\n An active circuit, linear and resistive containing one or more sources of voltage or current source can be replaced by a voltage source and a prisoner diseri, consider Figure 4.10.<\/span>
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![\"image\"](\"https:\/\/www.tneutron.net\/elektro\/wp-content\/uploads\/sites\/2\/2016\/10\/image-26.png\" "\\"image\\"")
<\/a>\n Figure 4.10 The circuit With Voltage Source Replacement<\/span><\/p>\n
VT-called replacement Thevenin voltage, RT-called surrogate custody Thevenin.<\/span> As an example consider the circuit in Figure 4.11 below.<\/span> To calculate VT RL load is removed, the voltage between a and b without RL is the voltage VT.<\/span> (Please see Figure 4.12)<\/span> To calculate the RT to seek custody between a and b (with the voltage source short circuited) It can be clarified by looking at Figure 4.13 below.<\/span> B. Theory Norton<\/strong><\/span> If the replacement circuit Thevenin already calculated the replacement circuit Norton easily determined.<\/span> For example Thevenin above replacement circuit replacing Norton became like Figure 4.14 below.<\/span>
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\n Figure 4.11 replacement circuit Thevenin<\/span><\/p>\n
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\n Figure 4.12 to get a replacement circuit VT<\/span><\/p>\n
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\n Figure 4.13 to get a replacement circuit VT<\/span><\/p>\n
\n An active circuit, linear and reisistif containing one or more sources of voltage or current source can be replaced with a current source and a prisoner in parallel with the current source.<\/span> To calculate the load current source is released and then look for the short circuit current.<\/span> As for calculating the replacement prisoners do the same with finding a replacement prisoners Thevenin.<\/span> Between theory Thevenin and Norton has a very close relationship.<\/span><\/p>\n
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\n Figure 4.14 circuit replacement for Norton Theory<\/span><\/p>\n