## LOI DE THEVENIN PDF

June 30, 2020 Author: Meztilkree Samukus Country: Iceland Language: English (Spanish) Genre: Love Published (Last): 26 January 2008 Pages: 43 PDF File Size: 13.78 Mb ePub File Size: 12.99 Mb ISBN: 269-6-65165-471-9 Downloads: 45939 Price: Free* [*Free Regsitration Required] Uploader: Mikam In circuit theory terms, the theorem allows any one-port network to be reduced to a single voltage source and a single impedance. Theveninn theorem also applies to frequency domain AC circuits consisting of reactive and resistive impedances.

It means the theorem applies for AC in an exactly same way to DC except that resistances are generalized to impedances. The equivalent circuit is a voltage source with voltage V Th in series with a resistance R Th. The resistance is measured after ce all voltage- and current-sources with their internal resistances. That means an ideal voltage source is replaced with a short circuit, and an ideal current source is replaced with an open circuit. Resistance can then be calculated across the terminals using the formulae for series and parallel circuits. This method is valid only for circuits with independent sources.

### Thévenin’s theorem – Wikipedia

If there are dependent sources in the circuit, another method must be used such as connecting a test xe across A and B and calculating the voltage across or current through the test source. The replacements of looi and current sources do what the sources would do if their values were set to zero. A zero valued voltage source would create a potential difference of zero volts between its terminals, regardless of the current that passes through it; its replacement, a short circuit, does the same thing.

DEPENALIZZAZIONE 689 81 PDF

A zero valued current source passes zero current, regardless of the voltage across it; its replacement, an open circuit, does the same thing.

The proof involves two steps. The first step is to use superposition theorem to construct a solution. Then, uniqueness theorem is employed to show that the obtained solution is unique. It is noted that the second step is usually implied in literature.

By using superposition of specific configurations, it can be shown that for any linear “black box” circuit which contains voltage sources and resistors, its voltage is a linear function of lloi corresponding current as follows. Here, the first thevenim reflects the linear summation of contributions from each voltage source, while the second term measures the contributions from all the resistors.

Now, the uniqueness theorem guarantees that the result is general. In other words, the above relation holds true independent of what the “black box” is plugged to. 