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Key Questions to Ask When Ordering Desktop Power Adapter

05 May.,2025

6 Key Considerations for Selecting an External Power Supply | CUI Inc

When faced with the task of choosing an external power supply (EPS), it's important to consider several factors to ensure your application runs smoothly and efficiently. These include your system's power requirements, package type, dc plug, efficiency and safety standards, EMI and EMC regulatory standards and customization options.

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In this article, we will discuss the key considerations for selecting an external power supply and provide some tips on how to choose the right EPS for the specific needs of your design.

1. System Power Requirements

The first consideration when selecting a power supply is determining your system’s power requirements. Understanding the wattage, voltage, and amperage your system load requires is essential for the operation and safety of your end system. This includes asking questions like, "does my system operate at a constant power level and what are the minimum and peak power requirements?" If you are unsure or have questions, CUI Inc's in-house engineering expertise can help.

2. Package Type - Desktop or Wall Plug?

External power supplies are generally offered in two package types: desktop or wall plug (fixed or multi-blade). For many applications either option will work. However, there are some reasons why you may select one over the other:

Wattage Ranges: In general, desktop adapters are suited for higher wattage applications, while wall plug adapters are suited for lower wattage applications. Desktop adapters typically have larger case sizes and therefore offer higher output power options.
Global Markets If you plan to take your product or design to market in multiple regions, multi-blade wall plugs and desktop adapters are a great choice. The modularity of the ac blades (multi-blade wall plugs) and ac cords (desktops) allow you to use the same power supply and simply swap the blade or cord in order to meet the end market's plug standards.
Ground Reference: Desktops offer the option of three conductor (ground referenced) or two conductor (floating output voltage) ac input cords. Wall plugs are available only with two conductor ac inputs (floating output voltage).
Size and Portability: If the adapter is highly visible in your design or if it will be used in a portable application, you may care about the aesthetics, size, and weight of the package. Adapters with GaN technology can help reduce the size and weight of the power supply.

3. Dc Plug and Cable Options

For an external adapter to power your design it needs a method of plugging into your system. If the receptacle or jack has already been selected, this will determine which dc plug you choose. One of the most common options is a 5.5 mm x 2.1 mm or "P5" dc barrel plug (5.5 mm OD, 2.1 mm ID, 9.5 mm L). CUI’s standard plug options include barrel plugs, USB, EIAJ, DIN, stripped and tinned, as well as locking and right angle options. If these don't meet your needs, we can work with you to implement your own plug onto the adapter.

In addition to the dc plug, you'll want to ensure the dc cord meets your needs. Is it long enough to reach your product? Does it have the desired appearance and pliability? It is important to understand that modifying the dc cord can impact both efficiency and safety regulations.

4. Efficiency Regulations, Safety Standards, and Agency Marks

Making sure you've considered the end market where your system will be implemented is critical. Many countries have efficiency standards which regulate the amount of energy that may be "wasted" by external power supplies. Whether it's Level VI (US), CoC Tier 2 (EU), or ErP Lot 7 (EU) efficiency standards, CUI offers compliant models and can help you navigate the complex and dynamic regulatory landscape.

In addition to efficiency standards, it is imperative to make sure your adapter has the proper safety standards for the end application. For example, medical products need the -1 certification and products for ICT/AV applications need the -1 certification.

Many countries require agency marks which are unique to that country. Specialized design and testing are sometimes required to obtain these country-specific certifications. CUI has the experience and knowledge to work with you to meet your country-specific agency mark needs.

5. EMI and EMC

Many electronic products offered for sale are required to meet EMI and EMC (Electromagnetic Interference and Electromagnetic Compatibility) regulatory requirements. These requirements ensure that your product will not interfere with the proper operation of other products and similarly that the proper operation of your product will not be affected by other products. Although CUI external power supplies are certified to meet EMI and EMC regulatory standards, it is probable that your system (including the power supply) will also need to be tested and certified.

6. Branding and System Integration

Another important consideration and question to ask is, "how well will the adapter aesthetically integrate with my system?" If your design has a desired look-and-feel and you care about the customer experience of your product, then don't let the adapter be an afterthought. If your product has been intentionally designed with a specific color, then a black adapter may not integrate well. Consider color, texture, packaging, and even adding your logo to the power supply. CUI specializes in a range of customizable branding options.

Choosing the Right External Power Supply

Selecting a power supply for your new product is not a difficult task, but there may be subtle issues that affect the selection process. By working with an experienced power supply company, such as CUI, you can ensure that your power supply not only properly supports the operation of your product but also enhances the value of your product for your customer. CUI has a broad portfolio of standard designs we can customize to meet your specific application needs.

How to Select the Right External Power Adapter - Astrodyne TDI

Whether you need an external power adapter for a new product or as a replacement for an existing product, finding the right one can be tricky. There are a few details that are important to consider when selecting an external power adapter, including its power and voltage specifications, which if selected appropriately will prevent certain issues that can lead to product failure.

How do you choose an external power adapter? This guide covers several parameters to consider when selecting the right external power adapter for your device or system.

What Are External Power Adapters?

External power adapters are a type of power supply that plug into a wall outlet and convert alternating current (AC) to a direct current (DC) that powers certain electronic devices. They may also be called AC adapters, AC-DC adapters, AC-DC converters, DC power supplies, external adapter power supplies, or simply power adapters.

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External power adapters are used in a variety of applications, from sophisticated medical devices like circulatory pumps, ventilators, dialysis equipment, and telemedicine carts, to commercial or industrial manufacturing equipment like barcode scanners, weighing scales, and assembly line monitors, to consumer devices like laptop computers, computer monitors and printers.

You can think of an external power adapter as a “black box,” with the AC input on one side and the DC output on the other side. It is typically offered in one of two styles, depending on the application requirements: wall mount or desktop. A desktop power adapter is designed to sit on the floor or a desktop and is typically shaped like a brick and has a power cord sticking out of one or opposite ends. A wall-mount power adapter has only an output cord at one end and includes power blades that protrude from the body of its case to plug directly into an AC wall socket.

A wall mount power adapter eliminates the need for an AC input cord but is limited to being used with the style of AC wall socket specific to a particular country unless it has an option for interchangeable AC plugs. A desktop adapter may include a captive AC cord and plug, which would have a similar limitation to a wall mount adapter, but most use a standard AC inlet that can accept different AC cords with plugs specific to whichever country in which they will be used.

Most external power adapters available today – both wall-mount and desktop – can accept a “universal” AC input voltage of 90 to 264 volts AC (VAC). This voltage range will support the vast majority of countries, with the need to match only the AC input cord or wall plugs for a specific country; the power adapter itself can be used universally. This feature results in supply chain efficiency, and may even result in reduced product costs by leveraging volume manufacturing.

The main reasons for a product engineer to use an external power adapter over an internal (“embedded”) power supply in their system are size reduction and ease of replacement. By using an external adapter, the product itself can be made smaller (although the power adapter itself adds size back to the complete system – no free lunches!) And an external adapter can easily be replaced by a user, without the need for support from an experienced technician. The user simply needs to ensure that they have selected an adapter that will work with their product.

How Do I Know Which External Adapter to Use?

When choosing an external power adapter for any application, one must consider a few critical parameters to ensure that the adapter will perform effectively and safely:

AC Input Voltage

As previously mentioned, most external power adapters available today can accept a “universal” 90 to 264 VAC input voltage, which can support the vast majority of worldwide applications. In North America, domestic outlets supply 110-120 VAC. In Europe, they supply 220-240 VAC. Portable medical applications may require an AC input voltage as low as 85 VAC, and lighting applications often use a 277-205 VAC source. Note that some industrial and many infrastructure applications use a much higher AC voltage range, which would require different types of power converters.

DC Output Voltage

A product or device that is powered by an external power adapter requires a particular voltage, usually in a range from as low as 3.3 VDC to as high as 56 VDC, to operate correctly. An adapter must be selected with the appropriate matching DC output voltage, which will be marked on its label. Most adapters provide a single DC output, but some adapters provide two or three different output voltages (each with its power rating.) A selection of adapter models with standard output voltage increments are generally available, and custom models with non-standard output voltages can be provided from certain vendors, including Astrodyne TDI, as well.

Power Rating

One of the most important external power adapter specifications that is often overlooked is its output power rating. An adapter’s power rating is marked on its label, typically specified in Watts (W). This rating depicts the maximum power that can be reliably delivered from the adapter to the product being powered. The power rating of the adapter must always be equal to or greater than the power that will be consumed by the product being powered. Otherwise, undesirable results, such as reduced adapter lifetime, limited performance, or complete loss of functionality could occur.

It is important to note that an adapter's power rating is generally defined for use at room temperature. Operation at temperatures well above that - typically above 40-50 deg C (105 to 120 deg F) – may not support the full power rating. The datasheet for the adapter should include a power derate over-temperature graph, which details the maximum power that can be delivered at given operating temperatures.

Efficiency Rating

Recent commercial and industry regulations mandate minimum levels of power efficiency for external adapter power supplies. For example, in the United States, the Department of Energy instituted a requirement that beginning in , all external adapter power supplies introduced into the U.S. market (with a few exceptions, including adapters used to power FDA-approved medical devices) must meet Level VI efficiency requirements. Similar mandates exist in the European Union.

Adapters that meet these U.S. requirements are usually marked with the roman numeral VI enclosed in a circle. Older designs marked with roman numerals IV or V are no longer approved for U.S. market introduction. Many external power adapter manufacturers still provide solutions that do not meet the new requirements, so it is important to confirm what is needed for a particular application and whether the power supply being considered conforms to the applicable mandates.

Connectors

Connectors that are appropriate for each application will need to be selected for both the AC input and the DC output of the external adapter power supply. For the AC input, a common practice for desktop adapters is to use an IEC320-C14 or -C8 inlet, to which standard power cords with wall socket plug ends suitable for use in specific countries can be separately attached. Alternately, a captive AC input cord may be used, with a wall socket plug specific to a particular country or country. Wall mount adapters will require fixed blades specific to the country of use, or a selection of interchangeable blades that can support a variety of countries.

A great diversity of DC power connectors are required by the innumerable applications that can use external power adapters. System designers tend to make their own decisions on what connector they prefer, and it is usually straightforward to accommodate almost most requests. The most common standard DC connectors are female barrel plugs, which are two-conductor (output voltage and return) solutions that are also available in a variety of sizes.

The four main parameters that need to be specified for a barrel plug are inner diameter, outer diameter, barrel length, and polarity - whether the center contact is the output voltage (standard configuration) or the return. Other barrel plug features include whether there is a “locking” mechanism, such as a screw-on collet, to secure the plug to the jack on the device being powered. Other types of common connectors include multi-pin DINs and “Molex” style pin/socket receptacles.

Safety Certifications

Finally, external power adapters will require safety certifications specific to the applications and countries in which they will be used. There are different certification standards for medical applications than there are for commercial/industrial applications, and each country or region requires its certifications as well. Astrodyne TDI offers adapters with either medical or safety certifications (and sometimes both), for standard use in the U.S., Canada, and the European Union. Additional country safety certifications, and certification to other standards, can be obtained upon request.

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