Monolithic Microwave IC (MMIC) Market : Global Industry Analysis and Forecast (2023-2029)


Monolithic Microwave IC (MMIC) Market is expected to reach US$ 15.53 Bn by 2029, at a CAGR of 10.6% during the forecast period.

The report includes the analysis of impact of COVID-19 lock-down on the revenue of market leaders, followers, and disrupters. Since lock down was implemented differently in different regions and countries, impact of same is also different by regions and segments. The report has covered the current short term and long term impact on the market, same will help decision makers to prepare the outline for short term and long term strategies for companies by region.Global Monolithic Microwave IC (MMIC) MarketTo know about the Research Methodology:-Request Free Sample Report

Monolithic Microwave IC (MMIC) Market Dynamics:

The growth of this market is being fueled by the increased demand for monolithic microwave IC (MMIC) market from the flourishing smartphone industry. Growing implementation of E band to meet the growing bandwidth requirements of the space, defense, and wireless communication infrastructure sectors and rising defense spending of countries, globally.

Based on the material type segment, the growth of global monolithic microwave IC (MMIC) market is being fueled by the improved demand for MMIC monolithic microwave IC market from the flourishing smartphone industry. Growing implementation of E band to meet the growing bandwidth requirements of the space, defense, and wireless communication infrastructure sectors and rising defense spending of countries, globally.

On the basis of technology segment, Enhancement-mode Pseudomorphic High Electron Mobility Transistors (E-pHEMTs) are primarily used for power amplifier applications. These transistors are also suitable for use in high-frequency ranges as their saturated drain-source current (Idss) is less than 10 µA at room temperature and are capable of operating in highly mismatched conditions. E-pHEMTs offer superior output power and high efficiency with bias voltages of less than +3 VDC. For commercial communication systems, E-pHEMTs offer a combination of high gain, low noise, and wide dynamic range in high-linearity MMIC applications.

Based on the application segment, the growing use of smartphones and rising demand for fast data transfer rates are the main factors driving the growth of the consumer/enterprise electronics segment of the global monolithic microwave IC (MMIC) market. With the upcoming 5G technology, the data transfer rate is projected to increase further, thereby leading to an increased demand for MMICs used in smartphones technologies.

In terms of region, APAC can be attributed to the high implementation rate of smartphones. Significant shift toward high-speed mobile technologies (for instance, the shift from 3G to 4G) improved use of mobile services, including video, social media, e-commerce, and financial services. China is a global manufacturing hub with a flourishing electronics industry and one of the fastest-growing economies in the world. Factors like the rise in defense spending, increased focus of governments on the automotive industry, and scientific and technological developments in global monolithic microwave IC (MMIC) market are leading to the growth of the (MMIC) market in China.

The report offers a complete evaluation of the market. It does so via in-depth qualitative visions, historical data, and verifiable projections about market size. The estimates featured in the report have been derived using proven research methodologies and expectations. By doing so, the examination report serves as a repository of analysis and information for every facet of the market.

The objective of the report is to present a comprehensive assessment of the market and contains thoughtful insights, facts, historical data, industry-validated market data and projections with a suitable set of assumptions and methodology. The report also helps in understanding Monolithic microwave ic(MMIC) Market dynamics, structure by identifying and analyzing the market segments and project the global market size.

Further, the report also focuses on the competitive analysis of key players by product, price, financial position, product portfolio, growth strategies, and regional presence. The report also provides PEST analysis, PORTER’s analysis, SWOT analysis to address the question of shareholders to prioritizing the efforts and investment in the near future to the emerging segment in Monolithic Microwave IC (MMIC) Market.

Monolithic Microwave IC (MMIC) Market, Key Highlights:

• Global Monolithic Microwave IC (MMIC) Market analysis and forecast, in terms of value.

• Comprehensive study and analysis of market drivers, restraints and opportunities influencing the growth of the Global Monolithic Microwave IC (MMIC) Market

• Global Monolithic Microwave IC (MMIC) Market segmentation on the basis of type, source, end-user, and region (country-wise) has been provided.

• Global Monolithic Microwave IC (MMIC) Market strategic analysis with respect to individual growth trends, future prospects along with the contribution of various sub-market stakeholders have been considered under the scope of study.

• Global Monolithic Microwave IC (MMIC) Market analysis and forecast for five major regions namely North America, Europe, Asia Pacific, the Middle East & Africa (MEA) and Latin America along with country-wise segmentation.

• Profiles of key industry players, their strategic perspective, market positioning and analysis of core competencies are further profiled.

• Competitive developments, investments, strategic expansion and competitive landscape of the key players operating in the Global Monolithic Microwave IC (MMIC) Market are also profiled.

Scope of Global Monolithic Microwave IC (MMIC) Market: Inquire before buying






Global Monolithic Microwave IC (MMIC) Market




Report Coverage
Details




Base Year:
2022
Forecast Period:
2023-2029




Historical Data:
2017 to 2022
Market Size in 2022:
US $ 7.67 Bn.




Forecast Period 2023 to 2029 CAGR:
10.6%
Market Size in 2029:
US $ 15.53 Bn.




 Segments Covered:
by Component
• Power Amplifiers
• Low Noise Amplifiers
• Attenuators
• Switches
• Phase Shifters
• Mixers
• Voltage-Controlled Oscillators
• Frequency Multipliers




by Material Type
• Gallium Arsenide
• Indium Phosphide
• Silicon Germanium
• Gallium Nitride
• Indium Gallium Phosphide




by Technology
• Metal-Semiconductor Field-Effect Transistor
• High Electron Mobility Transistor
• Pseudomorphic High Electron Mobility Transistor
• Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
• Metamorphic High Electron Mobility Transistor
• Heterojunction Bipolar Transistor
• Metal-Oxide Semiconductor




by Frequency Band
• L Band (1–2 GHz)
• S Band (2–4 GHz)
• C Band (4–8 GHz)
• X Band (8–12 GHz)
• Ku Band (12–18 GHz)
• K Band (18–27 GHz)
• Ka Band (26.5–40 GHz)
• V Band (40–75 GHz)
• W Band (75–110 GHz)




by Application
• Consumer/Enterprise Electronics
• Wireless Communication Infrastructure
• Automotive
• Aerospace & Defense
• CATV and Wired Broadband
• Others






Monolithic Microwave IC (MMIC) Market, by Region
North America (United States, Canada and Mexico)
• Europe (UK, France, Germany, Italy, Spain, Sweden, Austria and Rest of Europe)
• Asia Pacific (China, South Korea, Japan, India, Australia, Indonesia, Malaysia, Vietnam, Taiwan, Bangladesh, Pakistan and Rest of APAC)
• Middle East and Africa (South Africa, GCC, Egypt, Nigeria and Rest of ME&A)
• South America (Brazil, Argentina Rest of South America)

Monolithic Microwave IC (MMIC) Market, Key Players are:

• NXP Semiconductors
• Analog Devices
• Skyworks Solutions
• Broadcom
• Qorvo
• MACOM
• Infineon Technologie
• Maxim Integrated
• Mini-Circuits, Inc.
• OMMIC
• Win Semiconductors
• United Monolithic Semiconductors (UMS)
• Custom MMIC Design Services, Inc.
• Microarray Technologies
• Vectrawave
• Berex
• Arralis
• Microarray Technologies
• Elite Microwave Electronics Co., Ltd.
• Northrop Grumman
• Microchip Technology

Frequently Asked Questions:

1. Which region has the largest share in Global Monolithic Microwave IC (MMIC) Market ?
Ans: Asia Pacific region held the highest share in 2022.

2. What is the growth rate of Global Monolithic Microwave IC (MMIC) Market ?
Ans: The Global Monolithic Microwave IC (MMIC) Market is growing at a CAGR of 10.6% during forecasting period 2023-2029.

3. What is scope of the Global Monolithic Microwave IC (MMIC) Market report?
Ans: Global Monolithic Microwave IC (MMIC) Market report helps with the PESTEL, PORTER, COVID-19 Impact analysis, Recommendations for Investors & Leaders, and market estimation of the forecast period.

4. Who are the key players in Global Monolithic Microwave IC (MMIC) Market ?
Ans: The important key players in the Global Monolithic Microwave IC (MMIC) Market are – NXP Semiconductors, Analog Devices, Skyworks Solutions, Broadcom, Qorvo, MACOM, Infineon Technologie, Maxim Integrated, Mini-Circuits, Inc., OMMIC, Win Semiconductors, United Monolithic Semiconductors (UMS), Custom MMIC Design Services, Inc., Microarray Technologies, Vectrawave, Berex, Arralis, Microarray Technologies, Elite Microwave Electronics Co., Ltd., Northrop Grumman, Microchip Technology.

5. What is the study period of this Market?
Ans: The Global Monolithic Microwave IC (MMIC) Market is studied from 2022 to 2029. 





Table of Content

1. Preface
1.1. Report Scope and Market Segmentation
1.2. Research Highlights
1.3. Research Objectives

2. Assumptions and Research Methodology
2.1. Report Assumptions
2.2. Abbreviations
2.3. Research Methodology
2.3.1. Secondary Research
2.3.1.1. Secondary data
2.3.1.2. Secondary Sources
2.3.2. Primary Research
2.3.2.1. Data from Primary Sources
2.3.2.2. Breakdown of Primary Sources

3. Executive Summary : Global Monolithic Microwave IC (MMIC) Market Size, by Market Value (US$ Bn)

4. Market Overview
4.1. Introduction
4.2. Market Indicator
4.2.1. Drivers
4.2.2. Restraints
4.2.3. Opportunities
4.2.4. Challenges
4.3. Porter’s Analysis
4.4. Value Chain Analysis
4.5. Market Risk Analysis
4.6. SWOT Analysis
4.7. Industry Trends in Global Monolithic Microwave IC (MMIC) Market
4.8. Patent Registration

5. Supply Side and Demand Side Indicators       

6. Global Monolithic Microwave IC (MMIC) Market Analysis and Forecast
6.1. Global Monolithic Microwave IC (MMIC) Market Size & Y-o-Y Growth Analysis
6.1.1. North America
6.1.2. Europe
6.1.3. Asia Pacific
6.1.4. Middle East & Africa
6.1.5. South America

7. Global Monolithic Microwave IC (MMIC) Market Analysis and Forecast, by Component
7.1. Introduction and Definition
7.2. Key Findings
7.3. Global Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Component
7.4. Global Monolithic Microwave IC (MMIC) Market Size (US$ Bn) Forecast, by Component
7.5. Global Monolithic Microwave IC (MMIC) Market Analysis, by Component
7.6. Global Monolithic Microwave IC (MMIC) Market Attractiveness Analysis, by Component

8. Global Monolithic Microwave IC (MMIC) Market Analysis and Forecast, by Material Type
8.1. Introduction and Definition
8.2. Key Findings
8.3. Global Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Material Type
8.4. Global Monolithic Microwave IC (MMIC) Market Size (US$ Bn) Forecast, by Material Type
8.5. Global Monolithic Microwave IC (MMIC) Market Analysis, by Material Type
8.6. Global Monolithic Microwave IC (MMIC) Market Attractiveness Analysis, by Material Type

9. Global Monolithic Microwave IC (MMIC) Market Analysis and Forecast, by Technology
9.1. Introduction and Definition
9.2. Key Findings
9.3. Global Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Technology
9.4. Global Monolithic Microwave IC (MMIC) Market Size (US$ Bn) Forecast, by Technology
9.5. Global Monolithic Microwave IC (MMIC) Market Analysis, by Technology
9.6. Global Monolithic Microwave IC (MMIC) Market Attractiveness Analysis, by Technology

10. Global Monolithic Microwave IC (MMIC) Market Analysis and Forecast, by Frequency Band
10.1. Introduction and Definition
10.2. Key Findings
10.3. Global Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Frequency Band
10.4. Global Monolithic Microwave IC (MMIC) Market Size (US$ Bn) Forecast, by Frequency Band
10.5. Global Monolithic Microwave IC (MMIC) Market Analysis, by Frequency Band
10.6. Global Monolithic Microwave IC (MMIC) Market Attractiveness Analysis, by Frequency Band

11. Global Monolithic Microwave IC (MMIC) Market Analysis and Forecast, by Application
11.1. Introduction and Definition
11.2. Key Findings
11.3. Global Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Application
11.4. Global Monolithic Microwave IC (MMIC) Market Size (US$ Bn) Forecast, by Application
11.5. Global Monolithic Microwave IC (MMIC) Market Analysis, by Application
11.6. Global Monolithic Microwave IC (MMIC) Market Attractiveness Analysis, by Application

12. Global Monolithic Microwave IC (MMIC) Market Analysis, by Region
12.1. Global Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Region
12.2. Global Monolithic Microwave IC (MMIC) Market Size (US$ Bn) Forecast, by Region
12.3. Global Monolithic Microwave IC (MMIC) Market Attractiveness Analysis, by Region

13. North America Monolithic Microwave IC (MMIC) Market Analysis
13.1. Key Findings
13.2. North America Monolithic Microwave IC (MMIC) Market Overview
13.3. North America Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Component
13.4. North America Monolithic Microwave IC (MMIC) Market Forecast, by Component
13.4.1. Power Amplifiers
13.4.2. Low Noise Amplifiers
13.4.3. Attenuators
13.4.4. Switches
13.4.5. Phase Shifters
13.4.6. Mixers
13.4.7. Voltage-Controlled Oscillators
13.4.8. Frequency Multipliers
13.5. North America Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Material Type
13.6. North America Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
13.6.1. Gallium Arsenide
13.6.2. Indium Phosphide
13.6.3. Silicon Germanium
13.6.4. Gallium Nitride
13.6.5. Indium Gallium Phosphide
13.7. North America Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Technology
13.8. North America Monolithic Microwave IC (MMIC) Market Forecast, by Technology
13.8.1. Metal-Semiconductor Field-Effect Transistor
13.8.2. High Electron Mobility Transistor
13.8.3. Pseudomorphic High Electron Mobility Transistor
13.8.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
13.8.5. Metamorphic High Electron Mobility Transistor
13.8.6. Heterojunction Bipolar Transistor
13.8.7. Metal-Oxide Semiconductor
13.9. North America Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Frequency Band
13.10. North America Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
13.10.1. L Band (1–2 GHz)
13.10.2. S Band (2–4 GHz)
13.10.3. C Band (4–8 GHz)
13.10.4. X Band (8–12 GHz)
13.10.5. Ku Band (12–18 GHz)
13.10.6. K Band (18–27 GHz)
13.10.7. Ka Band (26.5–40 GHz)
13.10.8. V Band (40–75 GHz)
13.10.9. W Band (75–110 GHz)
13.11. North America Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Application
13.12. North America Monolithic Microwave IC (MMIC) Market Forecast, by Application
13.12.1. Consumer/Enterprise Electronics
13.12.2. Wireless Communication Infrastructure
13.12.3. Automotive
13.12.4. Aerospace & Defense
13.12.5. CATV and Wired Broadband
13.12.6. Others
13.13. North America Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Country
13.14. North America Monolithic Microwave IC (MMIC) Market Forecast, by Country
13.14.1. U.S.
13.14.2. Canada
13.15. North America Monolithic Microwave IC (MMIC) Market Analysis, by Country
13.16. U.S. Monolithic Microwave IC (MMIC) Market Forecast, by Component
13.16.1. Power Amplifiers
13.16.2. Low Noise Amplifiers
13.16.3. Attenuators
13.16.4. Switches
13.16.5. Phase Shifters
13.16.6. Mixers
13.16.7. Voltage-Controlled Oscillators
13.16.8. Frequency Multipliers
13.17. U.S. Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
13.17.1. Gallium Arsenide
13.17.2. Indium Phosphide
13.17.3. Silicon Germanium
13.17.4. Gallium Nitride
13.17.5. Indium Gallium Phosphide
13.18. U.S. Monolithic Microwave IC (MMIC) Market Forecast, by Technology
13.18.1. Metal-Semiconductor Field-Effect Transistor
13.18.2. High Electron Mobility Transistor
13.18.3. Pseudomorphic High Electron Mobility Transistor
13.18.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
13.18.5. Metamorphic High Electron Mobility Transistor
13.18.6. Heterojunction Bipolar Transistor
13.18.7. Metal-Oxide Semiconductor
13.19. U.S. Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
13.19.1. L Band (1–2 GHz)
13.19.2. S Band (2–4 GHz)
13.19.3. C Band (4–8 GHz)
13.19.4. X Band (8–12 GHz)
13.19.5. Ku Band (12–18 GHz)
13.19.6. K Band (18–27 GHz)
13.19.7. Ka Band (26.5–40 GHz)
13.19.8. V Band (40–75 GHz)
13.19.9. W Band (75–110 GHz)
13.20. U.S. Monolithic Microwave IC (MMIC) Market Forecast, by Application
13.20.1. Consumer/Enterprise Electronics
13.20.2. Wireless Communication Infrastructure
13.20.3. Automotive
13.20.4. Aerospace & Defense
13.20.5. CATV and Wired Broadband
13.20.6. Others
13.21. Canada Monolithic Microwave IC (MMIC) Market Forecast, by Component
13.21.1. Power Amplifiers
13.21.2. Low Noise Amplifiers
13.21.3. Attenuators
13.21.4. Switches
13.21.5. Phase Shifters
13.21.6. Mixers
13.21.7. Voltage-Controlled Oscillators
13.21.8. Frequency Multipliers
13.22. Canada Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
13.22.1. Gallium Arsenide
13.22.2. Indium Phosphide
13.22.3. Silicon Germanium
13.22.4. Gallium Nitride
13.22.5. Indium Gallium Phosphide
13.23. Canada Monolithic Microwave IC (MMIC) Market Forecast, by Technology
13.23.1. Metal-Semiconductor Field-Effect Transistor
13.23.2. High Electron Mobility Transistor
13.23.3. Pseudomorphic High Electron Mobility Transistor
13.23.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
13.23.5. Metamorphic High Electron Mobility Transistor
13.23.6. Heterojunction Bipolar Transistor
13.23.7. Metal-Oxide Semiconductor
13.24. Canada Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
13.24.1. L Band (1–2 GHz)
13.24.2. S Band (2–4 GHz)
13.24.3. C Band (4–8 GHz)
13.24.4. X Band (8–12 GHz)
13.24.5. Ku Band (12–18 GHz)
13.24.6. K Band (18–27 GHz)
13.24.7. Ka Band (26.5–40 GHz)
13.24.8. V Band (40–75 GHz)
13.24.9. W Band (75–110 GHz)
13.25. Canada Monolithic Microwave IC (MMIC) Market Forecast, by Application
13.25.1. Consumer/Enterprise Electronics
13.25.2. Wireless Communication Infrastructure
13.25.3. Automotive
13.25.4. Aerospace & Defense
13.25.5. CATV and Wired Broadband
13.25.6. Others
13.26. North America Monolithic Microwave IC (MMIC) Market Attractiveness Analysis
13.26.1. By Component
13.26.2. By Material Type
13.26.3. By Technology
13.26.4. By Frequency Band
13.26.5. By Application
13.27. PEST Analysis
13.28. Key Trends
13.29. Key Developments

14. Europe Monolithic Microwave IC (MMIC) Market Analysis
14.1. Key Findings
14.2. Europe Monolithic Microwave IC (MMIC) Market Overview
14.3. Europe Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Component
14.4. Europe Monolithic Microwave IC (MMIC) Market Forecast, by Component
14.4.1. Power Amplifiers
14.4.2. Low Noise Amplifiers
14.4.3. Attenuators
14.4.4. Switches
14.4.5. Phase Shifters
14.4.6. Mixers
14.4.7. Voltage-Controlled Oscillators
14.4.8. Frequency Multipliers
14.5. Europe Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Material Type
14.6. Europe Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
14.6.1. Gallium Arsenide
14.6.2. Indium Phosphide
14.6.3. Silicon Germanium
14.6.4. Gallium Nitride
14.6.5. Indium Gallium Phosphide
14.7. Europe Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Technology
14.8. Europe Monolithic Microwave IC (MMIC) Market Forecast, by Technology
14.8.1. Metal-Semiconductor Field-Effect Transistor
14.8.2. High Electron Mobility Transistor
14.8.3. Pseudomorphic High Electron Mobility Transistor
14.8.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
14.8.5. Metamorphic High Electron Mobility Transistor
14.8.6. Heterojunction Bipolar Transistor
14.8.7. Metal-Oxide Semiconductor
14.9. Europe Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Frequency Band
14.10. Europe Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
14.10.1. L Band (1–2 GHz)
14.10.2. S Band (2–4 GHz)
14.10.3. C Band (4–8 GHz)
14.10.4. X Band (8–12 GHz)
14.10.5. Ku Band (12–18 GHz)
14.10.6. K Band (18–27 GHz)
14.10.7. Ka Band (26.5–40 GHz)
14.10.8. V Band (40–75 GHz)
14.10.9. W Band (75–110 GHz)
14.11. Europe Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Application
14.12. Europe Monolithic Microwave IC (MMIC) Market Forecast, by Application
14.12.1. Consumer/Enterprise Electronics
14.12.2. Wireless Communication Infrastructure
14.12.3. Automotive
14.12.4. Aerospace & Defense
14.12.5. CATV and Wired Broadband
14.12.6. Others
14.13. Europe Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Country
14.14. Europe Monolithic Microwave IC (MMIC) Market Forecast, by Country
14.14.1. Germany
14.14.2. U.K.
14.14.3. France
14.14.4. Italy
14.14.5. Spain
14.14.6. Rest of Europe
14.15. Europe Monolithic Microwave IC (MMIC) Market Analysis, by Country
14.16. Germany Monolithic Microwave IC (MMIC) Market Forecast, by Component
14.16.1. Power Amplifiers
14.16.2. Low Noise Amplifiers
14.16.3. Attenuators
14.16.4. Switches
14.16.5. Phase Shifters
14.16.6. Mixers
14.16.7. Voltage-Controlled Oscillators
14.16.8. Frequency Multipliers
14.17. Germany Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
14.17.1. Gallium Arsenide
14.17.2. Indium Phosphide
14.17.3. Silicon Germanium
14.17.4. Gallium Nitride
14.17.5. Indium Gallium Phosphide
14.18. Germany Monolithic Microwave IC (MMIC) Market Forecast, by Technology
14.18.1. Metal-Semiconductor Field-Effect Transistor
14.18.2. High Electron Mobility Transistor
14.18.3. Pseudomorphic High Electron Mobility Transistor
14.18.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
14.18.5. Metamorphic High Electron Mobility Transistor
14.18.6. Heterojunction Bipolar Transistor
14.18.7. Metal-Oxide Semiconductor
14.19. Germany Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
14.19.1. L Band (1–2 GHz)
14.19.2. S Band (2–4 GHz)
14.19.3. C Band (4–8 GHz)
14.19.4. X Band (8–12 GHz)
14.19.5. Ku Band (12–18 GHz)
14.19.6. K Band (18–27 GHz)
14.19.7. Ka Band (26.5–40 GHz)
14.19.8. V Band (40–75 GHz)
14.19.9. W Band (75–110 GHz)
14.20. Germany Monolithic Microwave IC (MMIC) Market Forecast, by Application
14.20.1. Consumer/Enterprise Electronics
14.20.2. Wireless Communication Infrastructure
14.20.3. Automotive
14.20.4. Aerospace & Defense
14.20.5. CATV and Wired Broadband
14.20.6. Others
14.21. U.K. Monolithic Microwave IC (MMIC) Market Forecast, by Component
14.21.1. Power Amplifiers
14.21.2. Low Noise Amplifiers
14.21.3. Attenuators
14.21.4. Switches
14.21.5. Phase Shifters
14.21.6. Mixers
14.21.7. Voltage-Controlled Oscillators
14.21.8. Frequency Multipliers
14.22. U.K. Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
14.22.1. Gallium Arsenide
14.22.2. Indium Phosphide
14.22.3. Silicon Germanium
14.22.4. Gallium Nitride
14.22.5. Indium Gallium Phosphide
14.23. U.K. Monolithic Microwave IC (MMIC) Market Forecast, by Technology
14.23.1. Metal-Semiconductor Field-Effect Transistor
14.23.2. High Electron Mobility Transistor
14.23.3. Pseudomorphic High Electron Mobility Transistor
14.23.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
14.23.5. Metamorphic High Electron Mobility Transistor
14.23.6. Heterojunction Bipolar Transistor
14.23.7. Metal-Oxide Semiconductor
14.24. U.K. Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
14.24.1. L Band (1–2 GHz)
14.24.2. S Band (2–4 GHz)
14.24.3. C Band (4–8 GHz)
14.24.4. X Band (8–12 GHz)
14.24.5. Ku Band (12–18 GHz)
14.24.6. K Band (18–27 GHz)
14.24.7. Ka Band (26.5–40 GHz)
14.24.8. V Band (40–75 GHz)
14.24.9. W Band (75–110 GHz)
14.25. U.K. Monolithic Microwave IC (MMIC) Market Forecast, by Application
14.25.1. Consumer/Enterprise Electronics
14.25.2. Wireless Communication Infrastructure
14.25.3. Automotive
14.25.4. Aerospace & Defense
14.25.5. CATV and Wired Broadband
14.25.6. Others
14.26. France Monolithic Microwave IC (MMIC) Market Forecast, by Component
14.26.1. Power Amplifiers
14.26.2. Low Noise Amplifiers
14.26.3. Attenuators
14.26.4. Switches
14.26.5. Phase Shifters
14.26.6. Mixers
14.26.7. Voltage-Controlled Oscillators
14.26.8. Frequency Multipliers
14.27. France Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
14.27.1. Gallium Arsenide
14.27.2. Indium Phosphide
14.27.3. Silicon Germanium
14.27.4. Gallium Nitride
14.27.5. Indium Gallium Phosphide
14.28. France Monolithic Microwave IC (MMIC) Market Forecast, by Technology
14.28.1. Metal-Semiconductor Field-Effect Transistor
14.28.2. High Electron Mobility Transistor
14.28.3. Pseudomorphic High Electron Mobility Transistor
14.28.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
14.28.5. Metamorphic High Electron Mobility Transistor
14.28.6. Heterojunction Bipolar Transistor
14.28.7. Metal-Oxide Semiconductor
14.29. France Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
14.29.1. L Band (1–2 GHz)
14.29.2. S Band (2–4 GHz)
14.29.3. C Band (4–8 GHz)
14.29.4. X Band (8–12 GHz)
14.29.5. Ku Band (12–18 GHz)
14.29.6. K Band (18–27 GHz)
14.29.7. Ka Band (26.5–40 GHz)
14.29.8. V Band (40–75 GHz)
14.29.9. W Band (75–110 GHz)
14.30. France Monolithic Microwave IC (MMIC) Market Forecast, by Application
14.30.1. Consumer/Enterprise Electronics
14.30.2. Wireless Communication Infrastructure
14.30.3. Automotive
14.30.4. Aerospace & Defense
14.30.5. CATV and Wired Broadband
14.30.6. Others
14.31. Italy Monolithic Microwave IC (MMIC) Market Forecast, by Component
14.31.1. Power Amplifiers
14.31.2. Low Noise Amplifiers
14.31.3. Attenuators
14.31.4. Switches
14.31.5. Phase Shifters
14.31.6. Mixers
14.31.7. Voltage-Controlled Oscillators
14.31.8. Frequency Multipliers
14.32. Italy Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
14.32.1. Gallium Arsenide
14.32.2. Indium Phosphide
14.32.3. Silicon Germanium
14.32.4. Gallium Nitride
14.32.5. Indium Gallium Phosphide
14.33. Italy Monolithic Microwave IC (MMIC) Market Forecast, by Technology
14.33.1. Metal-Semiconductor Field-Effect Transistor
14.33.2. High Electron Mobility Transistor
14.33.3. Pseudomorphic High Electron Mobility Transistor
14.33.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
14.33.5. Metamorphic High Electron Mobility Transistor
14.33.6. Heterojunction Bipolar Transistor
14.33.7. Metal-Oxide Semiconductor
14.34. Italy Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
14.34.1. L Band (1–2 GHz)
14.34.2. S Band (2–4 GHz)
14.34.3. C Band (4–8 GHz)
14.34.4. X Band (8–12 GHz)
14.34.5. Ku Band (12–18 GHz)
14.34.6. K Band (18–27 GHz)
14.34.7. Ka Band (26.5–40 GHz)
14.34.8. V Band (40–75 GHz)
14.34.9. W Band (75–110 GHz)
14.35. Italy Monolithic Microwave IC (MMIC) Market Forecast, by Application
14.35.1. Consumer/Enterprise Electronics
14.35.2. Wireless Communication Infrastructure
14.35.3. Automotive
14.35.4. Aerospace & Defense
14.35.5. CATV and Wired Broadband
14.35.6. Others
14.36. Spain Monolithic Microwave IC (MMIC) Market Forecast, by Component
14.36.1. Power Amplifiers
14.36.2. Low Noise Amplifiers
14.36.3. Attenuators
14.36.4. Switches
14.36.5. Phase Shifters
14.36.6. Mixers
14.36.7. Voltage-Controlled Oscillators
14.36.8. Frequency Multipliers
14.37. Spain Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
14.37.1. Gallium Arsenide
14.37.2. Indium Phosphide
14.37.3. Silicon Germanium
14.37.4. Gallium Nitride
14.37.5. Indium Gallium Phosphide
14.38. Spain Monolithic Microwave IC (MMIC) Market Forecast, by Technology
14.38.1. Metal-Semiconductor Field-Effect Transistor
14.38.2. High Electron Mobility Transistor
14.38.3. Pseudomorphic High Electron Mobility Transistor
14.38.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
14.38.5. Metamorphic High Electron Mobility Transistor
14.38.6. Heterojunction Bipolar Transistor
14.38.7. Metal-Oxide Semiconductor
14.39. Spain Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
14.39.1. L Band (1–2 GHz)
14.39.2. S Band (2–4 GHz)
14.39.3. C Band (4–8 GHz)
14.39.4. X Band (8–12 GHz)
14.39.5. Ku Band (12–18 GHz)
14.39.6. K Band (18–27 GHz)
14.39.7. Ka Band (26.5–40 GHz)
14.39.8. V Band (40–75 GHz)
14.39.9. W Band (75–110 GHz)
14.40. Spain Monolithic Microwave IC (MMIC) Market Forecast, by Application
14.40.1. Consumer/Enterprise Electronics
14.40.2. Wireless Communication Infrastructure
14.40.3. Automotive
14.40.4. Aerospace & Defense
14.40.5. CATV and Wired Broadband
14.40.6. Others
14.41. Rest of Europe Monolithic Microwave IC (MMIC) Market Forecast, by Component
14.41.1. Power Amplifiers
14.41.2. Low Noise Amplifiers
14.41.3. Attenuators
14.41.4. Switches
14.41.5. Phase Shifters
14.41.6. Mixers
14.41.7. Voltage-Controlled Oscillators
14.41.8. Frequency Multipliers
14.42. Rest of Europe Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
14.42.1. Gallium Arsenide
14.42.2. Indium Phosphide
14.42.3. Silicon Germanium
14.42.4. Gallium Nitride
14.42.5. Indium Gallium Phosphide
14.43. Rest of Europe Monolithic Microwave IC (MMIC) Market Forecast, by Technology
14.43.1. Metal-Semiconductor Field-Effect Transistor
14.43.2. High Electron Mobility Transistor
14.43.3. Pseudomorphic High Electron Mobility Transistor
14.43.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
14.43.5. Metamorphic High Electron Mobility Transistor
14.43.6. Heterojunction Bipolar Transistor
14.43.7. Metal-Oxide Semiconductor
14.44. Rest Of Europe Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
14.44.1. L Band (1–2 GHz)
14.44.2. S Band (2–4 GHz)
14.44.3. C Band (4–8 GHz)
14.44.4. X Band (8–12 GHz)
14.44.5. Ku Band (12–18 GHz)
14.44.6. K Band (18–27 GHz)
14.44.7. Ka Band (26.5–40 GHz)
14.44.8. V Band (40–75 GHz)
14.44.9. W Band (75–110 GHz)
14.45. Rest Of Europe Monolithic Microwave IC (MMIC) Market Forecast, by Application
14.45.1. Consumer/Enterprise Electronics
14.45.2. Wireless Communication Infrastructure
14.45.3. Automotive
14.45.4. Aerospace & Defense
14.45.5. CATV and Wired Broadband
14.45.6. Others
14.46. Europe Monolithic Microwave IC (MMIC) Market Attractiveness Analysis
14.46.1. By Component
14.46.2. By Material Type
14.46.3. By Technology
14.46.4. By Frequency Band
14.46.5. By Application
14.47. PEST Analysis
14.48. Key Trends
14.49. Key Developments

15. Asia Pacific Monolithic Microwave IC (MMIC) Market Analysis
15.1. Key Findings
15.2. Asia Pacific Monolithic Microwave IC (MMIC) Market Overview
15.3. Asia Pacific Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Component
15.4. Asia Pacific Monolithic Microwave IC (MMIC) Market Forecast, by Component
15.4.1. Power Amplifiers
15.4.2. Low Noise Amplifiers
15.4.3. Attenuators
15.4.4. Switches
15.4.5. Phase Shifters
15.4.6. Mixers
15.4.7. Voltage-Controlled Oscillators
15.4.8. Frequency Multipliers
15.5. Asia Pacific Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Material Type
15.6. Asia Pacific Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
15.6.1. Gallium Arsenide
15.6.2. Indium Phosphide
15.6.3. Silicon Germanium
15.6.4. Gallium Nitride
15.6.5. Indium Gallium Phosphide
15.7. Asia Pacific Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Technology
15.8. Asia Pacific Monolithic Microwave IC (MMIC) Market Forecast, by Technology
15.8.1. Metal-Semiconductor Field-Effect Transistor
15.8.2. High Electron Mobility Transistor
15.8.3. Pseudomorphic High Electron Mobility Transistor
15.8.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
15.8.5. Metamorphic High Electron Mobility Transistor
15.8.6. Heterojunction Bipolar Transistor
15.8.7. Metal-Oxide Semiconductor
15.9. Asia Pacific Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Frequency Band
15.10. Asia Pacific Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
15.10.1. L Band (1–2 GHz)
15.10.2. S Band (2–4 GHz)
15.10.3. C Band (4–8 GHz)
15.10.4. X Band (8–12 GHz)
15.10.5. Ku Band (12–18 GHz)
15.10.6. K Band (18–27 GHz)
15.10.7. Ka Band (26.5–40 GHz)
15.10.8. V Band (40–75 GHz)
15.10.9. W Band (75–110 GHz)
15.11. Asia Pacific Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Application
15.12. Asia Pacific Monolithic Microwave IC (MMIC) Market Forecast, by Application
15.12.1. Consumer/Enterprise Electronics
15.12.2. Wireless Communication Infrastructure
15.12.3. Automotive
15.12.4. Aerospace & Defense
15.12.5. CATV and Wired Broadband
15.12.6. Others
15.13. Asia Pacific Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Country
15.14. Asia Pacific Monolithic Microwave IC (MMIC) Market Forecast, by Country
15.14.1. China
15.14.2. India
15.14.3. Japan
15.14.4. ASEAN
15.14.5. Rest of Asia Pacific
15.15. Asia Pacific Monolithic Microwave IC (MMIC) Market Analysis, by Country
15.16. China Monolithic Microwave IC (MMIC) Market Forecast, by Component
15.16.1. Power Amplifiers
15.16.2. Low Noise Amplifiers
15.16.3. Attenuators
15.16.4. Switches
15.16.5. Phase Shifters
15.16.6. Mixers
15.16.7. Voltage-Controlled Oscillators
15.16.8. Frequency Multipliers
15.17. China Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
15.17.1. Gallium Arsenide
15.17.2. Indium Phosphide
15.17.3. Silicon Germanium
15.17.4. Gallium Nitride
15.17.5. Indium Gallium Phosphide
15.18. China Monolithic Microwave IC (MMIC) Market Forecast, by Technology
15.18.1. Metal-Semiconductor Field-Effect Transistor
15.18.2. High Electron Mobility Transistor
15.18.3. Pseudomorphic High Electron Mobility Transistor
15.18.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
15.18.5. Metamorphic High Electron Mobility Transistor
15.18.6. Heterojunction Bipolar Transistor
15.18.7. Metal-Oxide Semiconductor
15.19. China Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
15.19.1. L Band (1–2 GHz)
15.19.2. S Band (2–4 GHz)
15.19.3. C Band (4–8 GHz)
15.19.4. X Band (8–12 GHz)
15.19.5. Ku Band (12–18 GHz)
15.19.6. K Band (18–27 GHz)
15.19.7. Ka Band (26.5–40 GHz)
15.19.8. V Band (40–75 GHz)
15.19.9. W Band (75–110 GHz)
15.20. China Monolithic Microwave IC (MMIC) Market Forecast, by Application
15.20.1. Consumer/Enterprise Electronics
15.20.2. Wireless Communication Infrastructure
15.20.3. Automotive
15.20.4. Aerospace & Defense
15.20.5. CATV and Wired Broadband
15.20.6. Others
15.21. India Monolithic Microwave IC (MMIC) Market Forecast, by Component
15.21.1. Power Amplifiers
15.21.2. Low Noise Amplifiers
15.21.3. Attenuators
15.21.4. Switches
15.21.5. Phase Shifters
15.21.6. Mixers
15.21.7. Voltage-Controlled Oscillators
15.21.8. Frequency Multipliers
15.22. India Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
15.22.1. Gallium Arsenide
15.22.2. Indium Phosphide
15.22.3. Silicon Germanium
15.22.4. Gallium Nitride
15.22.5. Indium Gallium Phosphide
15.23. India Monolithic Microwave IC (MMIC) Market Forecast, by Technology
15.23.1. Metal-Semiconductor Field-Effect Transistor
15.23.2. High Electron Mobility Transistor
15.23.3. Pseudomorphic High Electron Mobility Transistor
15.23.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
15.23.5. Metamorphic High Electron Mobility Transistor
15.23.6. Heterojunction Bipolar Transistor
15.23.7. Metal-Oxide Semiconductor
15.24. India Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
15.24.1. L Band (1–2 GHz)
15.24.2. S Band (2–4 GHz)
15.24.3. C Band (4–8 GHz)
15.24.4. X Band (8–12 GHz)
15.24.5. Ku Band (12–18 GHz)
15.24.6. K Band (18–27 GHz)
15.24.7. Ka Band (26.5–40 GHz)
15.24.8. V Band (40–75 GHz)
15.24.9. W Band (75–110 GHz)
15.25. India Monolithic Microwave IC (MMIC) Market Forecast, by Application
15.25.1. Consumer/Enterprise Electronics
15.25.2. Wireless Communication Infrastructure
15.25.3. Automotive
15.25.4. Aerospace & Defense
15.25.5. CATV and Wired Broadband
15.25.6. Others
15.26. Japan Monolithic Microwave IC (MMIC) Market Forecast, by Component
15.26.1. Power Amplifiers
15.26.2. Low Noise Amplifiers
15.26.3. Attenuators
15.26.4. Switches
15.26.5. Phase Shifters
15.26.6. Mixers
15.26.7. Voltage-Controlled Oscillators
15.26.8. Frequency Multipliers
15.27. Japan Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
15.27.1. Gallium Arsenide
15.27.2. Indium Phosphide
15.27.3. Silicon Germanium
15.27.4. Gallium Nitride
15.27.5. Indium Gallium Phosphide
15.28. Japan Monolithic Microwave IC (MMIC) Market Forecast, by Technology
15.28.1. Metal-Semiconductor Field-Effect Transistor
15.28.2. High Electron Mobility Transistor
15.28.3. Pseudomorphic High Electron Mobility Transistor
15.28.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
15.28.5. Metamorphic High Electron Mobility Transistor
15.28.6. Heterojunction Bipolar Transistor
15.28.7. Metal-Oxide Semiconductor
15.29. Japan Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
15.29.1. L Band (1–2 GHz)
15.29.2. S Band (2–4 GHz)
15.29.3. C Band (4–8 GHz)
15.29.4. X Band (8–12 GHz)
15.29.5. Ku Band (12–18 GHz)
15.29.6. K Band (18–27 GHz)
15.29.7. Ka Band (26.5–40 GHz)
15.29.8. V Band (40–75 GHz)
15.29.9. W Band (75–110 GHz)
15.30. Japan Monolithic Microwave IC (MMIC) Market Forecast, by Application
15.30.1. Consumer/Enterprise Electronics
15.30.2. Wireless Communication Infrastructure
15.30.3. Automotive
15.30.4. Aerospace & Defense
15.30.5. CATV and Wired Broadband
15.30.6. Others
15.31. ASEAN Monolithic Microwave IC (MMIC) Market Forecast, by Component
15.31.1. Power Amplifiers
15.31.2. Low Noise Amplifiers
15.31.3. Attenuators
15.31.4. Switches
15.31.5. Phase Shifters
15.31.6. Mixers
15.31.7. Voltage-Controlled Oscillators
15.31.8. Frequency Multipliers
15.32. ASEAN Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
15.32.1. Gallium Arsenide
15.32.2. Indium Phosphide
15.32.3. Silicon Germanium
15.32.4. Gallium Nitride
15.32.5. Indium Gallium Phosphide
15.33. ASEAN Monolithic Microwave IC (MMIC) Market Forecast, by Technology
15.33.1. Metal-Semiconductor Field-Effect Transistor
15.33.2. High Electron Mobility Transistor
15.33.3. Pseudomorphic High Electron Mobility Transistor
15.33.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
15.33.5. Metamorphic High Electron Mobility Transistor
15.33.6. Heterojunction Bipolar Transistor
15.33.7. Metal-Oxide Semiconductor
15.34. ASEAN Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
15.34.1. L Band (1–2 GHz)
15.34.2. S Band (2–4 GHz)
15.34.3. C Band (4–8 GHz)
15.34.4. X Band (8–12 GHz)
15.34.5. Ku Band (12–18 GHz)
15.34.6. K Band (18–27 GHz)
15.34.7. Ka Band (26.5–40 GHz)
15.34.8. V Band (40–75 GHz)
15.34.9. W Band (75–110 GHz)
15.35. ASEAN Monolithic Microwave IC (MMIC) Market Forecast, by Application
15.35.1. Consumer/Enterprise Electronics
15.35.2. Wireless Communication Infrastructure
15.35.3. Automotive
15.35.4. Aerospace & Defense
15.35.5. CATV and Wired Broadband
15.35.6. Others
15.36. Rest of Asia Pacific Monolithic Microwave IC (MMIC) Market Forecast, by Component
15.36.1. Power Amplifiers
15.36.2. Low Noise Amplifiers
15.36.3. Attenuators
15.36.4. Switches
15.36.5. Phase Shifters
15.36.6. Mixers
15.36.7. Voltage-Controlled Oscillators
15.36.8. Frequency Multipliers
15.37. Rest of Asia Pacific Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
15.37.1. Gallium Arsenide
15.37.2. Indium Phosphide
15.37.3. Silicon Germanium
15.37.4. Gallium Nitride
15.37.5. Indium Gallium Phosphide
15.38. Rest of Asia Pacific Monolithic Microwave IC (MMIC) Market Forecast, by Technology
15.38.1. Metal-Semiconductor Field-Effect Transistor
15.38.2. High Electron Mobility Transistor
15.38.3. Pseudomorphic High Electron Mobility Transistor
15.38.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
15.38.5. Metamorphic High Electron Mobility Transistor
15.38.6. Heterojunction Bipolar Transistor
15.38.7. Metal-Oxide Semiconductor
15.39. Rest of Asia Pacific Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
15.39.1. L Band (1–2 GHz)
15.39.2. S Band (2–4 GHz)
15.39.3. C Band (4–8 GHz)
15.39.4. X Band (8–12 GHz)
15.39.5. Ku Band (12–18 GHz)
15.39.6. K Band (18–27 GHz)
15.39.7. Ka Band (26.5–40 GHz)
15.39.8. V Band (40–75 GHz)
15.39.9. W Band (75–110 GHz)
15.40. Rest of Asia Pacific Monolithic Microwave IC (MMIC) Market Forecast, by Application
15.40.1. Consumer/Enterprise Electronics
15.40.2. Wireless Communication Infrastructure
15.40.3. Automotive
15.40.4. Aerospace & Defense
15.40.5. CATV and Wired Broadband
15.40.6. Others
15.41. Asia Pacific Monolithic Microwave IC (MMIC) Market Attractiveness Analysis
15.41.1. By Component
15.41.2. By Material Type
15.41.3. By Technology
15.41.4. By Frequency Band
15.41.5. By Application
15.42. PEST Analysis
15.43. Key Trends
15.44. Key Developments

16. Middle East & Africa Monolithic Microwave IC (MMIC) Market Analysis
16.1. Key Findings
16.2. Middle East & Africa Monolithic Microwave IC (MMIC) Market Overview
16.3. Middle East & Africa Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Deployment Model
16.4. Middle East & Africa Monolithic Microwave IC (MMIC) Market Forecast, by Component
16.4.1. Power Amplifiers
16.4.2. Low Noise Amplifiers
16.4.3. Attenuators
16.4.4. Switches
16.4.5. Phase Shifters
16.4.6. Mixers
16.4.7. Voltage-Controlled Oscillators
16.4.8. Frequency Multipliers
16.5. Middle East & Africa Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Material Type
16.6. Middle East & Africa Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
16.6.1. Gallium Arsenide
16.6.2. Indium Phosphide
16.6.3. Silicon Germanium
16.6.4. Gallium Nitride
16.6.5. Indium Gallium Phosphide
16.7. Middle East & Africa Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Technology
16.8. Middle East & Africa Monolithic Microwave IC (MMIC) Market Forecast, by Technology
16.8.1. Metal-Semiconductor Field-Effect Transistor
16.8.2. High Electron Mobility Transistor
16.8.3. Pseudomorphic High Electron Mobility Transistor
16.8.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
16.8.5. Metamorphic High Electron Mobility Transistor
16.8.6. Heterojunction Bipolar Transistor
16.8.7. Metal-Oxide Semiconductor
16.9. Middle East & Africa Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Frequency Band
16.10. Middle East & Africa Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
16.10.1. L Band (1–2 GHz)
16.10.2. S Band (2–4 GHz)
16.10.3. C Band (4–8 GHz)
16.10.4. X Band (8–12 GHz)
16.10.5. Ku Band (12–18 GHz)
16.10.6. K Band (18–27 GHz)
16.10.7. Ka Band (26.5–40 GHz)
16.10.8. V Band (40–75 GHz)
16.10.9. W Band (75–110 GHz)
16.11. Middle East & Africa Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Application
16.12. Middle East & Africa Monolithic Microwave IC (MMIC) Market Forecast, by Application
16.12.1. Consumer/Enterprise Electronics
16.12.2. Wireless Communication Infrastructure
16.12.3. Automotive
16.12.4. Aerospace & Defense
16.12.5. CATV and Wired Broadband
16.12.6. Others
16.13. Middle East & Africa Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Country
16.14. Middle East & Africa Monolithic Microwave IC (MMIC) Market Forecast, by Country
16.14.1. GCC
16.14.2. South Africa
16.14.3. Rest of Middle East & Africa
16.15. Middle East & Africa Monolithic Microwave IC (MMIC) Market Analysis, by Country
16.16. GCC Monolithic Microwave IC (MMIC) Market Forecast, by Component
16.16.1. Power Amplifiers
16.16.2. Low Noise Amplifiers
16.16.3. Attenuators
16.16.4. Switches
16.16.5. Phase Shifters
16.16.6. Mixers
16.16.7. Voltage-Controlled Oscillators
16.16.8. Frequency Multipliers
16.17. GCC Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
16.17.1. Gallium Arsenide
16.17.2. Indium Phosphide
16.17.3. Silicon Germanium
16.17.4. Gallium Nitride
16.17.5. Indium Gallium Phosphide
16.18. GCC Monolithic Microwave IC (MMIC) Market Forecast, by Technology
16.18.1. Metal-Semiconductor Field-Effect Transistor
16.18.2. High Electron Mobility Transistor
16.18.3. Pseudomorphic High Electron Mobility Transistor
16.18.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
16.18.5. Metamorphic High Electron Mobility Transistor
16.18.6. Heterojunction Bipolar Transistor
16.18.7. Metal-Oxide Semiconductor
16.19. GCC Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
16.19.1. L Band (1–2 GHz)
16.19.2. S Band (2–4 GHz)
16.19.3. C Band (4–8 GHz)
16.19.4. X Band (8–12 GHz)
16.19.5. Ku Band (12–18 GHz)
16.19.6. K Band (18–27 GHz)
16.19.7. Ka Band (26.5–40 GHz)
16.19.8. V Band (40–75 GHz)
16.19.9. W Band (75–110 GHz)
16.20. GCC Monolithic Microwave IC (MMIC) Market Forecast, by Application
16.20.1. Consumer/Enterprise Electronics
16.20.2. Wireless Communication Infrastructure
16.20.3. Automotive
16.20.4. Aerospace & Defense
16.20.5. CATV and Wired Broadband
16.20.6. Others
16.21. South Africa Monolithic Microwave IC (MMIC) Market Forecast, by Component
16.21.1. Power Amplifiers
16.21.2. Low Noise Amplifiers
16.21.3. Attenuators
16.21.4. Switches
16.21.5. Phase Shifters
16.21.6. Mixers
16.21.7. Voltage-Controlled Oscillators
16.21.8. Frequency Multipliers
16.22. South Africa Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
16.22.1. Gallium Arsenide
16.22.2. Indium Phosphide
16.22.3. Silicon Germanium
16.22.4. Gallium Nitride
16.22.5. Indium Gallium Phosphide
16.23. South Africa Monolithic Microwave IC (MMIC) Market Forecast, by Technology
16.23.1. Metal-Semiconductor Field-Effect Transistor
16.23.2. High Electron Mobility Transistor
16.23.3. Pseudomorphic High Electron Mobility Transistor
16.23.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
16.23.5. Metamorphic High Electron Mobility Transistor
16.23.6. Heterojunction Bipolar Transistor
16.23.7. Metal-Oxide Semiconductor
16.24. South Africa Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
16.24.1. L Band (1–2 GHz)
16.24.2. S Band (2–4 GHz)
16.24.3. C Band (4–8 GHz)
16.24.4. X Band (8–12 GHz)
16.24.5. Ku Band (12–18 GHz)
16.24.6. K Band (18–27 GHz)
16.24.7. Ka Band (26.5–40 GHz)
16.24.8. V Band (40–75 GHz)
16.24.9. W Band (75–110 GHz)
16.25. South Africa Monolithic Microwave IC (MMIC) Market Forecast, by Application
16.25.1. Consumer/Enterprise Electronics
16.25.2. Wireless Communication Infrastructure
16.25.3. Automotive
16.25.4. Aerospace & Defense
16.25.5. CATV and Wired Broadband
16.25.6. Others
16.26. Rest of Middle East & Africa Monolithic Microwave IC (MMIC) Market Forecast, by Component
16.26.1. Power Amplifiers
16.26.2. Low Noise Amplifiers
16.26.3. Attenuators
16.26.4. Switches
16.26.5. Phase Shifters
16.26.6. Mixers
16.26.7. Voltage-Controlled Oscillators
16.26.8. Frequency Multipliers
16.27. Rest of Middle East & Africa Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
16.27.1. Gallium Arsenide
16.27.2. Indium Phosphide
16.27.3. Silicon Germanium
16.27.4. Gallium Nitride
16.27.5. Indium Gallium Phosphide
16.28. Rest of Middle East & Africa Monolithic Microwave IC (MMIC) Market Forecast, by Technology
16.28.1. Metal-Semiconductor Field-Effect Transistor
16.28.2. High Electron Mobility Transistor
16.28.3. Pseudomorphic High Electron Mobility Transistor
16.28.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
16.28.5. Metamorphic High Electron Mobility Transistor
16.28.6. Heterojunction Bipolar Transistor
16.28.7. Metal-Oxide Semiconductor
16.29. Rest of Middle East & Africa Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
16.29.1. L Band (1–2 GHz)
16.29.2. S Band (2–4 GHz)
16.29.3. C Band (4–8 GHz)
16.29.4. X Band (8–12 GHz)
16.29.5. Ku Band (12–18 GHz)
16.29.6. K Band (18–27 GHz)
16.29.7. Ka Band (26.5–40 GHz)
16.29.8. V Band (40–75 GHz)
16.29.9. W Band (75–110 GHz)
16.30. Rest of Middle East & Africa Monolithic Microwave IC (MMIC) Market Forecast, by Application
16.30.1. Consumer/Enterprise Electronics
16.30.2. Wireless Communication Infrastructure
16.30.3. Automotive
16.30.4. Aerospace & Defense
16.30.5. CATV and Wired Broadband
16.30.6. Others
16.31. Middle East & Africa Monolithic Microwave IC (MMIC) Market Attractiveness Analysis
16.31.1. By Component
16.31.2. By Material Type
16.31.3. By Technology
16.31.4. By Frequency Band
16.31.5. By Application
16.32. PEST Analysis
16.33. Key Trends
16.34. Key Developments

17. South America Monolithic Microwave IC (MMIC) Market Analysis
17.1. Key Findings
17.2. South America Monolithic Microwave IC (MMIC) Market Overview
17.3. South America Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Component
17.4. South America Monolithic Microwave IC (MMIC) Market Forecast, by Component
17.4.1. Power Amplifiers
17.4.2. Low Noise Amplifiers
17.4.3. Attenuators
17.4.4. Switches
17.4.5. Phase Shifters
17.4.6. Mixers
17.4.7. Voltage-Controlled Oscillators
17.4.8. Frequency Multipliers
17.5. South America Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Material Type
17.6. South America Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
17.6.1. Gallium Arsenide
17.6.2. Indium Phosphide
17.6.3. Silicon Germanium
17.6.4. Gallium Nitride
17.6.5. Indium Gallium Phosphide
17.7. South America Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Technology
17.8. South America Monolithic Microwave IC (MMIC) Market Forecast, by Technology
17.8.1. Metal-Semiconductor Field-Effect Transistor
17.8.2. High Electron Mobility Transistor
17.8.3. Pseudomorphic High Electron Mobility Transistor
17.8.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
17.8.5. Metamorphic High Electron Mobility Transistor
17.8.6. Heterojunction Bipolar Transistor
17.8.7. Metal-Oxide Semiconductor
17.9. South America Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Frequency Band
17.10. South America Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
17.10.1. L Band (1–2 GHz)
17.10.2. S Band (2–4 GHz)
17.10.3. C Band (4–8 GHz)
17.10.4. X Band (8–12 GHz)
17.10.5. Ku Band (12–18 GHz)
17.10.6. K Band (18–27 GHz)
17.10.7. Ka Band (26.5–40 GHz)
17.10.8. V Band (40–75 GHz)
17.10.9. W Band (75–110 GHz)
17.11. South America Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Application
17.12. South America Monolithic Microwave IC (MMIC) Market Forecast, by Application
17.12.1. Consumer/Enterprise Electronics
17.12.2. Wireless Communication Infrastructure
17.12.3. Automotive
17.12.4. Aerospace & Defense
17.12.5. CATV and Wired Broadband
17.12.6. Others
17.13. South America Monolithic Microwave IC (MMIC) Market Value Share Analysis, by Country
17.14. South America Monolithic Microwave IC (MMIC) Market Forecast, by Country
17.14.1. Brazil
17.14.2. Mexico
17.14.3. Rest of South America
17.15. South America Monolithic Microwave IC (MMIC) Market Analysis, by Country
17.16. Brazil Monolithic Microwave IC (MMIC) Market Forecast, by Component
17.16.1. Power Amplifiers
17.16.2. Low Noise Amplifiers
17.16.3. Attenuators
17.16.4. Switches
17.16.5. Phase Shifters
17.16.6. Mixers
17.16.7. Voltage-Controlled Oscillators
17.16.8. Frequency Multipliers
17.17. Brazil Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
17.17.1. Gallium Arsenide
17.17.2. Indium Phosphide
17.17.3. Silicon Germanium
17.17.4. Gallium Nitride
17.17.5. Indium Gallium Phosphide
17.18. Brazil Monolithic Microwave IC (MMIC) Market Forecast, by Technology
17.18.1. Metal-Semiconductor Field-Effect Transistor
17.18.2. High Electron Mobility Transistor
17.18.3. Pseudomorphic High Electron Mobility Transistor
17.18.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
17.18.5. Metamorphic High Electron Mobility Transistor
17.18.6. Heterojunction Bipolar Transistor
17.18.7. Metal-Oxide Semiconductor
17.19. Brazil Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
17.19.1. L Band (1–2 GHz)
17.19.2. S Band (2–4 GHz)
17.19.3. C Band (4–8 GHz)
17.19.4. X Band (8–12 GHz)
17.19.5. Ku Band (12–18 GHz)
17.19.6. K Band (18–27 GHz)
17.19.7. Ka Band (26.5–40 GHz)
17.19.8. V Band (40–75 GHz)
17.20. W Band (75–110 GHz)Brazil Monolithic Microwave IC (MMIC) Market Forecast, by Application
17.20.1. Consumer/Enterprise Electronics
17.20.2. Wireless Communication Infrastructure
17.20.3. Automotive
17.20.4. Aerospace & Defense
17.20.5. CATV and Wired Broadband
17.20.6. Others
17.21. Mexico Monolithic Microwave IC (MMIC) Market Forecast, by Component
17.21.1. Power Amplifiers
17.21.2. Low Noise Amplifiers
17.21.3. Attenuators
17.21.4. Switches
17.21.5. Phase Shifters
17.21.6. Mixers
17.21.7. Voltage-Controlled Oscillators
17.21.8. Frequency Multipliers
17.22. Mexico Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
17.22.1. Gallium Arsenide
17.22.2. Indium Phosphide
17.22.3. Silicon Germanium
17.22.4. Gallium Nitride
17.22.5. Indium Gallium Phosphide
17.23. Mexico Monolithic Microwave IC (MMIC) Market Forecast, by Technology
17.23.1. Metal-Semiconductor Field-Effect Transistor
17.23.2. High Electron Mobility Transistor
17.23.3. Pseudomorphic High Electron Mobility Transistor
17.23.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
17.23.5. Metamorphic High Electron Mobility Transistor
17.23.6. Heterojunction Bipolar Transistor
17.23.7. Metal-Oxide Semiconductor
17.24. Mexico Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
17.24.1. L Band (1–2 GHz)
17.24.2. S Band (2–4 GHz)
17.24.3. C Band (4–8 GHz)
17.24.4. X Band (8–12 GHz)
17.24.5. Ku Band (12–18 GHz)
17.24.6. K Band (18–27 GHz)
17.24.7. Ka Band (26.5–40 GHz)
17.24.8. V Band (40–75 GHz)
17.24.9. W Band (75–110 GHz)
17.25. Mexico Monolithic Microwave IC (MMIC) Market Forecast, by Application
17.25.1. Consumer/Enterprise Electronics
17.25.2. Wireless Communication Infrastructure
17.25.3. Automotive
17.25.4. Aerospace & Defense
17.25.5. CATV and Wired Broadband
17.25.6. Others
17.26. Rest of South America Monolithic Microwave IC (MMIC) Market Forecast, by Component
17.26.1. Power Amplifiers
17.26.2. Low Noise Amplifiers
17.26.3. Attenuators
17.26.4. Switches
17.26.5. Phase Shifters
17.26.6. Mixers
17.26.7. Voltage-Controlled Oscillators
17.26.8. Frequency Multipliers
17.27. Rest of South America Monolithic Microwave IC (MMIC) Market Forecast, by Material Type
17.27.1. Indium Phosphide
17.27.2. Silicon Germanium
17.27.3. Gallium Nitride
17.27.4. Gallium Arsenide
17.27.5. Indium Gallium Phosphide
17.28. Rest of South America Monolithic Microwave IC (MMIC) Market Forecast, by Technology
17.28.1. Metal-Semiconductor Field-Effect Transistor
17.28.2. High Electron Mobility Transistor
17.28.3. Pseudomorphic High Electron Mobility Transistor
17.28.4. Enhancement-Mode Pseudomorphic High Electron Mobility Transistor
17.28.5. Metamorphic High Electron Mobility Transistor
17.28.6. Heterojunction Bipolar Transistor
17.28.7. Metal-Oxide Semiconductor
17.29. Rest of South America Monolithic Microwave IC (MMIC) Market Forecast, by Frequency Band
17.29.1. L Band (1–2 GHz)
17.29.2. S Band (2–4 GHz)
17.29.3. C Band (4–8 GHz)
17.29.4. X Band (8–12 GHz)
17.29.5. Ku Band (12–18 GHz)
17.29.6. K Band (18–27 GHz)
17.29.7. Ka Band (26.5–40 GHz)
17.29.8. V Band (40–75 GHz)
17.29.9. W Band (75–110 GHz)
17.30. Rest of South America Monolithic Microwave IC (MMIC) Market Forecast, by Application
17.30.1. Consumer/Enterprise Electronics
17.30.2. Wireless Communication Infrastructure
17.30.3. Automotive
17.30.4. Aerospace & Defense
17.30.5. CATV and Wired Broadband
17.30.6. Others
17.31. South America Monolithic Microwave IC (MMIC) Market Attractiveness Analysis
17.31.1. By Component
17.31.2. By Material Type
17.31.3. By Technology
17.31.4. By Frequency Band
17.31.5. By Application
17.32. PEST Analysis
17.33. Key Trends
17.34. Key Developments

18. Company Profiles
18.1. Market Share Analysis, by Company
18.2. Competition Matrix
18.2.1. Competitive Benchmarking of key players by price, presence, market share, Frequency Bands and R&D investment
18.2.2. New Product Launches and Product Enhancements
18.2.3. Market Consolidation
18.2.3.1. M&A by Regions, Investment and Frequency Bands
18.2.3.2. M&A Key Players, Forward Integration and Backward
Integration
18.3. Company Profiles: Key Players
18.3.1. NXP Semiconductors.
18.3.1.1. Company Overview
18.3.1.2. Financial Overview
18.3.1.3. Product Portfolio
18.3.1.4. Business Strategy
18.3.1.5. Recent Developments
18.3.1.6. Development / Company /footprint(for service)
18.3.2. Analog Devices
18.3.3. Skyworks Solutions
18.3.4. Broadcom
18.3.5. Qorvo
18.3.6. MACOM
18.3.7. Infineon Technologie
18.3.8. Maxim Integrated
18.3.9. Mini-Circuits, Inc.
18.3.10. OMMIC
18.3.11. Win Semiconductors
18.3.12. United Monolithic Semiconductors (UMS)
18.3.13. Custom MMIC Design Services, Inc.
18.3.14. Microarray Technologies
18.3.15. Vectrawave
18.3.16. Berex
18.3.17. Arralis
18.3.18. Microarray Technologies
18.3.19. Elite Microwave Electronics Co., Ltd.
18.3.20. Northrop Grumman
18.3.21. Microchip Technology

19. Primary Key Insights
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