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      Power Management

      Power management  is one of the biggest factors to consider in any electrical design to ensure productivity and energy efficiency are maximised.

      For almost 100 years we have monitored relativity basic electrical parameters – current and voltage. Initially in power design this was mainly to ensure that the electrical supply was stable and had capacity to power the load. As centralised power generation grew and more sophisticated power distribution systems made their way into commercial and industrial settings, so the reasons for metering and monitoring grew too. Commercial customers and home consumers alike became more interested in how much power they were using (watts) and how efficiently they were using it (power factor).

      Prior to the 1980s electric meters were all electromechanical (analogue) devices using basic electromagnetic principles. This all changed as the microprocessor industry advanced and transformed how we all live and work. Microprocessors found their way into just about everything to rapidly become commonplace components of the digital age. In power management terms, early usage of microprocessors was in metering equipment and circuit protection. The advantages were huge: one digital meter could easily replace several analogue meters. This conversion from analogue to digital devices fuelled high growth in power metering through the 90s and 00s; however, recent growth takes us to a new level of intelligence. Now customers require accurate and timely data to better aid decision making and help them to maximise productivity and energy efficiency. Later in this article we will take a look at two main classes of power supply – Linear and Switch Mode Power Supplies (SMPS) – but first we will consider Embedded Solutions that simplify the design of power supplies.

      Embedded Solutions

      There are a number of integrated solutions available that range from power management ICs which simplify power supply design, to self-contained linear and switch mode power supplies.

      The term Power Management Integrated Circuit (PMIC) covers a range of chips which normally employ electronic power conversion functionality and/or power control functions. Using PMICs greatly simplifies power supply design and range from simple, single function devices such as voltage regulators or switching controllers, to more complex PMIC devices which can integrate multiple functions, including power conversion, monitoring and sequencing.

      Fully integrated solutions are available in the form of Embedded Power Supplies. These offer a turnkey solution for immediate integration with equipment and offers linear and SMPS options that provide single or multiple voltage rails.

      DC-DC Convertors

      DC-DC Convertors offer a more convenient solution where DC supply is available but additional DC voltage rails are needed. They are self-contained, generally board mounted, and have power ratings of anything up to 200W. DC-DC Convertors can step up or step down and typically feature efficiencies above 90%.

      Linear and Switch Mode Power Supplies

      In the diagrams below we take a look at two main classes of power supply – Linear and Switch Mode Power Supplies.

      Whichever approach you decide to take, important factors to consider include:

      • Your specific application requirements for power rating, protection, noise and transient response time
      • Safety and Electromagnetic Compatibility (EMC)
      • Efficiency requirements
      • Relevant industry standards and legislation concerning all the above points, including but not limited to: EMC directives, CE, TÜV, FCC and UL certification


      Linear power supplies and voltage regulators

      Linear power supplies are simple, easy to design and maintain, but can be regarded as a bit outdated with less control for modern energy efficiency requirements. The basic function of a linear voltage regulator is to convert a variable DC voltage to a constant, lower, and often specific DC voltage.

      Constant output voltage is a necessity of many power supply applications but supply voltage comes from many energy sources and can vary. A linear voltage regulator is therefore used to keep the output voltage steady.

      Switch Mode Power Supplies (SMPS)

      In comparison to linear power supplies, switch mode power supplies – or SMPS as they are commonly known – tend to be smaller, lighter, lower cost and more efficient. The trade-off is that they are more complex, require additional components and, therefore, have a greater number of design considerations. However, the level of control in SMPS systems is becoming increasingly important for minimising wasted energy. The name is derived because this DC voltage is ‘switched’ on and off at very high frequencies (usually 10 kHz to 1 MHz) to produce an AC current that can be passed through a high frequency inductor or transformer. Due to the high frequencies involved, lighter, smaller and cheaper capacitors and transformers can be used. The high frequency AC is filtered and rectified to produce DC output voltage. Under ideal circumstances, a SMPS will dissipate no power.

      Connectors in Power Supplies

      All powered systems require safe and reliable methods of delivering power, so choosing the right connector is an essential part of your design. From simple terminal blocks right through to heavyweight industrial plugs, plus everything in between, RS Components has a huge range of connectors ensuring you safely deliver power, whatever the application.

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