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Measure small pressure changes in ventilation systems, hydraulic applications, and other critical processes.
Designed for harsh environments prone to vibration, these gauges pair a corrosion-resistant 304 stainless steel case with a glycerin-filled dial that reduces needle flutter.
Also known as compound gauges, these measure both pressure and vacuum.
A 304 stainless steel case coupled with 316 stainless steel connection threads provide protection from corrosive environments.
These portable gauges have three different dials to display pressure and vacuum measurements on a low, medium, and high scale.
A glycerin-filled dial reduces needle flutter for precise readings in high-vibration applications.
Often used with chillers and in refrigeration systems, these gauges display the temperature of ammonia relative to the pressure measurement.
A digital display allows for easy reading of measurements.
Use these gauges with vacuum pumps, packaging equipment, and in suction lines to measure and display vacuum.
Designed for harsh environments prone to vibration, these gauges pair a corrosion-resistant 304 stainless steel case with a glycerin-filled dial to reduce needle flutter.
The case and connection threads are stainless steel for protection in corrosive environments.
Gauges have a digital display for easy reading of measurements.
Monitor and control vacuum pumps, air compressors, and hydraulics while viewing readings and warnings on the display.
Specifically made for compressed air and gas systems, these transmitters remotely monitor pressure and vacuum.
With an accuracy of ±0.25%, use these transmitters in applications that require highly accurate measurement of both pressure and vacuum, such as activating vacuum pumps.
At least four times as accurate as standard vacuum transmitters, these transmitters sense vacuum at an accuracy of ±0.25%, making them ideal for use in laboratories and in analytical testing applications.
Designed for compressed air and gas systems, these transmitters remotely monitor vacuum.
Convert vacuum into an electrical signal that can be interpreted by receiving devices, such as remote displays, programmable logic controllers, and motor speed controls to monitor vacuum or control equipment.
Account for changes in vacuum readings over time by fine-tuning the vacuum range on these transmitters.
Use these gauges to test and calibrate transmitters, gauges, and other equipment that measures vacuum.
Measure atmospheric pressure changes in both inches of mercury (Hg) and millibars (mbar).