DA01A 0.1-1000 TorrHigh performance transducers
The MKS i-Baratron DA01A DeviceNet Absolute Capacitance Manometer is a dual-output absolute vacuum transducer with both DeviceNet digital communications and legacy 0-10 VDC analog output signals.
- Controlled to 45°C, 80°C or 100°C for up to 0.12% of reading accuracy
- DeviceNet Communications and 0-10 VDC output proportional to pressure
- Full Scale ranges of 1000 to 1 Torr (Unheated), 1000 to 0.1 Torr/mbar
- 100% back-compatible with previous MKS Types DMA and DMB i-Baratron products
- Fully-welded Inconel and Incoloy sensor for extremely high corrosion resistance
- Standard or etch sensors available
Baratron Capacitance Manometer Technology
Capacitance manometers are electro-mechanical gauges that can measure both pressure and vacuum. The capacitance gauge translates a pressure-modulated movement in a thin diaphragm into an electrical signal proportional to the pressure. The pressure sensor is the thin diaphragm that is exposed to the pressure or vacuum being measured via the inlet tube. An electrode is mounted in the reference cavity behind the diaphragm. Pressure differences between the process and the reference cavity deflect the diaphragm slightly, changing the distance between it and the electrode. Variations in this distance produce variations in the capacitance between the diaphragm and the electrode creating an electrical signal that is proportional to the pressure change. Since differences in the capacitance signal are produced by physical changes within the manometer and not by changes in the gas properties, pressure measurements by the capacitance manometer are independent of the composition of the gas being measured.
Percent of Reading Accuracy
Accuracy is specified as a percent of Reading, not Full Scale, as seen in some of the lower performance devices. Percent of Reading accuracy provides you with an even more accurate output signal in the lower scale of the pressure range, where it is needed most.
Internally Heated to 45°C, 80°C or 100°C
These capacitance manometers are temperature controlled to 45°C, 80°C or 100°C for improved accuracy. Unheated versions are exposed to ambient temperature variations which can degrade the sensor accuracy. These devices have the sensor enclosed in a volume that is maintained at a constant temperature above ambient. This solution improves the manometer’s accuracy and repeatability and lowers instrument drift by reducing or eliminating process contamination within the manometer. Heated manometers are recommended for applications that require maximum accuracy and repeatability, operate above ambient temperature and for those processes that employ hot gases.
Absolute Pressure Measurement
These Baratron pressure transducers are referenced to vacuum for absolute pressure measurement. Applications include: vacuum furnaces, freeze-drying of fruits and vegetables, gas lasers, automotive component testing, bottle coatings, and vacuum distillation.
Inconel and Incoloy Construction
These pressure transducers feature Inconel and Incoloy nickel alloy construction of the pressure sensor allowing it to operate without damage in virtually any chemical environment, including halogens, deionized water and steam, and ozone. The sensor is fully welded with no intermediate brazing or joining materials.
0 to 10 VDC Proportional Analog Output
These Baratron capacitance manometers feature a high-level 0-10 VDC analog output signal that is linear with pressure. This analog output can be interfaced with an MKS pressure controller, an MKS power supply/display instrument, or any instrument that meets these requirements. They are powered by a ±15 VDC input voltage.
DeviceNet Digital Communications
These capacitance manometers feature DeviceNet digital communications allowing the pressure to be measured, digital trip points and hysteresis to be set, units to be selected (Torr, Pa, mbar, in H2O, psi), zero to be set, factory defaults reset, transducer trip point status to be monitored, and user tags and device address to be changed remotely over DeviceNet. The DeviceNet communications and main power are fed through a bayonet-style 5-pin connector on the top of the sensor enclosure.