Radio Frequency (RF) Signal Generators are specialized electronic devices designed to produce precise, controlled radio frequency signals for testing, calibration, and troubleshooting in various industries. These instruments generate signals across a wide frequency range, typically from a few kHz to several GHz, and are essential for evaluating the performance of RF components, communication systems, and electronic devices. The RF Signal Generator market is characterized by its critical role in enabling advanced wireless technologies, such as 5G, Wi-Fi 6, and the Internet of Things (IoT), as well as supporting applications in aerospace, defense, automotive, and electronics manufacturing. Key features include high signal purity, flexible modulation capabilities, and support for complex waveform generation, which are vital for testing modern communication systems and high-frequency components.
The industry is driven by trends toward software-defined signal generation, modular and portable form factors, and the integration of artificial intelligence (AI) and machine learning (ML) for real-time signal optimization. Regulatory frameworks, such as the U.S. Federal Communications Commission (FCC) standards and the EU’s Radio Equipment Directive, emphasize signal accuracy and spectrum efficiency, pushing manufacturers to innovate. Strategic developments, such as Keysight Technologies’ launch of new analog signal generators in October 2024 and CG Power’s acquisition of Renesas’ RF components business in the same month, highlight the market’s focus on expanding capabilities and entering high-growth segments like 5G and automotive testing. The market operates in a moderately concentrated structure, with key players investing in R&D to address the demands of emerging technologies like 6G and autonomous vehicles.
North America is anticipated to achieve a CAGR of 6.8%-8.8%, with the United States and Canada leading. The U.S. market is supported by its advanced semiconductor ecosystem and significant investments in 5G and aerospace, with trends toward ultra-low phase noise signal generators for radar and satellite testing, as seen with Keysight Technologies’ innovations. Canada’s market is driven by telecommunications and industrial automation, with trends toward portable signal generators for field testing.
Europe is expected to grow at a CAGR of 6.5%-8.5%, led by Germany, France, and the United Kingdom. Germany’s automotive industry drives demand for RF signal generators in ADAS and V2X testing, with trends toward energy-efficient, software-defined solutions aligned with the EU’s Green Deal. France’s aerospace and defense sectors support RF signal generator use in secure communication and radar systems, with trends toward high-frequency testing for satellite applications. The UK’s telecommunications and smart manufacturing sectors drive demand for vector signal generators, with trends toward AI-enhanced testing for 5G networks.
The Rest of the World, including Latin America and the Middle East, is projected to grow at a CAGR of 6.0%-8.0%. Brazil’s expanding consumer electronics and automotive industries drive RF signal generator demand, with trends toward cost-effective testing solutions for IoT devices. In the Middle East, Saudi Arabia’s Vision 2030 initiatives promote investments in telecommunications and smart infrastructure, with trends toward high-performance RF signal generators for 5G deployment.
Aerospace & Defense applications are projected to grow at a CAGR of 7.0%-9.0%, fueled by the use of RF signal generators in radar, satellite communication, and electronic warfare systems. These instruments ensure signal accuracy and reliability in high-stakes applications. Trends include the development of ultra-low phase noise signal generators, as introduced by Anritsu in November 2021, and the use of modular solutions for portable testing in defense applications.
Automotive applications are estimated to grow at a CAGR of 7.3%-9.3%, driven by the increasing adoption of RF signal generators in testing ADAS, V2X communication, and infotainment systems. These devices simulate real-world conditions for radar and sensor validation. Trends include the use of SiC-based RF technologies, as highlighted by onsemi’s acquisition of Qorvo’s SiC JFET business in January 2025, and the development of high-frequency signal generators for autonomous vehicle testing.
Electronics applications are projected to grow at a CAGR of 6.8%-8.8%, propelled by the use of RF signal generators in semiconductor testing, consumer electronics, and IoT device manufacturing. These instruments ensure device performance and compliance with standards. Trends include the adoption of software-defined signal generators, as seen with Keysight’s October 2024 launch, and the focus on compact, cost-effective solutions for electronics testing.
Other applications, including healthcare and industrial automation, are estimated to grow at a CAGR of 6.5%-8.5%. RF signal generators are used in medical diagnostics and wireless sensor testing, supporting IoT-driven smart factories. Trends include the integration of AI for automated testing and the development of portable signal generators for field applications.
Digital Signal Generators are projected to grow at a CAGR of 7.0%-9.0%, fueled by their ability to generate precise, programmable signals for IoT and industrial applications. These generators support digital modulation and are ideal for testing modern communication systems. Trends include the adoption of software-defined digital signal generators, as seen with GW Instek’s GSG-2000 Series launched in December 2024, and their use in smart manufacturing.
Vector Signal Generators are estimated to grow at a CAGR of 7.5%-9.5%, driven by their advanced modulation capabilities for 5G, aerospace, and automotive testing. These generators produce complex signals for evaluating transceivers and antennas. Trends include the integration of AI and ML for adaptive signal generation, as seen with Keysight’s four-channel vector signal generator launched in April 2022, and the focus on high-frequency solutions for 6G research.
B&K Precision Corporation, based in the United States, specializes in cost-effective RF signal generators for electronics and educational applications, with a focus on compact, user-friendly designs. Its global distribution network supports its growth in North America and Europe.
Boonton Electronics, a subsidiary of Wireless Telecom Group in the United States, offers RF signal generators for telecommunications and defense, with its NGX1000 noise generator launched in May 2022. Its emphasis on high-precision testing supports its market presence in North America.
Keysight Technologies, Inc., headquartered in the United States, is a market leader in RF signal generators, with innovations like its October 2024 analog signal generators for RF and microwave applications. Its focus on 5G and automotive testing drives its dominance in North America and Asia-Pacific.
Rohde & Schwarz GmbH & Co. KG, based in Germany, produces high-performance RF signal generators for telecommunications and aerospace, with solutions like the R&S SMW200A for 5G-Advanced testing. Its strong R&D capabilities support its leadership in Europe.
Tektronix, Inc., headquartered in the United States, offers RF signal generators for electronics and automotive testing, with solutions for high-frequency waveform generation. Its focus on modular testing platforms strengthens its position in North America and Europe.
National Instruments Corporation, based in the United States, provides RF signal generators for industrial and IoT applications, with solutions for automated testing. Its emphasis on software-defined platforms supports its growth in North America and Asia-Pacific.
Teledyne LeCroy, headquartered in the United States, specializes in RF signal generators for telecommunications and electronics, with solutions for high-speed signal testing. Its focus on precision testing drives its market presence in North America.
Aim-TTi, based in the United Kingdom, offers cost-effective RF signal generators for electronics and educational applications, with a focus on compact designs. Its strong presence in Europe supports its market growth.
Berkeley Nucleonics Corporation, headquartered in the United States, produces RF signal generators for aerospace and defense, with solutions like its broadband frequency synthesizer launched in May 2022. Its focus on high-reliability testing strengthens its position in North America.
DS Instruments, based in the United States, specializes in compact RF signal generators for electronics and IoT applications, with a focus on cost-effective solutions. Its regional expertise supports its growth in North America.
Novatech Instruments, headquartered in the United States, offers RF signal generators for telecommunications and industrial applications, with solutions for high-precision signal generation. Its focus on niche applications supports its market presence.
RF Lambda, based in the United States, produces RF signal generators for aerospace and defense, with solutions for radar and satellite testing. Its emphasis on high-frequency applications drives its growth in North America.
Rigol Technologies, headquartered in China, offers cost-effective RF signal generators for electronics and IoT testing, with solutions like its vector signal generators for 5G applications. Its focus on affordability strengthens its position in Asia-Pacific.
Saluki Technology, based in China, specializes in RF signal generators for telecommunications and electronics, with solutions for high-frequency testing. Its regional expertise supports its growth in Asia-Pacific.
SignalCore, headquartered in the United States, produces RF signal generators for telecommunications and aerospace, with solutions for high-precision signal generation. Its focus on compact designs supports its market presence in North America.
Vaunix Technology Corporation, based in the United States, offers portable RF signal generators for telecommunications and IoT applications, with solutions for field testing. Its emphasis on modular designs drives its growth in North America.
Yokogawa Electric Corporation, headquartered in Japan, produces RF signal generators for industrial and telecommunications applications, with solutions for high-accuracy testing. Its strong R&D capabilities support its position in Asia-Pacific.
Siglent Technologies, based in China, offers RF signal generators for electronics and IoT testing, with solutions for cost-effective signal generation. Its focus on affordability strengthens its market presence in Asia-Pacific.
GW Instek, headquartered in Taiwan, produces RF signal generators for telecommunications and automotive applications, with its GSG-2000 Series launched in December 2024 for 5G and IoT testing. Its regional expertise supports its growth in Asia-Pacific.
KSW Technologies, based in the United States, specializes in RF signal generators for aerospace and defense, with solutions for radar and communication testing. Its focus on high-reliability applications strengthens its position in North America.
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The industry is driven by trends toward software-defined signal generation, modular and portable form factors, and the integration of artificial intelligence (AI) and machine learning (ML) for real-time signal optimization. Regulatory frameworks, such as the U.S. Federal Communications Commission (FCC) standards and the EU’s Radio Equipment Directive, emphasize signal accuracy and spectrum efficiency, pushing manufacturers to innovate. Strategic developments, such as Keysight Technologies’ launch of new analog signal generators in October 2024 and CG Power’s acquisition of Renesas’ RF components business in the same month, highlight the market’s focus on expanding capabilities and entering high-growth segments like 5G and automotive testing. The market operates in a moderately concentrated structure, with key players investing in R&D to address the demands of emerging technologies like 6G and autonomous vehicles.
Market Size and Growth Forecast
The global Radio Frequency Signal Generator market was valued at USD 1.1-1.8 billion in 2024, with an estimated compound annual growth rate (CAGR) of 7.0%-9.0% from 2025 to 2030. This growth is fueled by the rapid expansion of 5G networks, increasing demand for IoT devices, and the rising need for high-precision testing in automotive and aerospace applications, particularly in North America, Asia-Pacific, and Europe.Regional Analysis
Asia-Pacific is projected to grow at a CAGR of 7.5%-9.5%, with China, Japan, South Korea, and India as key markets. China’s market is driven by its massive electronics manufacturing sector and aggressive 5G deployment, supported by the 14th Five-Year Plan, with trends toward high-frequency RF signal generators for telecommunications and IoT testing. Japan’s focus on automotive and aerospace industries drives demand for vector signal generators for radar and V2X communication, with trends toward AI-integrated testing solutions. South Korea’s semiconductor and consumer electronics sectors, led by companies like Samsung, support RF signal generator adoption for 5G and IoT applications, with trends toward modular, cost-effective solutions. India’s market benefits from growing electronics production and government initiatives like Atmanirbhar Bharat, with trends toward affordable RF testing equipment for smart manufacturing.North America is anticipated to achieve a CAGR of 6.8%-8.8%, with the United States and Canada leading. The U.S. market is supported by its advanced semiconductor ecosystem and significant investments in 5G and aerospace, with trends toward ultra-low phase noise signal generators for radar and satellite testing, as seen with Keysight Technologies’ innovations. Canada’s market is driven by telecommunications and industrial automation, with trends toward portable signal generators for field testing.
Europe is expected to grow at a CAGR of 6.5%-8.5%, led by Germany, France, and the United Kingdom. Germany’s automotive industry drives demand for RF signal generators in ADAS and V2X testing, with trends toward energy-efficient, software-defined solutions aligned with the EU’s Green Deal. France’s aerospace and defense sectors support RF signal generator use in secure communication and radar systems, with trends toward high-frequency testing for satellite applications. The UK’s telecommunications and smart manufacturing sectors drive demand for vector signal generators, with trends toward AI-enhanced testing for 5G networks.
The Rest of the World, including Latin America and the Middle East, is projected to grow at a CAGR of 6.0%-8.0%. Brazil’s expanding consumer electronics and automotive industries drive RF signal generator demand, with trends toward cost-effective testing solutions for IoT devices. In the Middle East, Saudi Arabia’s Vision 2030 initiatives promote investments in telecommunications and smart infrastructure, with trends toward high-performance RF signal generators for 5G deployment.
Application Analysis
Telecommunications applications are estimated to grow at a CAGR of 7.2%-9.2%, driven by the global rollout of 5G and the need for precise signal testing in base stations, small cells, and user equipment. RF signal generators are critical for evaluating signal integrity and bandwidth in wireless networks. Trends include the adoption of vector signal generators for complex modulation schemes, as seen with Rohde & Schwarz’s collaboration with Qualcomm in February 2024, and the integration of AI for real-time signal correction in 5G testing.Aerospace & Defense applications are projected to grow at a CAGR of 7.0%-9.0%, fueled by the use of RF signal generators in radar, satellite communication, and electronic warfare systems. These instruments ensure signal accuracy and reliability in high-stakes applications. Trends include the development of ultra-low phase noise signal generators, as introduced by Anritsu in November 2021, and the use of modular solutions for portable testing in defense applications.
Automotive applications are estimated to grow at a CAGR of 7.3%-9.3%, driven by the increasing adoption of RF signal generators in testing ADAS, V2X communication, and infotainment systems. These devices simulate real-world conditions for radar and sensor validation. Trends include the use of SiC-based RF technologies, as highlighted by onsemi’s acquisition of Qorvo’s SiC JFET business in January 2025, and the development of high-frequency signal generators for autonomous vehicle testing.
Electronics applications are projected to grow at a CAGR of 6.8%-8.8%, propelled by the use of RF signal generators in semiconductor testing, consumer electronics, and IoT device manufacturing. These instruments ensure device performance and compliance with standards. Trends include the adoption of software-defined signal generators, as seen with Keysight’s October 2024 launch, and the focus on compact, cost-effective solutions for electronics testing.
Other applications, including healthcare and industrial automation, are estimated to grow at a CAGR of 6.5%-8.5%. RF signal generators are used in medical diagnostics and wireless sensor testing, supporting IoT-driven smart factories. Trends include the integration of AI for automated testing and the development of portable signal generators for field applications.
Type Analysis
Analog Signal Generators are estimated to grow at a CAGR of 6.5%-8.5%, driven by their use in basic RF testing and legacy systems. These generators are cost-effective and widely used in electronics and automotive applications for generating simple waveforms. Trends include the development of compact, portable analog signal generators, as seen with Keysight’s October 2024 launch, and their integration into modular testing platforms.Digital Signal Generators are projected to grow at a CAGR of 7.0%-9.0%, fueled by their ability to generate precise, programmable signals for IoT and industrial applications. These generators support digital modulation and are ideal for testing modern communication systems. Trends include the adoption of software-defined digital signal generators, as seen with GW Instek’s GSG-2000 Series launched in December 2024, and their use in smart manufacturing.
Vector Signal Generators are estimated to grow at a CAGR of 7.5%-9.5%, driven by their advanced modulation capabilities for 5G, aerospace, and automotive testing. These generators produce complex signals for evaluating transceivers and antennas. Trends include the integration of AI and ML for adaptive signal generation, as seen with Keysight’s four-channel vector signal generator launched in April 2022, and the focus on high-frequency solutions for 6G research.
Key Market Players
Anritsu Corporation, headquartered in Japan, is a leading provider of RF signal generators for telecommunications and aerospace applications, with solutions like the Rubidium family introduced in November 2021, offering high signal purity up to 43.5 GHz. Its focus on 5G and 6G testing strengthens its position in Asia-Pacific and North America.B&K Precision Corporation, based in the United States, specializes in cost-effective RF signal generators for electronics and educational applications, with a focus on compact, user-friendly designs. Its global distribution network supports its growth in North America and Europe.
Boonton Electronics, a subsidiary of Wireless Telecom Group in the United States, offers RF signal generators for telecommunications and defense, with its NGX1000 noise generator launched in May 2022. Its emphasis on high-precision testing supports its market presence in North America.
Keysight Technologies, Inc., headquartered in the United States, is a market leader in RF signal generators, with innovations like its October 2024 analog signal generators for RF and microwave applications. Its focus on 5G and automotive testing drives its dominance in North America and Asia-Pacific.
Rohde & Schwarz GmbH & Co. KG, based in Germany, produces high-performance RF signal generators for telecommunications and aerospace, with solutions like the R&S SMW200A for 5G-Advanced testing. Its strong R&D capabilities support its leadership in Europe.
Tektronix, Inc., headquartered in the United States, offers RF signal generators for electronics and automotive testing, with solutions for high-frequency waveform generation. Its focus on modular testing platforms strengthens its position in North America and Europe.
National Instruments Corporation, based in the United States, provides RF signal generators for industrial and IoT applications, with solutions for automated testing. Its emphasis on software-defined platforms supports its growth in North America and Asia-Pacific.
Teledyne LeCroy, headquartered in the United States, specializes in RF signal generators for telecommunications and electronics, with solutions for high-speed signal testing. Its focus on precision testing drives its market presence in North America.
Aim-TTi, based in the United Kingdom, offers cost-effective RF signal generators for electronics and educational applications, with a focus on compact designs. Its strong presence in Europe supports its market growth.
Berkeley Nucleonics Corporation, headquartered in the United States, produces RF signal generators for aerospace and defense, with solutions like its broadband frequency synthesizer launched in May 2022. Its focus on high-reliability testing strengthens its position in North America.
DS Instruments, based in the United States, specializes in compact RF signal generators for electronics and IoT applications, with a focus on cost-effective solutions. Its regional expertise supports its growth in North America.
Novatech Instruments, headquartered in the United States, offers RF signal generators for telecommunications and industrial applications, with solutions for high-precision signal generation. Its focus on niche applications supports its market presence.
RF Lambda, based in the United States, produces RF signal generators for aerospace and defense, with solutions for radar and satellite testing. Its emphasis on high-frequency applications drives its growth in North America.
Rigol Technologies, headquartered in China, offers cost-effective RF signal generators for electronics and IoT testing, with solutions like its vector signal generators for 5G applications. Its focus on affordability strengthens its position in Asia-Pacific.
Saluki Technology, based in China, specializes in RF signal generators for telecommunications and electronics, with solutions for high-frequency testing. Its regional expertise supports its growth in Asia-Pacific.
SignalCore, headquartered in the United States, produces RF signal generators for telecommunications and aerospace, with solutions for high-precision signal generation. Its focus on compact designs supports its market presence in North America.
Vaunix Technology Corporation, based in the United States, offers portable RF signal generators for telecommunications and IoT applications, with solutions for field testing. Its emphasis on modular designs drives its growth in North America.
Yokogawa Electric Corporation, headquartered in Japan, produces RF signal generators for industrial and telecommunications applications, with solutions for high-accuracy testing. Its strong R&D capabilities support its position in Asia-Pacific.
Siglent Technologies, based in China, offers RF signal generators for electronics and IoT testing, with solutions for cost-effective signal generation. Its focus on affordability strengthens its market presence in Asia-Pacific.
GW Instek, headquartered in Taiwan, produces RF signal generators for telecommunications and automotive applications, with its GSG-2000 Series launched in December 2024 for 5G and IoT testing. Its regional expertise supports its growth in Asia-Pacific.
KSW Technologies, based in the United States, specializes in RF signal generators for aerospace and defense, with solutions for radar and communication testing. Its focus on high-reliability applications strengthens its position in North America.
Porter’s Five Forces Analysis
- Threat of New Entrants: The RF Signal Generator market faces high barriers to entry due to the need for advanced technical expertise, significant R&D investments, and compliance with stringent regulatory standards like FCC and EU directives. Established players like Keysight Technologies and Rohde & Schwarz leverage strong patent portfolios and economies of scale, deterring new entrants. However, government incentives for semiconductor innovation in Asia-Pacific lower barriers for niche players.
- Threat of Substitutes: Substitutes, such as software-defined radios or general-purpose test equipment, pose a low to moderate threat. RF signal generators offer superior precision and flexibility for 5G and aerospace applications, making them difficult to replace. However, advancements in modular test solutions could challenge their use in cost-sensitive markets.
- Buyer Power: Buyers, including telecommunications, automotive, and aerospace firms, hold moderate bargaining power due to the availability of multiple suppliers. However, the specialized nature of high-performance RF signal generators, as offered by Anritsu and Tektronix, reduces buyer leverage, as quality and compliance are critical.
- Supplier Power: Suppliers of components like SiC and GaN wield moderate to high power due to the concentrated supply chain and high-quality requirements. Acquisitions like onsemi’s purchase of Qorvo’s SiC JFET business in January 2025 highlight efforts to mitigate this through vertical integration, but price volatility in advanced materials impacts production costs.
- Competitive Rivalry: The market is highly competitive, with players like Keysight, Rohde & Schwarz, and Anritsu competing on signal purity, frequency range, and pricing. Regional players in Asia-Pacific, like Rigol and Siglent, drive cost competition, while differentiation through AI integration and modular designs, as seen with GW Instek’s December 2024 launch, intensifies rivalry. Strategic acquisitions, like CG Power’s purchase of Renesas’ RF business, shape competitive dynamics.
Market Opportunities and Challenges
Opportunities
- 5G and 6G Deployment: The global rollout of 5G and research into 6G networks drive demand for RF signal generators, as seen with Rohde & Schwarz’s 5G-Advanced testing solutions, supporting high-frequency and complex modulation testing.
- IoT Expansion: The proliferation of IoT devices in smart homes and industrial automation creates opportunities for RF signal generators, with companies like GW Instek focusing on cost-effective solutions for IoT testing.
- Automotive Advancements: The rise of autonomous vehicles and ADAS increases demand for RF signal generators in radar and V2X testing, as highlighted by onsemi’s SiC JFET acquisition for automotive applications.
- Aerospace and Defense: Investments in radar, satellite, and electronic warfare systems, as supported by Berkeley Nucleonics’ high-frequency synthesizers, drive RF signal generator demand.
- AI and ML Integration: The incorporation of AI and ML for real-time signal optimization, as seen with Keysight’s vector signal generators, opens new avenues for advanced testing solutions.
- Government Support: Policies like China’s 14th Five-Year Plan and the EU’s Chips Act promote semiconductor and testing equipment innovation, supporting RF signal generator development.
Challenges
- High R&D Costs: Developing high-frequency, AI-integrated RF signal generators requires significant investment, posing challenges for smaller players like DS Instruments.
- Regulatory Compliance: Strict standards, such as FCC and EU regulations, increase compliance costs for manufacturers like Rohde & Schwarz, impacting profitability.
- Semiconductor Shortages: Global chip shortages disrupt production and supply chains, affecting players like National Instruments.
- Price Volatility: Fluctuations in SiC and GaN prices, as seen with onsemi’s acquisition, impact production costs and market stability.
- Technical Complexity: Designing RF signal generators for 5G and 6G applications requires advanced expertise, challenging smaller firms like Saluki Technology.
- Intense Competition: The crowded market, with established players like Keysight and regional firms like Rigol, drives price pressure and innovation demands.
Growth Trend Analysis
The Radio Frequency Signal Generator market is experiencing robust growth, driven by its critical role in testing and validating advanced wireless technologies. Recent developments highlight this trend: in October 2024, Keysight Technologies expanded its portfolio with new RF and microwave analog signal generators, targeting frequencies up to 26 GHz for telecommunications and automotive testing. Also in October 2024, CG Power acquired Renesas Electronics’ RF components business for USD 36 million, marking its entry into the high-growth semiconductor design sector and enhancing RF signal generator capabilities. In January 2025, onsemi acquired Qorvo’s SiC JFET technology business for USD 115 million, strengthening its portfolio for automotive and AI data center applications. In May 2025, Akoustis Technologies sold its RF filter assets to SpaceX’s Tune Holdings, reflecting the market’s alignment with high-frequency applications for aerospace. The projected CAGR of 7.0%-9.0% through 2030 is fueled by 5G deployment, IoT growth, and automotive advancements, with trends toward AI-integrated, software-defined, and high-frequency signal generators driving innovation across telecommunications, aerospace, and automotive sectors.This product will be delivered within 1-3 business days.
Table of Contents
Chapter 1 Executive SummaryChapter 2 Abbreviation and Acronyms
Chapter 3 Preface
Chapter 4 Market Landscape
Chapter 5 Market Trend Analysis
Chapter 6 Industry Chain Analysis
Chapter 7 Latest Market Dynamics
Chapter 8 Trading Analysis
Chapter 9 Historical and Forecast Radio Frequency Signal Generator Market in North America (2020-2030)
Chapter 10 Historical and Forecast Radio Frequency Signal Generator Market in South America (2020-2030)
Chapter 11 Historical and Forecast Radio Frequency Signal Generator Market in Asia & Pacific (2020-2030)
Chapter 12 Historical and Forecast Radio Frequency Signal Generator Market in Europe (2020-2030)
Chapter 13 Historical and Forecast Radio Frequency Signal Generator Market in MEA (2020-2030)
Chapter 14 Summary For Global Radio Frequency Signal Generator Market (2020-2025)
Chapter 15 Global Radio Frequency Signal Generator Market Forecast (2025-2030)
Chapter 16 Analysis of Global Key Vendors
Tables and Figures
Companies Mentioned
- Anritsu
- B&K Precision Corporation
- Boonton Electronics
- Keysight Technologies
- Rohde and Schwarz
- Tektronix
- National Instruments
- Teledyne LeCroy
- Aim-TTi
- Berkeley Nucleonics
- DS Instruments
- Novatech Instruments
- RF Lambda
- Rigol Technologies
- Saluki Technology
- SignalCore
- Vaunix Technology
- Yokogawa Electric
- Siglent Technologies
- Rigol Technologies
- GWInstek
- KSW Technologies
