Professionals who expect top-tier performance choose the nVision Reference Pressure Recorder. It is precise enough to replace a standard deadweight tester, tough enough for demanding environments, and compact enough for use anywhere.
- Unmatched Accuracy and Versatility: The Reference Pressure Recorder captures gauge and absolute pressure up to 15,000 psi (1000 bar), and offers differential pressure measurement with up to 0.025 % reading accuracy. It also supports measurements for temperature, voltage, current, and switch signals, making it a complete tool for calibration tasks.
- Rugged Design for Extreme Conditions: Designed for extreme environments, the nVision is robust enough to operate even when submerged in three feet of water, ensuring reliable function in the field.
- Large Data Storage and Fast Sampling Rate: With room for 500,000 data points and the ability to log 10 readings per second across two modules, the recorder is ideal for collecting rich, detailed datasets.
- User-Friendly Interface and Advanced Functionality: The Reference Pressure Recorder does not require a PC to track readings in real time because it shows live data graphically on its screen. To ensure that the calibration data is safe and traceable, you may export data to tamper-proof digital records or examine real-time measurements when linked to a PC.
- Temperature Compensation for Accurate Results: The recorder adjusts for temperature variations between –20 °C and 50 °C, guaranteeing that the readings stay precise in a variety of environmental circumstances.
- Calibration Certificate Included: A calibration certificate from an A2LA-accredited laboratory—complete with test results at five distinct temperatures—is included with every Reference Pressure Recorder. This accreditation ensures the precision and reliability of the equipment, giving users confidence in their measurements.
- Replaceable CPF Adapter for Extended Life: To enhance longevity and reduce wear and tear, the Reference Pressure Recorder features a replaceable CPF adapter that shifts routine wear to an easily replaceable component. This design choice extends the life of the device, ensuring long-term reliability and value.