Data-acquisition systems for reliable, stand-alone monitoring
Proven Reliability
Campbell Scientific's high-capacity data-acquisition systems (DAQ) are crafted from more than 50 years of experience designing and manufacturing monitoring solutions for dams, mining, structural health, and other geotechnical applications. Built to turn complex environmental challenges into clear, dependable insight, these DAQs help shape safer, smarter monitoring systems in some of the world's harshest and most demanding conditions.
Recognized globally for precision and resilience, Campbell Scientific data loggers and DAQs are engineered for critical applications where confidence is essential and lives often depend on performance. With intuitive interfaces, streamlined setup, and proven long-term reliability, they empower geotechnical service providers to build monitoring systems that endure, adapt, and perform with purpose.
Reduce uncertainty
Using automated measurements for data integrity, security, quality control, and local alarming capabilities, our systems are built to reduce your project uncertainty. With VSPECT™ technology your confidence in the sensor and data integrity is increased.
Make your operations more efficient
Our systems are designed to make your measurement automation setup and long term operation simple, fast, and worry free.
Get high performance, no matter the size, with scalability
We offer DAQs to accommodate your needs—from small, single projects to large-scale, multi-site operations.
Benefit from the flexibility of an open ecosystem
You can own your data; own your network; and control your configuration with capabilities to plug and play, self-configure, and interface with any commercially available sensor, as well as many software platforms, including Oxstone™.
Share your data
Powerful reporting, dashboard building, and built in data sharing tools—from cloud software platforms such as Oxstone—keep everyone informed, including your key stakeholders.
Unlock the power of instrumentation and monitoring with our various geotechnical training options.

Unlock the power of instrumentation and monitoring.
We offer various training options to provide you with a flexible path forward in understanding the full capabilities of your Campbell Scientific instrumentation.
Flagship Products

CR6 High-Capacity Data-Acquisition System
The CR6 High-Capacity Data-Acquisition System (High-Cap DAQ), designed on decades of infrastructure and environmental monitoring experience, is used by some of the largest monitoring networks worldwide.

CRVW3 Vibrating Wire Node
The CRVW3 is a self-contained, low-cost, three-channel vibrating wire node. It is designed to be an independent data-acquisition system, or a component of your larger radio-linked data-acquisition network.

VWAnalyzer Vibrating Wire Analyzer
The Vibrating Wire Analyzer (VWAnalyzer) is the most innovative vibrating wire field reader available. The VWAnalyzer is field ready to quickly measure your sensor, save your data.

Spectrum Spectral Analysis and High-Speed Input Module
The Spectrum Spectral Analysis and High-Speed Input Module, available in three-channel or nine-channel variants, offers high-speed synchronous sampling for analog inputs.

Granite(TM)9 High-Capacity, High-Speed Data-Acquisition System
The Granite(TM)9 and Granite(TM)10 are the most computationally powerful data-acquisition devices from Campbell Scientific. As an all-digital measurement and control DAQ, the Granite family is built for demanding applications.

Oxstone - Data Collection, Management, and Visualization Software
Regardless of your DAQ manufacturer, you can visualize and manage all your infrastructure, construction, and environmental projects from a single software platform.
Related Product Categories

Software

GRANITE

Vibrating Wire Peripherals

Cellular Communications

Spread-Spectrum Radios

Wi-Fi Communications
Talk with the Infrastructure Team
Need help identifying the right DAQ or monitoring solution for your project? Our team can help you evaluate options and guide you to the right next step.