URL : | http://powercircuits.net | |
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Filed Under: | Technology / Hardware | |

Posts on Regator: | 9 | |

Posts / Week: | 0.1 | |

Archived Since: | April 15, 2015 |

One of the most basic principles of power supplies is that the user expects an ideal source. Designers of electrical equipment and electronic circuits generally assume that this type of energy supply is available. Most of us are accustomed to this idea. The electric utility grid is carefully operated to provide a sinusoidal voltage source of good quality. Student lab [...]

Throughout the following posts, basic concepts of the electrical energy conversion process, together with indicators of conversion quality, are introduced. We need to establish a specific set of objectives for a converter. It is important to identify performance measures to determine ether objectives are being met. Show More Summary

Switches are the key to electronic conversion of energy. Three major aspects of design – the hardware, software, and interface problems – can be defined and studied. Consider some of the major concepts covered so far: The hardware problem (build a switch matrix). Switches can be organized in a matrix. Given information about the source and the load, the switch [...]

To take full advantage of Fourier analysis, we need to consider series representations of switching functions. The idea is to figure out the Fourier Series of a switching function in some general way, in order to avoid recomputing it multiple times in the future. Since any switching function is either 0 or 1, and is normally periodic, a plot of [...]

One of the simplest inverters switches between polarities of a DC input to create a square wave. This wave can be filtered to give an approximate sinusoidal output. Let’s find the Fourier Series of a square wave of radian frequency. We will also determine which components are wanted and the amplitude of the wanted components. These specifications will have [...]Show More Summary

In a power conversion sysytem, the major issue is the control of energy flow between a source and a load. The usual measure of energy flow in an electrical network is the average rate at which energy is transfered, or the average power. This can be computed from the instantaneous power,, with the average integration Average power can [...]Show More Summary

In an earlier post, we established that there is typically only a single component of the Fourier Series desired in most cases. All other components are effectively noise. An example of a typical full-wave rectifier circuit will help to illustrate this idea. Let’s compute the Fourier Series of a full-wave rectified signal. What is the fundamental frequency? Which is [...]Show More Summary

The switch action in a conversion circuit is most often periodic. The waveforms themselves are rather choppy and sometimes discontinuous. We must form an approximate DC output of a rectifier, for instance, by piecing together ‘chunks’ of the AC input. Show More Summary

We already know that some switches will lie between an electrical source and a load. There might be just one switch, or perhaps a large group. In any case, there is a complexity limit. If a converter has m inputs and n outputs, even the densest possible collection of switches would have a single switch between each input line and each output [...]Show More Summary

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