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宇宙エレクトロニクスの世界市場-2022-2029

Global Space Electronics Market - 2022-2029
出版日: | 発行: DataM Intelligence | ページ情報: 英文 210 Pages | 納期: 約2営業日

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宇宙エレクトロニクスの世界市場-2022-2029
出版日: 2023年01月05日
発行: DataM Intelligence
ページ情報: 英文 210 Pages
納期: 約2営業日
ご注意事項 :
本レポートは最新情報反映のため適宜更新し、内容構成変更を行う場合があります。ご検討の際はお問い合わせください。
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  • 概要
  • 目次
概要

市場概要

宇宙エレクトロニクスの世界市場規模は、大きな成長を見せると予測されています。

宇宙エレクトロニクスには、ロケット打ち上げ機、人工衛星、深宇宙探査機への応用のために特別に設計・開発されたメモリチップ、コントローラ、マイクロプロセッサ、特定用途向け集積回路(ASIC)などのコンポーネントが含まれます。これらの電子計測器は、瞬間精度が30万分の1という世界的にも極めて高い精度を誇っています。また、他社が開発した各種質量物性測定器は、ロードセルの技術を応用しており、精度の限界は2000分の1です。このように、宇宙用電子計測器の精度は非常に高く、フルスケールの100%から3%以下の重量のものを1台で正確に測定することができます。

宇宙技術や衛星を使ったアプリケーションは、いたるところに存在しています。様々な報告書によると、宇宙経済の価値は2040年までに1兆米ドルに達すると予想されています。このように、宇宙エレクトロニクス産業の主要な市場促進要因として作用するこの機会に対処するため、過去10年間にいくつかの商業宇宙企業が世界中で設立されました。

市場力学

宇宙活動への各国の関与の高まりにより、宇宙エレクトロニクスの需要が高まっています。宇宙開発における製品開発のための技術的進歩の高まりが、宇宙エレクトロニクス市場の世界の成長を促進すると予想されます。

各国の宇宙活動への関与の高まりが、宇宙エレクトロニクスの需要をエスカレートさせた

宇宙産業は、もはや数十年前と同じではありません。現在、先進国だけでなく、インド、アンゴラ、南アフリカなどの発展途上国も、自国の宇宙部門を強化するために驚異的な成長を見せています。例えば、インドの宇宙開発計画は、当初からよく整備されています。リモートセンシングと通信のための衛星、宇宙輸送システム、そして応用プログラムの3つで構成されています。通信、テレビ放送、気象サービスを行うインド国家衛星(INSAT)、資源管理・災害支援を行うインドリモートセンシング衛星(IRS)が主要な運用システムとして確立されています。

インドは、インド宇宙計画において様々な主要マイルストーンを設定しており、2020年12月17日には、インドの通信衛星CMS-01がPSLV-C50によってスリハリコタのサティッシュ・ダワン宇宙センター(SDSC)SHARから打ち上げに成功しました。さらに2021年2月28日には、インドの極地衛星打ち上げロケットPSLV-C51により、18機の同乗衛星とともにアマゾニア1号の打ち上げに成功しました。

さらに、米国では、NASAが米国の宇宙開発ポートフォリオの最も目に見える要素を提供しています。NASAは、有人宇宙探査、アポロ11号の月面着陸、スペースシャトル、国際宇宙ステーション、ボイジャー、マーズ・ローバー、多数の宇宙望遠鏡、アルテミス計画を通じて、民間宇宙探査の使命を果たしているのです。米国では、宇宙活動を活発化させるために、様々な投資を行っています。例えば、2021年、NASAは米国の大手3社と、宇宙ステーションの設計やその他の宇宙での商業目的地の開発に関する協定を締結しました。資金提供された3つの宇宙法協定の総授与予定額は4億1560万米ドルです。

このように、上記のような宇宙活動の活発化が宇宙エレクトロニクス市場をエスカレートさせ、予測期間中も成長の勢いを維持することが予想されます。

宇宙船の過酷な環境条件が市場成長の主な抑制要因に

宇宙エレクトロニクスは、宇宙の過酷な環境に対応するように設計されていますが、製品の品質を向上させるためには、製造コストが増加します。したがって、企業はコストの壁を克服するために、原材料の代替品を使い始めています。

ロケットによる振動は、宇宙エレクトロニクスの最初の課題です。打ち上げ時のロケットとその搭載物には、高い要求が課されます。ロケットの打ち上げでは、多くの振動と騒音が発生します。何千ものさまざまなことがうまくいかず、炎の玉が発火することもあります。衛星の本体構造は、宇宙空間でロケットから分離する際に大きな衝撃を受ける。構造物が爆発したときに生じる動的な構造衝撃は、火工品ショックと呼ばれています。

パイロショックは、人工衛星の放出や多段式ロケットの2段分離に採用されているような爆発物に対する構造物の反応で、構造物全体に高周波、高強度の応力波を伝播させるものです。パイロショックにさらされると、回路基板が傷ついたり、電気部品がショートしたりと、さまざまな問題が発生します。しかし、打ち上げ環境を理解することで、宇宙用電気部品に求められる検査、衝撃、振動をより理解することができます。

COVID-19の影響分析

COVID-19の大流行はすべての産業に影響を与え、宇宙産業も同様の落ち込みを見せた。しかし、宇宙産業への影響は異なり、パンデミックの間、宇宙エレクトロニクスの成長にいくつかの影響を示しました。COVID-19の発生は、製造、打ち上げ、下流サービス、投資への影響を示しています。

ロケットの打ち上げは継続されていますが、多くの打ち上げ会社が今後の打ち上げを延期しています。例えば、ロケットラボはロケットの打ち上げを中止しています。また、アリアンスペース社はバイコヌールからの打ち上げを発表しているが、ギアナ宇宙センターからの打ち上げは中止しています。国際宇宙ステーションの新しい乗組員は2020年4月9日にソユーズMS-16で打ち上げられ、4月16日にはケネディ宇宙センターから、SpaceXがStarlinkを打ち上げます。中国は、GPS3衛星の打ち上げ予定が延期されたにもかかわらず、打ち上げを続けています。

さらに、パンデミック前には家電製品の急増による半導体の保管があっています。パンデミック後は、サプライチェーンの混乱や世界の地政学的危機により、状況は悪化しました。産業界の製造業は、すでにチップの保管のために多大な困難に直面しており、スペースエレクトロニクスが世界中で成長するための厳しい雰囲気を作り出していたのです。

目次

第1章 宇宙エレクトロニクスの世界市場の調査手法と範囲

  • 調査手法
  • 調査目的・調査範囲

第2章 宇宙エレクトロニクスの世界市場-市場の定義と概要

第3章 宇宙エレクトロニクスの世界市場-エグゼクティブサマリー

  • タイプ別市場内訳
  • プラットフォーム別市場内訳
  • コンポーネント別市場内訳
  • 用途別市場内訳
  • 地域別市場内訳

第4章 宇宙エレクトロニクスの世界市場-市場力学

  • 市場影響要因
    • 促進要因
      • 各国の宇宙開発の活発化により、宇宙エレクトロニクスの需要が高まっています。
    • 抑制要因
      • 宇宙船の過酷な環境条件が市場抑制要因に
    • ビジネスチャンス
    • 影響分析

第5章 宇宙エレクトロニクスの世界市場- 産業分析

  • ポーターのファイブフォース分析
  • サプライチェーン分析
  • 価格設定分析
  • 規制分析

第6章 宇宙エレクトロニクスの世界市場-COVID-19分析

  • COVID-19の市場分析
    • COVID-19以前の市場シナリオ
    • COVID-19の現在の市場シナリオ
    • COVID-19の後、または将来のシナリオ
  • COVID-19の中での価格ダイナミクス
  • 需要-供給スペクトラム
  • パンデミック時の市場に関連する政府の取り組み
  • メーカーの戦略的な取り組み
  • まとめ

第7章 宇宙エレクトロニクスの世界市場-タイプ別

  • 耐放射線性宇宙エレクトロニクス
  • 耐放射線性宇宙エレクトロニクス

第8章 宇宙エレクトロニクスの世界市場-プラットフォーム別

  • 人工衛星
  • 打ち上げロケット
  • 深宇宙探査機

第9章 宇宙エレクトロニクスの世界市場-部品別

  • センサー
  • 特定用途向け集積回路(ASIC)
  • マイクロプロセッサーとコントローラー
  • 電源・ケーブル
  • メモリーチップ
  • ディスクリート半導体
  • その他

第10章 宇宙エレクトロニクスの世界市場-用途別

  • 地球観測
  • 通信
  • 技術開発・装置
  • ナビゲーション、全地球測位システム(GPS)、サーベイランス
  • その他

第11章 宇宙エレクトロニクスの世界市場-地域別

  • 北米
    • 米国
    • カナダ
    • メキシコ
  • 欧州
    • ドイツ
    • 英国
    • フランス
    • イタリア
    • スペイン
    • その他欧州
  • 南米
    • ブラジル
    • アルゼンチン
    • その他の南米地域
  • アジア太平洋地域
    • 中国
    • インド
    • 日本
    • 韓国
    • その他アジア太平洋地域
  • 中東・アフリカ地域

第12章 宇宙エレクトロニクスの世界市場- 競争情勢

  • 競合シナリオ
  • 市況/シェア分析
  • M&A(合併・買収)分析

第13章 宇宙エレクトロニクスの世界市場-企業プロファイル

  • BAE System PLC
    • 企業概要
    • エンドユーザー向けポートフォリオと説明
    • 主なハイライト
    • 財務概要
  • Cobham Plc.
  • ON Semiconductor
  • HEICO Corporation
  • Microsemi Corporation
  • Honeywell International Inc.
  • ST Microelectronics N.V.
  • Texas Instruments
  • Teledyne e2v
  • TT Electronics Plc.

第14章 宇宙エレクトロニクスの世界市場:重要考察

第15章 宇宙エレクトロニクスの世界市場- DataM

目次
Product Code: DMICT494

Market Overview

The Global Space Electronics Market size was worth around US$ XX million in 2021 and is expected to show significant growth by reaching up to US$ XX million by 2029, growing at a CAGR of XX% within the forecast period (2022-2029).

Space electronics include components such as memory chips, controllers, microprocessors, application-specific integrated circuits (ASIC) and others specially designed and developed for application in rocket launchers, satellites and deep space probes. These electronic instruments are extremely accurate worldwide, with a moment accuracy of 1 part in 300,000. Various mass properties measuring equipment created by other companies use load cell technology, with an accuracy limit of 1 part in 2000. A single instrument can be manufactured that precisely measures things whose weight ranges between 100% to less than 3% of full scale due to the exceptional accuracy of space electronics instruments.

Space technology and satellite-based applications are omnipresent. As per various reports, the value of the space economy is expected to reach US$ 1 trillion by 2040. Thus, several commercial space companies have been founded worldwide over the past decade to address the opportunities which act as a major market driver for the space electronics industry.

Market Dynamics

The growing involvement of countries in space activities has escalated the demand for space electronics. Growing technological advancements for product development in space activities are expected to drive global growth in the space electronics market.

The growing involvement of countries in space activities has escalated the demand for the space electronics

The space industry is no more the same as it was decades back. At present, not only developed countries but developing countries like India, Angola and South Africa have shown tremendous growth in boosting their space sector. For instance, the Indian space program has been well-organized from the start. It consists of three components: satellites for remote sensing and communication, a space transportation system and application programs. The Indian National Satellite (INSAT) for communications, television broadcasting and meteorological services, as well as the Indian Remote Sensing Satellite (IRS) for resource management and disaster support, have been established as major operational systems.

India has set various major milestones under the Indian Space Programme; on December 17, 2020, India's communication satellite CMS-01 was launched successfully by PSLV-C50 from the Satish Dhawan Space Centre (SDSC) SHAR, Sriharikota. Furthermore, on February 28, 2021, India's Polar Satellite Launch Vehicle PSLV-C51 successfully launched Amazonia-1 along with 18 co-passenger satellites.

Furthermore, in U.S., NASA has delivered the most visible elements of U.S. space portfolio. NASA fulfills the mandate for civil space exploration through crewed space exploration, the Apollo 11 moon landing, the Space Shuttle, the International Space Station, Voyager, the Mars Rovers, numerous space telescopes and the Artemis program. In U.S. government has made various investments to boost space activities. For instance, in 2021, NASA signed agreements with three big U.S. players to develop space station designs and other commercial destinations in space. The total expected award amount for all three funded Space Act Agreements is US$415.6 million.

Thus, the above-mentioned growing space activities have escalated the space electronics market and are expected to maintain the growth momentum in the forecast period.

The harsh environmental conditions of a spacecraft act as major restraints to the market growth

Space Electronics are designed to handle space's extreme conditions; however, to improve the quality of the product, the cost of manufacturing increases. Hence, companies have started using raw material substitutes to overcome the cost barrier.

The vibration caused by the launch vehicle is space electronics' first challenge. There are high demands made on a rocket and its cargo during launch. Rocket launchers produce a lot of vibration and noise. Thousands of different things may go wrong and ignite a ball of flame. The body structure of a satellite experiences significant shocks as it separates from the rocket in space. The dynamic structural shock that results from an explosion on a structure is known as pyrotechnic shock.

Pyroshock is the structure's reaction to explosive charges, such as those employed in satellite ejection or the separation of two stages of a multistage rocket, which cause high frequency, high magnitude stress waves to propagate throughout the structure. Exposure to pyroshocks can harm circuit boards, short electrical components and other problems. However, understanding the launch environment helps one better understand the inspections, shock and vibration demands placed on electrical components for space-level applications.

COVID-19 Impact Analysis

The COVID-19 pandemic has impacted all industries and space has seen a similar downfall. However, the impact on the space industry is different and has shown several effects on space electronics growth during the pandemic. The COVID-19 outbreak has shown effects on manufacturing, launch, downstream services and investments.

Although launches of rockets continue, ut many launch companies delayed upcoming launches. For instance, Rocket Lab has stopped launching rockets. Guiana Space Center has suspended flights, though Arianespace announced to launch from Baikonur. A new crew for the International Space Station was launched on April 9, 2020, by Soyuz MS-16 and on April 16, from the Kennedy Space Center, SpaceX will launch Starlink. China continues to launch despite the postponement of the GPS 3 satellite's scheduled launch.

Furthermore, there was the storage of semiconductors before the pandemic due to the sudden rise in consumer electronics. After the pandemic, the situation worsened due to supply chain disruption and global geopolitical crises. Industrial manufacturing was already facing tremendous challenges due to the storage of chips, creating a challenging atmosphere for space electronics to grow across the globe.

Segment Analysis

The global space electronics market is segmented by platform, type, component, application and region.

Growing demand for electronics to withstand many types of radiation damage that occur in space has resulted in demand for radiation-hardened space electronics

The global space electronics market is segmented into radiation-hardened space electronics and radiation-tolerant space electronics based on type. The radiation-hardened space electronics globally hold the highest market share of the mentioned type. Radiation-hardened or rad-hard electronics are electronic components (circuits, diodes, capacitors, transistors, resistors, etc.), sensors and single-board computer CPUs designed and produced to make them less susceptible to damage from exposure to radiation and extreme temperatures ranging from -55°C to 125°C.

They are constructed and tested to withstand many types of radiation damage occurring in space, but they carry out the same activities as non-hardened identical electronics.

Rad-hard electronics are additionally insulated in a layer of depleted boron and installed on insulating substrates rather than on traditional semiconductor wafers as part of the "hardening" process. As a result, they can tolerate much more radiation than chips of lower quality. All of these precautions are taken to avoid logical damage, such as data loss or communications and processing errors that could cause equipment to malfunction and physical damage, such as breaking or melting.

Furthermore, companies have invested in developing rad-hard electronics for space applications due to their extremely low failure rates over several years in harsh radioactive and similarly dangerous environments, which has escalated the segmental growth of the product.

Geographical Analysis

Growing space activities, coupled with raising government investment, have escalated the space electronics market in North America

North America holds the highest market share for space electronics. Growing space activities, rising government investment and company expansions in the region are the prime factors escalating the market growth for space electronics.

U.S. remained the biggest spender, with its US$60 billion total space budget nearly quadruple the next largest, China. Furthermore, India and multiple European countries each increased space spending by around 30% or more in 2021, although those countries' budgets remain under US$2 billion annually.

U.S. government spending increased by 19% and added US$107 billion to the space economy in 2021, withU.S. government and military spending US$59.6 billion alone, a 12% share of global space spending. Furthermore, various big companies have started investing in the region by launching more spacecraft. For instance, In May 2022, SpaceX became the first privately owned company to send a set of NASA astronauts to the International Space Station and become the first ever crew to launch from U.S. soil in the past decade. In 2020, the company hit the 100-launch milestone for its Falcon 9 cargo rockets and added nearly 1,000 satellites to its Starlink constellation-and the Falcon 9 that delivered its last 60 satellites was on its seventh trip, a milestone in reusable rocketry.

Competitive Landscape

The global Space Electronics market is highly competitive with local and global key players. Key players contributing to the market's growth are BAE Systems Plc, Cobham Plc, ON Semiconductor, HEICO Corporation, Microsemi Corporation, Honeywell International Inc., ST Microelectronics N.V, Texas Instruments, Teledyne e2v, TT Electronics Plc. and among others.

The major companies are adopting several growth strategies, such as product launches, acquisitions and collaborations, contributing to the global growth of the Space Electronics market.

  • For instance, In 2019, Space Electronics announced its acquisition by Raptor Scientific, an engineering and development company aimed at consolidating the highly fragmented Aerospace & Defense focused testing and measurement market.
  • In 2021, BAE Systems acquired a UK company that designs, builds and operates satellites and satellite systems, In-Space Missions. The acquisition aims to combine BAE Systems' experience in highly secure satellite communications with In-Space Missions' full lifecycle satellite capability to make a compelling sovereign UK space offer.

STMicroelectronics

Overview: The company was incorporated in 1987 as a combination of the semiconductor business of SGS Microelettronica and Thomson Semiconductors. The company designs, develop, manufactures and markets semiconductor products to sectors such as automotive, industrial, personal electronics and communications equipment, computers and peripherals. The company is listed on Euronext Paris, the New York Stock Exchange ("NYSE") and Borsa Italiana S.p.A. The key product offering of the company includes the Automotive and Discrete Group (ADG), Microcontrollers and Digital ICs Group (MDG) and Analog, MEMS and Sensors Group (AMS).

Product Portfolio: LEO Rad-Hard ICs: ST's LEO series of rad-hard products in plastic packages offers a combination of radiation hardness, cost-effectiveness, quality assurance and delivered quantities. Specifically tailored to the needs of constellations, the LEO series benefits from dedicated processes for qualification, manufacturing, screening, quality assurance and logistics.

Key Development

  • In 2022, STMicroelectronics launched economical Radiation-Hardened ICs for Cost-Conscious 'New Space' Satellites.

Why Purchase the Report?

  • Visualize the global space electronics market segmentation by platform, type, component, application and region, highlighting key commercial assets and players.
  • Identify commercial opportunities in the space electronics market by analyzing trends and co-development deals.
  • Excel data sheet with thousands of global space electronics market-level 4/5 segmentation points.
  • PDF report with the most relevant analysis cogently put together after exhaustive qualitative interviews and in-depth market study.
  • Product mapping in excel for the key product of all major market players

The global space electronics market report would provide approximately 67 market data tables, 69 figures and 210 pages.

Target Audience 2022

  • Service Providers/ Buyers
  • Residential
  • Research Laboratory
  • Restaurant Business
  • Energy & Utilities Companies
  • Distributors

Table of Contents

1. Global Space Electronics Market Methodology and Scope

  • 1.1. Research Methodology
  • 1.2. Research Objective and Scope of the Report

2. Global Space Electronics Market - Market Definition and Overview

3. Global Space Electronics Market - Executive Summary

  • 3.1. Market Snippet by Type
  • 3.2. Market Snippet by Platform
  • 3.3. Market Snippet by Component
  • 3.4. Market Snippet by Application
  • 3.5. Market Snippet by Region

4. Global Space Electronics Market-Market Dynamics

  • 4.1. Market Impacting Factors
    • 4.1.1. Drivers
      • 4.1.1.1. The growing involvement of countries in space activities has escalated the demand for the space electronics
      • 4.1.1.2. XX
    • 4.1.2. Restraints
      • 4.1.2.1. The harsh environmental conditions of a spacecraft act as major restraints to the market growth
      • 4.1.2.2. XX
    • 4.1.3. Opportunity
      • 4.1.3.1. XX
    • 4.1.4. Impact Analysis

5. Global Space Electronics Market - Industry Analysis

  • 5.1. Porter's Five Forces Analysis
  • 5.2. Supply Chain Analysis
  • 5.3. Pricing Analysis
  • 5.4. Regulatory Analysis

6. Global Space Electronics Market - COVID-19 Analysis

  • 6.1. Analysis of COVID-19 on the Market
    • 6.1.1. Before COVID-19 Market Scenario
    • 6.1.2. Present COVID-19 Market Scenario
    • 6.1.3. After COVID-19 or Future Scenario
  • 6.2. Pricing Dynamics Amid COVID-19
  • 6.3. Demand-Supply Spectrum
  • 6.4. Government Initiatives Related to the Market During Pandemic
  • 6.5. Manufacturers Strategic Initiatives
  • 6.6. Conclusion

7. Global Space Electronics Market - By Type

  • 7.1. Introduction
    • 7.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
    • 7.1.2. Market Attractiveness Index, By Type
  • 7.2. Radiation-Hardened Space Electronics *
    • 7.2.1. Introduction
    • 7.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 7.3. Radiation-Tolerant Space Electronics

8. Global Space Electronics Market - By Platform

  • 8.1. Introduction
    • 8.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Platform
    • 8.1.2. Market Attractiveness Index, By Platform
  • 8.2. Satellite *
    • 8.2.1. Introduction
    • 8.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 8.3. Launch Vehicles
  • 8.4. Deep Space Probes

9. Global Space Electronics Market - By Component

  • 9.1. Introduction
    • 9.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Component
    • 9.1.2. Market Attractiveness Index, By Component
  • 9.2. Sensor *
    • 9.2.1. Introduction
    • 9.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 9.3. Application Specific Integrated Circuits (ASIC)
  • 9.4. Microprocessors and Controllers
  • 9.5. Power Source and Cables
  • 9.6. Memory Chips
  • 9.7. Discrete Semiconductors
  • 9.8. Others

10. Global Space Electronics Market - By Application

  • 10.1. Introduction
    • 10.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 10.1.2. Market Attractiveness Index, By Application
  • 10.2. Earth Observation *
    • 10.2.1. Introduction
    • 10.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 10.3. Communication
  • 10.4. Technology Development and Equipment
  • 10.5. Navigation, Global Positioning System (GPS) and Surveillance
  • 10.6. Others

11. Global Space Electronics Market - By Region

  • 11.1. Introduction
    • 11.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Region
    • 11.1.2. Market Attractiveness Index, By Region
  • 11.2. North America
    • 11.2.1. Introduction
    • 11.2.2. Key Region-Specific Dynamics
    • 11.2.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
    • 11.2.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Platform
    • 11.2.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Component
    • 11.2.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.2.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 11.2.7.1. U.S.
      • 11.2.7.2. Canada
      • 11.2.7.3. Mexico
  • 11.3. Europe
    • 11.3.1. Introduction
    • 11.3.2. Key Region-Specific Dynamics
    • 11.3.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
    • 11.3.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Platform
    • 11.3.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Component
    • 11.3.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.3.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 11.3.7.1. Germany
      • 11.3.7.2. UK
      • 11.3.7.3. France
      • 11.3.7.4. Italy
      • 11.3.7.5. Spain
      • 11.3.7.6. Rest of Europe
  • 11.4. South America
    • 11.4.1. Introduction
    • 11.4.2. Key Region-Specific Dynamics
    • 11.4.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
    • 11.4.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Platform
    • 11.4.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Component
    • 11.4.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.4.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 11.4.7.1. Brazil
      • 11.4.7.2. Argentina
      • 11.4.7.3. Rest of South America
  • 11.5. Asia-Pacific
    • 11.5.1. Introduction
    • 11.5.2. Key Region-Specific Dynamics
    • 11.5.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
    • 11.5.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Platform
    • 11.5.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Component
    • 11.5.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.5.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 11.5.7.1. China
      • 11.5.7.2. India
      • 11.5.7.3. Japan
      • 11.5.7.4. South Korea
      • 11.5.7.5. Rest of Asia-Pacific
  • 11.6. Middle East and Africa
    • 11.6.1. Introduction
    • 11.6.2. Key Region-Specific Dynamics
    • 11.6.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
    • 11.6.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Platform
    • 11.6.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Component
    • 11.6.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application

12. Global Space Electronics Market - Competitive Landscape

  • 12.1. Competitive Scenario
  • 12.2. Market Positioning/Share Analysis
  • 12.3. Mergers and Acquisitions Analysis

13. Global Space Electronics Market- Company Profiles

  • 13.1. BAE System PLC*
    • 13.1.1. Company Overview
    • 13.1.2. End-User Portfolio and Description
    • 13.1.3. Key Highlights
    • 13.1.4. Financial Overview
  • 13.2. Cobham Plc.
  • 13.3. ON Semiconductor
  • 13.4. HEICO Corporation
  • 13.5. Microsemi Corporation
  • 13.6. Honeywell International Inc.
  • 13.7. ST Microelectronics N.V.
  • 13.8. Texas Instruments
  • 13.9. Teledyne e2v
  • 13.10. TT Electronics Plc.

LIST NOT EXHAUSTIVE

14. Global Space Electronics Market - Premium Insights

15. Global Space Electronics Market - DataM

  • 15.1. Appendix
  • 15.2. About Us and Services
  • 15.3. Contact Us