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Move loads with consistent, repeatable push-pull motion.
Spend less time on solenoid maintenance in dirty environments—these have a closed steel housing that keeps dust out.
Create linear motion economically with one of these open-frame solenoids.
High-force solenoids draw more power than our other open-frame solenoids, so they can deliver higher force.
A thin profile allows these solenoids to fit well in narrow spaces.
If your application requires rotary motion, take one of these solenoids for a spin.
Without any hardwiring, these actuators give you control over your push-pull motion using either a hand or foot switch.
With an included controller and an integrated stepper motor, these slides are a complete precision motion control system.
A lead screw that converts rotational motion to linear motion sits inside the motor body for a compact footprint. Add a driver and controller to these actuators to repeatedly position loads with speed and precision.
With PTFE sleeve bearings and a low-friction ball screw, these slides don’t require the mess and maintenance of lubrication but still give you precise positioning anywhere along the length of their stroke.
Add your own stepper motor and controller to precisely move the ball screw and carriage smoothly at high speeds, like a head on an inkjet printer.
Maintain speed automatically. These motors come with a speed control with a feedback sensor that adjusts power to maintain your set speed.
Designed to run at high speeds with very little vibration, these motors often drive smooth, steady cuts in CNC machines.
Also known as C-face motors, these bolt directly to your equipment at any angle.
Bolt these motors directly to conveyors and other machines to power equipment on food and sanitary lines.
For versatility in food and sanitary lines, these motors mount by their feet or bolt directly to equipment to power pumps and other machines.
Power small machinery in spaces where other motors won’t fit.
These motors are rated for environments where hazardous material is present.
Replace old base-mount motors to keep your equipment moving.
Select an AC motor that fits many applications—these mount from the base or face and at any angle.
Unlike standard AC motors, these motors have an integrated brake that activates after a power loss to hold your equipment in place. Mount their base to flat surfaces.
With two location options for any-angle mounting, you can put these DC motors to work in a variety of equipment configurations.
A built-in brake engages to hold your equipment in place when these motors lose power, unlike standard AC motors. Also known as C-face motors, these bolt directly to your equipment.
When these motors lose power, a brake engages to hold your equipment’s position, unlike standard AC motors. Mount them from the base or face.
Because these switches mount flush against a panel, they're easy to clean and hard to damage.
Install in 16 mm dia. cutouts.
Operate low-voltage devices that require less than 48 volts, such as doorbells and buzzers.
Immediately cut power with a single push.
Save space on a panel by using one switch to perform multiple switching functions.
The built-in contact block in these switches extends behind the panel half the depth of most other 22 mm switches, saving valuable space.
Use these switches where ignitable gas and dust may be present. Their contact blocks are UL listed for Class I, Division 2, Groups B, C, and D hazardous locations.
A single-piece construction prevents the contact block from separating from the actuator in high-vibration applications.
Able to handle tough, repetitive use, these switches are more durable than standard plastic switches.
The face of these switches mounts flush against a panel, so they're easy to clean and hard to damage.
More durable than standard metal switches, these can handle tough, repetitive use.
Install in 14 mm dia. cutouts.
Install in 12 mm dia. cutouts.
Sized for 4 mm or 6 mm panel cutouts, these switches are often used with circuit boards to control electronics.
Also known as tactile switches, these are small enough to fit inside a computer keyboard.
Often used to trigger alarms, these switches have a recessed button to prevent accidental activation. Mount under desks or in other discrete locations to avoid drawing attention.
These familiar push-button switches mount to flat surfaces.
Mount these switches in an outlet box. Also known as palm-button switches, they have a large button that makes them easy to use even while wearing gloves.
Use these switches where ignitable gas and dust may be present. They're rated for use in hazardous locations.
Rated NEMA 3S, NEMA 4X, NEMA 13, and IP66, these plastic switches resist corrosion better than aluminum switches and withstand washdowns and oil/coolant spraying.
A red light flashes when the actuator is pushed, making it easy to see from a distance. They're rated IP65 for protection from washdowns.
With a stainless steel enclosure, these switches are more durable than aluminum and plastic. They're rated NEMA 4X for protection from corrosion and washdowns.
More lightweight than steel or stainless steel, these aluminum enclosed switches are rated NEMA 4X for protection from corrosion and washdowns.
Rated NEMA 4X and 13, all switches resist corrosion and can withstand washdowns and oil/coolant spraying.
These aluminum switches are rated NEMA 4, NEMA 13, and IP66 for protection from washdowns and oil/coolant spraying.
With a slim shape, these switches fit comfortably in your hand.
Operate equipment from up to 330 feet away—these switches include a transmitter and a receiver that connects to equipment.
Use these hand-held switches with mobile machinery.
These switches withstand temporary submersion.
Control cranes and other mobile machinery in dirty, outdoor, and wet environments without damaging your switch.
A durable rubber housing covers the buttons and protects these switches from impact.
Rated NEMA 6P and IP68, these switches are protected against washdowns, corrosion, and temporary submersion.
Apply pressure from any direction to actuate these switches.
Control equipment from up to 40 feet away—these switches include a transmitter and a receiver that connects to equipment.
Press these switches with your foot for convenient, hands-free operation.
Use this switch for intermittent, light-duty applications.
These switches are rated for environments where hazardous material is present.
Safe for use in wet locations, these switches are IP and NEMA rated for protection from corrosion, washdowns, and oil/coolant spraying.
Step on these switches for hands-free actuation in an area with frequent washdowns.
When the pedal is pressed, the built-in potentiometer adjusts the resistance to vary the speed for motor drives.
Rated IP67 and NEMA 6, these switch mats withstand washdowns.
With a smaller footprint than other switch mats, these fit in confined spaces.
Step on these mats to control doors, lights, or alarms.
Customize the length of these switches by cutting them from a 25-foot roll.
These mats fit under carpeting or anywhere else you want to hide them.
Prevent personnel from getting too close to dangerous equipment when equipment is on—these mats turn equipment off when someone steps on them or when a fault is detected.
Thicker than standard safety switch mats, these withstand repeated impact from heavy and sharp objects.
These narrow switches are also thin enough to be hidden under carpeting or installed anywhere space is limited.
Customize the length of these switches by cutting them from a 50-foot roll.
Rated NEMA 4, 13, and IP66, these metal switches are protected from washdowns and oil/coolant spraying. Install them in 30 mm dia. cutouts.
These plastic switches are rated NEMA 4X, 13, and IP65 for protection from corrosion, washdowns, and oil/coolant spraying. Install them in 30 mm dia. cutouts.
These switches are protected from corrosion, high-temperature and high-pressure washdowns, and oil/coolant spraying. Install them in 22 mm dia. cutouts.
Switches are rated NEMA 4, 13, and IP66.
Use these switches where ignitable gas, dust, and fibers may be present. They're UL and C-UL listed for hazardous locations.
Rated NEMA 3S, 4X and 13, these switches are protected from corrosion, washdowns, and oil/coolant spraying.
Use fingerprints to confirm the identity of personnel before granting access to secure areas or equipment.
An infrared light beam senses the lightest finger contact to switch a circuit on or off.
The light touch of a finger turns circuits on and off without pressing down a contact.
It takes two hands to activate these switches, minimizing the risk of accidental equipment start up.
Control multiple devices with one switch. Turn the shaft to change switch positions.
With a round key that is difficult to duplicate, these switches provide a higher degree of security than standard key switches.
Rated NEMA 4, these switches are protected from washdowns.
Install these key switches in 3/4" dia. panel cutouts. They require a key to turn circuits on or off, limiting access to sensitive equipment.
Sized for 22 mm dia. panel cutouts, these switches require a key to turn circuits on or off, limiting access to sensitive equipment.
Install these key switches in 30 mm dia. panel cutouts. They require a key to turn circuits on or off, limiting access to sensitive equipment.
These 16 mm switches require a key to turn circuits on or off, limiting access to sensitive equipment.
Maximize space in a panel with these miniature switches.
Reset fire panels, or open electromagnetic locks, electric strikes, and automatic door openers. These switches require a key to turn circuits on or off, limiting access and preventing accidental activation.
Choose from a variety of messages and colored lenses to combine a rocker with a base and wiring socket for a complete switch.
Maximize space in a panel—these switches are smaller than most standard rocker switches.
Rated IP67, these switches are protected from temporary submersion.
Able to withstand high currents, these switches are often used with motors and pumps.
Rated IP67 for protection from dust and temporary submersion.
Also known as high-inrush current switches, these switches can handle starting currents up to 10 times greater than their rating, such as when a motor starts.
Pull the hanging rope in any direction to actuate these switches.
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.
Immediately cut power by pulling the cable.
The lever sticks out further than a push button, making it easy to identify the position of these switches.
Alternate between two batteries without interrupting power.
Turn these switches by hand.
Prevent accidental actuation—these toggle switches must be pulled up before they can switch a circuit.
A rubber seal protects these switches from splashing water.
Maximize the space in a panel—these switches are half the size of most toggle switches.
These switches meet MIL-S-3950.
Built into a terminal block, these switches mount to DIN rail.
Activate or deactivate fans, lights, and other devices inside your enclosure when you open or close the door.
Grab these switches by hand and pivot them to use.
Configure instructions for electronic devices by sliding actuators to open or close each circuit.
Choose an actuator and contact block to make your own 22 mm metal switch.
Choose an actuator and contact block to make your own 22 mm plastic switch.
Choose an actuator and contact block to make your own 16 mm switch.
Choose an actuator and contact block to make your own 30 mm switch.
Suitable for areas with space limitations, these switches have a low profile and a small footprint. They lay flat or mount to a wall.
Often used in large, open workspaces, these switches can be wired on opposite ends of the room to control the brightness of lights on the same circuit. They're also known as three-way switches.
Install these switches inline on a lamp cord.
Adjust the brightness of lights.
Control lights by transmitting a wireless signal from these switches to a control relay on your fixture.
Often used in large, open workspaces, these switches can be wired on opposite ends of the room to control lights on the same circuit. They're also known as three-way and four-way switches.
Also known as three-way switches, these are often used in large, open workspaces and can be wired on opposite ends of the room to control lights on the same circuit.
Prevent accidental activation—these switches require a key to turn lights on and off.
Secure sensitive lighting equipment; these switches have a round key that is difficult to duplicate.
Combine a foot-pedal actuator with a switching mechanism to build a complete switch.
Combine a push-button actuator with a switching mechanism to build a complete switch.
Rated NEMA 4X, these switches are protected from corrosion and washdowns.
These switches are housed in a protective enclosure.
Use these switches to turn motors on and off, or with lighting and electric heat circuits. They do not provide overload protection.
These switches are rated NEMA 3R for protection from falling water and light splashing.
Use these switches where ignitable gas and dust may be present. They're rated Class I, Divisions 1 and 2, Groups C and D; and Class II, Divisions 1 and 2, Groups E, F, and G for hazardous locations.
Use these switches with motors that run forward and backward, such as motors for conveyor belts.
Assemble your own motor starter by combining a switch and a thermal overload element.
Combine a switch and a thermal overload element to build a starter that can handle high-current-rated motors. Also known as a NEMA starter.
Save electricity and extend motor life by reducing the motor's starting current.
Operated by hand, these starters are more compact than electrically actuated motor starters; use them when multiple motor circuits are housed in one panel.
Rated NEMA 4X, these enclosed starters are protected from corrosion and washdowns.
Use these starters with motors that run forward and backward, such as motors for conveyor belts.
Housed in a durable steel enclosure.
Sealed coils protect these switches against moisture, heat, dirt, and mechanical and thermal stress.
The NEMA 4X rated enclosure protects these starters from corrosion and washdowns.
Provide on/off control for a motor and protect it from overloads. These starters shut the motor off if current exceeds the full-load current rating.
Sized to fit in tight spaces, these starters have a shorter height and narrower depth than most other starters.
With a shallower depth than most other starters, these fit in narrow spaces.
Pair these potentiometers with a controller to monitor the position of moving parts or send instructions to an electrical system.
Rated NEMA 13, these potentiometers protect against debris and splashing oil and coolant.
Vary electrical flow to control speed, volume, and light intensity. Also known as variable output switches.
More precise than analog potentiometers, these have a three-digit display that is easy to read.
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.
Halt machinery in an instant with these tablet holders. They equip your tablet with safety switches that meet IEC and EN standards, so you can safely move around your equipment while teaching robots or monitoring production lines and conveyor systems.
The faceplate on these controllers is sealed to meet NEMA 4X and IP66 for protection in washdown environments with splashing water, corrosive liquid, and dust.
For protection in washdown conditions with splashing water, corrosive liquid, and dust, these controllers have a wall-mount housing that meets NEMA 4X. They’re ideal for systems with rapid, unpredictable, or complex temperature changes.
Built into an enclosure, these temperature controllers are protected when sitting on your workbench. They turn heating equipment on and off using a proportional-integral-derivative (PID) control algorithm to make fine adjustments, giving you the most precise and stable temperature control.
Ideal in systems with rapid, unpredictable, or complex temperature changes, these controllers turn heating equipment on and off using a proportional-integral-derivative (PID) control algorithm to make fine adjustments, giving you the most precise and stable temperature control.
Mount these temperature controllers directly onto DIN rail for controlling systems with rapid, unpredictable, or complex temperature changes. They turn heating equipment on and off using a proportional-integral-derivative (PID) control algorithm to make fine adjustments, giving you the most precise and stable temperature control.
Rated IP65 and NEMA 4X to seal out water and dust, these temperature controllers turn your equipment on and off in areas with frequent washdowns.
The simplest temperature controllers—they turn devices fully on or off, with no middle state, at a given temperature.
To protect equipment and personnel, these controllers shut down your machine when it gets too hot.
Cycle heaters on and off intermittently to maintain a set temperature in your system.
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.
Add these switches to your abrasive blasting hose to prevent it from spraying if the operator loses control. Also known as deadman switches, they prevent injuries and reduce wasted material by springing back to the off position when the operator lets go.