The global low noise amplifiers market size was accounted for over USD 2 billion in 2021 and anticipated to register a significant CAGR of over 13% during the forecast period from 2022 to 2028. The steady growth in the telecommunication sector and the growing demand for smartphones around the world are some major factors driving the market growth. Furthermore, the growing usage of long-term evolution (LTE) technology coupled with the growing demand for bandwidth is further anticipated to fuel the market growth over the forecast period. Moreover, the growing relevance of industrial IoT in industry 4.0 and the advancement in 5G technology are projected to propel the market growth.
Market Drivers:
Increasing demand for low noise figure and high signal integrity: LNAs play a critical role in amplifying weak signals while introducing minimal noise to ensure high signal integrity. With the growing demand for high-speed data communication, wireless connectivity, and sensitive signal reception, there is an increasing need for LNAs with low noise figure performance. Industries such as telecommunications, aerospace and defense, medical devices, and automotive rely on LNAs to amplify signals accurately and maintain signal integrity.
Expansion of wireless communication networks: The expansion of wireless communication networks, including cellular networks, Wi-Fi, Bluetooth, and IoT connectivity, drives the demand for LNAs. These amplifiers are essential components in wireless receivers, transceivers, base stations, access points, and other wireless communication devices. As the number of connected devices and data traffic continues to increase, the demand for LNAs to enhance signal reception and sensitivity in wireless communication networks grows.
Growth of the aerospace and defense industry: The aerospace and defense industry requires high-performance LNAs for various applications, including radar systems, satellite communications, electronic warfare, and navigation systems. LNAs in this industry must exhibit low noise figure, high linearity, and wide frequency range to meet the stringent requirements of advanced military and aerospace applications. The continuous growth and modernization of the aerospace and defense industry contribute to the demand for LNAs.
Advancements in wireless technologies: Advancements in wireless technologies, such as 5G, Internet of Things (IoT), and millimeter-wave communications, require LNAs with enhanced performance. These technologies operate at higher frequencies, demanding LNAs that can provide low noise figures, wide bandwidths, and high gain. As wireless technologies evolve, the demand for LNAs that can meet the requirements of these advanced wireless systems increases.
Increasing demand for high-speed data transfer: With the rapid growth of data-intensive applications, such as streaming services, cloud computing, and big data analytics, there is a need for high-speed data transfer in wired and wireless communication systems. LNAs with low noise figures and high gain help maintain signal quality and enable high-speed data transfer rates. Industries such as data centers, telecommunications, and high-performance computing rely on LNAs to ensure reliable and fast data transmission.
Miniaturization and integration of electronic devices: The ongoing trend of miniaturization and integration of electronic devices, such as smartphones, wearables, and IoT devices, drives the demand for compact and low-power consumption LNAs. LNAs that can be integrated into small form factors and operate with low power consumption are essential for portable and battery-powered devices. The demand for LNAs that offer high performance in small packages supports the growth of the market.
Increasing demand for energy-efficient devices: Energy efficiency is a significant concern across industries. LNAs that consume low power and provide high efficiency contribute to energy savings in various applications. The demand for energy-efficient LNAs is particularly relevant in battery-powered devices, where power consumption needs to be optimized for extended battery life. The focus on energy efficiency drives the adoption of LNAs with low power consumption characteristics.
Technological advancements in semiconductor manufacturing: Continuous advancements in semiconductor manufacturing processes enable the development of LNAs with improved performance, reduced noise figure, and higher integration. These advancements allow for the fabrication of LNAs with higher frequencies, lower power consumption, and improved reliability. The ongoing progress in semiconductor manufacturing techniques supports the development and adoption of advanced LNAs.
Market Snapshot:
| Benchmark Year | 2022 | ||
| Market Size | > USD 2 Billion in 2021 | ||
| Market Growth (CAGR) | > 13% (2023-2030) | ||
| Largest Market Share | Asia Pacific | ||
| Analysis Period | 2020-2030 | ||
| Market Players | NXP Semiconductors N.V., Analog Devices, Inc., Infineon Technologies AG, L3 Narda-MITEQ, and Qorvo, Inc. |
Market Insights:
The global low noise amplifiers market is bifurcated into frequency, material, application, industry verticals, and geography. On the basis of frequency, the market is further segmented into DC to 6 GHz, 6-60 GHz, and over 60 GHz. The DC to 6GZ segment dominated the global market in 2021 and estimated to hold the largest revenue share of over 1/3 market share by the end of the analysis period. The increasing penetration of smartphones and the innovation in LTE technology are some major factors driving the segment growth. On the flip side, the greater than 60GHz segment is expected to register the highest growth rate over the forecast period.
On the basis of material, the market is bifurcated into gallium arsenide, silicon germanium, silicon, and others. The silicon segment dominated the global low noise amplifiers market in 2021 and expected to maintain its dominance over the forecast period. The widespread use of silicon by manufacturers in electronics devices due to its low cost is a major factor to drive the segment growth. Furthermore, the silicon-based LNAs are mainly used in the DC to 6 GHz frequency spectrum, which is further fueling the segment growth. On the other hand, the Silicon Germanium segment is anticipated to grow at the fastest growth rate over the forecast period.
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The low noise amplifiers comprehensive study analyzes industry trends, market size, competitive analysis, and market forecast – 2022 to 2028. Research Corridor report provides detailed premium insight into the global market and reveals the potential revenue streams, commercial prospects, market drivers, challenges, opportunities, issues, and events affecting the industry. In addition, the report has a dedicated section covering market forecasts and analysis for leading geographies, profiles of major companies operating in the market and expert opinion obtained from interviews with industry executives and experts from prominent companies.
The low noise amplifiers market research report presents the analysis of each segment from 2019 to 2028 considering 2020 as the base year for the research. The compounded annual growth rate (CAGR) for each respective segment is calculated for the forecast period from 2021 to 2027.
Historical & Forecast Period
- 2019-20 – Historical Year
- 2021 – Base Year
- 2022-2028 – Forecast Period
Market Segmentation:
By Frequency:
- DC to 6 GHz
- 6-60 GHz
- Over 60 GHz
By Material:
- Gallium Arsenide
- Silicon-Germanium
- Silicon
- Others
By Application:
- Cellular Infrastructure
- Broadband
- GPS
- ISM Band
- WLAN
By Industry Vertical:
- Telecom and Datacom
- Consumer Electronics
- Military & Space
- Medical
- Automotive
- Industrial
By Region:
- North America
- Europe
- Asia Pacific
- Latin America
- Middle East & Africa
Regional Analysis:
Geographically, the Asia Pacific dominated the global low noise amplifiers market in 2021 and anticipated to grow at the same trend over the forecast period. The increasing penetration of smartphones and the growing demand for consumer electronics are some major factors driving the market growth in the region. Furthermore, the increasing adoption of high-speed mobile technology such as 5G and the increasing rate of mobile services are further expected to fuel the market growth in the Asia Pacific.
Competitive Assessment:
Some of the major market players operating in the global low noise amplifiers market are NXP Semiconductors N.V., Analog Devices, Inc., Infineon Technologies AG, L3 Narda-MITEQ, and Qorvo, Inc. Companies are exploring markets by expansion, new investment, the introduction of new services, and collaboration as their preferred strategies. Players are exploring new geography through expansion and acquisition to gain a competitive advantage through joint synergy.
Key Companies:
- NXP Semiconductors N.V. (Netherlands)
- Analog Devices, Inc. (US)
- Infineon Technologies AG (Germany)
- L3 Narda-MITEQ (US)
- Qorvo, Inc. (US)
- Skyworks Solutions, Inc. (US)
- ON Semiconductor Corp. (US)
- Panasonic Corp. (Japan)
- Texas Instruments, Inc. (US)
- Teledyne Microwave Solutions (US)
Key Questions Answered by Low Noise Amplifiers Market Report
- Global low noise amplifiers market forecasts from 2022-2028
- Regional market forecasts from 2022-2028 covering Asia-Pacific, North America, Europe, Middle East & Africa, and Latin America
- Country-level forecasts from 2022-2028 covering 15 major countries from the regions as mentioned above
- Low noise amplifiers submarket forecasts from 2022-2028 covering the market by frequency, by material, by application, by industry verticals, and geography
- Various industry models such as SWOT analysis, Value Chain Analysis about the market
- Analysis of the key factors driving and restraining the growth of the global, regional, and country-level low noise amplifiers markets from 2022-2028
- Competitive Landscape and market positioning of top 10 players operating in the market
1. Preface
1.1. Report Description
1.1.1. Purpose of the Report
1.1.2. Target Audience
1.1.3. USP and Key Offerings
1.2. Research Scope
1.3. Research Methodology
1.3.1. Phase I – Secondary Research
1.3.2. Phase II – Primary Research
1.3.3. Phase III – Expert Panel Review
1.4. Assumptions
2. Executive Summary
2.1. Global Low Noise Amplifiers Market Portraiture
2.2. Global Low Noise Amplifiers Market, by Frequency, 2021 (USD Mn)
2.3. Global Low Noise Amplifiers Market, by Material, 2021 (USD Mn)
2.4. Global Low Noise Amplifiers Market, by Application, 2021 (USD Mn)
2.5. Global Low Noise Amplifiers Market, by Industry Vertical, 2021 (USD Mn)
2.6. Global Low Noise Amplifiers Market, by Geography, 2021 (USD Mn)
3. Global Low Noise Amplifiers Market Analysis
3.1. Low Noise Amplifiers Market Overview
3.2. Market Inclination Insights
3.3. Market Dynamics
3.3.1. Drivers
3.3.2. Challenges
3.3.3. Opportunities
3.4. Attractive Investment Proposition
3.5. Competitive Analysis
3.6. Porter’s Five Force Analysis
3.6.1. Bargaining Power of Suppliers
3.6.2. Bargaining Power of Buyers
3.6.3. Threat of New Entrants
3.6.4. Threat of Substitutes
3.6.5. Degree of Competition
3.7. COVID-19 Impact Analysis
4. Global Low Noise Amplifiers Market By Frequency, 2019 – 2028 (USD Mn)
4.1. Overview
4.2. DC to 6 GHz
4.3. 6-60 GHz
4.4. Over 60 GHz
5. Global Low Noise Amplifiers Market By Material, 2019 – 2028 (USD Mn)
5.1. Overview
5.2. Gallium Arsenide
5.3. Silicon Germanium
5.4. Silicon
5.5. Others
6. Global Low Noise Amplifiers Market By Application, 2019 – 2028 (USD Mn)
6.1. Overview
6.2. Cellular Infrastructure
6.3. Broadband
6.4. GPS
6.5. ISM Band
6.6. WLAN
7. Global Low Noise Amplifiers Market By Industry Vertical, 2019 – 2028 (USD Mn)
7.1. Overview
7.2. Telecom and Datacom
7.3. Consumer Electronics
7.4. Military & Space
7.5. Medical
7.6. Automotive
7.7. Industrial
8. North America Low Noise Amplifiers Market Analysis and Forecast, 2019 – 2028 (USD Mn)
8.1. Overview
8.2. North America Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
8.3. North America Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
8.4. North America Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
8.5. North America Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
8.6. North America Low Noise Amplifiers Market by Country, (2019-2028 USD Mn)
8.6.1. U.S.
8.6.1.1. U.S. Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
8.6.1.2. U.S. Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
8.6.1.3. U.S. Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
8.6.1.4. U.S. Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
8.6.2. Canada
8.6.2.1. Canada Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
8.6.2.2. Canada Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
8.6.2.3. Canada Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
8.6.2.4. Canada Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
9. Europe Low Noise Amplifiers Market Analysis and Forecast, 2019 – 2028 (USD Mn)
9.1. Overview
9.2. Europe Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
9.3. Europe Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
9.4. Europe Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
9.5. Europe Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
9.6. Europe Low Noise Amplifiers Market by Country, (2019-2028 USD Mn)
9.6.1. Germany
9.6.1.1. Germany Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
9.6.1.2. Germany Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
9.6.1.3. Germany Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
9.6.1.4. Germany Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
9.6.2. U.K.
9.6.2.1. U.K. Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
9.6.2.2. U.K. Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
9.6.2.3. U.K. Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
9.6.2.4. U.K. Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
9.6.3. France
9.6.3.1. France Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
9.6.3.2. France Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
9.6.3.3. France Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
9.6.3.4. France Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
9.6.4. Italy
9.6.4.1. Italy Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
9.6.4.2. Italy Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
9.6.4.3. Italy Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
9.6.4.4. Italy Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
9.6.5. Rest of Europe
9.6.5.1. Rest of Europe Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
9.6.5.2. Rest of Europe Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
9.6.5.3. Rest of Europe Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
9.6.5.4. Rest of Europe Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
10. Asia Pacific Low Noise Amplifiers Market Analysis and Forecast, 2019 – 2028 (USD Mn)
10.1. Overview
10.2. Asia Pacific Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
10.3. Asia Pacific Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
10.4. Asia Pacific Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
10.5. Asia Pacific Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
10.6. Asia Pacific Low Noise Amplifiers Market by Country, (2019-2028 USD Mn)
10.6.1. China
10.6.1.1. China Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
10.6.1.2. China Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
10.6.1.3. China Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
10.6.1.4. China Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
10.6.2. Japan
10.6.2.1. Japan Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
10.6.2.2. Japan Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
10.6.2.3. Japan Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
10.6.2.4. Japan Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
10.6.3. India
10.6.3.1. India Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
10.6.3.2. India Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
10.6.3.3. India Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
10.6.3.4. India Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
10.6.4. Rest of Asia Pacific
10.6.4.1. Rest of Asia Pacific Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
10.6.4.2. Rest of Asia Pacific Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
10.6.4.3. Rest of Asia Pacific Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
10.6.4.4. Rest of Asia Pacific Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
11. Latin America (LATAM) Low Noise Amplifiers Market Analysis and Forecast, 2019 – 2028 (USD Mn)
11.1. Overview
11.2. Latin America Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
11.3. Latin America Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
11.4. Latin America Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
11.5. Latin America Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
11.6. Latin America Low Noise Amplifiers Market by Country, (2019-2028 USD Mn)
11.6.1. Brazil
11.6.1.1. Brazil Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
11.6.1.2. Brazil Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
11.6.1.3. Brazil Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
11.6.1.4. Brazil Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
11.6.2. Mexico
11.6.2.1. Mexico Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
11.6.2.2. Mexico Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
11.6.2.3. Mexico Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
11.6.2.4. Mexico Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
11.6.3. Rest of Latin America
11.6.3.1. Rest of Latin America Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
11.6.3.2. Rest of Latin America Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
11.6.3.3. Rest of Latin America Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
11.6.3.4. Rest of Latin America Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
12. Middle East and Africa Low Noise Amplifiers Market Analysis and Forecast, 2019 – 2028 (USD Mn)
12.1. Overview
12.2. MEA Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
12.3. MEA Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
12.4. MEA Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
12.5. MEA Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
12.6. Middle East and Africa Low Noise Amplifiers Market, by Country, (2019-2028 USD Mn)
12.6.1. GCC
12.6.1.1. GCC Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
12.6.1.2. GCC Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
12.6.1.3. GCC Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
12.6.1.4. GCC Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
12.6.2. South Africa
12.6.2.1. South Africa Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
12.6.2.2. South Africa Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
12.6.2.3. South Africa Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
12.6.2.4. South Africa Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
12.6.3. Rest of MEA
12.6.3.1. Rest of MEA Low Noise Amplifiers Market by Frequency, (2019-2028 USD Mn)
12.6.3.2. Rest of MEA Low Noise Amplifiers Market by Material, (2019-2028 USD Mn)
12.6.3.3. Rest of MEA Low Noise Amplifiers Market by Application, (2019-2028 USD Mn)
12.6.3.4. Rest of MEA Low Noise Amplifiers Market by Industry Vertical, (2019-2028 USD Mn)
13. Company Profiles
13.1. NXP Semiconductors N.V. (Netherlands)
13.1.1. Business Description
13.1.2. Financial Health and Budget Allocation
13.1.3. Product Positions/Portfolio
13.1.4. Recent Development
13.1.5. SWOT Analysis
13.2. Analog Devices, Inc. (US)
13.2.1. Business Description
13.2.2. Financial Health and Budget Allocation
13.2.3. Product Positions/Portfolio
13.2.4. Recent Development
13.2.5. SWOT Analysis
13.3. Infineon Technologies AG (Germany)
13.3.1. Business Description
13.3.2. Financial Health and Budget Allocation
13.3.3. Product Positions/Portfolio
13.3.4. Recent Development
13.3.5. SWOT Analysis
13.4. L3 Narda-MITEQ (US)
13.4.1. Business Description
13.4.2. Financial Health and Budget Allocation
13.4.3. Product Positions/Portfolio
13.4.4. Recent Development
13.4.5. SWOT Analysis
13.5. Qorvo, Inc. (US)
13.5.1. Business Description
13.5.2. Financial Health and Budget Allocation
13.5.3. Product Positions/Portfolio
13.5.4. Recent Development
13.5.5. SWOT Analysis
13.6. Skyworks Solutions, Inc. (US)
13.6.1. Business Description
13.6.2. Financial Health and Budget Allocation
13.6.3. Product Positions/Portfolio
13.6.4. Recent Development
13.6.5. SWOT Analysis
13.7. ON Semiconductor Corp. (US)
13.7.1. Business Description
13.7.2. Financial Health and Budget Allocation
13.7.3. Product Positions/Portfolio
13.7.4. Recent Development
13.7.5. SWOT Analysis
13.8. Panasonic Corp. (Japan)
13.8.1. Business Description
13.8.2. Financial Health and Budget Allocation
13.8.3. Product Positions/Portfolio
13.8.4. Recent Development
13.8.5. SWOT Analysis
13.9. Texas Instruments, Inc. (US)
13.9.1. Business Description
13.9.2. Financial Health and Budget Allocation
13.9.3. Product Positions/Portfolio
13.9.4. Recent Development
13.9.5. SWOT Analysis
13.10. Teledyne Microwave Solutions (US)
13.10.1. Business Description
13.10.2. Financial Health and Budget Allocation
13.10.3. Product Positions/Portfolio
13.10.4. Recent Development
13.10.5. SWOT Analysis
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