
By doctorj, on May 17th, 2009% Here we talk about analyzing a circuit using circuit reduction techniques. Calculation of equivalent resistance using series and parallel equivalence using an R2R example. In the example, the circuit is reduced to a single resistor and voltage source resulting in what is called a Thevenin equivalent. Some of the links in the post above are [...] . . . → Read More: DC Circuit Analysis – Circuit Reduction – Part 1
By doctorj, on April 24th, 2009% The video shows how to apply the Thevenin equivalent for a nonlinear load. Some of the links in the post above are “affiliate links.” This means if you click on the link and purchase the item, we will receive an affiliate commission. Regardless, we only recommend products or services we believe will add value to [...] . . . → Read More: Thevenin & Norton Examples – Thevenin Equivalent Circuit Theory – Part 7
By doctorj, on April 22nd, 2009% This example analyzes a summing circuit using the Thevenin equivalent and superposition concepts. Here, voltage sources are tested one at a time to determine its contribution at the output or load. As a reminder, a voltage source is removed by shorting it out since an ideal voltage source has zero internal resistance. Some of the [...] . . . → Read More: Thevenin & Norton Examples – Thevenin Equivalent Circuit Theory – Part 6
By doctorj, on April 21st, 2009% In this example, the Thevenin equivalent is derived using the concept of superposition. In using the superposition concept, you test one source at a time and remove the others to find the output due to that source. To replace an independent voltage source, you replace it with a short circuit. To remove an independent a [...] . . . → Read More: Thevenin & Norton Examples – Thevenin Equivalent Circuit Theory – Part 5
By doctorj, on April 19th, 2009% Here is another example illustrating how to apply the Thevenin or Norton Equivalent. Some of the links in the post above are “affiliate links.” This means if you click on the link and purchase the item, we will receive an affiliate commission. Regardless, we only recommend products or services we believe will add value to [...] . . . → Read More: Thevenin & Norton Examples – Thevenin Equivalent Circuit Theory – Part 4

