Designed for indoor applications, these cords are often used to power appliances.

Stop electric shocks before they happen—these cords cut power to equipment when they detect an unsafe current.

All cords have a country-specific plug to power equipment from international outlets.

Tug these cords to full length, and they’ll stay plugged in. Also called hospital-grade cords, they form an extra-tight connection with outlets. After stretching, they return to a tight, tangle-free coil.

The shielding blocks signal interference from nearby equipment and devices.

Create a vibration-resistant connection—the socket on these cords securely locks onto any male receptacle and will not detach until manually unlocked.

Power multiple devices from one power source.

Create a secure, vibration-resistant connection on both ends—these cords have a hospital-grade plug and a locking connector on the socket.

TPE insulation protects these cords from some of the toughest industrial conditions, including abrasion, coolants, chemicals, UV rays, and weld slag. Use them in areas with welding, machining, and fluctuating temperatures to send signal and power to M12 proximity switches, valves, and other devices.

FDA compliant for direct contact with food, these cords are safe to use with 12 mm proximity switches, valves, and power supplies in food, beverage, and pharmaceutical applications.

Also known as pico cords, these cords are often used with low-current 8 mm proximity and photoelectric switches.

Connect two devices to a distribution block or I/O module with just one cord. Often used with sensors and actuators, these splitters send power/signals to your devices through a single connection.

Send data between sensors and receivers that have different signal types. These cords change the output signal from PNP to NPN.

Often used for automated systems, motors, and pumps in tough industrial areas such as near welding and metal machining, these cords carry higher current than M5, M8, and M12 cords.

Hardwire these cords to equipment.

Connect batteries to each other or to electrical systems.

Carry DC power in or out of electronic devices with these cords. All have industry standard barrel-style connections, letting you power electronics from power supplies.

Use these cords with hydraulic and air-powered valves, motors, pumps, and pressure switches. They have a solenoid valve socket on one end and an M12 threaded plug on the other.

Use these cords in vehicles and other agricultural and construction equipment.

A few turns is all it takes to join these cords, which have thick threads similar to a light bulb, for a secure connection in washdown and high-vibration areas. They detach just as fast for frequent maintenance.

Like a tree trunk connecting to branches, these cords supply power to a chain of devices. Send power to high-amperage motors, robotic arms, and other machines in motor controls, conveyors, and sorting and packaging systems.

The insulation on these cords resists water, so they can be used outdoors.

Designed for indoor applications, these cords are often used to power appliances.

Run power to welders in machine shops, garages, and other areas where these cords will be exposed to harsh conditions. These cords have either EPDM or PVC insulation that protects the cord's wires from weld slag and being dragged, kicked, and stepped on.

These self-coiling cords return to their retracted length after stretching for tangle-free storage.

Designed for indoor use, these cords are often used to power appliances.

Thick insulation protects the internal wires of these cords, so they can be used in high-traffic areas and over rough surfaces.

Avoid the clutter of multiple extension cords and overcrowded outlet strips—these extension cords have outlet boxes spread evenly along their length.

Put overhead outlets in arm’s reach.

Keep power flowing in dirty areas with rubber-insulated cords that resist oil, water, and chemicals. A locking lever on the socket prevents your device from disconnecting.

Also known as hospital-grade cords, these have extra-tight connections to prevent them from detaching. The connectors are marked with a green dot.

Thick insulation protects the internal wires of these cords, so they can be used in high-traffic areas and over rough surfaces.

To send high-speed data in tough, rugged environments, these cords have an M12 connector on one end that threads onto switches, sensors, and other devices prone to vibration. The other end has a traditional RJ45 plug that connects to Ethernet equipment, such as computers, IO modules, and programmable logic controllers (PLCs).

The M12 threaded connectors on these cords are more vibration resistant than RJ45 connectors.

With Kevlar-reinforced armor, these USB cords stand up to frequent use and bending better than standard USB cords.

The insulation serves as a tough armor that protects these cords in high-traffic areas.

This cable has an uninsulated ground wire that touches the protective metal armor so it can be used for bonding and grounding. It's often used along the exterior of walls to carry power to outlet boxes. Also known as AC cable.

Also known as plenum cable, this cable has low-smoke insulation and can be used without conduit in ductwork and above a drop ceiling. Use in critical circuits such as fire alarms and smoke detectors.

The insulation resists corrosive chemicals and salt water, and the wires in this cable are tin plated for corrosion resistance.

When mated, these connectors meet NEMA 6P for protection against washdowns and temporary submersion.