Because they tightly thread to M12 connections, these connectors won’t let contaminants in or come loose from vibration in rugged industrial environments and automated systems as they send power and signal or just power to your equipment.

Send power and signal to devices with M12 connections that are exposed to some of the toughest industrial stresses—from welding to metal machining and changing temperatures.

Plug these connectors into hazardous location devices. Using a NAMUR signal, they operate at a low current and voltage, so they prevent the risk of sparks and ignition in volatile areas.

Visually confirm your connector is working properly. A green light means your connector has power, while yellow means it has signal.

A TPE cable protects these connectors from oil, weld slag, and other tough industrial stresses as they send signal and power to low-current devices with M8 connections.

Visually check that your low-current devices with M8 connections are powered up and sending and receiving signals. These connectors illuminate green if they have power and yellow if they have signal.

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.

Protect against signal interference while sending 2-3 times more current than M12 connectors.

Screw these micro M16 connectors together to securely connect equipment.

Join two devices with M8 connectors to a single cord, distribution block, or I/O module with M12 connectors to save space and reduce the number of cords in industrial automation setups. Often used with sensors and switches, these splitters send or receive two signals through one connection.

Power hydraulic and air-powered valves, motors, pumps, and pressure switches.

These connectors have the same pin and socket configuration as connectors that meet MIL-DTL-26482, so they can be used with products that meet the same standard. Quickly mate them by pushing them together.

Made with industry standard barrel-style ends, these connectors carry DC power between electronic devices and power supplies.

Quickly replace or add connectors to an existing wiring system—connectors come assembled with wire leads already installed. Also known as weather-pack connectors, they withstand moisture, harsh engine fluids, and high temperatures.

Power small devices, such as chargers for electronics, from a vehicle. Also known as cigarette-lighter plugs and sockets.

Configure a connector for your application—combine housings with pins and sleeves for different wire sizes. They fit AMP MATE-N-LOK connectors.

A current rating up to 400 amps makes these connectors suitable for use in industrial machinery and floodlights.

Attach wires to your circuit board with these Amphenol PV connectors.

With thick threads similar to a light bulb, these connectors take only a few turns to lock into place for a secure connection in washdown and high-vibration areas. Detach them just as quickly for frequent maintenance.

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.

Reduce the likelihood of slips and falls in high-traffic areas—connectors won't roll when stepped on.

These connectors are designed for use in audio equipment.

Unlike traditional RJ45 connectors found in data centers, these connectors stand up to rugged industrial environments since they tightly thread to devices with M12 connections, sealing out contaminants and resisting shaking loose from vibration. Use them to transfer high-speed data between sensors, switches, computers, IO modules, programmable logic controllers (PLCs), and other equipment.

A threaded M8 end on these connectors keeps contaminants out and withstands vibration better than RJ45 ends on traditional Ethernet cords.

The threaded ends on these cords seal out contaminants and resist coming loose from vibration in tough industrial environments and automated systems while sending power and signal to devices with M12 connections.

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.

With a single cord, these splitters join two devices with M12 connectors to a distribution block or I/O module with M12 connectors. Often used with sensors and actuators, they send signals/power to your devices through one connection.

Send signal and power to low-current devices with M8 connections near welding, metal machining, and in spots where temperatures change.

These cords have a Nano M8 connector (also known as a pico connector) on one end and an USB Type-A connector on the other.

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.

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

Send DC power to multiple electronics from one source. With industry standard barrel-style connections, these splitters are compatible with many power supplies and other devices.

Plug these cords into a vehicle socket to charge devices that run on AC voltage.

Often used in automation systems such as conveyors and sorters, these cords have plug and socket ends, so they quickly connect and disconnect for maintenance and do not need to be hardwired.

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

These cords contain a single pair of twisted wires, making them lighter and more flexible than other Ethernet cords. They’re good for transportation, robotics, and automation applications.

Send high-speed data between sensors, switches, or I/O modules with an M8 connection and programmable logic controllers (PLCs) and computers with a traditional RJ45 connection.

Often used in assembly line networks and Fieldbus connections, these cords have B-coded M12 connections.

Made of durable components for a long life in demanding conditions, these power supplies convert AC voltage to power DC motors and other devices that require high start-up current.

Sized to fit into small and cramped enclosures, these compact power supplies mount onto DIN rails to convert AC to DC voltage. Despite their size, they're designed to power motors, solenoid valves, and other devices that require large start-up current.

Power multiple devices with different voltages at the same time—these power supplies take AC voltage and convert it into several DC voltages at once.

Monitor voltage, current, remaining life, and other maintenance data from your PC, PLC, or by glancing at the digital display. There's no need to inspect these power supplies with multimeters or other test equipment.

Completely sealed and protected from dust and water, these power supplies don't need a separate electrical panel or enclosure. Instead, mount them directly to machine tools, process control equipment, conveyors, and other equipment found in harsh industrial areas.

Convert AC to DC voltage to power equipment in tight spaces—since these power supplies don’t have an enclosure, you can use them inside devices where enclosed power supplies can’t fit.

Flip the switch to reverse the magnetic current and release your electromagnet's hold.

Communicate between a development board and other components, such as sensors and actuators, that use digital signals at a different voltage.

Mount these DC converters to DIN rails on fixtures such as industrial cabinets and electrical panels. By converting voltages, they let you connect power supplies to equipment that requires a different input voltage.

These transformers produce AC output that most closely resembles clean, stable AC-generated power.

Change AC voltage to DC voltage to power extremely sensitive audio, measuring, and testing devices while keeping electronic interference—often called output or ripple noise—from passing on to the device.

Use your computer to remotely control these power supplies that convert AC voltage to DC voltage for powering electronics from simple prototypes to advanced testing equipment.