The power regulations spiral

By Andrew Hutton   |   May 24, 2016

Since the 1990s, the external power supply has become the target of a series of regulations that are gradually being tightened around the world. It is a landscape that is potentially confusing because, although there is international agreement on many aspects, regions have opted for different forms of legislation. The US, for example, has recently introduced mandatory standards but the European Union (EU) is operating a voluntary code of conduct based on an older set of specifications.

The efficiency standards for external power supplies started to take form at the end of the 1990s, when research in the US indicated there were more than one billion products with such supplies in operation. Most of them employed linear conversion techniques with efficiencies as low as 50 per cent. Although such supplies tend to draw low levels of current, because they may be plugged into a wall socket for the lifetime of the product they power, significant amounts of energy can be drawn during that time and simply wasted as heat. Experts at the time calculated that this ‘vampire’ power could account for as much as 30 per cent of domestic electricity consumption.

In the early 1990s, the US Environmental Protection Agency created a voluntary effort to improve efficiency. But the first mandatory regulations did not appear until the mid-2000s, focusing on the energy drawn by external power supplies when the load is inactive. Since then, the regulations brought in by various governments around the world have progressively tightened specifications, with different regions occasionally leapfrogging each other. The most recent lay in changes made by the US Department of Energy (DoE) to its EISA 2007 efficiency standard for external power supplies. The DoE published the changes in early 2014; they became mandatory on 16 February 2016.

As with earlier standards on external power supplies, the revised EISA 2007 specification follows the limits set by the International Efficiency Mark (IEM) scheme developed by the US Environmental Protection Agency as part of the Energy Star programme.

The IEM protocol provides a system for power supply manufacturers to show the minimum efficiency performance of the external power supplies they produce so that makers of finished products, as well as government representatives, can easily determine a unit’s efficiency. The mark demonstrates the performance of the external power supply when tested to the internationally supported test method.

The method used for the IEM scheme tests the efficiency of the power supply under different load conditions. There are five load conditions that represent different percentages of the supply’s rated maximum: 0 per cent; 25 per cent; 50 per cent; 75 per cent and 100 per cent. An average of the latter four load conditions is used to provide a single rating for the supply that represents its overall active efficiency. The 0 per cent measurement determines its performance for the important no-load power-consumption rating.

Having performed the measurement, the manufacturer identifies the most appropriate IEM level for the power supply. The mark comprises a Roman numeral that corresponds to specific active and no-load power-consumption levels, as well as a power factor requirement that was introduced for IEM Level V. The current US regime corresponds to Level VI. The requirements for Level VII have yet to be specified.

The manufacturer shows the IEM level on nameplate of the power supply, providing an easy to understand indication of the unit’s overall efficiency. Manufacturers can also identify whether the power supply meets a specific IEM level under different input voltage conditions. For example, a power supply may support Level VI at 115V/60Hz but Level V at 230/50Hz. The supply would carry a dual marking, showing the appropriate level for each input voltage, denoted by a subscript of 115 or 230. Level I is used if the power supply meets none of the requirements specified at higher levels of compliance.

Although the IEM was developed in the US, it has had an impact on other parts of the world. The EU EcoDesign Directive corresponds to Level V of the IEM. The active-mode requirements specified by the EU’s revisions to its later and voluntary Efficiency of External Power Supplies Code of Conduct were influenced by continuing work on the IEM specifications. The mandatory European Ecodesign Directive for External Power Supplies is currently going through a revision process and is expected to harmonise with much of the US standard, if not completely. History indicates that Canada, Australia and New Zealand, among others, are likely to harmonise as well.

 

Successive tightening in the move from the mid-2000s Level III standards to the Level VI grade now required in the US market has pushed active-load efficiency ratings higher, with small changes in the boundaries between power limits. At Level III a power supply with a maximum load rating of more than 50W and up to 250W had to be 84 per cent efficient or better based on the average of the four different load measurements. Level VI has increased the required efficiency to 88 per cent for single-voltage supplies operating between 49W and 250W when their load is active.

One of the most important changes in the move from Level V to Level VI is the reduction in no-load power consumption for single-output AC/DC power adapters able to deliver up to 49W. At Level V, such external power supplies could not draw more than 0.3W. The shift to Level VI sees the limit cut to just 0.1W. Level VI also introduces differences between single- and multiple-voltage external power supplies. All multiple-voltage adapters must have a no-load consumption of no more than 0.3W.

Above 250W, single-voltage supplies are allowed to consume up to 0.5W under zero-load conditions, with the remainder between 49 and 250W expected to draw only 0.2W. The efficiency ratings for different load capacities vary for both single-voltage and multiple-voltage supplies.

Furthermore, the Level VI standards draw a distinction between direct- and indirect-operation supplies. The difference means that, in the case of a load that cannot operate without a battery being present – an indirect-operation device – it is regulated by the original EISA 2007 standard.

Another exception is for products that need approval from the US Federal Food and Drug Administration (FDA), such as medical devices. The medical environment has, for reasons of safety, much more stringent requirements. External power supplies are themselves considered to be, in effect, standalone medical devices. So, the power supply manufacturer needs to provide a full risk assessment and accompanying documentation that follows the procedures laid out in the ISO 14971 standard.

As many manufacturers will want to sell the same core product in different territories, the simplest approach will be to design and specify to the most stringent mandatory standard. Suppliers can use the improved specifications of their products in regimes with looser regulation as a way of providing competitive differentiation. Because of this effect, the introduction of a tighter standard in one large region can be seen to have a long-term effect on the technology supplied into all of the others, so it pays to keep abreast of developments in the IEM.

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Andrew Hutton

Andrew joined Avnet Abacus in 2017 with over 20 years' experience working with power products and so...

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