Do you need more than enough: Specifying AC-DC power supplies

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Do you need more than enough: Specifying AC-DC power supplies

Bigger is always better, isn’t it? That’s not necessarily the case when it comes to specifying a power supply. One of the most important aspects of designing a power supply into a system is ensuring that it is sized appropriately. Erring on the side of caution by trying to ensure that the supply’s maximum output exceeds that of the load is no longer the right answer in many cases. Customers increasingly need to focus on energy efficiency. The trend is partly driven by the need to cut operating costs and partly by legislation such as the European Union’s EcoDesign Directive. 

Under the directive, manufacturers of energy-related products need to be able to demonstrate they have taken environmental factors into account. The efficiency of the power-delivery subsystem is one of the key factors. It will play a large part in determining how energy will be lost through heat. As a result, choosing a high-efficiency power supply unit (PSU) is an important consideration in the design process. 

A 200W PSU operating at full load with an efficiency of 85 per cent will lose 30W in waste heat. Not only is that heat wasted, there may be an additional energy cost in forced-air cooling to prevent the rest of the system overheating. A PSU that is 90 per cent efficient will cut the power wastage by 10W. 

If that PSU is operated below full capacity, it will run at a lower temperature. That allows usage in higher ambient temperatures or with less forced-air cooling. However, there can be a trade off between efficiency and headroom. Many PSUs are designed to provide peak efficiency when they are driving a load close to full capacity. But this efficiency can roll off dramatically beneath 70 or 80 per cent of full load. Using a power supply that is oversized for a particular application may result in an undesirable loss in efficiency and excessive heat production.

A potential problem for system designers is that the focus on energy efficiency in electronics has led to the adoption of power-saving modes. The resulting load demands can vary widely during operation. Responding to this trend, PSU designers working in the data-centre space have embraced initiatives such as 80 PLUS.

80 PLUS Certification Requirements

 

Launched in the mid-2000s at a Market Transformation Symposium organised by the American Council for an Energy-Efficient Economy (ACEEE), the 80 PLUS idea was quickly adopted as the basis for PSU efficiency marking by the US Energy Star programme. Supported worldwide, the idea behind 80 PLUS was to make PSUs deliver high efficiency over a larger proportion of the load curve. Recognising that many data-centre system PSUs are operated using 1+1 redundancy and current sharing, the maximum efficiency point was centred on 50 per cent capacity. 

80 PLUS ratings range from Bronze to Titanium. At 50 per cent load, Bronze offers an efficiency of 85 per cent. Titanium pushes the peak efficiency to 96 per cent, rolling off towards 94 per cent when the load is operating at 20 per cent load and 91 per cent at full load. Bel and GE provide wide ranges of PSUs that are graded according to the 80 PLUS standards.

An alternative way to approach the issue of variable loads is to use the idea of boost power. This concept is gaining popularity in industrial designs where engineers have to deal with highly capacitive and inductive loads such as motors. As these systems shift between modes, there may be short-term peak loads that go some way above normal operation. Motor start-up also needs careful handling to deal with high current inrush conditions. 

Built for the DIN-rail format commonly used in industrial systems, the Cliq-II and Cliq-M series of DIN rail supplies from Delta offer an ‘Advanced Power Boost’ of 120 per cent for three seconds or 150 per cent for five seconds, respectively. Alternatively, if a PSU has been derated to operate at a lower output level so that it does not need forced-air cooling, it can be ramped up to peak load for short periods of time without necessarily demanding additional cooling. However, this usage of a PSU does call for attention to the thermal conditions to ensure that the short-term peaks in heating are dissipated. 

Delta Cliq M DIN-rail power supply

 

To deal with situations such as high current inrush, PSUs such as the Artesyn LCM600 offer constant-current modes that limit how much power is delivered to the load during the kinds of demand surges seen during motor startup. As one of a growing number of PSUs that employ digital control, the LCM600’s firmware can be programmed to support a number of different protection strategies so that the integrator can pick the mode best suited to the application.

Artesyn’s LCM600 series offers a constant current mode

 

To cater for the growing diversity of PSU applications in an energy-conscious world, Avnet Abacus can provide an extensive range of off-the-shelf and customised power supply solutions made by suppliers such as Artesyn, Aimtec, Bel, Delta, Excelcys, GE, Meanwell and Murata. Avnet Abacus can also help with custom power supply design in conjunction with Power Integrations, a leading supplier of high-voltage integrated circuits used in energy-efficient power conversion.

Written by

Philip Lechner

Philip Lechner studied electronics and telecommunications in Amsterdam before beginning his career in electronic component sales. His career in electronics distribution has spanned 33 years, including 13 years as a field sales engineer covering power, semiconductors and IP&E, and 20 years in product management for power supplies and DC-DC converters for Avnet Abacus.

Do you need more than enough: Specifying AC-DC power supplies

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