Global Data Acquisition System Market Growth, Share, Size, Trends and Forecast (2025 - 2031)

• In February 2021, Teledyne SP Devices, a business unit of Teledyne Technologies, announced the release of ADQ32, a fourth,generation modular data acquisition board optimized for high,throughput applications.

• In July 2021, ELIN Motoren GmbH, an Austrian firm, inked a sales contract with Dewesoft. As part of the final inspection method, the company has fully incorporated an obligatory vibration measurement of each produced machine – motor or generator.

The global data acquisition system (DAS) market is segmented across several key dimensions, including offering, speed, application, and vertical, each of which addresses the diverse needs of industries reliant on real-time data collection and monitoring.

By offering, the market is divided into hardware, external chassis & modules, plug-in I/O analog boards, software, bundled solutions, and 3rd party products. Hardware includes the physical components such as sensors and data converters, which are integral to capturing raw data. External chassis & modules are used to house multiple components and enhance the system's expandability. Plug-in I/O analog boards provide interfaces for connecting various sensors and devices to the data acquisition system. Software solutions enable data analysis, processing, and visualization, while bundled solutions offer integrated systems that combine hardware and software. 3rd party products allow for customization and flexibility, enabling users to integrate additional functionalities into their DAS setups. Each offering provides distinct advantages, catering to specific needs in different applications, such as customizability, scalability, and ease of deployment.

By speed, the market is divided into high-speed (100 KS/S) and low-speed (100 KS/S) systems. High-speed data acquisition systems are designed to capture large volumes of data rapidly, making them ideal for applications that require real-time monitoring of fast-changing variables, such as in high-performance testing, aerospace, and automotive industries. Low-speed systems are suitable for applications where slower data collection suffices, such as environmental monitoring or manufacturing process control, where continuous, lower-frequency data is needed over extended periods.

By application, the DAS market is segmented into R&D, field, and manufacturing. In R&D, data acquisition systems are critical for precise experimentation and testing. They enable researchers to gather real-time data for scientific studies, product development, and innovation. In field applications, these systems are used to monitor and collect data in remote or harsh environments, such as in environmental monitoring, agriculture, or oil and gas. Manufacturing applications leverage DAS for quality control, process monitoring, and predictive maintenance, enhancing operational efficiency and reducing downtime.

By vertical, the market covers industries such as automotive & transportation, aerospace & defense, power & energy, wireless communications & infrastructure, environmental monitoring, healthcare, food & beverage, and others. Each vertical benefits from customized data acquisition systems that meet specific industry needs, such as precision monitoring in aerospace & defense, predictive maintenance in automotive & transportation, and real-time environmental data in power & energy and environmental monitoring.

In conclusion, the global data acquisition system market, with its segmentation by offering, speed, application, and vertical, underscores the versatility of DAS solutions. As industries continue to demand greater data precision and real-time insights, the market will evolve to provide more specialized and advanced systems tailored to the diverse requirements of different sectors.

Global Data Acquisition System Segment Analysis

In this report, the Global Data Acquisition System Market has been segmented by Offering, Speed, Application and Geography.

Global Data Acquisition System Market, Segmentation by Offering

The Global Data Acquisition System Market has been segmented by Offering into Hardware, External Chassis & Modules, Plug-In I/O Analog Boards, Software, Bundled, and 3rd Party.

Hardware forms the backbone of data acquisition systems, encompassing essential components like sensors, data converters, and signal conditioning devices. These hardware components are responsible for physically capturing data from various sources and converting it into a format that can be processed and analyzed. Hardware solutions are integral to sectors that demand high precision and reliability, such as aerospace, automotive, and healthcare.

External chassis & modules provide the framework for assembling and organizing multiple DAS components. These are used to house and connect different hardware parts, offering scalability and modularity. By enabling users to expand or customize their systems, these chassis and modules support industries with growing data acquisition needs or specific configuration requirements, such as power & energy or wireless communications.

Plug-in I/O analog boards are critical for interfacing analog signals with the data acquisition system. These boards allow for the connection of various sensors or measurement devices, enabling the system to handle different types of signals like temperature, pressure, or voltage. Plug-in I/O analog boards are typically used in environments where real-time monitoring and high data throughput are necessary, such as in industrial automation and R&D applications.

Software plays a vital role in the DAS ecosystem, enabling users to analyze, process, and visualize the data collected by hardware components. Data acquisition software solutions provide critical tools for data storage, processing, real-time monitoring, and reporting. The ability to interpret large amounts of data quickly is essential in industries like healthcare, environmental monitoring, and automotive, where timely insights are needed for decision-making and predictive maintenance.

Bundled solutions combine hardware and software into integrated systems that are ready for deployment. These comprehensive packages streamline the setup and installation process, offering a turnkey solution for users who need a complete, pre-configured system. Bundled solutions are popular in industries like manufacturing and power & energy, where seamless integration and ease of use are key to operational efficiency.

Third-party products offer flexibility and customization for users who want to enhance their DAS with additional features or functionalities. These products can include specialized software, sensors, or add-on modules that cater to specific industry requirements. By using third-party solutions, organizations can tailor their data acquisition systems to meet the unique needs of their operations, whether it’s for advanced analytics, more precise measurements, or specific regulatory compliance.

In conclusion, the segmentation of the Data Acquisition System Market by offering illustrates the wide range of solutions available to support industries across various sectors. From core hardware components to software and bundled systems, each offering plays a crucial role in ensuring that data acquisition systems can be tailored to meet specific requirements, whether for research, field applications, or manufacturing processes. As industries increasingly rely on real-time data for decision-making and operational efficiency, these offerings will continue to evolve, providing more specialized and integrated solutions.

Global Data Acquisition System Market, Segmentation by Speed

The Global Data Acquisition System Market has been segmented by Speed into High-Speed (100 KS/S) and Low-Speed (100 KS/S).

High-speed data acquisition systems (100 KS/S and above) are designed to handle large volumes of data at rapid rates, making them essential for applications that require real-time, high-frequency data collection. These systems are particularly important in industries such as aerospace & defense, automotive testing, and telecommunications, where precise measurements of high-speed events are critical. In automotive testing, for instance, high-speed DAS is used to monitor vehicle performance at high velocities, track sensor outputs from engines, brakes, and suspension systems, and conduct crash simulations. Similarly, in aerospace, high-speed systems enable engineers to collect data from flight testing and real-time monitoring of aircraft performance. High-speed data acquisition is also crucial for wireless communications & infrastructure, where network performance and signal integrity need continuous monitoring, especially during high-frequency testing of 5G and next-generation wireless technologies.

Low-speed data acquisition systems (under 100 KS/S) are ideal for applications that do not require the rapid capture of data, but instead focus on long-term monitoring, stability, and consistency of slower-moving variables. These systems are widely used in environmental monitoring, manufacturing, and healthcare applications. In environmental monitoring, low-speed DAS tracks parameters such as air quality, temperature, and humidity over extended periods. These systems can collect data from remote locations and provide insights into long-term environmental trends or changes. In manufacturing, low-speed DAS systems monitor production line performance, checking for operational consistency and ensuring that equipment is functioning properly over extended shifts. In healthcare, low-speed systems are used for patient monitoring, where the collection of vital signs like heart rate, blood pressure, and oxygen levels over time is essential, but these metrics do not fluctuate rapidly.

Both high-speed and low-speed data acquisition systems have vital roles in their respective fields. High-speed systems are necessary for capturing dynamic, time-sensitive data, while low-speed systems are more suited to environments that require steady, continuous monitoring over long durations. Each speed category addresses specific operational needs, providing flexibility and precision across industries and applications. As the demand for more real-time data increases across sectors, the market for high-speed data acquisition systems continues to grow, though low-speed systems remain crucial for industries focused on long-term data collection and monitoring.

Global Data Acquisition System Market, Segmentation by Application

The Global Data Acquisition System Market has been segmented by Application into R&D, Field, and Manufacturing.

In R&D (Research and Development), data acquisition systems are critical for conducting experiments, prototyping, and product testing. These systems enable precise measurements and data capture for scientific studies, helping researchers analyze variables such as temperature, pressure, and chemical compositions. R&D applications span industries such as pharmaceuticals, aerospace, and automotive, where innovation and product development require highly accurate and real-time data to inform decisions. In aerospace, for example, DAS is used during flight tests to capture data from sensors on aircraft, ensuring performance standards are met. Similarly, in the automotive industry, R&D teams use DAS to monitor vehicle performance, engine behavior, and crash simulations. The ability to collect and analyze data in real-time accelerates the pace of innovation and enhances the accuracy of experimental results, making DAS indispensable for R&D applications.

Field applications involve the use of data acquisition systems in real-world, often remote or rugged environments. These systems are deployed to monitor and collect data outside of controlled laboratory settings, serving industries like environmental monitoring, oil and gas, agriculture, and utilities. In environmental monitoring, for example, DAS is used to track air and water quality, soil conditions, and climate parameters. These systems must be robust and capable of withstanding harsh conditions, providing continuous data collection over extended periods. In the oil and gas sector, field DAS is crucial for monitoring equipment performance, pipeline integrity, and environmental conditions in remote locations. Similarly, in agriculture, field DAS systems collect data on soil moisture, weather patterns, and crop health, which are crucial for precision farming techniques. These systems allow for real-time analysis, ensuring that field operations are efficient, safe, and aligned with regulatory standards.

In manufacturing, data acquisition systems are employed to monitor and optimize production processes, track machine performance, and ensure product quality. These systems collect data from production lines, machinery, and supply chains to ensure that operational processes are running efficiently. By monitoring variables such as temperature, pressure, speed, and vibration, DAS helps prevent equipment failures, reduce downtime, and maintain product quality. Industries like automotive, electronics, food & beverage, and pharmaceuticals use DAS to monitor manufacturing processes and ensure compliance with regulatory standards. Additionally, data acquisition systems in manufacturing are used for predictive maintenance, enabling businesses to address issues before they lead to costly failures or interruptions.

In conclusion, the segmentation of the global Data Acquisition System Market by application into R&D, field, and manufacturing highlights the broad scope and versatility of DAS across different sectors. Each application requires specific capabilities, whether for precise data collection in research, real-time monitoring in the field, or process optimization in manufacturing. As industries continue to embrace data-driven decision-making, the demand for data acquisition systems across all three applications will grow, driving advancements in technology and operational efficiency.

Global Data Acquisition System Market, Segmentation by Vertical

The Global Data Acquisition System Market has been segmented by Vertical into Automotive & Transportation, Aerospace & Defense, Power & Energy, Wireless Communications & Infrastructure, Environmental Monitoring, Healthcare, Food & Beverage, and Others.

In the automotive & transportation sector, data acquisition systems are extensively used for vehicle testing, performance monitoring, and safety assessments. DAS helps engineers collect real-time data from vehicles during road tests, crash simulations, and endurance trials. Parameters such as speed, acceleration, engine performance, and sensor data from autonomous vehicles are captured and analyzed. This data is critical for improving vehicle design, ensuring safety standards, and optimizing fuel efficiency and emissions. As the automotive industry increasingly focuses on electric vehicles (EVs) and autonomous driving technologies, the demand for advanced DAS in automotive applications is on the rise.

The aerospace & defense industry relies on data acquisition systems for high-precision applications like flight testing, system diagnostics, and operational monitoring of aircraft and spacecraft. DAS is used to capture real-time data from sensors during test flights, engine performance checks, and military operations. This data is crucial for ensuring compliance with stringent safety standards and for the development of next-generation aircraft and defense systems. The aerospace sector's need for high-speed, high-accuracy data collection in extreme environments drives the adoption of advanced DAS technologies.

In power & energy, DAS systems are employed for monitoring and optimizing the performance of energy production and distribution systems. These systems are used to track variables such as voltage, current, temperature, and pressure in power plants, renewable energy systems (like solar and wind farms), and electrical grids. Real-time data helps prevent system failures, optimize energy distribution, and improve the overall efficiency of power systems. The growing emphasis on smart grids and the integration of renewable energy sources is further boosting the demand for data acquisition systems in this sector.

The wireless communications & infrastructure vertical benefits from DAS in testing and optimizing network performance, particularly in the deployment of 5G and other high-speed wireless technologies. Data acquisition systems are used to capture signal strength, frequency, and data throughput, helping telecom companies optimize network coverage and performance. With the expansion of next-generation wireless infrastructure, there is an increasing need for sophisticated DAS to manage and troubleshoot communication systems.

Environmental monitoring is a critical application for DAS, especially in the context of climate change and sustainability. DAS systems are used to monitor air quality, water levels, soil conditions, and other environmental parameters in real-time. This data is vital for regulatory compliance, environmental protection, and climate research. As governments and organizations focus more on environmental sustainability, the demand for robust DAS solutions in this vertical continues to grow.

In healthcare, data acquisition systems are essential for patient monitoring, diagnostic testing, and medical research. DAS is used to collect real-time data from medical devices such as ECGs, blood pressure monitors, and imaging equipment. This data is critical for ensuring patient safety, managing chronic conditions, and conducting clinical research. The growth of telemedicine and remote patient monitoring also fuels the demand for data acquisition systems in healthcare.

The food & beverage sector uses DAS for quality control, process optimization, and compliance with safety standards. DAS systems monitor variables such as temperature, humidity, and pH levels during food processing and packaging. They help ensure that products are produced under optimal conditions and meet health and safety regulations. The increasing demand for food safety and traceability, especially with the rise of smart manufacturing, drives the adoption of DAS in this vertical.

The others category includes diverse applications across sectors such as manufacturing, education, agriculture, and research institutions, where DAS is used for process monitoring, equipment testing, and scientific studies.In conclusion, the segmentation of the Global Data Acquisition System Market by vertical underscores the broad applicability and critical role of DAS across industries. Each vertical has unique data collection needs, whether for testing, monitoring, or optimizing operations. As industries continue to adopt digital transformation and data-driven solutions, the demand for specialized DAS systems will grow, supporting advancements in innovation, efficiency, and sustainability.

Global Data Acquisition System Market, Segmentation by Geography

In this report, the Global Data Acquisition System Market has been segmented by Geography into five regions; North America, Europe, Asia Pacific, Middle East and Africa and Latin America.

Global Data Acquisition System Market Share (%), by Geographical Region, 2024

The global data acquisition system market exhibits varying shares across geographical regions, influenced by factors such as technological infrastructure, industrial development, and regulatory frameworks. North America typically commands a significant portion of the market share, owing to the region's advanced technological ecosystem, substantial investments in research and development, and widespread adoption of data-driven technologies across industries. The presence of key market players and a strong focus on innovation further contribute to North America's dominance in the data acquisition system market, making it a major revenue-generating region.

Europe also holds a notable share of the global data acquisition system market, supported by the region's well-established industrial base, stringent quality standards, and favorable government initiatives promoting digitalization and automation. Countries like Germany, the UK, and France are key contributors to the market growth in Europe, driven by robust manufacturing sectors, automotive innovation, and investments in smart infrastructure projects. Additionally, the increasing emphasis on Industry 4.0 initiatives and the adoption of IoT technologies in manufacturing processes propel the demand for advanced data acquisition systems across the region.

Asia-Pacific emerges as a rapidly growing market for data acquisition systems, fueled by factors such as rapid industrialization, urbanization, and the proliferation of IoT devices and sensors. Countries like China, Japan, and South Korea are at the forefront of technological innovation and are witnessing substantial investments in smart manufacturing, healthcare, and infrastructure projects. Moreover, the region's large population base and rising disposable incomes drive demand for consumer electronics, automotive technologies, and smart devices, further augmenting the adoption of data acquisition systems. As a result, Asia-Pacific is poised to experience significant market share growth in the coming years, presenting lucrative opportunities for market players.

This report provides an in depth analysis of various factors that impact the dynamics of Global Data Acquisition System Market. These factors include; Market Drivers, Restraints and Opportunities Analysis.

Drivers, Restraints and Opportunity Analysis

Key players in Global Data Acquisition System Market include:

• ABB Ltd.
• Advantech Co., Ltd.
• Agilent Technologies
• AMETEK Inc.
• Campbell Scientific Inc
• Data Translation Inc
• Emerson Electric
• General Electric Ltd
• Honeywell International
• Keysight Technologies

In this report, the profile of each market player provides following information:

• Company Overview and Product Portfolio
• Key Developments
• Financial Overview
• Strategies
• Company SWOT Analysis