Global RF Switch Market - Segment Analysis, Opportunity Assessment, Competitive Intelligence, Industry Outlook 2016-2026

Date : Jul 2020

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Report ID : 338

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Category : Semiconductor & Electronics

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Report Format:  PDF EXCEL PPT WORD

The global RF switch market was valued at US$ 1,535.1 Mn in 2018 and is expected to reach US$ 2,433.9 Mn by 2026, growing at a CAGR of 7.5% during the forecast period.

An RF switch (microwave switch) is a device that is being used to route high-frequency signals through transmission paths. RF switches are used extensively in microwave test systems for signal routing between instruments and devices under test (DUT). It is also being used in the wireless systems for signal routing finding wide use in switching signals from antennas to the transmit and receive chains.

The RF switch market is growing at a significantly higher rate due to the increasing demand for telecom base-station upgrades, rising investments in telecom industries, among others. Also, an increasing trend of automotive, connected devices and consumer inclination to a more technology is driving the RF switch market. However, due to the High Power RF switches typically using PIN diode it has several disadvantages.

Additionally, With the rising production capacity, it is expected that the RF switches raw material price will be stable in the short term. However, the enhancement in the energy, transportation costs, and labor costs, will further help in promoting the cost of RF switches.

Further, companies are investing in research & development and developing strategies to develop innovative products and services to enhance product portfolio. For instance, In November 2018, HRL Laboratories has launched the first antimony-telluride (SbTe) phase-change material (PCM)-based RF switch. This is a major development in RF switches over the existing technology, and it will accelerate data streaming in devices on 5G networks. This switch enables signals with extremely low-loss and high isolation for increased speed and clarity, well into the millimeter-wave (mmW) frequency range.

However, market growth is expected to be hindered by a factor such as a lack of a standardized fabrication process.

RF Switch Market Segmentation

By Type 1. Electromechanical
2. Solid State
PIN Diode
FET
Hybrid
By Technology 1. SOI
2. GaAs
3. MEMS 
4. GaN
 
By Insertion Loss 1. 0.3-0.9 dB
2. 1.0-1.9 dB
3. 1.9-3 dB
4. 3-6 dB
 
By Off Isolation 1. 12-24 dB
2. 24-48 dB
3. 48-60 dB
 
By Configuration 1. Standalone
SPDT
SP4T
SP5T
SP3T
SPST
SP6T
SP7T (797)
SP8T (905)
SP9T (22)
DPDT (173)
SP10T (65)
 
 
2. Hybrid
 
By Operating Frequency 1. Low (Upto 1 GHz)
2. Medium (1-20 GHz)
3. High (20-40 GHz)
4. Very High (40 GHz +)
 
By Power Handling 1. Hot Switching
2. Cold Switching
3. Average Power
4. Peak Power
 
By Applications 1. Communication
Cellular (5G, 4G, Handsets etc.)
Wireless Communication (Base Station Devices, Small Cells, Test Instrument etc.)
 
2. Aviation (RADAR Systems, Communication Systems etc.)
3. Defence (Electronic Warfare, Test & Measurement, Communication Systems etc.)
4. Automotive (Antenna Band Switching, Infotainment Systems etc.)
5. Consumer Electronics (Smartphones, Smart Speaker etc.)
6. Instrumentation
7. Others
 
By Region 1. North America (US and Canada)
2. Europe (UK, Germany, France and Rest of Europe)
3. Asia Pacific (China, Japan, India and Rest of Asia Pacific)
4. Latin America (Brazil, Mexico and Rest of Latin America)
5. Middle East & Africa (GCC and Rest of Middle East & Africa)
 

Based on the type, the electromechanical switch segment is expected to have the highest market share during the forecast period.

Based on the type, the RF switch market has been segmented into electromechanical and solid state. The solid state segment is further bifurcated into pin diode, FET and hybrid. The electromechanical switch segment is expected to have the highest market share during the forecast period. The electrochemical switches provide a real-time feedback on the machine operations and component position. They are primarily being used to eliminate the risk of major accidents associated with the electric devices. Further, With the increasing automation and machinery electromechanical switches market is experiencing high demand for more reliable electromechanical switches. In addition to this, low cost, simple design is further expected to foster the market growth.

Based on technology, the MEMS segment is expected to have the highest market share during the forecast period.

Based on the technology, the RF switch market has been segmented into SOI, GaAs, MEMS and GaN. The MEMS segment is expected to have the highest market share during the forecast period. The RF MEMS switches are primarily being used across microwave and radio frequency communication devices, includes transmitters and receivers, mode selection switch, antenna switch, among others. They consume low power and has properties such as low insertion loss, linearity, reliability, affordability, power handling and high isolation rates. Further, the demand for RF MEMS in telecommunication networks is increasing, due to the growing deployment of the 4G/5G network infrastructure.

Based on insertion loss, the 0.3-0.9 dB segment is expected to hold the highest market share during the forecast period.

Based on insertion loss, the RF switch market has been segmented into 0.3-0.9 dB, 1.0-1.9 dB, 1.9-3 dB, and 3-6 dB. The 0.3-0.9 dB segment was dominating the market in the year 2018 and is expected to witness similar growth trends during the forecast period. The high-performance RF switches primarily have low insertion loss in the range 0.3-0.9 dB. Low insertion loss is critical for systems that require a low overall noise figure. As the switch is one of the first components in the signal path, the minimum receivable signal is very important.

Based on the off isolation, the 24-48 dB segment is anticipated to have the highest share in the market during the forecast period.

Based on the off isolation, the market has been segmented into 12-24 dB, 24-48 dB, and 48-60 dB. The 24-48 dB segment was dominating the market in the year 2018 and is expected to witness similar growth trends during the forecast period. Isolation is a measure of how effectively a switch is turned off. It’s the attenuation between the input and output ports of the circuit. High isolation is good as it avoids undesired signals to leak in the path of wanted or desired signals and it provides higher attenuation in that path.

Global RF Switch Market Size, 2016-2026

 RF Switch Market

Based on regions, the Asia Pacific region is anticipated to capture a significant portion of the global market during the forecast period.

The Asia Pacific RF switch market is anticipated to capture a significant portion of the global market during the forecast period. Rising mobile and internet penetration, deployment of 5G infrastructure, primarily driven by China, and investments in defense, among others, are some of the factors that are propelling the demand for RF switch in the region. Moreover, developments and investments in the defence sector are expected to drive the growth of the RF switch market in the Asia Pacific region. For instance, in October 2019, Russia is helping China in building a system to warn ballistic missile launches. The system involves space satellites and an array of ground-based radars.

Company Profiles and Competitive Intelligence:

The major players operating in the global RF switch market are, Skyworks, Infineon Technologies, NXP Semiconductors, pSemi Corporation (Peregrine Semiconductor), Broadcom (Avago), Qorvo, Honeywell, Analog (Hittite), NJR, MAXIM, Broadwave Technologies, and Amphenol, among others.

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Chapter 1 Research Scope

1.1 Market Segmentation Scope

1.2 Market Regional Scope

Chapter 2 Executive Summary

2.1 Market Summary

2.1 Market Snapshot: Global RF Switch Market

2.2 Market Dynamics (DRO)

2.3 Global RF Switch Market, by Segment, 2018

2.3.1 Global RF Switch Market, by Type, 2018, (Units) (US$ Mn)

2.3.2 Global RF Switch Market, by Technology, 2018, (Units) (US$ Mn)

2.3.3 Global RF Switch Market, by Insertion Loss, 2018, (Units) (US$ Mn)

2.3.4 Global RF Switch Market, by Off Isolation, 2018, (Units) (US$ Mn)

2.3.5 Global RF Switch Market, by Configuration, 2018, (Units) (US$ Mn)

2.3.6 Global RF Switch Market, by Operating Frequency, 2018, (Units) (US$ Mn)

2.3.7 Global RF Switch Market, by Power Handling, 2018, (Units) (US$ Mn)

2.3.8 Global RF Switch Market, by Application, 2018, (Units) (US$ Mn)

2.3.9 Global RF Switch Market, by Region, 2018 (Units) (US$ Mn)

2.4 Premium Insights

2.4.1 Developed Vs. Developing Economies, 2018 vs 2026

2.4.2 Regional Life Cycle Analysis

Chapter 3 Market Dynamics

3.1 Market Overview

3.2 Market Drivers

3.2.1 Adoption of RF MEMS in manufacturing antenna tuners

3.2.2 Increasing demand for efficient power electronics (consume less power and are energy-efficient)

3.2.3 Driver 3

3.3 Market Restraints

3.3.1 Lack of standardized fabrication process (RF MEMS)

3.3.3 Restraint 2

3.4 Market Opportunities

3.4.1 Advancement in SOI for RF applications

3.4.3 Opportunity 2

3.5 Key Trends and Impact on Growth Trajectory

3.6 Industry Value Chain Analysis

3.6.1 Analyst’s Views

3.7 PORTER’s Analysis

3.8 Industry SWOT Analysis

Chapter 4 Global RF Switch Market, by Type

4.1 Market Overview, by Type

4.1.1 Incremental Opportunity, by Type, 2018-2026

4.2 Electromechanical

4.2.1 Global RF Switch Market, by Electromechanical, 2016-2026, (Units) (US$ Mn)

4.3 Solid State

4.3.1 Global RF Switch Market, by Solid State, 2016-2026, (Units) (US$ Mn)

4.3.2 Global RF Switch Market, by GaAs, 2016-2026, (Units) (US$ Mn)

4.3.3 Global RF Switch Market, by FET, 2016-2026, (Units) (US$ Mn)

4.3.4 Global RF Switch Market, by Hybrid, 2016-2026, (Units) (US$ Mn)

Chapter 5 Global RF Switch Market, by Technology

5.1 Market Overview, by Technology

5.1.1 Incremental Opportunity, by Technology, 2018-2026

5.2 SOI

5.2.1 Global RF Switch Market, by SOI, 2016-2026, (Units) (US$ Mn)

5.3 GaAs

5.3.1 Global RF Switch Market, by GaAs, 2016-2026, (Units) (US$ Mn)

5.4 MEMS

5.4.1 Global RF Switch Market, by MEMS, 2016-2026, (Units) (US$ Mn)

5.5 GaN

5.5.1 Global RF Switch Market, by GaN, 2016-2026, (Units) (US$ Mn)

Chapter 6 Global RF Switch Market, by Insertion Loss

6.1 Market Overview, by Insertion Loss

6.1.1 Incremental Opportunity, by Insertion Loss, 2018-2026

6.2 0.3-0.9 dB

6.2.1 Global RF Switch Market, by 0.3-0.9 dB, 2016-2026, (Units) (US$ Mn)

6.3 1.0-1.9 dB

6.3.1 Global RF Switch Market, by 1.0-1.9 dB, 2016-2026, (Units) (US$ Mn)

6.4 1.9-3 dB

6.4.1 Global RF Switch Market, by 1.9-3 dB, 2016-2026, (Units) (US$ Mn)

6.5 3-6 dB

6.5.1 Global RF Switch Market, by 3-6 dB, 2016-2026, (Units) (US$ Mn)

Chapter 7 Global RF Switch Market, by Off Isolation

7.1 Market Overview, by Off Isolation

7.1.1 Incremental Opportunity, by Off Isolation, 2018-2026

7.2 12-24 dB

7.2.1 Global RF Switch Market, by 12-24 dB, 2016-2026, (Units) (US$ Mn)

7.3 24-48 dB

7.3.1 Global RF Switch Market, by 24-48 dB, 2016-2026, (Units) (US$ Mn)

7.4 48-60 dB

7.4.1 Global RF Switch Market, by 48-60 dB, 2016-2026, (Units) (US$ Mn)

Chapter 8 Global RF Switch Market, by Configuration

8.1 Market Overview, by Configuration

8.1.1 Incremental Opportunity, by Configuration, 2018-2026

8.2 Stand Alone

8.2.1 Global RF Switch Market, by Stand Alone, 2016-2026, (Units) (US$ Mn)

8.2.2 Global RF Switch Market, by SPDT, 2016-2026, (Units) (US$ Mn)

8.2.3 Global RF Switch Market, by SP4T, 2016-2026, (Units) (US$ Mn)

8.2.4 Global RF Switch Market, by SP5T, 2016-2026, (Units) (US$ Mn)

8.2.5 Global RF Switch Market, by SP3T, 2016-2026, (Units) (US$ Mn)

8.2.6 Global RF Switch Market, by SPST, 2016-2026, (Units) (US$ Mn)

8.2.7 Global RF Switch Market, by SP6T, 2016-2026, (Units) (US$ Mn)

8.2.8 Global RF Switch Market, by SP7T (797), 2016-2026, (Units) (US$ Mn)

8.2.9 Global RF Switch Market, by SP8T (905), 2016-2026, (Units) (US$ Mn)

8.2.10 Global RF Switch Market, by SP9T (22), 2016-2026, (Units) (US$ Mn)

8.2.11 Global RF Switch Market, by DPDT (173), 2016-2026, (Units) (US$ Mn)

8.2.12 Global RF Switch Market, by SP10T (65), 2016-2026, (Units) (US$ Mn)

8.3 Hybrid

8.3.1 Global RF Switch Market, by Hybrid, 2016-2026, (Units) (US$ Mn)

Chapter 9 Global RF Switch Market, by Operating Frequency

9.1 Market Overview, by Operating Frequency

9.1.1 Global RF Switch Market, by Operating Frequency, 2016-2026 (Units) (US$ Mn)

9.1.2 Incremental Opportunity, by Operating Frequency, 2018-2026

9.2 Low (Upto 1 GHz)

9.2.1 Global RF Switch Market, by Low (Upto 1 GHz), 2016-2026, (Units) (US$ Mn)

9.3 Medium (1-20 GHz)

9.3.1 Global RF Switch Market, by Medium (1-20 GHz), 2016-2026, (Units) (US$ Mn)

9.4 High (20-40 GHz)

9.4.1 Global RF Switch Market, by High (20-40 GHz), 2016-2026, (Units) (US$ Mn)

9.5 Very High (40 GHz +)

9.5.1 Global RF Switch Market, by Very High (40 GHz +), 2016-2026 (Units) (US$ Mn)

Chapter 10 Global RF Switch Market, by Power Handling

10.1 Market Overview, by Power Handling

10.1.1 Global RF Switch Market, by Power Handling, 2016-2026 (Units) (US$ Mn)

10.1.2 Incremental Opportunity, by Power Handling, 2018-2026

10.2 Hot Switching

10.2.1 Global RF Switch Market, by Hot Switching, 2016-2026, (Units) (US$ Mn)

10.3 Cold Switching

10.3.1 Global RF Switch Market, by Cold Switching, 2016-2026, (Units) (US$ Mn)

10.4 Average Power

10.4.1 Global RF Switch Market, by Average Power, 2016-2026, (Units) (US$ Mn)

10.5 Peak Power

10.5.1 Global RF Switch Market, by Peak Power, 2016-2026 (Units) (US$ Mn)

Chapter 11 Global RF Attenuator Market, by Application

11.1 Market Overview, by Application

11.1.1 Global RF Attenuator Market, by Application, 2016-2026 (Units) (US$ Mn)

11.1.2 Incremental Opportunity, by Application, 2018-2026

11.2 Communication

11.2.1 Global RF Attenuator Market, by Communication, 2016-2026, (Units) (US$ Mn)

11.2.2 Global RF Attenuator Market, by Cellular, 2016-2026, (Units) (US$ Mn)

11.2.3 Global RF Attenuator Market, by Wireless Communication, 2016-2026, (Units) (US$ Mn)

11.3 Consumer Electronics

11.3.1 Global RF Attenuator Market, by Consumer Electronics, 2016-2026 (Units) (US$ Mn)

11.4 Aviation

11.4.1 Global RF Attenuator Market, by Aviation, 2016-2026 (Units) (US$ Mn)

11.5 Defence

11.5.1 Global RF Attenuator Market, by Defence, 2016-2026 (Units) (US$ Mn)

11.6 Instrumentation

11.6.1 Global RF Attenuator Market, by Instrumentation, 2016-2026 (Units) (US$ Mn)

11.7 Others

11.7.1 Global RF Attenuator Market, by Others, 2016-2026 (Units) (US$ Mn)

Chapter 12 Global RF Switch Market, by Region

12.1 Market Overview, by Region

12.1.1 Global RF Switch Market, by Region, 2016-2026, (Units

12.2 Attractive Investment Opportunity, by Region, 2018

12.3 North America RF Switch Market

12.3.1 North America RF Switch Market, by Type, 2016-2026 (Units) (US$ Mn)

12.3.2 North America RF Switch Market, by Technology, 2016-2026 (Units) (US$ Mn)

12.3.3 North America RF Switch Market, by Insertion Loss, 2016-2026 (Units) (US$ Mn)

12.3.4 North America RF Switch Market, by Off Isolation, 2016-2026 (Units) (US$ Mn)

12.3.5 North America RF Switch Market, by Configuration, 2016-2026 (Units) (US$ Mn)

12.3.6 North America RF Switch Market, by Operating Frequency, 2016-2026 (Units) (US$ Mn)

12.3.7 North America RF Switch Market, by Power Handling, 2016-2026 (Units) (US$ Mn)

12.3.8 North America RF Switch Market, by Application, 2016-2026 (Units) (US$ Mn)

12.3.9 North America RF Switch Market, by Country, 2016-2026 (Units) (US$ Mn)

12.3.9.1 U.S.

12.3.9.2 Canada

12.4 Europe RF Switch Market

12.4.1 Europe RF Switch Market, by Type, 2016-2026 (Units) (US$ Mn)

12.4.2 Europe RF Switch Market, by Technology, 2016-2026 (Units) (US$ Mn)

12.4.3 Europe RF Switch Market, by Insertion Loss, 2016-2026 (Units) (US$ Mn)

12.4.4 Europe RF Switch Market, by Off Isolation, 2016-2026 (Units) (US$ Mn)

12.4.5 Europe RF Switch Market, by Configuration, 2016-2026 (Units) (US$ Mn)

12.4.6 Europe RF Switch Market, by Operating Frequency, 2016-2026 (Units) (US$ Mn)

12.4.7 Europe RF Switch Market, by Power Handling, 2016-2026 (Units) (US$ Mn)

12.4.8 Europe RF Switch Market, by Application, 2016-2026 (Units) (US$ Mn)

12.4.9 Europe RF Switch Market, by Country, 2016-2026 (Units) (US$ Mn)

12.4.9.1 U.K.

12.4.9.2 Germany

12.4.9.3 Italy

12.4.9.4 France

12.4.9.5 Rest of Europe

12.5 Asia Pacific RF Switch Market

12.5.1 Asia Pacific RF Switch Market, by Type, 2016-2026 (Units) (US$ Mn)

12.5.2 Asia Pacific RF Switch Market, by Technology, 2016-2026 (Units) (US$ Mn)

12.5.3 Asia Pacific RF Switch Market, by Insertion Loss, 2016-2026 (Units) (US$ Mn)

12.5.4 Asia Pacific RF Switch Market, by Off Isolation, 2016-2026 (Units) (US$ Mn)

12.5.5 Asia Pacific RF Switch Market, by Configuration, 2016-2026 (Units) (US$ Mn)

12.5.6 Asia Pacific RF Switch Market, by Operating Frequency, 2016-2026 (Units) (US$ Mn)

12.5.7 Asia Pacific RF Switch Market, by Power Handling, 2016-2026 (Units) (US$ Mn)

12.5.8 Asia Pacific RF Switch Market, by Application, 2016-2026 (Units) (US$ Mn)

12.5.9 Asia Pacific RF Switch Market, by Country, 2016-2026 (Units) (US$ Mn)

12.5.9.1 India

12.5.9.2 China

12.5.9.3 Japan

12.5.9.4 Rest of Asia Pacific

12.6 Latin America RF Switch Market

12.6.1 Latin America RF Switch Market, by Type, 2016-2026 (Units) (US$ Mn)

12.6.2 Latin America RF Switch Market, by Technology, 2016-2026 (Units) (US$ Mn)

12.6.3 Latin America RF Switch Market, by Insertion Loss, 2016-2026 (Units) (US$ Mn)

12.6.4 Latin America RF Switch Market, by Off Isolation, 2016-2026 (Units) (US$ Mn)

12.6.5 Latin America RF Switch Market, by Configuration, 2016-2026 (Units) (US$ Mn)

12.6.6 Latin America RF Switch Market, by Operating Frequency, 2016-2026 (Units) (US$ Mn)

12.6.7 Latin America RF Switch Market, by Power Handling, 2016-2026 (Units) (US$ Mn)

12.6.8 Latin America RF Switch Market, by Application, 2016-2026 (Units) (US$ Mn)

12.6.9 Latin America RF Switch Market, by Country, 2016-2026 (Units) (US$ Mn)

12.6.9.1 Brazil

12.6.9.2 Mexico

12.6.9.3 Rest of Latin America

12.7 Middle East & Africa RF Switch Market

12.7.1 Middle East & Africa RF Switch Market, by Type, 2016-2026 (Units) (US$ Mn)

12.7.2 Middle East & Africa RF Switch Market, by Technology, 2016-2026 (Units) (US$ Mn)

12.7.3 Middle East & Africa RF Switch Market, by Insertion Loss, 2016-2026 (Units) (US$ Mn)

12.7.4 Middle East & Africa RF Switch Market, by Off Isolation, 2016-2026 (Units) (US$ Mn)

12.7.5 Middle East & Africa RF Switch Market, by Configuration, 2016-2026 (Units) (US$ Mn)

12.7.6 Middle East & Africa RF Switch Market, by Operating Frequency, 2016-2026 (Units) (US$ Mn)

12.7.7 Middle East & Africa RF Switch Market, by Power Handling, 2016-2026 (Units) (US$ Mn)

12.7.8 Middle East & Africa RF Switch Market, by Application, 2016-2026 (Units) (US$ Mn)

12.7.9 Middle East & Africa RF Switch Market, by Region, 2016-2026 (Units) (US$ Mn)

12.7.9.1 GCC

12.7.9.2 Rest of Middle East & Africa

Chapter 13 Competitive Intelligence

13.1 Overview

13.2 Market Share Analysis of key players, 2018

13.3 Market Players Present in Market Life Cycle

13.4 Top Players Comparison

13.5 Market Positioning of Key Players, 2018

13.6 Market Players Mapping

13.6.1 By Type

13.6.2 By Technology

13.6.1 By Insertion Loss

13.6.2 By Off Isolation

13.6.3 By Configuration

13.6.4 By Operating Frequency

13.6.5 By Power Handling

13.6.6 By Application

13.6.7 By Region

13.7 Strategies Adopted by Key Market Players

13.8 Recent Developments in the Market

13.8.1 Mergers & Acquisitions, Partnership, New Product Developments

Chapter 14 Company Profiles

14.1 Skyworks

14.1.1 Skyworks Overview

14.1.2 Key Stakeholders/Person in Skyworks

14.1.3 Skyworks Products Portfolio

14.1.4 Skyworks Financial Overview

14.1.5 Skyworks News/Recent Developments

14.2 Infineon Technologies

14.2.1 Infineon Technologies Overview

14.2.2 Key Stakeholders/Person in Infineon Technologies

14.2.3 Infineon Technologies Products Portfolio

14.2.4 Infineon Technologies Financial Overview

14.2.5 Infineon Technologies News/Recent Developments

14.3 NXP Semiconductors

14.3.1 NXP Semiconductors Overview

14.3.2 Key Stakeholders/Person in NXP Semiconductors

14.3.3 NXP Semiconductors Products Portfolio

14.3.4 NXP Semiconductors Financial Overview

14.3.5 NXP Semiconductors News/Recent Developments

14.4 PSemi Corporation (Peregrine Semiconductor)

14.4.1 PSemi Corporation (Peregrine Semiconductor) Overview

14.4.2 Key Stakeholders/Person in PSemi Corporation (Peregrine Semiconductor)

14.4.3 PSemi Corporation (Peregrine Semiconductor) Products Portfolio

14.4.4 PSemi Corporation (Peregrine Semiconductor) Financial Overview

14.4.5 PSemi Corporation (Peregrine Semiconductor) News/Recent Developments

14.5 Broadcom (Avago)

14.5.1 Broadcom (Avago) Overview

14.5.2 Key Stakeholders/Person in Broadcom (Avago)

14.5.3 Broadcom (Avago) Products Portfolio

14.5.4 Broadcom (Avago) Financial Overview

14.5.5 Broadcom (Avago) News/Recent Developments

14.6 Qorvo

14.6.1 Qorvo Overview

14.6.2 Key Stakeholders/Person in Qorvo

14.6.3 Qorvo Products Portfolio

14.6.4 Qorvo Financial Overview

14.6.5 Qorvo News/Recent Developments

14.7 Honeywell

14.7.1 Honeywell Overview

14.7.2 Key Stakeholders/Person in Honeywell

14.7.3 Honeywell Products Portfolio

14.7.4 Honeywell Financial Overview

14.7.5 Honeywell News/Recent Developments

14.8 Analog (Hittite)

14.8.1 Analog (Hittite) Overview

14.8.2 Key Stakeholders/Person in Analog (Hittite)

14.8.3 Analog (Hittite) Products Portfolio

14.8.4 Analog (Hittite) Financial Overview

14.8.5 Analog (Hittite) News/Recent Developments

14.9 NJR

14.9.1 NJR Overview

14.9.2 Key Stakeholders/Person in NJR

14.9.3 NJR Products Portfolio

14.9.4 NJR Financial Overview

14.9.5 NJR News/Recent Developments

14.10 Amphenol

14.10.1 Amphenol Overview

14.10.2 Key Stakeholders/Person in Amphenol

14.10.3 Amphenol Products Portfolio

14.10.4 Amphenol Financial Overview

14.10.5 Amphenol News/Recent Developments

Chapter 15 Research Methodology

15.1 Methodology/Research Approach

15.2 Market Size Estimation

15.3 Data Source

15.3.1 Secondary Sources

15.3.2 Primary Sources

15.4 Breakup of the Primary Profiles


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