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Made of polycarbonate, these enclosures resist denting, chipping, and cracking.
Internal mounting bosses or mounting brackets enable you to use panels or DIN rail to mount components. These enclosures have a clear cover, so you can inspect components without opening the enclosure.
Fiberglass enclosures are stronger than polycarbonate enclosures and nonconductive.
View all sides of your installed components.
Control access to these enclosures with a key-operated lock.
Internal mounting bosses enable you to attach panels or DIN rail inside the enclosures using self-tapping screws. Made of polycarbonate, these nonconductive enclosures resist denting, chipping, and cracking.
Internal mounting bosses or mounting brackets enable you to use panels or DIN rail to mount components. Enclosures are made of nonconductive polycarbonate that resists denting, chipping, and cracking.
Made of polycarbonate, these enclosures resist denting, chipping, and cracking better than stainless steel enclosures.
Made of nonconductive polycarbonate, these enclosures withstand prolonged submersion in water while protecting electronics from dents, chips, and cracks. A clear cover lets you monitor the inside without opening them.
Inspect components without opening the cover.
Check on the contents inside these enclosures from every angle without opening them in wet environments.
Mount these enclosures directly to machine control panels in wet environments and view the contents without opening them.
Install these enclosures on control panels and walls and inspect what’s inside without exposing their contents in wet and outdoor locations.
Internal mounting bosses or mounting brackets enable you to use panels or DIN rail to mount components.
These enclosures allow you to inspect your electronics without opening the cover.
Protect monitors and televisions from environmental damage with these enclosures.
Create battery-powered, hand-held devices such as card and signal readers—these enclosures have a clear cover for checking screens and status lights inside.
Observe rapidly changing electrical values in equipment such as motors and generators with an analog display that shows the magnitude and rate of change more easily than a digital display.
See how much electricity motors, generators, and other electrical equipment use. The high-visibility digital screen displays electrical measurements with more accuracy than an analog panel monitor.
Often used to remotely monitor probe readings in high-temperature applications, these thermometers have a housing designed for installation in instrument and control panels.
Obtain the most accurate readings possible with these thermometers that include a calibration certificate traceable to NIST that states they’ve passed a test to fall within ±0.5° F accuracy.
Monitor the temperature of difficult-to-access system components from a distance.
Protect temperature-sensitive materials in refrigerators and freezers with one of these thermometers that sound an alarm and flash the display when temperature rises above your activation point.
Install the small display in tight spaces and crowded instrument panels up to 10 feet from the probe.
A resistance temperature detector (RTD) probe responds to temperature change faster than dial thermometers.
For mounting on instrument and control panels, these thermometers have a back flange.
Accurate to within ±0.001% of reading, these tachometers come with a calibration certificate traceable to NIST that states they've passed a test for accuracy.
Accurate to within ±0.005% of reading.
Install in a convenient location and measure speed remotely using a sensor.