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High-reliability Semiconductors for Aerospace & Defense Market

High-reliability Semiconductors for Aerospace & Defense Market (Type: Discrete, Analog, and Mixed; Packaging Material: Plastic and Ceramic; Technology: Surface Mount Technology (SMT) and Through-hole Technology (THT); Quality Level: JAN, JANX, JANTXV, JANS, JANSR, QMLQ, and QMLV; Application: Military Jets, Military Vehicles, Missiles, Rockets, and Others) - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast, 2019 - 2027

Unique Ceramic Packages Help Simplify Design Process of Aerospace and Defense Systems

Companies in the high-reliability semiconductors for aerospace & defense market are innovating in new solutions for demanding military and space applications. For instance, in July 2019, a major player in semiconductors for radio frequency applications - Skyworks - revealed a series of hermetically-sealed and impedance-matched amplifiers, capable of functioning in harsh environments.

Manufacturers in the high reliability semiconductors for aerospace & defense landscape are developing advanced systems and devices that meet stringent operating requirements in the defense landscape. They are introducing solutions to create various communication platforms even in challenging environmental conditions.

The high-reliability semiconductors for aerospace & defense market is anticipated to witness a sea change of developments in ceramic packaging materials. As such, ceramic packaging holds the highest revenue in the high-reliability semiconductors for aerospace & defense market, with an estimated value of ~US$ 4 billion by the end of 2022. Thus, companies are developing unique ceramic QFN (quad flat no-lead) packages for peripheral components. Novel packaging solutions are benefitting stakeholders in the defense space with simplified design processes for the development of satellites and avionic systems.

high reliability semiconductors for aerospace defense market infographic

Application of Radiation-hardened Semiconductor Chips Gains Prominence in Satellite Equipment and Vehicles

Innovations in radiation-resistant semiconductor chips are powering growth for the high-reliability semiconductors for aerospace & defense market. For instance, in January 2019, NEC Corporation - a Japanese multinational IT and electronics company, announced that it had developed a highly radiation-hardened semiconductor chip that deploys operational reliability in space.

Manufacturers in the high-reliability semiconductors for aerospace & defense space are increasing R&D to support satellite launch missions. They are increasing their efficacy in semiconductor applications by gaining credibility through satellite technology demonstration programs. Companies in the high-reliability semiconductors for aerospace & defense market are teaming up for the joint collection and evaluation of data acquired through tests. They are developing technologically-sound satellites through error rate measurement of radiation-resistant semiconductor chips.

Radiation-hardened semiconductor chips are being increasingly used in the development of a wide range of vehicles, satellite equipment, and medical devices. As such, manufacturers in the high-reliability semiconductors for aerospace & defense market are expanding their reach in cumulative opportunities for the development of military vehicles, as these vehicles dominate with the highest revenue - an estimated value of ~US$ 2.6 billion by 2027.

Companies Abide by Government Norms to Avoid Risks of Technological Failures in Systems

The high-reliability semiconductors for aerospace & defense market is consolidated, with only five major players accounting for ~60% of the total market share. This makes it challenging for emerging players to enter the market. What makes it more challenging for emerging players is the lack of technical expertise and capital to develop high-performance systems in the defense space.

ICs (integrated circuits) have made great strides in the high-reliability semiconductors for aerospace & defense landscape. However, certain vulnerabilities of ICs have led to the technical failure of systems. This drawback affects the long-term reliability of devices in the high-reliability semiconductors for aerospace & defense ecosystem.

For example, ICs are vulnerable to various types of ionizing radiations that lead to risks of temporary malfunctions and permanent damage, depending on the intensity of the time of exposure and energy levels. Hence, manufacturers in the high-reliability semiconductors for aerospace & defense market are abiding by the norms listed by governments. For instance, the U.S. defense industry follows regulations mentioned in the Standardized Military Drawing (SMD) program to procure high-reliability devices.

Trusted Manufacturing Flows Safeguard Integrity of IC Devices in Military Landscape

High-reliability computer chip designers are developing trusted and secure ICs, catering to the needs of stakeholders in the military landscape. Companies in the high-reliability semiconductors for aerospace & defense space are aiming to achieve this target by implementing trusted fabrication flows for the development of ICs.

Companies in the high-reliability semiconductors for aerospace & defense market are adopting leading-edge semiconductor technologies to establish certified supply chains with defense associations. These efforts are being made to ensure a streamlined delivery of masks and water fabrication in an open commercial environment at a military base. Thus, military associations in the high-reliability semiconductors for aerospace & defense landscape can ensure trusted manufacturing flows with companies, while ensuring the integrity and confidentiality of IC devices.

high reliability semiconductors for aerospace defense market segmentation

Analysts’ Viewpoint

Manufacturers in the high-reliability semiconductors for aerospace & defense market are augmenting the advantages of radiation-resistant semiconductor chips in future IoT equipment and energy conservation purposes. They are introducing high reliability solutions with product up-screening to meet the quality levels of JANS and JANTXV, amongst others. However, the packaging of components is prone to loss of hermeticity and mechanical failures such as cracking or delamination. Hence, companies should comply with government standards to ensure uniformity in the quality of packages. Companies should expand their business by increasing manufacturing facilities in Asia Pacific, as stakeholders in the region’s value chain are keen on increasing their defense budgets.

Global High-reliability Semiconductors for Aerospace & Defense Market: Overview

  • According to Transparency Market Research’s latest research report on the global high-reliability semiconductors for aerospace & defense market for the historical period of 2017-2018 and the forecast period of 2019-2027, rise in the defense budgets of several countries across the world and significant features of high-reliability semiconductor components are expected to boost the global high-reliability semiconductors for aerospace & defense market during the forecast period.
  • In terms of revenue, the global high-reliability semiconductors for aerospace & defense market is estimated to reach a value of ~US$ 8.6 Bn by 2027, expanding at a CAGR of ~5% during the forecast period. 

Significant Features of High-reliability Semiconductor Components: A Key Driver of High-reliability Semiconductors for Aerospace & Defense Market

  • The defense industry requires long-term system reliability for its missions. High-reliability semiconductors offer robust performance in extreme and harsh environments for multiple applications, including avionic systems, satellites, and combat vehicles.
  • This is primarily due to significant features of high-reliability semiconductor devices such as data converters, amplifiers, RF/microwaves, and MEMS products.
  • These devices can operate in severe environments and can run uninterrupted for years without compromising on performance. Therefore, they are being preferred over general semiconductor components, which can affect long-term reliability, causing premature failure of the system.
  • The above-mentioned factors are anticipated to fuel the global high-reliability semiconductors for aerospace & defence market during the forecast period. 

Rising Number of Commercial Aircraft Deliveries: Latest Trend in High-reliability Semiconductors for Aerospace & Defense Market

  • The global commercial aircraft sector is witnessing considerable growth, owing to increased demand for fuel-efficient and next-generation aircraft. Furthermore, with the rising demand for passenger travel and replacement of obsolete equipment, commercial aircraft manufacturers are ramping up their production further.
  • For example, in February 2019, Airbus SE announced its plans to deliver 890 commercial aircraft in 2019 as compared to 800 in 2018. Similarly, in 2018, Cirrus Aircraft delivered 443 general aircraft as compared to 377 in 2017.
  • Thus, increasing demand for high-reliability semiconductor components for use in next-generation commercial aircraft is expected to drive the global high-reliability semiconductors for aerospace & defense market during the forecast period. 

High Cost of High-reliability Semiconductors: Major Challenge for Global High-reliability Semiconductors for Aerospace & Defense Market

  • Manufacturers of semiconductor devices are incorporating a wide range of latest technologies in order to provide the defense forces with advanced products such as converters, diodes, integrated circuits (ICs), and voltage regulators.
  • These latest and robust technologies are expensive, which increases the cost of the final product. This is limiting the adoption of new technologies by aerospace and defense forces to a certain extent, which is hampering the growth of the global high-reliability semiconductors for aerospace & defense market space.
  • However, the impact of this restraint is expected to be low throughout the forecast period, as any type of vulnerability is critical to the defense sector, and it would not compromise on the same. 

Global High-reliability Semiconductors for Aerospace & Defense Market: Competition Landscape

  • Detailed profiles of providers in the high-reliability semiconductors for aerospace & defense market have been provided in the report to evaluate their financials, key product offerings, recent developments, and strategies.
  • Key players operating in the global high-reliability semiconductors for aerospace & defense market are
    • Digitron Semiconductors
    • Infineon Technologies AG
    • Microsemi Corp
    • SEMICOA
    • Semtech Corporation
    • Skyworks Inc.
    • Teledyne Technologies Inc.
    • KCB Solutions LLC
    • Texas Instruments Incorporated
    • Vishay Intertechnology Inc.

Global High-reliability Semiconductors for Aerospace & Defense Market: Key Developments

Key providers of high-reliability semiconductors for aerospace and defense are focusing on innovation and development of new products to expand their customer base. Key developments in the global high-reliability semiconductors for aerospace & defense market are as follows:

  • In September 2019, Digitron Corporation released a product notice stating that it would be manufacturing and supporting several semiconductor products that other manufacturers have discontinued.
  • In July 2019, Skyworks Solutions Inc. launched its new high-reliability solutions to fulfill the demand of military and space applications with rigorous operating requirements. The company’s hermetically sealed amplifiers with matched broadband impedance and low noise can function in severe environments, and they can be used in several communication platforms.
  • In October 2018, Semtech Corporation announced the expansion of its portfolio of high-reliability semiconductors by introducing a Schottky diode, i.e. 1N5822 for use in military and aerospace applications. The diode is qualified up to the JANTXV level, and is available in axial and surface mount packages.

In the report on the global high-reliability semiconductors for aerospace & defence market, we have discussed individual strategies, followed by the company profiles of providers of high-reliability semiconductors. The ‘Competition Landscape’ section has been included in the report to provide readers with a dashboard view and company market share analysis of key players operating in the global high-reliability semiconductors for aerospace & defense market.

1. Preface

    1.1. Market Definition and Scope

    1.2. Market Segmentation

    1.3. Key Research Objectives

    1.4. Research Highlights

2. Assumptions and Research Methodology

3. Executive Summary: Global High-reliability Semiconductors for Aerospace & Defense Market 

4. Market Overview

    4.1. Introduction

    4.2. Market Dynamics

        4.2.1. Drivers

        4.2.2. Restraints

        4.2.3. Opportunities

    4.3. Key Trends Analysis

    4.4. Key Market Indicators

    4.5. Global High-reliability Semiconductors for Aerospace & Defense Market Analysis and Forecast, 2017–2027

        4.5.1. Market Revenue Projection (US$ Mn)

    4.6. Porter’s Five Forces Analysis

    4.7. Global High-reliability Semiconductors for Aerospace & Defense Market - Value Chain Analysis

    4.8. Market Outlook

5. Global High-reliability Semiconductors for Aerospace & Defense Market Analysis and Forecast, by Type

    5.1. Overview & Definitions

    5.2. Global High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Type, 2017–2027

        5.2.1. Discrete

        5.2.2. Analog

        5.2.3. Mixed

    5.3. Type Comparison Matrix

    5.4. Global High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Type

6. Global High-reliability Semiconductors for Aerospace & Defense Market Analysis and Forecast, by Packaging Material 

    6.1. Overview & Definitions

    6.2. Global High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Packaging Material, 2017–2027

        6.2.1. Plastics

        6.2.2. Ceramic

    6.3. Packaging Material Comparison Matrix

    6.4. Global High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Packaging Material

7. Global High-reliability Semiconductors for Aerospace & Defense Market Analysis and Forecast, by Technology 

    7.1. Overview & Definitions

    7.2. Global High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Technology, 2017–2027

        7.2.1. Surface Mount Technology (SMT)

        7.2.2. Through-hole Technology (THT)

    7.3. Technology Comparison Matrix

    7.4. Global High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Technology

8. Global High-reliability Semiconductors for Aerospace & Defense Market Analysis and Forecast, by Quality Level 

    8.1. Overview & Definitions

    8.2. Global High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Quality Level, 2017–2027

        8.2.1. JAN

        8.2.2. JANX

        8.2.3. JANTXV

        8.2.4. JANS

        8.2.5. JANSR

        8.2.6. QMLQ

        8.2.7. QMLV

    8.3. Quality Level Comparison Matrix

    8.4. Global High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Quality Level

9. Global High-reliability Semiconductors for Aerospace & Defense Market Analysis and Forecast, by Application 

    9.1. Overview & Definitions

    9.2. Global High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Application, 2017–2027

        9.2.1. Military Jets

        9.2.2. Military Vehicles

        9.2.3. Missiles

        9.2.4. Rockets

        9.2.5. Others

    9.3. Application Comparison Matrix

    9.4. Global High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Application

10. Global High-reliability Semiconductors for Aerospace & Defense Market Analysis and Forecast, by Region

    10.1. Key Findings

    10.2. Global High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Region, 2017–2027

        10.2.1. North America

        10.2.2. Europe

        10.2.3. Asia Pacific

        10.2.4. Middle East & Africa

        10.2.5. South America

    10.3. Global High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Region

11. North America High-reliability Semiconductors for Aerospace & Defense Market Analysis and Forecast 

    11.1. Key Findings

    11.2. Key Trends

    11.3. North America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Type, 2017–2027

        11.3.1. Discrete

        11.3.2. Analog

        11.3.3. Mixed

    11.4. North America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Packaging Material, 2017–2027

        11.4.1. Plastics

        11.4.2. Ceramic

    11.5. North America Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Technology, 2017–2027

        11.5.1. Surface Mount Technology (SMT)

        11.5.2. Through-hole Technology (THT)

    11.6. North America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Quality Level, 2017–2027

        11.6.1. JAN

        11.6.2. JANX

        11.6.3. JANTXV

        11.6.4. JANS

        11.6.5. JANSR

        11.6.6. QMLQ

        11.6.7. QMLV

    11.7. North America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Application, 2017–2027

        11.7.1. Military Jets

        11.7.2. Military Vehicles

        11.7.3. Missiles

        11.7.4. Rockets

        11.7.5. Others

    11.8. North America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Country/Sub-region, 2017–2027

        11.8.1. U.S.

        11.8.2. Canada

        11.8.3. Rest of North America

    11.9. North America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness Analysis 

        11.9.1. By Type

        11.9.2. By Packaging Material

        11.9.3. By Technology

        11.9.4. By Quality Level

        11.9.5. By Application

        11.9.6. By Country/Sub-region

12. Europe High-reliability Semiconductors for Aerospace & Defense Market Analysis and Forecast

    12.1. Key Findings

    12.2. Key Trends

    12.3. Europe High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Type, 2017–2027

        12.3.1. Discrete

        12.3.2. Analog

        12.3.3. Mixed

    12.4. Europe High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Packaging Material, 2017–2027

        12.4.1. Plastics

        12.4.2. Ceramic

    12.5. Europe High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Technology, 2017–2027

        12.5.1. Surface Mount Technology (SMT)

        12.5.2. Through-hole Technology (THT)

    12.6. Europe High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Quality Level, 2017–2027

        12.6.1. JAN

        12.6.2. JANX

        12.6.3. JANTXV

        12.6.4. JANS

        12.6.5. JANSR

        12.6.6. QMLQ

        12.6.7. QMLV

    12.7. Europe High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Application, 2017–2027

        12.7.1. Military Jets

        12.7.2. Military Vehicles

        12.7.3. Missiles

        12.7.4. Rockets

        12.7.5. Others

    12.8. Europe High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Country/Sub-region, 2017–2027

        12.8.1. Germany

        12.8.2. U.K.

        12.8.3. France

        12.8.4. Rest of Europe

    12.9. Europe High-reliability Semiconductors for Aerospace & Defense Market Attractiveness Analysis

        12.9.1. By Type

        12.9.2. By Packaging Material

        12.9.3. By Technology

        12.9.4. By Quality Level

        12.9.5. By Application

        12.9.6. By Country/Sub-region

13. Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Analysis and Forecast

    13.1. Key Findings

    13.2. Key Trends

    13.3. Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Type, 2017–2027

        13.3.1. Discrete

        13.3.2. Analog

        13.3.3. Mixed

    13.4. Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Packaging Material, 2017–2027

        13.4.1. Plastics

        13.4.2. Ceramic

    13.5. Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Technology, 2017–2027

        13.5.1. Surface Mount Technology (SMT)

        13.5.2. Through-hole Technology (THT)

    13.6. Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Quality Level, 2017–2027

        13.6.1. JAN

        13.6.2. JANX

        13.6.3. JANTXV

        13.6.4. JANS

        13.6.5. JANSR

        13.6.6. QMLQ

        13.6.7. QMLV

    13.7. Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Application, 2017–2027

        13.7.1. Military Jets

        13.7.2. Military Vehicles

        13.7.3. Missiles

        13.7.4. Rockets

        13.7.5. Others

    13.8. Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Country/Sub-region, 2017–2027

        13.8.1. China

        13.8.2. India

        13.8.3. Japan

        13.8.4. Rest of APAC

    13.9. Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Attractiveness Analysis

        13.9.1. By Type

        13.9.2. By Packaging Material

        13.9.3. By Technology

        13.9.4. By Quality Level

        13.9.5. By Application

        13.9.6. By Country/Sub-region

14. Middle East & Africa (MEA) High-reliability Semiconductors for Aerospace & Defense Market Analysis and Forecast

    14.1. Key Findings

    14.2. Key Trends

    14.3. Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Type, 2017–2027

        14.3.1. Discrete

        14.3.2. Analog

        14.3.3. Mixed

    14.4. Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Packaging Material, 2017–2027

        14.4.1. Plastics

        14.4.2. Ceramic

    14.5. Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Technology, 2017–2027

        14.5.1. Surface Mount Technology (SMT)

        14.5.2. Through-hole Technology (THT)

    14.6. Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Quality Level, 2017–2027

        14.6.1. JAN

        14.6.2. JANX

        14.6.3. JANTXV

        14.6.4. JANS

        14.6.5. JANSR

        14.6.6. QMLQ

        14.6.7. QMLV

    14.7. Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Application, 2017–2027

        14.7.1. Military Jets

        14.7.2. Military Vehicles

        14.7.3. Missiles

        14.7.4. Rockets

        14.7.5. Others

    14.8. Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Country/Sub-region, 2017–2027

        14.8.1. GCC

        14.8.2. South Africa

        14.8.3. Rest of MEA

    14.9. Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Attractiveness Analysis

        14.9.1. By Type

        14.9.2. By Packaging Material

        14.9.3. By Technology

        14.9.4. By Quality Level

        14.9.5. By Application

        14.9.6. By Country/Sub-region

15. South America High-reliability Semiconductors for Aerospace & Defense Market Analysis and Forecast

    15.1. Key Findings

    15.2. Key Trends

    15.3. South America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Type, 2017–2027

        15.3.1. Discrete

        15.3.2. Analog

        15.3.3. Mixed

    15.4. South America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Packaging Material, 2017–2027

        15.4.1. Plastics

        15.4.2. Ceramic

    15.5. South America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Technology, 2017–2027

        15.5.1. Surface Mount Technology (SMT)

        15.5.2. Through-hole Technology (THT)

    15.6. South America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Quality Level, 2017–2027

        15.6.1. JAN

        15.6.2. JANX

        15.6.3. JANTXV

        15.6.4. JANS

        15.6.5. JANSR

        15.6.6. QMLQ

        15.6.7. QMLV

    15.7. South America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Application, 2017–2027

        15.7.1. Military Jets

        15.7.2. Military Vehicles

        15.7.3. Missiles

        15.7.4. Rockets

        15.7.5. Others

    15.8. South America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Country/Sub-region, 2017–2027

        15.8.1. Brazil

        15.8.2. Rest of South America

    15.9. South America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness Analysis

        15.9.1. By Type

        15.9.2. By Packaging Material

        15.9.3. By Technology

        15.9.4. By Quality Level

        15.9.5. By Application

        15.9.6. By Country/Sub-region

16. Competition Landscape

    16.1. Market Players – Competition Matrix

    16.2. Global High-reliability Semiconductors for Aerospace & Defense Market Share Analysis, by Company (2018)

    16.3. Company Profiles (Details – Overview, Financials, SWOT Analysis, Recent Developments, Strategy)

        16.3.1. Digitron Semiconductors

            16.3.1.1. Overview

            16.3.1.2. SWOT Analysis

            16.3.1.3. Financials

            16.3.1.4. Strategy

        16.3.2. Infineon Technologies AG

            16.3.2.1. Overview

            16.3.2.2. SWOT Analysis

            16.3.2.3. Financials

            16.3.2.4. Strategy

        16.3.3. Microsemi Corp

            16.3.3.1. Overview

            16.3.3.2. SWOT Analysis

            16.3.3.3. Financials

            16.3.3.4. Strategy

        16.3.4. SEMICOA

            16.3.4.1. Overview

            16.3.4.2. SWOT Analysis

            16.3.4.3. Financials

            16.3.4.4. Strategy

        16.3.5. Semtech Corporation

            16.3.5.1. Overview

            16.3.5.2. SWOT Analysis

            16.3.5.3. Financials

            16.3.5.4. Strategy

        16.3.6. Skyworks Inc.

            16.3.6.1. Overview

            16.3.6.2. SWOT Analysis

            16.3.6.3. Financials

            16.3.6.4. Strategy

        16.3.7. Teledyne Technologies Inc.

            16.3.7.1. Overview

            16.3.7.2. SWOT Analysis

            16.3.7.3. Financials

            16.3.7.4. Strategy

        16.3.8. Testime Technology Ltd

            16.3.8.1. Overview

            16.3.8.2. SWOT Analysis

            16.3.8.3. Financials

            16.3.8.4. Strategy

        16.3.9. Texas Instruments Incorporated

            16.3.9.1. Overview

            16.3.9.2. SWOT Analysis

            16.3.9.3. Financials

            16.3.9.4. Strategy

        16.3.10. Toshiba Corp

            16.3.10.1. Overview

            16.3.10.2. SWOT Analysis

            16.3.10.3. Financials

            16.3.10.4. Strategy

17. Key Takeaways

List of Tables

Table 01: Global High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Type, 2017–2027

Table 02: Global High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Packaging Material, 2017–2027

Table 03: Global High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Technology, 2017–2027

Table 04: Global High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Quality Level, 2017–2027

Table 05: Global High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Application, 2017–2027

Table 06: Global High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Region, 2017–2027

Table 07: North America High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Type, 2017–2027

Table 08: North America High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Packaging Material, 2017–2027

Table 09: North America High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Technology, 2017–2027

Table 10: North America High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Quality Level, 2017–2027

Table 11: North America High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Application, 2017–2027

Table 12: North America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn), by Country/Sub-region, 2017–2027

Table 13: Europe High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Type, 2017–2027

Table 14: Europe High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Packaging Material, 2017–2027

Table 15: Europe High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Technology, 2017–2027

Table 16: Europe High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Quality Level, 2017–2027

Table 17: Europe High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Application, 2017–2027

Table 18: Europe High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn), by Country/Sub-region, 2017–2027

Table 19: Asia Pacific High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Type, 2017–2027

Table 20: Asia Pacific High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Packaging Material, 2017–2027

Table 21: Asia Pacific High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Technology, 2017–2027

Table 22: Asia Pacific High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Quality Level, 2017–2027

Table 23: Asia Pacific High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Application, 2017–2027

Table 24: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn), by Country/Sub-region, 2017–2027

Table 25: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Type, 2017–2027

Table 26: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Packaging Material, 2017–2027

Table 27: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Technology, 2017–2027

Table 28: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Quality Level, 2017–2027

Table 29: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Application, 2017–2027

Table 30: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn), by Country/Sub-region, 2017–2027

Table 31: South America High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Type, 2017–2027

Table 32: South America High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Packaging Material, 2017–2027

Table 33: South America High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Technology, 2017–2027

Table 34: South America High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Quality Level, 2017–2027

Table 35: South America High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, by Application, 2017–2027

Table 36: South America High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn), by Country/Sub-region, 2017–2027

List of Figures

Figure 01: Global High-reliability Semiconductors for Aerospace & Defense High-reliability Semiconductors for Aerospace & Defense Market Revenue (US$ Mn) Forecast, 2019–2027

Figure 02: Global High-reliability Semiconductors for Aerospace & Defense Market, by Type (2018)

Figure 03: Global High-reliability Semiconductors for Aerospace & Defense Market, by Packaging Material (2018)

Figure 04: Global High-reliability Semiconductors for Aerospace & Defense Market, by Technology (2018)

Figure 05: Global High-reliability Semiconductors for Aerospace & Defense Market, by Quality Level (2018)

Figure 06: Global High-reliability Semiconductors for Aerospace & Defense Market, by Application (2018)

Figure 07: Global High-reliability Semiconductors for Aerospace & Defense Market, by Region (2018)

Figure 08: Global High-reliability Semiconductors for Aerospace & Defense Market, by Region (2027)

Figure 09: Global High-reliability Semiconductors for Aerospace & Defense Market Size, Indicative (US$ Mn) – 2018 & 2027

Figure 10: Global High-reliability Semiconductors for Aerospace & Defense Market– Insights

Figure 11: Global High-reliability Semiconductors for Aerospace & Defense Market Size, Indicative CAGR (%)

Figure 12: Global High-reliability Semiconductors for Aerospace & Defense Market Revenue Projection, 2017–2027 (US$ Mn)

Figure 13: Global High-reliability Semiconductors for Aerospace & Defense Market Y-o-Y Growth (%) Forecast, 2018–2027

Figure 14: Global High-reliability Semiconductors for Aerospace & Defense Market, by Type (2027)

Figure 15: Global High-reliability Semiconductors for Aerospace & Defense Market, by Packaging Material (2027)

Figure 16: Global High-reliability Semiconductors for Aerospace & Defense Market, by Technology (2027)

Figure 17: Global High-reliability Semiconductors for Aerospace & Defense Market, by Quality Level (2027)

Figure 18: Global High-reliability Semiconductors for Aerospace & Defense Market, by Application (2027)

Figure 19: Global High-reliability Semiconductors for Aerospace & Defense Market Value (Revenue) Share, by Region (2027)

Figure 20: Global High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Type, 2019 and 2027

Figure 21: Global High-reliability Semiconductors for Aerospace & Defense Market Attractiveness Analysis, by Type

Figure 22: Global High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Packaging Material, 2019 and 2027

Figure 23: Global High-reliability Semiconductors for Aerospace & Defense Market Attractiveness Analysis, by Packaging Material

Figure 24: Global High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Technology, 2019 and 2027

Figure 25: High-reliability Semiconductors for Aerospace & Defense Market Attractiveness Analysis, by Technology

Figure 26: Global High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Quality Level, 2019 and 2027

Figure 27: Global High-reliability Semiconductors for Aerospace & Defense Market Attractiveness Analysis, by Quality Level

Figure 28: Global High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Application, 2019 and 2027

Figure 29: Global High-reliability Semiconductors for Aerospace & Defense Market Attractiveness Analysis, by Application

Figure 30: Global High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Region, 2019 and 2027

Figure 31: Global High-reliability Semiconductors for Aerospace & Defense Market Attractiveness Analysis, by Region

Figure 32: North America High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Type, 2019 and 2027

Figure 33: North America High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Packaging Material, 2019 and 2027

Figure 34: North America High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Technology, 2019 and 2027

Figure 35: North America High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Quality Level, 2019 and 2027

Figure 36: North America High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Application, 2019 and 2027

Figure 37: North America High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Country/Sub-region, 2019 and 2027

Figure 38: North America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Type

Figure 39: North America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Packaging Material

Figure 40: North America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Technology

Figure 41: North America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Quality Level

Figure 42: North America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Application

Figure 43: North America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Country/Sub-region

Figure 44: Europe High-reliability Semiconductors for Aerospace & Defense Market Revenue Projection, 2017–2027 (US$ Mn)

Figure 45: Europe High-reliability Semiconductors for Aerospace & Defense Market Y-o-Y Growth (%) Forecast, 2018–2027

Figure 46: Europe High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Type, 2019 and 2027

Figure 47: Europe High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Packaging Material, 2019 and 2027

Figure 48: Europe High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Technology, 2019 and 2027

Figure 49: Europe High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Quality Level, 2019 and 2027

Figure 50: Europe High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Application, 2019 and 2027

Figure 51: Europe High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Country/Sub-region, 2019 and 2027

Figure 52: Europe High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Type

Figure 53: Europe High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Packaging Material

Figure 54: Europe High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Technology

Figure 55: Europe High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Quality Level

Figure 56: Europe High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Application

Figure 57: Europe High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Country/Sub-region

Figure 58: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Revenue Projection, 2017–2027 (US$ Mn)

Figure 59: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Y-o-Y Growth (%) Forecast, 2018–2027

Figure 60: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Type, 2019 and 2027

Figure 61: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Packaging Material, 2019 and 2027

Figure 62: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Technology, 2019 and 2027

Figure 63: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Quality Level, 2019 and 2027

Figure 64: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Application, 2019 and 2027

Figure 65: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Country/Sub-region, 2019 and 2027

Figure 66: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Type

Figure 67: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Packaging Material

Figure 68: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Technology

Figure 69: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Quality Level

Figure 70: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Application

Figure 71: Asia Pacific High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Country/Sub-region

Figure 72: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Revenue Projection, 2017–2027 (US$ Mn)

Figure 73: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Y-o-Y Growth (%) Forecast, 2018–2027

Figure 74: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Type, 2019 and 2027

Figure 75: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Packaging Material, 2019 and 2027

Figure 76: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Technology, 2019 and 2027

Figure 77: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Quality Level, 2019 and 2027

Figure 78: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Application, 2019 and 2027

Figure 79: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Country/Sub-region, 2019 and 2027

Figure 80: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Type

Figure 81: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Packaging Material

Figure 82: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Technology

Figure 83: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Quality Level

Figure 84: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Application

Figure 85: Middle East & Africa High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Country/Sub-region

Figure 86: South America High-reliability Semiconductors for Aerospace & Defense Market Revenue Projection, 2017–2027 (US$ Mn)

Figure 87: South America High-reliability Semiconductors for Aerospace & Defense Market Y-o-Y Growth (%) Forecast, 2018–2027

Figure 88: South America High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Type, 2019 and 2027

Figure 89: South America High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Packaging Material, 2019 and 2027

Figure 90: South America High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Technology, 2019 and 2027

Figure 91: South America High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Quality Level, 2019 and 2027

Figure 92: South America High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Application, 2019 and 2027

Figure 93: South America High-reliability Semiconductors for Aerospace & Defense Market Value Share Analysis, by Country/Sub-region, 2019 and 2027

Figure 94: South America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Type

Figure 95: South America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Packaging Material

Figure 96: South America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Technology

Figure 97: South America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Quality Level

Figure 98: South America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Application

Figure 99: South America High-reliability Semiconductors for Aerospace & Defense Market Attractiveness, by Country/Sub-region

Figure 100: Global High-reliability Semiconductors for Aerospace & Defense Market Share Analysis, by Company (2018)

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High-reliability Semiconductors for Aerospace & Defense Market

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