Key Features
Free communication infrastructure via LoRaWAN
ARM microcontroller offers a wide range of intelligent monitoring options
40+ km transmission range (urban areas reduce range)
Encrypted data protocol ensures secure transmission
Ability to communicate globally with the ‘Internet of Things’ (IoT)
ATEX Zone 0 applications
Protection class IP65 (higher protection class on request)
4 digital inputs, 2 or 5 analogue inputs and 2 serial inputs
Supplies the connected measuring instruments with energy
Integrated I.S. barriers for each channel
Up to 10+ years battery life (depending on protocol / transmission rate)
Battery can be changed in hazardous areas
Device setup and configuration via mobile Bluetooth application (iOS and Android)
Markets & Applications
HVAC-R
Water and Wastewater
Chemical and Petrochemical
Energy
Food and Beverage
Oil and Gas
Machine Automation
Hydrogen and Technical Gases
Pharmaceuticals
Pumps and Compressors
Equipped with a highly reliable and accurate sensing element, featuring the patented Ashcroft® Si-Glass™ sensor, Ashcroft offers a range of differential pressure transmitters specifically designed and developed for use in the cleanroom industry. Using an ultra-thin single crystal diaphragm, Ashcroft differential pressure transmitters offer inherent sensor repeatability and stability, making them stand out as highly accurate, long-term stable and reliable measurement instruments for cleanroom pressure monitoring.
The silicon diaphragm sensor is free of adhesives or other organic materials that are commonly used in differential pressure measurement technology and contribute to a drift in the measured value acquisition or a mechanical reduction in the measurement accuracy.
Ashcroft differential pressure transmitters incorporate the TruAccuracy™ specification. Ashcroft’s accuracy claim is based solely on terminal endpoint methodology and not on statistically derived accuracy claims’.
TruAccuracy™ means that Ashcroft differential pressure transmitters include zero offset, non-linearity, hysteresis, non-repeatability, zero offset and span adjustment error in their accuracy statement.
The user thus has a ready-to-install device at his disposal that does not require any initial calibration after installation. This considerably reduces the time and costs involved.
Other commercially available measuring devices usually do not include information on zero point deviation and span error in their accuracy specifications, so that these measurement errors (up to ±1.00%) must be added to the accuracy in order to achieve reliable performance characteristics.