CRYONANO
THINK SCIENCE
CRYONANO DACsys
Data Acquisition & Control System Focus on Data Logging
The CRYONANO Data Acquisition & Control System (DACsys) is a modular and highly precise system designed for data logging in low-temperature and quantum transport experiments.
It provides an integrated platform for continuous, high-resolution data collection and storage, making it ideal for experiments in nanoelectronics, graphene devices, quantum Hall systems, and other advanced quantum research applications. DACsys ensures long-term stability and low-noise performance, capturing vital experimental data with exceptional accuracy and reliability.
Features
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Continuous Data Logging: DACsys offers seamless real-time data logging, continuously recording data from multiple channels. It supports the logging of voltage, current, temperature, resistance, and more.
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High-Resolution Data Collection: DACsys provides high-precision data logging with a 16-bit DAC and multi-channel inputs, making it ideal for experiments where accuracy is crucial.
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Long-Term Stability: Designed for extended experiments, DACsys ensures stable data logging over long durations, even in low-temperature environments where fluctuations can affect measurement quality.
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Fast Sampling Rates: With its high-speed sampling capabilities, DACsys ensures that transient responses and rapid changes in measurements are captured without any data loss.
Applications
Designed for precision cryogenic and quantum mesurements
Quantum Transport Measurements
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DACsys provides precise data logging for quantum Hall systems, graphene devices, and other low-dimensional materials. It ensures high-resolution monitoring of voltage, current and temperature.
Graphene & 2D Materials
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DACsys logs the current-voltage characteristics in fractional quantum Hall systems and other quantum devices. It ensures precise measurements and data logging for I-V spectroscopy, helping to identify resistance states and quantum behavior in complex systems.
I-V Spectroscopy
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DACsys logs the current-voltage characteristics in fractional quantum Hall systems and other quantum devices. It ensures precise measurements and data logging for I-V spectroscopy.
Cryogenic Research
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In cryogenic environments, DACsys logs temperature, voltage, and current over long durations without significant drift, ensuring reliable data collection for quantum computing, nanoelectronics, and other low-temperature experiments.
LabView & Python Compatibility for Automation
LabView Drivers: With built-in LabView drivers, DACsys allows for seamless integration into automated experimental setups. Researchers can easily create complex measurement sequences, monitor real-time data, and perform automated logging tasks without manual intervention.
Python Interface: For maximum flexibility, DACsys also supports Python scripting, enabling users to automate data collection, perform advanced analysis, and integrate the system into larger automated measurement workflows.
Benefits
Comprehensive Control: Seamlessly monitor and log data from multiple devices through a single, integrated platform, improving efficiency and accuracy in experimental setups.
High-Precision Data: With 16-bit DAC precision and low-noise performance, DACsys ensures that every logged data point is of the highest quality, even in sensitive quantum and nanoelectronics experiments.
Easy Integration: Simple integration with existing setups via USB 2.0, LabView, and Python compatibility. DACsys integrates smoothly into both automated measurement systems and manual setups.
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Reliable Long-Term Logging: Designed for use in extensive research experiments, DACsys provides reliable, long-term data collection with temperature stability and low drift.
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Flexible and Adaptable: As a modular system, DACsys can easily scale to accommodate new instruments and measurement requirements, making it adaptable to the evolving needs of quantum research.