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Immediately cut power with a single push.
Connect these switches to a cable to control circuits from a distance. They're typically used to turn off production lines and material handling systems. Equipment will not start up again until switch is manually reset.
Open and close circuits quickly to minimize arcing and prevent contacts from sticking. These switches are often used as door-open indicators on appliances and enclosures.
Wire contacts to an alarm system to alert when doors or windows are opened.
Control equipment with high currents, such as landscape lighting, pumps, and heaters.
For precise control of high-current equipment such as landscape lighting, pumps, and heaters, these switches schedule on/off times to the exact minute.
These switches are housed in a protective enclosure.
Use these switches with motors that run forward and backward, such as motors for conveyor belts.
Housed in a durable steel enclosure.
Assemble your own motor starter by combining a switch and a thermal overload element.
Set these controls to automatically adjust motor speed.
Use these controls with motors that run forward and backward, such as motors for conveyor belts.
Protected by a steel enclosure, these switches withstand tougher conditions than switches in a plastic housing. Also known as safety switches, they have quick-make/quick-break action to eliminate arcing and prolong switch life.
If there’s a power outage, flip the toggle for each circuit on these switches to backup power.
When the microcontroller inside detects a power outage, these switches automatically fire up a backup generator. They’ll switch back to utility power once power is restored.
Send a signal with these relays to turn equipment on and off from up to 150 feet away without having to run electrical wire.
Install the threaded probe directly into tanks, pipelines, and other process components to turn heating equipment on or off at a specified temperature.
These temperature switches mount on walls and take remote temperature readings with a probe on a cable.
With a round body that’s at least one-third thinner than traditional pressure switches, these fit in tight, cramped spaces.
The traditional pressure switch. These power equipment, activate controls or alarms, or kick-off other actions when they reach a set pressure.
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.
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.
Choose when these switches reset to control the pressure range between when they activate and deactivate, commonly referred to as deadband and differential.
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 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.
The traditional vacuum switch. When these switches reach a set vacuum, they power equipment, signal controls, or trigger alarms.
Detect the difference in pressure between two points. For instance, these switches can indicate a filter is clogged in a pump or cooling system.
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.