 93
FIGURE 35 POWER MANAGEMENT SEGMENT TO ACCOUNT FOR LARGEST SHARE DURING FORECAST PERIOD 93
TABLE 21 RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2020–2023 (USD MILLION) 93
TABLE 22 RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2024–2029 (USD MILLION) 93
7.2 MIXED SIGNAL ICS 94
TABLE 23 MIXED SIGNAL DEVICES: RADIATION-HARDENED ELECTRONICS MARKET, BY TYPE, 2020–2023 (USD MILLION) 94
TABLE 24 MIXED SIGNAL DEVICES: RADIATION-HARDENED ELECTRONICS MARKET, BY TYPE, 2024–2029 (USD MILLION) 94
TABLE 25 MIXED SIGNAL ICS: RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, 2020–2023 (USD MILLION) 95
TABLE 26 MIXED SIGNAL ICS: RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, 2024–2029 (USD MILLION) 95
TABLE 27 MIXED SIGNAL ICS: RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE, 2020–2023 (USD MILLION) 95
TABLE 28 MIXED SIGNAL ICS: RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE, 2024–2029 (USD MILLION) 95
7.2.1 RAD-HARD A/D AND D/A CONVERTERS 96
7.2.1.1 Increasing usage in space applications 96
7.2.2 MULTIPLEXERS & RESISTORS 96
7.2.2.1 High demand for multiplexers in data acquisition systems 96
7.3 PROCESSORS & CONTROLLERS 96
TABLE 29 PROCESSORS & CONTROLLERS: RADIATION-HARDENED ELECTRONICS MARKET, BY TYPE, 2020–2023 (USD MILLION) 96
TABLE 30 PROCESSORS & CONTROLLERS: RADIATION-HARDENED ELECTRONICS MARKET, BY TYPE, 2024–2029 (USD MILLION) 97
TABLE 31 PROCESSORS & CONTROLLERS: RADIATION-HARDENED ELECTRONICS MARKET, BY TYPE, 2020–2023 (THOUSAND UNITS) 97
TABLE 32 PROCESSORS & CONTROLLERS: RADIATION-HARDENED ELECTRONICS MARKET, BY TYPE, 2024–2029 (THOUSAND UNITS) 97
TABLE 33 PROCESSORS & CONTROLLERS: RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, 2020–2023 (USD MILLION) 98
TABLE 34 PROCESSORS & CONTROLLERS: RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, 2024–2029 (USD MILLION) 98
TABLE 35 PROCESSORS & CONTROLLERS: RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE, 2020–2023 (USD MILLION) 98
TABLE 36 PROCESSORS & CONTROLLERS: RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE, 2024–2029 (USD MILLION) 98
7.3.1 MICROPROCESSOR UNITS (MPUS) 99
7.3.1.1 Developments in multicore processors for space & defense applications 99
7.3.2 MICROCONTROLLER UNITS (MCUS) 99
7.3.2.1 Development of ARM-based microcontrollers for spacecraft subsystems 99
7.3.3 APPLICATION-SPECIFIC INTEGRATED CIRCUITS (ASICS) 100
7.3.3.1 Increasing demand for highly customized design 100
7.3.4 FPGAS 100
7.3.4.1 Help eliminate costs related to re-designing or manual updating 100
7.4 MEMORY 101
TABLE 37 MEMORY: RADIATION-HARDENED ELECTRONICS MARKET, BY TYPE, 2020–2023 (USD MILLION) 101
TABLE 38 MEMORY: RADIATION-HARDENED ELECTRONICS MARKET, BY TYPE, 2024–2029 (USD MILLION) 101
TABLE 39 MEMORY: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2020–2023 (USD MILLION) 101
TABLE 40 MEMORY: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2024–2029 (USD MILLION) 102
TABLE 41 MEMORY: RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, 2020–2023 (USD MILLION) 102
TABLE 42 MEMORY: RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, 2024–2029 (USD MILLION) 102
TABLE 43 MEMORY: RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE, 2020–2023 (USD MILLION) 102
TABLE 44 MEMORY: RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE, 2024–2029 (USD MILLION) 103
7.4.1 VOLATILE MEMORY 103
7.4.1.1 Dynamic Random-Access Memory (DRAM) 103
7.4.1.1.1 Low retention time expected to increase adoption in spacecraft 103
7.4.1.2 Static random-access memory (SRAM) 103
7.4.1.2.1 High adoption in image processing applications 103
7.4.2 NON-VOLATILE MEMORY 104
7.4.2.1 Magnetoresistive random-access memory (MRAM) 104
7.4.2.1.1 Increasing developments in MRAM technologies for space environment 104
7.4.2.2 Flash 104
7.4.2.2.1 Increasing requirement for NOR flash memory in processing applications 104
7.4.2.3 Others (ReRAM, EEPROM, NVRAM) 104
7.5 POWER MANAGEMENT 105
TABLE 45 POWER MANAGEMENT: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2020–2023 (USD MILLION) 105
TABLE 46 POWER MANAGEMENT: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2024–2029 (USD MILLION) 105
TABLE 47 POWER MANAGEMENT: RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, 2020–2023 (USD MILLION) 106
TABLE 48 POWER MANAGEMENT: RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, 2024–2029 (USD MILLION) 106
TABLE 49 POWER MANAGEMENT: RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE, 2020–2023 (USD MILLION) 106
TABLE 50 POWER MANAGEMENT: RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE, 2024–2029 (USD MILLION) 106
7.5.1 MOSFETS 107
7.5.1.1 Increasing adoption for outer space applications 107
7.5.2 DIODES 107
7.5.2.1 Integration of ceramic packaging technology to improve performance in space applications 107
7.5.3 THYRISTORS 107
7.5.3.1 Increasing adoption in aerospace & defense applications 107
7.5.4 IGBTS 108
7.5.4.1 High current density and low power dissipation drive adoption 108
7.6 OTHERS (QUALITATIVE) 108
8 RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE 109
8.1 INTRODUCTION 110
FIGURE 36 RHBD SEGMENT TO LEAD RADIATION-HARDENED ELECTRONICS MARKET DURING FORECAST PERIOD 110
TABLE 51 RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, 2020–2023 (USD MILLION) 111
TABLE 52 RADIATION-HARDENED ELECTRONICS MARKET, BY MANUFACTURING TECHNIQUE, 2024–2029 (USD MILLION) 111
8.2 RADIATION-HARDENING BY DESIGN (RHBD) 111
TABLE 53 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2020–2023 (USD MILLION) 112
TABLE 54 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2024–2029 (USD MILLION) 112
TABLE 55 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY MIXED SIGNAL IC, 2020–2023 (USD MILLION) 112
TABLE 56 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY MIXED SIGNAL IC, 2024–2029 (USD MILLION) 112
TABLE 57 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY PROCESSOR & CONTROLLER, 2020–2023 (USD MILLION) 113
TABLE 58 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY PROCESSOR & CONTROLLER, 2024–2029 (USD MILLION) 113
TABLE 59 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY, 2020–2023 (USD MILLION) 113
TABLE 60 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY, 2024–2029 (USD MILLION) 114
TABLE 61 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT, 2020–2023 (USD MILLION) 114
TABLE 62 RHBD: RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT, 2024–2029 (USD MILLION) 114
8.2.1 TOTAL IONIZING DOSE 115
8.2.1.1 Long-term ionizing damage could result in malfunctioning of electronic components 115
8.2.2 SINGLE EVENT EFFECT (SEE) 115
8.2.2.1 RHBD approach favored in space electronics 115
8.3 RADIATION-HARDENING BY PROCESS (RHBP) 115
TABLE 63 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2020–2023 (USD MILLION) 116
TABLE 64 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2024–2029 (USD MILLION) 116
TABLE 65 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY MIXED SIGNAL IC, 2020–2023 (USD MILLION) 116
TABLE 66 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY MIXED SIGNAL IC, 2024–2029 (USD MILLION) 117
TABLE 67 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY PROCESSOR & CONTROLLER, 2020–2023 (USD MILLION) 117
TABLE 68 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY PROCESSOR & CONTROLLER, 2024–2029 (USD MILLION) 117
TABLE 69 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY, 2020–2023 (USD MILLION) 117
TABLE 70 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY, 2024–2029 (USD MILLION) 118
TABLE 71 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT, 2020–2023 (USD MILLION) 118
TABLE 72 RHBP: RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT, 2024–2029 (USD MILLION) 118
8.3.1 SILICON ON INSULATOR (SOI) 119
8.3.1.1 Integration of SOI ICs in insulation layers provides benefits in high-radiation environments 119
8.3.2 SILICON ON SAPPHIRE (SOS) 119
8.3.2.1 High resistance to radiation increases demand in aerospace and military applications 119
8.4 RADIATION HARDENING BY SOFTWARE (RHBS) (QUALITATIVE) 119
9 RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE 120
9.1 INTRODUCTION 121
FIGURE 37 COTS SEGMENT TO HOLD LARGER SHARE AND REGISTER HIGHER CAGR DURING FORECAST PERIOD 121
TABLE 73 RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE, 2020–2023 (USD MILLION) 121
TABLE 74 RADIATION-HARDENED ELECTRONICS MARKET, BY PRODUCT TYPE, 2024–2029 (USD MILLION) 122
9.2 COMMERCIAL-OFF-THE-SHELF (COTS) 122
9.2.1 INCREASING ADOPTION IN COMMERCIAL AND MILITARY SATELLITES DUE TO LOW-COST BENEFITS 122
TABLE 75 COTS: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2020–2023 (USD MILLION) 123
TABLE 76 COTS: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2024–2029 (USD MILLION) 123
TABLE 77 COTS: RADIATION-HARDENED ELECTRONICS MARKET, BY MIXED SIGNAL IC, 2020–2023 (USD MILLION) 123
TABLE 78 COTS: RADIATION-HARDENED ELECTRONICS MARKET, BY MIXED SIGNAL IC, 2024–2029 (USD MILLION) 123
TABLE 79 COTS: RADIATION-HARDENED ELECTRONICS MARKET, BY PROCESSOR & CONTROLLER, 2020–2023 (USD MILLION) 124
TABLE 80 COTS: RADIATION-HARDENED ELECTRONICS MARKET, BY PROCESSOR & CONTROLLER, 2024–2029 (USD MILLION) 124
TABLE 81 COTS: RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY, 2020–2023 (USD MILLION) 124
TABLE 82 COTS: RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY, 2024–2029 (USD MILLION) 124
TABLE 83 COTS: RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT, 2020–2023 (USD MILLION) 125
TABLE 84 COTS: RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT, 2024–2029 (USD MILLION) 125
9.3 CUSTOM-MADE 125
9.3.1 HIGH PREFERENCE IN DEFENSE MISSION-CRITICAL APPLICATIONS 125
TABLE 85 CUSTOM-MADE: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2020–2023 (USD MILLION) 126
TABLE 86 CUSTOM-MADE: RADIATION-HARDENED ELECTRONICS MARKET, BY COMPONENT, 2024–2029 (USD MILLION) 126
TABLE 87 CUSTOM-MADE: RADIATION-HARDENED ELECTRONICS MARKET, BY MIXED SIGNAL IC, 2020–2023 (USD MILLION) 126
TABLE 88 CUSTOM-MADE: RADIATION-HARDENED ELECTRONICS MARKET, BY MIXED SIGNAL IC, 2024–2029 (USD MILLION) 126
TABLE 89 CUSTOM-MADE: RADIATION-HARDENED ELECTRONICS MARKET, BY PROCESSOR & CONTROLLER, 2020–2023 (USD MILLION) 127
TABLE 90 CUSTOM-MADE: RADIATION-HARDENED ELECTRONICS MARKET, BY PROCESSOR & CONTROLLER, 2024–2029 (USD MILLION) 127
TABLE 91 CUSTOM-MADE: RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY, 2020–2023 (USD MILLION) 127
TABLE 92 CUSTOM-MADE: RADIATION-HARDENED ELECTRONICS MARKET, BY MEMORY, 2024–2029 (USD MILLION) 127
TABLE 93 CUSTOM-MADE: RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT, 2020–2023 (USD MILLION) 128
TABLE 94 CUSTOM-MADE: RADIATION-HARDENED ELECTRONICS MARKET, BY POWER MANAGEMENT, 2024–2029 (USD MILLION) 128
10 RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION 129
10.1 INTRODUCTION 130
FIGURE 38 SPACE APPLICATION SEGMENT TO HOLD LARGEST SHARE AND REGISTER HIGHEST CAGR DURING FORECAST PERIOD 130
TABLE 95 RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION, 2020–2023 (USD MILLION) 131
TABLE 96 RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION, 2024–2029 (USD MILLION) 131
10.2 SPACE 132
10.2.1 PROLIFERATION IN GLOBAL SPACE ECONOMY TO DRIVE GROWTH OPPORTUNITIES 132
TABLE 97 SPACE: RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION, 2020–2023 (USD MILLION) 132
TABLE 98 SPACE: RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION, 2024–2029 (USD MILLION) 132
TABLE 99 SPACE: RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2020–2023 (USD MILLION) 133
TABLE 100 SPACE: RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2024–2029 (USD MILLION) 133
10.2.2 COMMERCIAL 134
10.2.2.1 Small satellites 134
10.2.2.2 New Space 135
10.2.2.3 Nanosatellites 135
10.2.3 MILITARY 135
10.3 AEROSPACE & DEFENSE 136
10.3.1 INCREASING FUNDING FOR MILITARY SECTOR IN EMERGING COUNTRIES TO DRIVE MARKET GROWTH 136
TABLE 101 AEROSPACE & DEFENSE: RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION, 2020–2023 (USD MILLION) 136
TABLE 102 AEROSPACE & DEFENSE: RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION, 2024–2029 (USD MILLION) 136
TABLE 103 AEROSPACE & DEFENSE: RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2020–2023 (USD MILLION) 137
TABLE 104 AEROSPACE & DEFENSE: RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2024–2029 (USD MILLION) 137
10.3.2 WEAPONS AND MISSILES 137
10.3.3 VEHICLES/AVIONICS 138
10.4 NUCLEAR POWER PLANTS 138
10.4.1 RISE IN CONSTRUCTION OF NUCLEAR REACTORS FOR POWER GENERATION TO DRIVE MARKET GROWTH 138
TABLE 105 NUCLEAR POWER PLANTS: RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2020–2023 (USD MILLION) 138
TABLE 106 NUCLEAR POWER PLANTS: RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2024–2029 (USD MILLION) 139
10.5 MEDICAL 139
10.5.1 INTEGRATION OF EMI SHIELDING AND FILTERING IN IMPLANTABLE DEVICES TO BOOST GROWTH 139
10.5.2 IMPLANTABLE MEDICAL DEVICES 139
TABLE 107 MEDICAL: RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION 2020–2023 (USD MILLION) 139
TABLE 108 MEDICAL: RADIATION-HARDENED ELECTRONICS MARKET, BY APPLICATION, 2024–2029 (USD MILLION) 140
TABLE 109 MEDICAL: RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2020–2023 (USD MILLION) 140
TABLE 110 MEDICAL: RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2024–2029 (USD MILLION) 140
10.5.3 RADIOLOGY 141
10.6 OTHERS 141
TABLE 111 OTHER APPLICATIONS: RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2020–2023 (USD MILLION) 141
TABLE 112 OTHER APPLICATIONS: RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2024–2029 (USD MILLION) 141
11 REGIONAL ANALYSIS 142
11.1 INTRODUCTION 143
FIGURE 39 REGIONAL SNAPSHOT: CHINA EXPECTED TO GROW AT HIGHEST CAGR DURING FORECAST PERIOD 143
FIGURE 40 RADIATION-HARDENED ELECTRONICS MARKET, BY REGION 144
TABLE 113 RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2020–2023 (USD MILLION) 144
TABLE 114 RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2024–2029 (USD MILLION) 144
11.2 NORTH AMERICA 145
FIGURE 41 NORTH AMERICA: RADIATION-HARDENED ELECTRONICS MARKET SNAPSHOT 145
TABLE 115 NORTH AMERICA: RADIATION-HARDENED ELECTRONICS MARKET, BY COUNTRY, 2020–2023 (USD MILLION) 146
TABLE 116 NORTH AMERICA: RADIATION-HARDENED ELECTRONICS MARKET, BY COUNTRY, 2024–2029 (USD MILLION) 146
11.2.1 US 146
11.2.1.1 Increase in space missions from government and private agencies to drive demand 146
11.2.2 CANADA 147
11.2.2.1 Ongoing developments in satellites expected to drive market 147
11.2.3 MEXICO 147
11.2.3.1 Growing economy and increasing urban mobility increase demand for satellites 147
11.2.4 IMPACT OF RECESSION ON MARKET IN NORTH AMERICA 148
11.3 EUROPE 148
FIGURE 42 EUROPE: RADIATION-HARDENED ELECTRONICS MARKET SNAPSHOT 149
TABLE 117 EUROPE: RADIATION-HARDENED ELECTRONICS MARKET, BY COUNTRY, 2020–2023 (USD MILLION) 149
TABLE 118 EUROPE: RADIATION-HARDENED ELECTRONICS MARKET, BY COUNTRY, 2024–2029 (USD MILLION) 150
11.3.1 UK 150
11.3.1.1 Increasing initiatives by government and private entities in space sector to fuel market growth 150
11.3.2 GERMANY 151
11.3.2.1 Proliferation in national space programs to boost demand for radiation-hardened electronics 151
11.3.3 FRANCE 151
11.3.3.1 Increasing partnerships in space industry to increase competitiveness of France in European Union 151
11.3.4 REST OF EUROPE 152
11.3.5 IMPACT OF RECESSION ON MARKET IN EUROPE 152
11.4 ASIA PACIFIC 152
FIGURE 43 ASIA PACIFIC: RADIATION-HARDENED ELECTRONICS MARKET SNAPSHOT 153
TABLE 119 ASIA PACIFIC: RADIATION-HARDENED ELECTRONICS MARKET, BY COUNTRY, 2020–2023 (USD MILLION) 153
TABLE 120 ASIA PACIFIC: RADIATION-HARDENED ELECTRONICS MARKET, BY COUNTRY, 2024–2029 (USD MILLION) 154
11.4.1 CHINA 154
11.4.1.1 Advancements in space missions expected to drive market 154
11.4.2 INDIA 155
11.4.2.1 Increasing developments by ISRO to drive market 155
11.4.3 JAPAN 155
11.4.3.1 Involvement of private space companies in government space programs to boost market 155
11.4.4 SOUTH KOREA 155
11.4.4.1 Private-public investments in infrastructure, industrial, commercial, military, space, and defense projects – key driver 155
11.4.5 REST OF ASIA PACIFIC 156
11.4.6 IMPACT OF RECESSION ON MARKET IN ASIA PACIFIC 156
11.5 REST OF THE WORLD (ROW) 156
TABLE 121 ROW: RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2020–2023 (USD MILLION) 156
TABLE 122 ROW: RADIATION-HARDENED ELECTRONICS MARKET, BY REGION, 2024–2029 (USD MILLION) 157
11.5.1 GULF COOPERATION COUNCIL (GCC) 157
11.5.1.1 Proliferation of satellite operations to drive market 157
11.5.2 SOUTH AMERICA 157
11.5.2.1 Tie-ups with foreign agencies for space missions to propel market growth 157
11.5.3 REST OF MIDDLE EAST AND AFRICA 158
11.5.3.1 Increasing investments by governments to boost market growth 158
11.5.4 RECESSION IMPACT ON MARKET IN REST OF MIDDLE EAST AND AFRICA 158
12 COMPETITIVE LANDSCAPE 159
12.1 INTRODUCTION 159
12.2 KEY PLAYER STRATEGIES 159
TABLE 123 KEY PLAYER STRATEGIES 159
12.3 MARKET REVENUE ANALYSIS 161
FIGURE 44 RADIATION-HARDENED ELECTRONICS MARKET: REVENUE ANALYSIS OF TOP FIVE PLAYERS, 2020–2022 161
12.4 MARKET SHARE ANALYSIS 162
FIGURE 45 MARKET SHARE ANALYSIS, 2023 162
TABLE 124 DEGREE OF COMPETITION, RADIATION-HARDENED ELECTRONICS MARKET (2023) 162
TABLE 125 MARKET RANKING ANALYSIS 163
12.5 VALUATION AND FINANCIAL METRICS IN RADIATION-HARDENED ELECTRONICS MARKET 165
FIGURE 46 EV/EBITDA OF KEY VENDORS 165
12.6 BRAND/PRODUCT COMPARATIVE ANALYSIS 166
FIGURE 47 RADIATION-HARDENED ELECTRONICS MARKET: TOP TRENDING BRAND/PRODUCTS 166
12.7 COMPANY EVALUATION MATRIX 167
12.7.1 STARS 167
12.7.2 EMERGING LEADERS 167
12.7.3 PERVASIVE PLAYERS 167
12.7.4 PARTICIPANTS 167
FIGURE 48 RADIATION-HARDENED ELECTRONICS MARKET: TOP COMPANY EVALUATION QUADRANT, 2023 168
12.8 RADIATION-HARDENED ELECTRONICS MARKET: COMPANY FOOTPRINT (15 COMPANIES) 169
TABLE 126 COMPANY FOOTPRINT 169
TABLE 127 COMPANY COMPONENT FOOTPRINT (15 COMPANIES) 170
TABLE 128 COMPANY APPLICATION FOOTPRINT (15 COMPANIES) 171
TABLE 129 COMPANY REGION FOOTPRINT (15 COMPANIES) 172
TABLE 130 COMPANY PRODUCT TYPE FOOTPRINT (15 COMPANIES) 173
TABLE 131 COMPANY MANUFACTURING TECHNIQUE FOOTPRINT (15 COMPANIES) 173
12.9 STARTUP/SME EVALUATION QUADRANT, 2023 174
12.9.1 PROGRESSIVE COMPANIES 174
12.9.2 RESPONSIVE COMPANIES 174
12.9.3 DYNAMIC COMPANIES 174
12.9.4 STARTING BLOCKS 174
FIGURE 49 RADIATION-HARDENED ELECTRONICS MARKET, STARTUP/SME EVALUATION QUADRANT, 2023 175
12.10 COMPETITIVE BENCHMARKING 176
TABLE 132 RADIATION-HARDENED ELECTRONICS MARKET: KEY STARTUPS/SMES 176
TABLE 133 RADIATION-HARDENED ELECTRONICS MARKET: COMPETITIVE BENCHMARKING OF KEY STARTUPS/SMES 177
12.11 COMPETITIVE SCENARIOS AND TRENDS 178
12.11.1 PRODUCT LAUNCHES/DEVELOPMENTS 178
TABLE 134 RADIATION-HARDENED ELECTRONICS MARKET: PRODUCT LAUNCHES/DEVELOPMENTS, 2021–2024 178
12.11.2 DEALS 179
TABLE 135 RADIATION-HARDENED ELECTRONICS MARKET: DEALS, 2021–2024 179
12.11.3 OTHERS 181
TABLE 136 RADIATION-HARDENED ELECTRONICS MARKET: OTHER DEALS, 2021–2024 181

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  • 세계의 산업용 이더넷 시장 (~2028년)
    SE4779-23 / MarketsandMarkets / 2023년 1월 / 마켓츠앤마켓츠 (MarketsandMarkets)는 세계의 산업용 이더넷 시장 규모가 2023년 110억 달러에서 2028년 158억 달러에 이르며, 예측 기간 동안 연평균 7.5%로 성장할 것으로 추정하고 있습니다. 본 조사 자료는 세계의 산업용 이더넷 시장을...“The industrial ethernet market is projected to grow from USD 11.0 billion in 2023 to USD 15.8 billion by 2028; it is expected to register a CAGR of 7.5% during the forecast period. ” “Services in offering segment to register the highest CAGR of industrial ethernet market during the forecast...
  • 세계의 액티브 광케이블 및 익스텐더 시장 (~2028년) : 제품별, 프로토콜별 (인피니 밴드, 이더넷, SAS (Serial-Attached SCSI), 디스플레이 포트, HDMI, 썬더볼트, USB), 폼 팩터별 (QSFP, QSFP-DD, SFP, SFP+, PCIE, CXP), 용도별, 지역별
    SE4164-23 / MarketsandMarkets / 2023년 8월 / "세계의 액티브 광케이블 및 익스텐더 시장은 2023년 33억 달러, 2028년 62억 달러로 2023년부터 2028년까지 13.1%의 CAGR로 성장할 것으로 예측됩니다."AOC는 기존 구리 케이블보다 AOC가 더 신뢰할 수 있고, 데이터 센터에서 광섬유...1. 소개 2. 조사 방법 3. 개요 4. 프리미엄 인사이트 5. 시장 동향 6. 액티브 광케이블 및 익스텐더 시장 : 제품별 7. 액티브 광케이블 및 익스텐더 시장 : 프로토콜별 8. 액티브 광케이블 및 익스텐더 시장 : 폼 팩터별 9. 액티브 광케이블 및 익스텐더 시장 : 용도별 10. 액티브 광케이블 및...
  • 세계의 가정용 로봇 시장 (~2028년) : 제품별, 종류별 (가정, 엔터테이먼트 및 레저), 유통 채널별, 용도별 (청소기, 잔디 깎기, 반려 동물, 고령자 및 장애인 지원, 로봇 장난감 및 취미 시스템), 지역별
    SE7203-24 / MarketsandMarkets / 2023년 12월 / "글로벌 가정용 로봇 시장 규모는 2023년 103억 달러, 2028년 245억 달러로 2023년부터 2028년까지 연평균 18.8%의 성장률을 기록할 것으로 예상됩니다."로봇 기술 개발을 위한 정부 이니셔티브가 증가했습니다. 기술 분야의 혁신과 스타트업 지원을...1. 서론 2. 조사 방법 3. 개요 4. 프리미엄 인사이트 5. 시장 개요 6. 세계의 가정용 로봇 시장 규모 : 제공별 7. 세계의 가정용 로봇 시장 규모 : 유형별 8. 세계의 가정용 로봇 시장 규모 : 유통 채널별 9. 세계의 가정용 로봇 시장 규모 : 용도별 10. 세계의 가정용 로봇...
  • 세계의 비접촉식 커넥터 시장 (~2029년) : 무선 충전, 무선 데이터 전송
    SE8957-24 / MarketsandMarkets / 2024년 2월 / "세계의 비접촉식 커넥터 시장은 2024년 2억 2천만 달러에서 2029년 4억 8천만 달러로 연평균 16.9% 성장할 것으로 전망됩니다." 사물인터넷(IoT) 기기와 스마트 기술의 보급은 비접촉식 커넥터에 대한 수요를 촉진하고 있습니다. 비접촉식 커넥터는...1 서론 2 조사 방법 3 개요 4 프리미엄 인사이트 5 시장 개요 6 세계의 비접촉식 커넥터 시장 규모 : 제품 유형별 7 세계의 비접촉식 커넥터 시장 규모 : 기술별 8 세계의 비접촉식 커넥터 시장 규모 : 데이터 전송 속도별 9 세계의 비접촉식 커넥터 작동 방법 10 세계의 비접촉식 커넥터...
  • 세계의 전자 퓨즈 (eFuse) 시장 (~2035년) : 유형별 (오토 리트라이, Latched), 패키지 유형별 (SON, DFN, QFN, 박형 SOP), 용도별, 최종 용도별, 지역별
    EP8994 / MarketsandMarkets / 2024년 4월 / ...“세계의 전자 퓨즈 (eFuse) 시장은 예측 기간 동안 연평균 4.6%의 성장률로 2030년 약 7억 3,000만 달러에서 2035년 8억 8,100만 달러로 성장할 것으로 예상됩니다.”전자 퓨즈 (eFuse)는 기존 퓨즈를 대체하는 기능을 하는 집적 회로(IC)를 말합니다. 일반적으로 과전류 보호를 위해 인쇄 회로 기판(PCB)에 사용됩니다. 끊어져 교체해야 하는 물리적 퓨즈와 달리 eFuse는 고장 상태가...

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