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The insulation on these cords resists water, so they can be used outdoors.
The insulation resists water, oil, and chemicals, so these cords withstand dirty and greasy environments.
Run these cords through high-traffic areas that are dirty and greasy. They have a thick insulation that resists water, oil, and chemicals, and protects against abrasion.
Designed for indoor applications, 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.
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.
Power multiple devices with one extension cord.
Designed for indoor use, these cords are often used to power appliances.
Insulated to resist water, oil, and solvents, these cords withstand dirty and greasy environments.
A locking lever on the socket keeps multiple devices connected to these extension cords.
In addition to an outlet on the end, these cords have multiple inline outlets.
Put overhead outlets in arm’s reach.
Keep personnel safe from electric shock with these cords.
These self-coiling cords return to their retracted length after stretching for tangle-free storage.
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.
A locking lever on the female socket prevents your device from disconnecting.
Change the connection style between an outlet and your equipment.
Attach these splitters to an extension cord to power multiple devices from one cord.
Hardwire one of these converters to an extension cord to keep personnel safe from electric shock.
Connect equipment and devices to a power supply.
Stop electric shocks before they happen—these cords cut power to equipment when they detect an unsafe current.
After a power failure, these cords must be manually reset, preventing unexpected equipment startup.
Use these cords with computers, lab equipment, and office machines that have IEC connections.
Also known as hospital-grade cords, these cords have an extra-tight connection to prevent them from detaching. The plug is marked with a green dot.
Power multiple devices from one power source.
Create a vibration-resistant connection—the socket on these cords locks onto any male receptacle and will not detach until manually unlocked.
Hardwire these cords to equipment.
Plug these cords into computers, lab equipment, and office machines that have IEC connections.
Similar to branches extending from a tree, these cords disperse power from a main power line to run a chain of devices. Power high-amperage fans, pumps, and other machines in motor controls, conveyors, and sorting and packaging systems.
Often used in offices and workstations, these outlet strips power multiple devices from a single wall outlet.
Save energy by automatically turning off unused outlets—the master outlet controls the follower outlets and shuts off power to those outlets when a device plugged into the master is turned off.
Separately control each device plugged into these strips—each outlet has its own power switch.
The power switch to these outlet strips is on an extension cord, so you can control power even when the strips are in hard to reach places, such as under a desk.
Keep personnel safe from electric shock with ground fault protection.
Filters between the outlets on these strips protect computers and other sensitive equipment from external signals that interfere with the equipment’s performance.
Also known as hospital-grade outlet strips, these outlets have an extra-tight fit to prevent plugs from detaching. They are marked with a green dot.
With a rubber housing, these outlet strips withstand drops and other impact.
Connect multiple devices from a single outlet.
Turn a single outlet into five outlets with ground fault protection to minimize the risk of electric shock.
Automatically power heating and cooling devices on and off when temperatures rise or drop.
Mount these outlet strips to a desktop or workbench with the mounting hardware, or set them on a surface.
Install these extra-long strips onto the frame of an electrical cabinet.
Mount these strips into standard 19" wide electronics racks and enclosures.
Create a permanent outlet system without opening walls. These outlet strips mount to a wall with clips and hardwire to an existing electrical system.
No need for mounting hardware—these outlet strips have magnets on the back to stick to steel walls, cabinets, and other magnetic surfaces.
Power devices above and below your workbench while keeping your outlet strip out of the way.
A ratchet holds the extension cord on these reels in place at any length; a quick pull releases the cord and the spring-driven winding mechanism retracts it.
Made of impact-resistant plastic, these reels are more durable than other automatic-wind cord reels.
Intended for demanding applications, these reels include an oil- and water-resistant extension cord.
Connect the wires in your power cord to these reels for a permanent and protected connection—the screw terminals are in a gasketed dust- and water-resistant NEMA 4 enclosure.
Make power accessible in wet and outdoor environments with these cord reels that resist water, oil, and UV light. A tug on the extension cord winds it up automatically, so you don’t have to wind it yourself.
The plug and outlets on these reels form an extra-tight connection with any device to keep it from detaching. They’re marked with a green dot to confirm that they’re hospital grade.
A steel stand makes these reels more rugged than light duty cord reels.
The outlets have covers to keep out water and dust when not in use.
Plug a cord into these reels.
Attach the wires in a power cord to these reels for a permanent connection.
Change a turn-lock to a straight-blade connection, or a straight-blade to a turn-lock connection.
Add grounding or surge suppression protection.
Minimize the risk of electric shock by adding ground fault protection to a standard outlet.
Built to handle tough, repetitive-use applications, these are more durable than standard straight-blade connectors.
Use these connectors in general purpose residential and commercial applications.
A good fit for tight spaces, these are smaller than standard straight-blade plugs. Also known as NEMA midget plugs.
Eliminate the need for wire stripping; snap-on terminals pierce the wire insulation and grip the wire securely. Access the wire connection by opening the hinged housing.
Access the wire connection by opening the hinged housing. These connectors have screw terminals to create a secure connection; wire must be stripped before winding around the screw terminal.
Visually confirm that connectors have power; they have an indicating light that is visible from any angle.
Check the status of a ground connection—a green light signals that connectors have power and are safely grounded.
Protect computers and other sensitive equipment from electromagnetic interference (EMI). Also known as isolated ground receptacles.
Add a fuse to protect equipment from current overload.
An indicating light that is visible from any angle lets you know when these plugs have power. They have an extra-tight fit when mated with a receptacle to withstand high vibration. Also known as hospital grade plugs.
Also known as hospital-grade connectors, these have an extra-tight fit when mated to remain secure in high-vibration environments.
Eliminate the need for wire stripping; snap-on terminals pierce the wire insulation. When mated with a receptacle, these plugs have an extra-tight fit to withstand high vibration. Also known as hospital grade plugs.
Add a fuse to protect equipment from current overload. When mated with a receptacle, these plugs have an extra-tight fit to remain secure in high vibration environments. They're also known as hospital grade plugs.
A rubber housing protects these connectors from damage caused by drops and impact.
Visually confirm that sockets have power—the face lights up when they're connected. The rubber housing protects them from damage caused by drops and other impact.
When mated, connectors meet NEMA 6P, NEMA 12, and either IP67 or IP69K.
Rated NEMA 6P and 13, IP66, and IP69K when mated, connectors withstand oil/coolant spraying, high-pressure, high-temperature washdowns, and are corrosion resistant so they can be used in marine environments.
Stainless steel hardware and nickel-plated blades or slots protect connections from damage in corrosive environments.
Use connectors where ignitable gas and dust may be present. They are UL listed for Class I, Division 1 and 2, Groups C and D; Class II, Division 1 and 2, Groups F and G; and Class III hazardous environments.
Use these general purpose connectors indoors in high vibration applications. A quarter turn locks them together when mated to remain secure in high-vibration applications.
Also known as twist-lock devices, these connectors withstand tough, repetitive use, and are more durable than standard turn-lock connectors. They turn to lock together when mated to prevent accidental disconnection.
Check the status of a ground connection—a green light signals that connectors have power and are safely grounded. They turn to lock together when mated to prevent accidental disconnection.
A good fit for tight spaces, these connectors are also known as NEMA midget plugs. They turn to lock together when mated to prevent accidental disconnection.
When mated, these connectors meet NEMA 6P for protection against washdowns and temporary submersion.
A rubber housing protects these connectors from damage caused by drops and impact. They turn to lock together when mated to prevent accidental disconnection.
Stainless steel hardware and nickel-plated blades or slots protect connections from damage in corrosive environments. These connectors turn to lock together when mated to prevent accidental disconnection.
Rated NEMA 6P, NEMA 13, IP66, and IP69K when mated, these connectors withstand high-pressure, high-temperature washdowns, oil/coolant splashing, and are corrosion-resistant so they can be used in high-vibration marine environments.
Often used to send power and signal to automated systems, motors, and pumps, these mini connectors carry higher currents than M5, M8, and M12 connectors.
A sealed housing protects connectors from weather. Sets include a plug and socket with wire leads already installed. They fit standard Molex connectors.
Also known as power-pole connectors, these single-pole connectors join two pin connections, rather than a pin and socket. They stack from the top and sides to form any configuration.
Power small devices, such as chargers for electronics, from a vehicle. Also known as cigarette-lighter plugs and sockets.
Often used in devices that branch off of the main power line, these connectors power high-amperage fans, pumps, and machines in motor controls, conveyors, and sorting and packaging systems.
Power robotic arms and other high-amperage machines in motor controls, conveyors, and sorting and packaging systems from your main M35 power line.
With a PVC housing, connectors withstand exposure to chemicals, oil, fuel, and salt water.
Reduce the likelihood of slips and falls in high-traffic areas—connectors won't roll when stepped on.