Calculations of Simple RC, LC Networks Using Complex Frequency Notation


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Calculations of Simple RC, LC Networks Using Complex Frequency Notation
Calculations of Simple RC, LC Networks Using Complex Frequency Notation
<emphasis role="bold">Introduction</emphasis> Resistor/capacitor and to a lesser degree resistor/capacitor/inductor networks form the basis of a huge variety of common laboratory electronic circuit techniques, including quiet and stabilized power supplies, noise filters, AC-coupling, differentiators, sample-and-holds and transmission lines. They also provide good models to calculate much of the behaviour of photodetection systems, from the simplest resistively-loaded photodiode to the most complex f…
Citation
Mark Johnson: Photodetection and Measurement: Maximizing Performance in Optical Systems. Calculations of Simple RC, LC Networks Using Complex Frequency Notation , Chapter (McGraw-Hill Professional, 2003), AccessEngineering Export