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Remotely monitor pressure in general purpose applications such as pumping and compressing systems.
Measure your equipment’s pressure and send the data directly to a development board or single-board computer. Also known as transducers, these transmitters convert pressure into an electrical I2C signal and transmit it to your board.
Choose these transmitters when you need reliable pressure monitoring but not high accuracy.
Read pressure directly at the source and send data remotely with one device.
At least four times as accurate as standard pressure transmitters, these transmitters are ideal for use in laboratories and analytical testing applications.
With a pressure range common to most compressed air systems, use these transmitters to monitor your system's air pressure.
Monitor and control pressure in portable HVAC systems, hydraulics, and oil and gas equipment. Unlike other pressure transmitters that measure the difference between your system and the atmosphere, these transmitters give measurements relative to zero pressure—regardless of altitude or temperature.
These transmitters automatically compensate for error introduced by vibration as well as temperature fluctuations, so you do not need to program your receiving device to correct for these factors. They convert pressure to an electrical signal that can be interpreted by receiving devices, such as remote displays, programmable logic controllers, and motor speed controls to monitor pressure or control equipment.
The diaphragm on these transmitters mounts flush with your system’s connection, leaving no room for thick liquids to clog or harden. They’re often used to monitor pressure in wastewater, paint, and adhesive-dispensing applications.
Remotely track your system's pressure readings from the convenience of a smartphone or tablet. Good for preventative maintenance and route-based monitoring, these battery-powered transmitters use Bluetooth to alert you when equipment requires your attention.
FM approved and CSA certified for use in hazardous locations, these transmitters monitor pressure where combustible fumes may be present.
Safely monitor liquid, gas, and steam pressure in hazardous locations with these transmitters. They meet NEC safety standards, so they protect against an explosion where flammable gases and vapors are present.
For use in sanitary applications such as food processing, these transmitters are 3-A certified.
Fine-tune the pressure range on these transmitters to account for changes in pressure readings over time.
Adhere to safety standards and monitor pressure when working with high concentrations of oxygen.
Convert both pressure and 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 pressure or control equipment.
Specifically made for compressed air and gas systems, these transmitters remotely monitor pressure and vacuum.
Monitor and control vacuum pumps, air compressors, and hydraulics while viewing readings and warnings on the display.
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.
Monitor your system’s pressure and vacuum from a smartphone or tablet via Bluetooth. These battery-powered transmitters send alerts if equipment requires your attention, so they’re good for preventative maintenance and route-based monitoring.
Used in hazardous locations, these transmitters safely convert pressure and vacuum into an electrical signal to measure liquids, gases, and steam. NEC rated for safety, these transmitters are explosion proof, so they can be used in environments containing flammable gases and vapors.
These transmitters automatically compensate for error introduced into both pressure and vacuum measurements by vibrations as well as temperature fluctuations, so you do not need to program corrections for these factors into your receiving device. They convert pressure and vacuum to an electrical signal that can be interpreted by receiving devices, such as remote displays, programmable logic controllers, and motor speed controls to monitor pressure or control equipment.
With a digital display and selectable differential pressure ranges, these transmitters are a versatile alternative to transmitters with dial indicators.
Remotely monitor the difference in air pressure between two inputs with these transmitters.
Used with pumps, cooling systems, and other liquid applications, these transmitters remotely measure the difference in pressure between two inputs.
At least twice as accurate as standard transmitters, these transmitters sense differential pressure at an accuracy of ±0.25%.
Get the flexibility of a differential pressure transmitter and a switch in one. These transmitters can work as a traditional transmitter using an analog output but also have electronic switch outputs and IO Link compatibility, making them great for advanced automation applications.
Check the difference in air pressure between two inputs at the source using the dial indicator or remotely using a receiver.
View readings at the source with the dial indicator or remotely using a receiver—these transmitters measure the difference in pressure between two inputs in liquid applications.
Measure the difference in pressure between two process lines without needing to program your receiving device to correct for errors. These transmitters automatically compensate for errors caused by vibration and temperature changes.
Safe for use in environments where flammable gases and vapors are present, these transmitters measure the difference in pressure between two process lines without needing to program your receiving device to correct for errors. They meet NEC safety standards for protection against an explosion.
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.
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.
Account for changes in vacuum readings over time by fine-tuning the vacuum range on these transmitters.
Monitor pressure in your system from a distance by using this display in conjunction with pressure transmitters.
With a round body that’s at least one-third thinner than traditional pressure switches, these fit in tight, cramped spaces.
Prevent changes to the set pressure that activates equipment—these switches come ready to use at your preferred setpoint.
With a set pressure range that works for most air systems, these switches send signals when your air system reaches a set pressure to your programmable logic controller (PLC) to activate automated controls and alarms.
The traditional pressure switch. These power equipment, activate controls or alarms, or kick-off other actions when they reach a set pressure.
When these switches reach a set pressure, they send electronic signals to your programmable logic controller (PLC) to activate automated controls or alarms.
Maintain the air pressure needed for air-powered devices. These switches turn your electric air compressor off when it reaches the set pressure and on when it reaches the reset pressure.
Use these switches for applications that need reliable switching but don’t require high accuracy.
Like other 3-A certified sanitary pressure switches, these switches trigger controls and alarms when food-processing, pharmaceutical, and biotech lines reach a set pressure, but they also have a sanitary adjustable setpoint ring that you twist to make quick changes.
When these switches reach either of their two set pressures—both of which can be controlled from a display—they send digital signals to your programmable logic controller (PLC) to activate automated controls or alarms.
Send two digital signals to your programmable logic controller (PLC) to trigger different processes—these switches activate at two set pressures.
Compatible with most air systems, these switches send digital signals to a programmable logic controller (PLC) to trigger separate processes when they reach either of their two set pressures. For example, they’ll activate a compressor if the pressure is too low or a relief valve if the pressure is too high.
Kick off automated controls, signal alarms, or activate equipment based on pressure changes while checking the pressure, setpoint, and reset point on the display.
Cleaned to ASTM G93 requirements and then bagged, these switches meet the strict cleaning standards required for oxygen service lines.
Choose when these switches reset to control the pressure range between when they activate and deactivate, commonly referred to as deadband and differential.
Used as a safety control, these switches must be manually reset each time they hit the set pressure, so you can inspect equipment before it restarts.
Activate or deactivate your electric water pump based on water pressure. These switches turn your pump off when pressure increases to the set pressure and on when pressure drops to the reset pressure.
Built with an explosionproof enclosure to meet NEMA 7 and 9 standards for hazardous locations, these switches were tested and verified by UL and CSA for use where explosive liquids, dust, and gas are present.
Trigger two different automated processes, each with their own set pressure.
With multiple ports, these switches maintain the air pressure of your electric air compressor, while also including ports for up to three air-powered devices, reducing the complexity of your air system setup.
Often used with ovens, dryers, and HVAC systems, these switches detect small differences in air pressure to indicate a filter is clogged or help you maintain a certain air pressure.
To check the difference in pressure between two points, these switches have a dial indicator that shows differential pressure in real time.
Detect the difference in pressure between two points. For instance, these switches can indicate a filter is clogged in a pump or cooling system.
Tested and verified by UL and C-UL for use where explosive dust or gas are present, these switches have an explosionproof enclosure that meets NEMA 7 and 9 standards for hazardous locations. They are often used to indicate a filter is clogged in a pump or cooling system.
Troubleshoot and monitor the difference in air pressure between two points—these switches have a dial indicator to show differential pressure in real time.
With an explosionproof enclosure that meets NEMA 7 and 9 standards for hazardous locations, these switches were tested and verified by UL and CSA for use where explosive gas or dust may be present. Often used with ovens, dryers, and HVAC systems, they can indicate a filter is clogged or help maintain a certain air pressure.
Choose these switches when you need reliable switching but not high accuracy.
Specifically made for air systems, these switches send signals to your programmable logic controller (PLC) to trigger processes when they reach a set vacuum.
Trigger two different processes in vacuum applications by sending signals to a programmable logic controller (PLC) when these switches reach one of their two set vacuums. They’re designed specifically for air systems.
Often built into pumps and hydraulic systems with limited space, these compact switches power equipment, activate controls, and signal alarms when they reach a set vacuum.
Control the amount of vacuum change between when these switches activate and deactivate by adjusting when they reset.
Prevent changes to the set vacuum that powers equipment, activates controls, or signals alarms. The setpoint on these switches isn't adjustable.
The traditional vacuum switch. When these switches reach a set vacuum, they power equipment, signal controls, or trigger alarms.
With two setpoints and outputs, these switches trigger different actions in your system by sending signals to a programmable logic controller (PLC) when they reach one of their set pressures or vacuums.
When these 3-A certified switches reach a set pressure or vacuum, they trigger controls and alarms in food-processing, pharmaceutical, and biotech lines.
Designed specifically for air systems, these switches send signals to your programmable logic controller (PLC) to activate controls or alarms when your system reaches a set pressure or vacuum.
Because these switches work with both positive and negative (vacuum) pressures, you can use them in applications that span both.
Thinner than a credit card, these force sensors fit into narrow spaces to measure the applied load between two surfaces.
Also known as load cells, these sensors measure and track the forces of your equipment by converting them into electrical signals.
Use these gauges with changeable sensors and square-drive sockets to display, collect, and download torque readings.
Finger-tighten the three-jaw chuck onto the tool to be measured, then twist either the gauge or tool to test.
Place your tool and the included square drive connector on the tester and turn.
Measure the torque output of torque wrenches, screwdrivers, and other hand tools to ensure they deliver the right amount of torque—and check your results on a digital screen.
Calibrate torque-limiting power tools such as air-powered and impact drivers.
Measure the force of hand and non-impact electric torque screwdrivers to keep fasteners from failing due to under or overtightening.
These testers have a digital display and are accurate to ±1%.
Measure the twisting force needed to tighten or loosen caps and knobs with these torque testers.
These gauges come with a calibration certificate traceable to NIST that states they've passed a test for accuracy.
Housing is plastic.
Housing is brass.
Apply your load directly to the top of these gauges to measure compression force.
Press the side of the gauge tip against an object to record the amount of tension required to move it.
The large dial makes these gauges easy to read. They measure tension force as well as weight.
Measure tension force as well as weight.
Measure the tension of wire and filament without pausing your operation.
Good for gripping most shapes and materials.
Grip paper, film, and thin plastic.
Hold fine wire and filament.
A chuck-style grip with a round opening gets a secure hold on pins.
Safely view your tension force measurements on a handheld receiver up to 450 ft. away when moving bulk material with cranes and hoists.
Measure tension force as well as weight. Also known as dynamometers.
Use the included Windows-compatible software to upload measurement data.
Send flow rate and temperature measurements simultaneously to a programmable logic controller (PLC), data logger, or other receiving device.
Using ultrasonic waves, these transmitters measure the flow rate of your liquid from outside your pipe.
Send flow rate data using these transmitters while also being able to visually confirm liquid is flowing.
Send flow rate measurements to monitor and control equipment.
Also known as magmeters, these transmitters use a magnetic field to measure flow rate and temperature with high accuracy.
Install these transmitters between two flanges in a flanged pipe system to measure flow rate and send the data to a remote display or programmable logic controller (PLC). For easy cleaning and maintenance, you can slide the transmitter out from between the flanges.
Thread a ring fitting into your pipe connection and insert the probe of these transmitters to measure the flow and temperature of water, oil, or air.
Often used in low-flow metering applications for lubricants or antifreeze, these transmitters measure flow rate and send the data to a remote display or programmable logic controller (PLC).
Commonly referred to as thermal mass flowmeters, these transmitters calculate flow rate by measuring how much they cool as air and other gases pass through them. This means they’re accurate even if there are temperature and pressure changes, unlike most other transmitters.
Measure and transmit flow rate, pressure, and temperature of industrial gases, such as air, argon, CO2, and nitrogen, flowing through your system.
Since they come factory set to a specific set point, these switches are easier to install than adjustable flow switches.
Activate or deactivate equipment when your flow rate reaches a set point.
Factory set to activate equipment when your drinking water system reaches a fixed level, these flow switches are easier to install than adjustable flow switches.
Accurate even in applications where pressure fluctuates regularly, these flow switches split flow into two paths and measure their difference in pressure drop to calculate the flow rate of liquid.
For monitoring flow at a glance, these switches have a plastic window with a rotor indicator that spins when there’s flow.
Safe to use where flammable gases and combustible dust may be present, these switches activate or deactivate when your flow reaches a factory-set level. All are UL listed for hazardous environments.
UL listed for use where flammable gases or combustible dusts may be present, these flow switches activate or deactivate equipment when your flow rate reaches a set point.
Quicker to install than adjustable flow switches in high-pressure lines, these switches come factory-set to activate or deactivate equipment at a specific level. They compensate for the viscosity and density changes of liquid.
Measure the flow rate of oil at pressures up to 3,600 psi to activate or deactivate equipment.
Good for compressed-air systems and other compressed gases that reach up to 3,600 psi, these switches measure the flow rate to activate or deactivate equipment when they reach a set point.
Rated for pressures up to 3,600 psi, these switches measure the flow rate of liquids to activate or deactivate equipment when your flow rate reaches a set point.
When these switches reach a set flow rate, they send digital signals to your programmable logic controller (PLC) to activate automated controls or alarms.
Easy to install, these flow switches come already set to a specific set point and don’t require you to disassemble your pipeline.
Safely activate and deactivate equipment in environments with flammable gases and combustible dust when your flow rate reaches a set point. These switches save you from disassembling your pipeline because you insert them into pipe tees or pipe outlets instead of mounting them inline.
Avoid complicated inline installation—these flow switches insert into a tee or pipe outlet, so you don’t need to disassemble your pipeline.
Easy to clean and install, these flow switches are 3-A certified to meet sanitary design standards and insert into your line with a quick-clamp mounting adapter. They send digital signals to your programmable logic controller (PLC) to activate automated controls or alarms when they reach a set flow rate.
Instead of disassembling your system for inline installation, thread these flow switches onto a mounting adapter and insert them into a pipe tee or pipe outlet. They send digital signals to your programmable logic controller (PLC) to activate automated controls or alarms when they reach a set flow rate.
Best for measuring liquid levels in applications where traditional mounting is difficult, these transmitters sit at the bottom of your tank.
FM and C-FM approved, these transmitters safely measure liquid levels where explosive gas or dust may be present. Set them at the bottom of your tank in applications that make traditional mounting difficult.
Easy to set up and use, these transmitters measure liquid levels using a standard float gauge.
Measure the distance to objects and the level of liquids and materials despite size, shape, or surface finish, and send that information to other parts of your system.
Since these switches activate on increasing pressure caused by rising water levels, they have no floats to catch on sump pit walls.
Often used to detect clogged air filters and iced air conditioner coils, these switches sense small changes in pressure between two points in your duct.
Use this switch to sense changes in airflow velocity.
Also known as an air-to-electric switch, this relay converts an air signal to an electric signal.
Combine a push-button actuator with a switching mechanism to build a complete switch.
Combine a foot-pedal actuator with a switching mechanism to build a complete switch.
Press these switches with your foot for convenient, hands-free operation.
Ensure proper blade tension.
Cover robot arms and tools with this padding to help prevent injuries in areas where people are working nearby. When the padding is touched, pressure sensors signal your machine to stop moving.
A dial shows how torque measurements change as you turn the driver. Use these tools to fasten to a specific torque, determine fastener torque specifications, and identify the torque required to loosen tightened fasteners.
Set torque and the clutch slips to prevent you from exceeding it.
Attach a socket to the 1/4" square drive tip. These tools have a dial that shows how torque measurements change as you turn the driver. Use to fasten to a specific torque, determine fastener torque specifications, and identify the torque required to loosen tightened fasteners.
A green light and a beep alert you when you've reached 90% of your set torque, and a steady tone sounds once you've hit your target. Set your torque in cNm, cm-Kg, or in.-lbs. and quickly check the LCD for real-time measurements along the way. A red light warns if you begin to overtighten.