To run DC-powered lab and medical equipment from your outlet, add a power cord with the plug style and length you need. These adapters meet strict IEC, UL, or ANSI/AAMI standards for use with medical devices. They also have a Means of Protection rating of 2xMOPP, which is the highest level of shock protection available for medical-grade power supplies, so in addition to using them with lab and medical equipment, you can use them with devices that come into contact with patients.

Unlike adapters with bodies that plug directly into an outlet, the body of these adapters rests on a desk or the floor, so it won’t block multiple outlets. Adapters with an IEC C8 input connection require power cords with a C7 socket. Those with an IEC C14 input connection require power cords with a C13 socket.

When selecting an adapter, make sure the DC voltage and amps for the pin output connection can handle the requirements of your device. Choosing a DC voltage and amps that are much higher than you need will not improve performance.

These adapters use switching regulation, which means they produce the stated voltage despite fluctuations in your outlet’s power and the power being drawn by your device. It also means they won’t get too hot.

If you exceed the maximum voltage or load, these adapters shut down to protect both the adapters and the connected equipment.

All of these adapters meet European safety standards. Adapters with Class II shock protection have two levels of insulation to prevent electrical shocks. Those with Class I shock protection prevent electrical shocks with a combination of insulation and a protective ground.

There’s no need for multiple adapter cords or converters, simply swap out the input plugs on these cords to match the outlets of the region you’re in. Use these adapter cords to run DC-powered devices from an outlet in a variety of different countries.

When selecting a cord, make sure the DC voltage and amps for the barrel output connection can handle the requirements of your device. Choosing a DC voltage and amps that are much higher than you need will not improve performance.

Next, the polarity of the adapter cord and your device must be the same. Look for the polarity illustration on your device or the adapter cord you’re replacing and pick a cord to match.

All of these cords use switching regulation, which means they produce the stated voltage despite fluctuations in your outlet’s power and the power being drawn by your device. It also means they won’t get too hot.

With an LPS low-voltage output, if something fails inside these cords, they’ll limit the risk of electrical shocks. Class II shock protection means they have two levels of insulation, which also prevents electrical shocks. All have passed strict U.S., Canadian, European Union, Chinese, Australian, and New Zealand safety standards.

These cords meet U.S. DOE (Department of Energy) Level VI standards for energy efficiency when they're in-use, as well as when they're plugged in but not in use.

Plug these cords into a vehicle socket to charge devices that run on AC voltage. Also known as inverters or converters, they prevent damage from overloads.

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. Link together multiple cords to carry electricity over long distances.

Plug × plug cords allow you to connect two devices that have female socket connections.

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.