
By doctorj, on July 8th, 2009% A series of videos on opamp design and applications will continue with the analysis of the digitaltoanalog (DAC) R2R ladder network. As before, the video will discuss the R2R DAC circuit and analyze it using the concept of superposition. A fourbit binary input was given as an example. The next video will conclude the analysis [...] . . . → Read More: OpAmp Design & Application Tutorial – DigitaltoAnalog Converter (DAC) R2R – Part 4
By doctorj, on April 9th, 2009% Here is the final series of video on superpostion for linear circuits. An illustrative example is given when adding several independent voltage sources. 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 [...] . . . → Read More: Electric Circuit Analysis – Linearity Properties – Superposition Principle and Circuits – Part 4
By doctorj, on April 7th, 2009% The video below describes the additivity property associated with linear circuits. An example is given with two independent sources. 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 [...] . . . → Read More: Electric Circuit Analysis – Linearity Properties – Superposition Principle and Circuits – Part 3
By doctorj, on April 5th, 2009% Here is part 2 of the Superposition Principle for linear circuits. In this video, a unit output method is described and an example is given. 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, [...] . . . → Read More: Electric Circuit Analysis – Linearity Properties – Superposition Principle and Circuits – Part 2
By doctorj, on April 4th, 2009% A linear circuit sufficiently models behavior using only linear elements and independent sources. The outcome of a linear circuit is that the output is a linear function of the input. The video will discuss two key properties associated with linear circuits: homogeneity and additvity. Homogeneity means that the output is proportional to the input (signals produced [...] . . . → Read More: Electric Circuit Analysis – Linearity Properties – Superposition Principle and Circuits – Part 1

