Global Ultra-Low Phase Noise RF Signal Generator Market Report (2022 to 2027) - Growing Use of RF Technology in Testing Automotive Systems Presents Opportunities


Dublin, Sept. 30, 2022 (GLOBE NEWSWIRE) -- The "Global Ultra-Low Phase Noise RF Signal Generator Market by Form Factor (Benchtop, Portable, Modular), Type, Application (Radar Systems, Component Testing Equipment, Communication Systems), End Use and Region - Forecast to 2027" report has been added to's offering.

The ultra-low phase noise RF signal generator market is projected to grow from USD 153 million in 2022 to USD 232 million by 2027; it is expected to grow at a CAGR of 8.7% from 2022 to 2027.

Some major factors driving the market growth include the increasing need for testing electronic components or devices to ensure their high performance and accuracy. Wireless communication devices (including 5G-enabled devices), sensors, and touch displays are among a few critical components that require precise testing to measure sensitivity, performance, scalability, throughput, and capacity before mass production.

Requirement for high-performance and mission-critical designs of next-generation aircraft to provide growth opportunities in aerospace and defense vertical

The aerospace and defence vertical require uncompromising high-precision signals for many of its operational assets to withstand harsh environmental conditions. Radar systems, radio monitoring systems, and satellite systems deployed in aircraft or military vehicles for tracking the position and velocity of targets in noisy environments, as well as for secure and long-distance communication, need to comply with stringent standards to achieve high-performance, reliable, and mission-critical designs.

Numerous components such as radar and navigation systems, electronic countermeasures (ECMs), electronic counter-countermeasures (ECCMs), communications systems, and a variety of sensors are increasingly adopted to install in military and aerospace equipment. Testing all these components requires a high level of accuracy; hence, the use of ultra-low phase noise RF signal generators has become highly essential to ensure the operational success of next-generation aircraft.

Modular type ultra-low phase noise RF signal generator to witness higher growth due to its suitability for applications that require fast and high-quality measurements

Modular signal generators are ideal for applications that require fast and high-quality measurements, such as high-volume manufacturing, where quality control, product conformance, and test optimization are essential parameters. Modular equipment is available in multiple architectural designs, such as PXI, AXIe, and PCI Express.

Keysight offers software-enabled and PXI-integrated RF test equipment, which are used to create an application-specific modular solution. PXI signal generators are built for applications that require multi-channel measurement capabilities, measurement speed, and a small footprint. They provide scalability and flexibility and create test systems with a shared processor, chassis, and other modular instruments. Keysight's modular PXI signal generators offer an additional benefit of measurement consistency with signal generators used on the bench and throughout the product development cycle.

Synthesized RF signal generators likely to dominate the market during the forecast period

Synthesized RF ultra-low phase noise RF signal generators are expected to dominate the market during the forecast period. The segment held largest market share in 2021 and is likely to continue to lead the market throughout the forecast period due to the increasing use of this technology in high-speed, high-volume production testing.

These signal generators also provide an extremely high level of accuracy with acceptable phase noise. Synthesized RF signal generators are available in two types - phase-locked loop (PLL) synthesizer and direct digital synthesizer (DDS). Phase locked loop synthesizers are deployed in most RF signal generators as they enable signals to be generated over a wide range of frequencies with low spurious signals. Phase locked loop synthesizer technology is well developed and enables the development of high-performance RF signal generators.

Ultra-low phase noise RF signal generators market for communication application to witness highest growth rate between 2022 and 2027

The demand for wireless products having diverse capabilities has surged to a great extent recently. Wireless technology is adopted for several applications, including remote utility reading and telephone services for entire neighbourhoods, paging, cellular, and satellite global positioning systems.

Most RF signal generators, including ultra-low phase noise RF signal generators, are used in testing communication systems for their amplitude modulation (AM), frequency modulation (FM), and pulse modulation (PM) capabilities.

Increasing use of signal generators in testing digital wireless communication applications, and rising use of the 5G cellular network (local 5G/IoT) in telecom and non-telecom fields owing to its higher speed and lower latency (local 5G, IoT) is expected to boost the demand for ultra-low phase noise RF signal generators in the coming years.

Key Topics Covered:

1 Introduction

2 Research Methodology

3 Executive Summary

4 Premium Insights
4.1 Attractive Opportunities for Players in Ultra-Low Phase Noise Rf Signal Generator Market
4.2 Ultra-Low Phase Noise Rf Signal Generator Market, by Application
4.3 Ultra-Low Phase Noise Rf Signal Generator Market, by Form Factor
4.4 Ultra-Low Phase Noise Rf Signal Generator Market, by End Use
4.5 Ultra-Low Phase Noise Rf Signal Generator Market, by Type
4.6 Ultra-Low Phase Noise Rf Signal Generator Market, by Region

5 Market Overview
5.1 Introduction
5.2 Market Dynamics
5.2.1 Drivers Rising Adoption of Smart and 5G-Enabled Devices Increasing Demand for Portable and Handheld Rf Signal Generators Surging Utilization of Synthesized Rf Signal Generators
5.2.2 Restraints High Synchronization Cost of Multiple Signal Generators Employed to Analyze Ca System Performance
5.2.3 Opportunities Growing Use of Rf Technology in Testing Automotive Systems Increasing Utilization of Rf Signal Generators in Aerospace and Defense Applications
5.2.4 Challenges Longer Time Required for Research and Development of New Communication Technologies
5.3 Value Chain Analysis
5.4 Ecosystem
5.5 Pricing Analysis
5.6 Trends/Disruptions Impacting Customers' Businesses
5.7 Key Technology Trends
5.7.1 Trend of Modular Test Instruments
5.7.2 Advent of Multi-Antenna Techniques
5.8 Porter's Five Forces Analysis
5.9 Key Stakeholders and Buying Criteria
5.9.1 Key Stakeholders in Buying Process
5.9.2 Buying Criteria
5.10 Trade Analysis
5.11 Patent Analysis
5.12 Key Conferences and Events, 2022-2024
5.12.1 Detailed List of Conferences and Events
5.13 Tariff and Regulatory Landscape
5.13.1 Regulatory Bodies, Government Agencies, and Other Organizations
5.13.2 Codes and Standards Related to Rf Signal Generators

6 Ultra-Low Phase Noise Rf Signal Generator Market, by Form Factor
6.1 Introduction
6.2 Benchtop
6.2.1 High-Performance and Cost-Effective Solutions
6.3 Portable
6.3.1 Suitable for Aerospace and Defense and R&D Laboratory Applications
6.4 Modular
6.4.1 Ideal for Applications Requiring Fast and High-Quality Measurements

7 Ultra-Low Phase Noise Rf Signal Generator Market, by Type
7.1 Introduction
7.2 Synthesized Rf Signal Generators
7.2.1 Enable Output Signal Determination at Greater Accuracy
7.3 Free Running Rf Signal Generators
7.3.1 Designed for Experiments Conducted in Research Labs

8 Ultra-Low Phase Noise Rf Signal Generator Market, by Application
8.1 Introduction
8.2 Radar Systems
8.2.1 Rising Use of Rte at Development, Testing, Evaluation, and Production Stages to Spur Market Growth
8.3 Component Testing Equipment
8.3.1 Circuit Designing and Electrical Signal Testing - Key Applications of Ultra-Low Phase Noise Rf Signal Generators
8.4 Communication Systems
8.4.1 Increasing Adoption of Signal Generators in Testing Digital Wireless Systems to Support Market Growth

9 Ultra-Low Phase Noise Rf Signal Generator Market, by End Use
9.1 Introduction
9.2 Information and Communication Technology
9.2.1 High Adoption of 5G and Wireless Communication Technologies Boosts Market Growth
9.3 Aerospace and Defense
9.3.1 Requirement for High-Performance and Mission-Critical Designs of Next-Generation Aircraft to Provide Growth Opportunities
9.4 Semiconductors and Electronics
9.4.1 High Adoption of Signal Generators to Check Performance of Amplifiers and Filters to Support Market Growth
9.5 Automotive
9.5.1 Integration of Bluetooth-Powered Infotainment and Radio Systems in Modern Vehicles to Accelerate Market Growth
9.6 Research and Development Laboratories
9.6.1 Increased Use of Signal Generators in Testing Laboratories Dealing with Radio Equipment to Propel Market Growth
9.7 Others

10 Ultra-Low Phase Noise Rf Signal Generator Market, by Region

11 Competitive Landscape
11.1 Introduction
11.2 Key Player Strategies/Right to Win
11.2.1 Product Portfolio
11.2.2 Regional Focus
11.2.3 Manufacturing Footprint
11.2.4 Organic/Inorganic Growth Strategies
11.3 Market Share Analysis, 2021
11.4 Revenue Analysis of Top Companies
11.5 Company Evaluation Quadrant
11.5.1 Stars
11.5.2 Pervasive Players
11.5.3 Emerging Leaders
11.5.4 Participants
11.6 Company Footprint
11.7 Competitive Scenarios and Trends
11.7.1 Product Launches and Developments
11.7.2 Deals
11.7.3 Others

12 Company Profiles
12.1 Key Players
12.1.1 Anritsu Corporation
12.1.2 Rohde & Schwarz GmbH & Co Kg
12.1.3 Keysight Technologies
12.1.4 Berkeley Nucleonics Corporation
12.1.5 Anapico Ag
12.1.6 Boonton Electronics
12.1.7 Texas Instruments
12.1.8 Tektronix, Inc. (Part of Danaher Corporation)
12.1.9 B&K Precision Corporation
12.1.10 Tabor Electronics Ltd.
12.2 Other Players
12.2.1 Signalcore, Inc.
12.2.2 Ds Instruments
12.2.3 Rf Lambda
12.2.4 Stanford Research Systems
12.2.5 National Instruments
12.2.6 Pico Technology
12.2.7 Transcom Instruments
12.2.8 Novatech Instruments, Inc.
12.2.9 Vaunix Technology Corporation
12.2.10 Saluki Technology Inc.

13 Appendix

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