RFチューナブルフィルターの世界市場予測(~2023年):SAW、バラクタダイオード、MEMSコンデンサ、発振器フィルター、DTC、SMDバリエーション

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◆英語タイトル:RF Tunable Filter Market by Tuning Component (SAW, Varactor Diode, MEMS Capacitor, Oscillator Filter, DTC, and SMD Variant), System (Software-Defined Radio, Handheld & Pocket Radio, and Radar System), Vertical, and Geography - Global Forecast to 2023
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◆発行日:2018年10月19日
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MarketsandMarketsが発行した当調査レポートでは、RFチューナブルフィルターの世界市場について調査・分析し、エグゼクティブサマリー、市場インサイト、市場概観/市場動向、バリューチェーン分析、チューニングコンポーネント別(SAW、バラクタダイオード、MEMSコンデンサ、発振器フィルター、DTC、SMDバリエーション)分析、システム別(ソフトウェア定義無線、ハンドヘルド・ポケット無線、レーダーシステム)分析、産業別分析、RFチューナブルフィルターの世界市場規模及び予測、市場動向、競争状況、関連企業分析などの情報をお届けいたします。

・イントロダクション
・エグゼクティブサマリー
・RFチューナブルフィルターの世界市場:市場インサイト
・RFチューナブルフィルターの世界市場:市場概観/市場動向
・RFチューナブルフィルターの世界市場:バリューチェーン分析
・RFチューナブルフィルターの世界市場:チューニングコンポーネント別(SAW、バラクタダイオード、MEMSコンデンサ、発振器フィルター、DTC、SMDバリエーション)分析/市場規模
・RFチューナブルフィルターの世界市場:システム別(ソフトウェア定義無線、ハンドヘルド・ポケット無線、レーダーシステム)分析/市場規模
・RFチューナブルフィルターの世界市場:産業別分析/市場規模
・RFチューナブルフィルターのアジア市場規模予測
・RFチューナブルフィルターのヨーロッパ市場規模予測
・RFチューナブルフィルターのアメリカ市場規模予測
・RFチューナブルフィルターの世界市場動向
・RFチューナブルフィルターの世界市場:競争状況
・RFチューナブルフィルターの世界市場:関連企業分析
...

※上記の和訳は最新内容ではない場合があります。
【レポートの概要】

The overall RF tunable filter market is expected to grow from USD 55.4 million in 2018 to USD 87.0 million by 2023 at a CAGR of 9.43%. The growing demand for smartphones and connected devices and increasing use of long-term evolution (LTE) network are the key factors driving the growth of this market.
RF tunable filters have the ability to manipulate the amplitude and phase response of a signal according to passband and stopband edge frequencies for the required application. These filters are also known as variable or reconfigurable filters with high accuracy and independent tuning characteristics for all signal processing and wireless communication systems. Tunable bandpass and bandstop filters are used to eliminate and retrieve narrowband signals. These filters are widely used in radios, mobile antennae, RADAR systems, medical instruments, wireless equipment, and navigation systems. This report analyzes the RF tunable filter market segmented on the basis of tuning component, system, vertical, and geography.

On the basis of tuning component, the market has been segmented into surface acoustic waves (SAW), varactor diodes, MEMS capacitors, oscillator filters, digitally tunable capacitors, and SMD variants. The market for SMD variants is expected to grow at the highest CAGR during the forecast period. This growth can be attributed to the wide usage of surface mount technology in smartphones, wearables, and IoT. SMD variants are compact; consume less power; and offer improved antenna performance, radiated power, and high accuracy.

The RF tunable filter market in APAC is expected to grow at the highest CAGR during the forecast period. The growth of this market can be attributed to the high adoption of smartphones; rapid shift toward high-speed mobile technologies (for instance, the shift from 3G to 4G); increased consumption of mobile services, including video, social media, e-commerce, and financial services; and high military expenditures toward the adoption of advanced technologies in countries such as China, India, Japan, and South Korea.

The high initial cost and short life cycle is the major factor restraining the growth of the market. RF tunable filter manufacturers require significant capital to maintain or upgrade their facilities. These tunable filters use tuning elements such as RF MEMS capacitors, digitally tunable capacitors (DTCs), and varactor diodes. To shift from one tuning component to another, companies need to take into consideration factors such as trends in the semiconductor industry, customer requirements, and frequency or bandwidth range. For this purpose, RF tunable filter manufacturing companies consistently invest a certain percentage of their revenue in R&D. For high investments in R&D, companies depend on collaborations with other semiconductor companies, research organizations, universities, and suppliers to develop next-generation wireless systems.

Key players in the market include Analog Devices (US), Dover Corporation (US), EXFO (Canada), The LGL Group (US), Netcom (US), Telonic Berkeley (US), DiCon Fiberoptics (US), RF Products Inc. (US), Coleman Microwave Company (US), Thorlabs (US), and Smiths Interconnect (UK and US). These players are increasingly involved in contracts and product launches to develop and introduce new technologies and products in the market.

Growth of the market for GPS RF tunable filters driven by the aerospace & defense vertical
Aerospace and Defense
Military forces worldwide are rapidly making efforts to modernize the communication equipment. Efficient communication is necessary among the military forces for security reasons. Tunable filters are provided for all key military communications and surveillance platforms that are used throughout the world. Tunable filters have been used for performing high-quality communications based on requirements during harsh environmental conditions and at critical places. These military applications require communication and surveillance systems with electromagnetic capability, nuclear survivability, and electrical characteristics of digital interfaces.

Energy & Power
The energy & power vertical includes petroleum, oil, gas, and power industries, which are located in some of the most inaccessible and harsh environment locations. Safety is a priority in these locations. This factor increases the demand for radio communications to minimize the risk during an emergency. These radios are used for primary ground communications. Also, oil refineries encompass massive areas where continuous connectivity is required to communicate with first responders, connect the field devices of supervisory control and data acquisition (SCADA) systems with the main server, and facilitate remote monitoring and other point-to-point communications. This is the major factor driving the RF tunable filter market growth in this vertical, and the similar trend is expected to continue during the forecast period.

Mining
A communications system plays an important role in carrying out mining operations efficiently. A well-established communication infrastructure helps in transmitting data, and voice and video messages, which are essential for safe and reliable mining. The strategic importance of setting up communications systems in mine sites is justified by various benefits, including fleet management, live monitoring of mining equipment, audio and video surveillance, safety system monitoring, field communications, and autonomous applications. RFID-based tracking and communication system increases operational efficiency by enabling convenient tracking of equipment and personnel.

Transportation
The use of communications technologies, such as SDR and satellite communications, will provide more bandwidth to electrical utilities to effectively communicate with customer vehicles. The implementation of SDRs in vehicles used in transportation would help in effective communication. An advantage offered by SDR in automotive systems is the increased flexibility by the conversion of hardware components into software components, which allows car systems to upgrade themselves whenever there is a requirement. Media Oriented Systems Transport (MOST) is a high-speed multimedia network technology used in vehicle networking. It operates as synchronous data communication, which features ring topology, and is used for the transmission of voice, video, and data signals through both electrical and optical fiber physical layers.

Smart Cities
The smart city is a conceptual model, designed to deliver a set of cutting-edge services and infrastructure. Smart cities efficiently deploy information and communications technology (ICT) infrastructure to improve the quality of life and increase the efficiency of urban operations and services, thereby meeting the needs of present and future generations pertaining to economic, social, and environmental factors. These cities use advanced systems, such as intelligent transportation systems (ITS), smart networking solutions, and in-building communication systems using wireless communication technologies. It is basically the use of information and communications technologies in road transport, including infrastructure and traffic management. Integrated communications systems for automated driver guidance offer a full range of services that supervise and control transportation systems via the operation control center. These systems provide route optimization techniques to reduce the travel time and distance, along with options for the most fuel-efficient routes.

TV White Spaces
The TV white space (TVWS) spectrum, or Super Wi-Fi, refers to the unused or unassigned TV channels between the active ones in the very-high-frequency (VHF) and ultrahigh-frequency (UHF) spectrum. These channels are referred to as buffer channels. Earlier these buffers were placed between the active TV channels to avoid broadcasting interference. Therefore, in every location worldwide, there is an unused TV band spectrum that can be utilized for a range of wireless applications, such as broadband, wireless offload, and machine-to-machine communications. In addition, TV white space technology can cover larger distances, penetrating obstacles such as trees, buildings, and rough terrains. There are 2 types of white space devices—fixed white space devices for commercial Wi-Fi hot spots, rural broadband distribution, cellular-style installations, and smart grid networks, among others; and portable white space devices for laptops, Wi-Fi access points, tablets, and smartphones.

Medical
Hospitals require fine coverage for services such as in-house mobile radios, paging, and emergency responders. Typically, healthcare customers require efficient in-building wireless coverage from all carriers and in all frequencies. A spectrum analyzer is basically used in the medical vertical in hands-on labs; and the design, installation, and troubleshooting of wireless medical telemetry systems (WMTS) and patient monitoring systems. The major areas where it is used are antenna design, RF interference, distortion, and diversity, as well as 802.11 modulations, throughput, and coexistence. All these systems will boost the demand for RF tunable filters in the medical sector.

Critical questions would be as follows:
Where will all market-related developments take the RF tunable filter industry in the mid-to-long term?
What are emerging verticals for RF tunable filters?

【レポートの目次】

Table of Contents

1 Introduction (Page No. – 15)
1.1 Study Objectives
1.2 Definition
1.3 Study Scope
1.3.1 Markets Covered
1.3.2 Geographic Scope
1.3.3 Years Considered for Study
1.4 Currency
1.5 Limitations
1.6 Stakeholders

2 Research Methodology (Page No. – 19)
2.1 Research Data
2.1.1 Secondary Data
2.1.1.1 Major Secondary Sources
2.1.1.2 Key Data From Secondary Sources
2.1.2 Primary Data
2.1.2.1 Primary Interviews With Experts
2.1.2.2 Key Data From Primary Sources
2.1.2.3 Key Industry Insights
2.1.2.4 Breakdown of Primaries
2.1.3 Secondary and Primary Research
2.2 Market Size Estimation
2.2.1 Bottom-Up Approach
2.2.1.1 Approach for Arriving at Market Size By Bottom-Up Analysis (Demand Side)
2.2.2 Top-Down Approach
2.2.2.1 Approach for Arriving at Market Size By Top-Down Analysis (Supply Side)
2.3 Market Breakdown and Data Triangulation
2.4 Research Assumptions

3 Executive Summary (Page No. – 29)

4 Premium Insights (Page No. – 33)
4.1 Attractive Opportunities for RF Tunable Filter Market Growth
4.2 RF Tunable Filter Market, By Tuning Component
4.3 Market, By System
4.4 Market, By Vertical
4.5 Market, By Country

5 Market Overview (Page No. – 36)
5.1 Introduction
5.1.1 Drivers
5.1.1.1 Growing Demand for Smartphones and Connected Devices
5.1.1.2 Increasing Use of Long Term Evolution (Lte)
5.1.2 Restraints
5.1.2.1 High Initial Cost and Short Life Cycle
5.1.3 Opportunities
5.1.3.1 Evolution of 5g Technology
5.1.3.2 Growing Demand for Telematics and Infotainment Equipment From Automotive Sector
5.1.4 Challenges
5.1.4.1 Complex Design and Integration Process of Advanced Technology-Based Devices
5.2 Value Chain Analysis

6 RF Tunable Filter Market, By Tuning Component (Page No. – 45)
6.1 Introduction
6.2 Surface Acoustic Wave (SAW)
6.2.1 SAW Tuning Component Boost the Market
6.3 Varactor Diodes
6.3.1 Varactor Diode Accounted Largsect Market for Tuning Component
6.4 Mems Capacitors
6.4.1 Tunable Filters Based on RF Mems Technology Boost the RF Tunable Fitter Market
6.5 Oscillator Filters
6.5.1 Oscillator Filters as Tuning Component Used In Variable-Frequency Signal Generators
6.6 Digitally Tunable Capacitors (DTCS)
6.6.1 the Use of DTCS as Tuning Component Will Boost the Demand for RF Tunable Filters for Mobile Phone Applications
6.7 Surface Mount Device (SMD) Variants
6.7.1 SMD Variants is Projected to Grow at the Highest CAGR During the Forecast Period

7 RF Tunable Filter Market, By Application (Qualitative) (Page No. – 49)
7.1 Introduction
7.2 Aerospace Engineering
7.3 Military Combat Vehicles
7.4 Construction
7.5 Public Administration
7.6 Research and Development
7.7 Event Management (Program Making and Special Events)

8 RF Tunable Filter Market, By System (Page No. – 52)
8.1 Introduction
8.2 Handheld & Pocket Radios
8.2.1 RF Tunable Filter has Demand From Handheld & Pocket Radios to Provide Proper Frequency
8.3 Radar Systems
8.3.1 Radar Systems Accounted the Largest Share for RF Tunable Filter Market
8.4 RF Amplifiers
8.4.1 RF Tunable Filters are Used in RF Amplifiers Owing to Frequency Adjustments
8.5 Software-Defined Radios
8.5.1 Software-Define Radios Dominated the Market for System During Forecast Period
8.6 Mobile Antennae
8.6.1 RF Tunable Filters are Used in Mobile Antennae Owing to Reduce Power Amplifier Noise
8.7 Avionics Communications Systems
8.7.1 RF Tunable Filters are Used Preferred as A Frequency Tuner in Avionics Communications Systems
8.8 Test and Measurement Systems
8.8.1 RF Tunable Filters are Used in Systems Owing to Provide High-Speed Communication With Frequency Switching Capability

9 RF Tunable Filter Market, By Vertical (Page No. – 56)
9.1 Introduction
9.2 Aerospace & Defense
9.2.1 Aerospace & Defense Segment Accounted for the Largest Vertical of RF Tunable Filter
9.3 Energy & Power
9.3.1 Increased Demand for Radio Communications in Energy & Power Vertical Boost the Use of RF Tunable Filter
9.4 Mining
9.4.1 Need of Proper Communications in Hazardous Environments Will Lead the Use of RF Tunable Filter in This Vertical
9.5 Transportation
9.5.1 RF Tunable Filter are Widely Used in Transportation Owing to Use of Communications Technologies
9.5.2 Car Communication and Entertainment
9.6 Smart Cities
9.6.1 Smart Cities Segment is Projected to Grow at the Highest CAGR During the Forecast Period
9.7 TV White Spaces
9.7.1 RF Tunable Filter are Used in TV White Spaces for Frequency Sequencing
9.8 Medical
9.8.1 RF Tunable Filter are Used in Medical Vertical for Proper Wireless Communications

10 Geographic Analysis (Page No. – 66)
10.1 Introduction
10.2 North America
10.2.1 US
10.2.1.1 US Accounted for the Largest Market Size in the Market in North America
10.2.2 Canada
10.2.2.1 Canada has A Steady Growth in the Market During Forecast Period
10.2.3 Mexico
10.2.3.1 Demand for Wireless Communications is Expected to Drive Growth of RF Tunable Filter Market
10.3 Europe
10.3.1 UK
10.3.1.1 UK Projected the Highest Growth Rate for Market in Europe
10.3.2 Germany
10.3.2.1 Different Projects are Being Undertaken in Germany to Study Use of RF Tunable Filter for Wireless Communications
10.3.3 France
10.3.3.1 Growing Telecommunications Industry Dominated the French Market
10.3.4 Rest of Europe
10.4 APAC
10.4.1 China
10.4.1.1 China Accounted for the Largest Share of the Asia Pacific Market
10.4.2 Japan
10.4.2.1 Fastest Growing Telecom Industry in Japan, Which is Expected to Augment the Market Growth and Demand
10.4.3 India
10.4.3.1 The Demand for Highly Stable Networks for Communication Boost the Indian RF Tunable Filter Market
10.4.4 South Korea
10.4.4.1 Development in the Market in South Korea has Been Promising Owing to the Growing Telecommunications Industry
10.4.5 Rest of APAC
10.5 RoW
10.5.1 Middle East and Africa
10.5.2 South America

11 Competitive Landscape (Page No. – 80)
11.1 Introduction
11.2 Market Player Ranking Analysis
11.3 Competitive Scenario
11.4 Competitive Situations and Trends
11.4.1 Product Launches
11.4.2 Acquisitions and Agreements
11.4.3 Partnerships, Collaborations, and Joint Ventures
11.4.4 Expansions

12 Company Profiles (Page No. – 86)
12.1 Introduction
(Business Overview, Products Offered, Recent Developments, SWOT Analysis, and MnM View)*
12.2 Key Players
12.2.1 Analog Devices
12.2.2 Dover
12.2.3 EXFO
12.2.4 The LGL Group
12.2.5 Netcom, Inc.
12.2.6 Telonic Berkeley
12.2.7 DiCon Fiberoptics
12.2.8 RF Products Inc.
12.2.9 Coleman Microwave Company
12.2.10 Thorlabs
12.2.11 Smiths Interconnect
12.3 Other Companies
12.3.1 Wainwright Instruments GmbH
12.3.2 Microwave Filter Company, Inc.
12.3.3 Filtronetics Inc.
12.3.4 Flann Microwave Ltd.
12.3.5 Temwell Corporation
12.4 Key Innovators
12.4.1 Newedge Signal Solutions LLC
12.4.2 Ei Wave Digitech (I) Pvt Ltd.
12.4.3 Wispry Inc.
12.4.4 M.T. SRL
12.4.5 Vanlong Technology Co., Ltd.

*Details on Business Overview, Products Offered, Recent Developments, SWOT Analysis, and MnM View Might Not Be Captured in Case of Unlisted Companies.

13 Appendix (Page No. – 115)
13.1 Insights of Industry Experts
13.2 Discussion Guide
13.3 Knowledge Store: Marketsandmarkets’ Subscription Portal
13.4 Available Customizations
13.5 Related Reports
13.6 Author Details

List of Tables (24 Tables)


Table 1 RF Tunable Filter Market, By Tuning Component, 2016–2023 (USD Million)
Table 2 RF Tunable Filter Market, By System, 2016–2023 (USD Million)
Table 3 Market, By Vertical, 2016–2023 (USD Million)
Table 4 RF Tunable Filter Market for Aerospace & Defense, By Region, 2016–2023 (USD Thousand)
Table 5 Market for Energy & Power, By Region, 2016–2023 (USD Thousand)
Table 6 Market for Mining, By Region, 2016–2023 (USD Thousand)
Table 7 Market for Transportation, By Region, 2016–2023 (USD Thousand)
Table 8 Market for Smart Cities, By Region, 2016–2023 (USD Thousand)
Table 9 Market for TV White Spaces, By Region, 2016–2023 (USD Thousand)
Table 10 RF Tunable Filter Market for Medical, By Region, 2016–2023 (USD Thousand)
Table 11 Market, By Region, 2016–2023 (USD Thousand)
Table 12 Market in North America, By Vertical, 2016–2023 (USD Thousand)
Table 13 Market in North America, By Country, 2016–2023 (USD Thousand)
Table 14 Market in Europe, By Vertical, 2016–2023 (USD Thousand)
Table 15 Market in Europe, By Country, 2016–2023 (USD Thousand)
Table 16 Market in APAC, By Vertical, 2016–2023 (USD Thousand)
Table 17 Market in APAC, By Country, 2016–2023 (USD Thousand)
Table 18 Market in RoW, By Vertical, 2016–2023 (USD Thousand)
Table 19 Market in RoW, By Region, 2016–2023 (USD Thousand)
Table 20 Ranking of Top 4 Players in Market
Table 21 Product Launches (2015–2018)
Table 22 Acquisitions and Agreements (2015–2018)
Table 23 Partnerships, Collaborations, and Joint Ventures (2017)
Table 24 Expansions (2017–2018)

List of Figures (38 Figures)

Figure 1 RF Tunable Filter Market Segmentation
Figure 2 RF Tunable Filter Market: Research Design
Figure 3 Market Size Estimation Methodology: Bottom-Up Approach
Figure 4 Market Size Estimation Methodology: Top-Down Approach
Figure 5 Assumptions for Research Study
Figure 6 Market, 2016–2023 (USD Million)
Figure 7 RF Tunable Filter Market, By Tuning Component (2018 vs 2023)
Figure 8 Market for Handheld & Pocket Radios to Grow at Highest CAGR From 2018 to 2023
Figure 9 Market for Aerospace & Defense to Grow at Highest CAGR During 2018–2023
Figure 10 RF Tunable Filter Market to Grow at Highest CAGR in APAC During Forecast Period
Figure 11 Increasing Demand for Smartphones to Drive Market Growth
Figure 12 RF Tunable Filter Market for SMD Variants to Grow at Highest CAGR During 2018–2023
Figure 13 Radar Systems to Hold Largest Share of Market By 2023
Figure 14 Aerospace & Defense to Hold Largest Share of Market in 2018
Figure 15 RF Tunable Filter Market to Grow at Highest CAGR in China From 2018 to 2023
Figure 16 Growing Demand for Wireless Communications Would Provide Lucrative Opportunities to RF Tunable Filter Providers
Figure 17 Total Number of Smartphone Users in the World (2013–2020)
Figure 18 Number of Connected Devices to Reach Nearly 50 Billion By 2020: Cisco Perspective
Figure 19 Increasing Penetration Rate of Connected Objects (2012–2020)
Figure 20 Global Mobile Internet Users and Internet Penetration Between 2017 and 2025
Figure 21 Percentage of Connections Worldwide, By Technology
Figure 22 Major Value Added During Original Equipment Manufacturers and System Integrators Phases
Figure 23 RF Tunable Filter Market for SMD Variants to Grow at Highest CAGR During 2018–2023
Figure 24 RF Tunable Filter Market for Handheld & Pocket Radios to Grow at Highest CAGR During Forecast Period
Figure 25 Market for Smart Cities to Grow at Highest CAGR During Forecast Period
Figure 26 Geographic Snapshot: RF Tunable Filter Market to Witness Highest Growth in APAC During 2018–2023
Figure 27 RF Tunable Filter Market Projected to Grow at Highest CAGR in China From 2018 to 2023
Figure 28 North America: Snapshot of Market
Figure 29 Europe: Snapshot of RF Tunable Filter Market
Figure 30 APAC: Snapshot of Market
Figure 31 Companies Adopted Product Launches as Key Growth Strategy Between 2015 and 2018
Figure 32 RF Tunable Filter Market Evaluation Framework
Figure 33 Geographic Revenue Mix of Leading Players
Figure 34 Analog Devices: Company Snapshot
Figure 35 Dover: Company Snapshot
Figure 36 EXFO: Company Snapshot
Figure 37 The LGL Group, Inc.: Company Snapshot
Figure 38 Smiths Interconnect: Company Snapshot

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