Electric circuits are a method to demonstrate how an electric device receives power and operate. For instance, a flashlight has batteries to provide power to a light bulb, wires to bring the power from batteries to the bulb, and a switch to control the on-off action. The operation of this...
Strongly nonlinear function approximation of the pole-residue trajectories render analytical models with very high accuracy, even with a limited training sequence. The proposed method proves to scale very well for large circuits with speedups that exceed the TPW implementation. The method is compatible ...
Two methods for the linear approximation of a transfer function with a pole of fractional power are presented. Analog circuit models are developed, and their frequency response curves and step response curves are compared. It was found that the Padé method gives a better approximation than Wang ...
Models were unified to the transfer-function form. Mathematically proved that the transfer-function: flux linkage to the voltage in the flux axis d is always the lag element. However, the transfer-function: electromagnetic torque to voltage in the torque axis q can be the oscillatory or lag ...
However, in many cases an actual load is not necessarily a pure resistance. This paper presents a simplified transfer function of duty ratio to output voltage of the forward switching converter with a general load impedance by introducing some assumptions which are usually satisfied. The validity ...
Sometimes all we know about a circuit is its transfer function graph. The transfer function might look like the one in Figure 1. How can we design a circuit so that its input-output behavior will match the graph? Figure 1 The design starts with the mathematical form of the transfer functio...
one for each point in 3D space. In the interest of compactness, we could say equivalently that a loudspeaker has a transfer function with four independent variables instead of one: where F(s) is sufficient for electricalcircuits, for loudspeakers the equivalent expression (in Cartesian coordinates...
Heat is detrimental for the operation of quantum systems, yet it fundamentally behaves according to quantum mechanics, being phase coherent and universally quantum-limited regardless of its carriers. Due to their robustness, superconducting circuits inte
Maximum Power Transfer refers to the principle in circuit theory where the power supplied to the load is maximized when the load resistance is equal to the source resistance. This theorem is applicable to both simple and complex circuits, as long as the circuit is linear and there is one vari...
Sign in to download full-size image Figure 14. Virtual circuits and virtual paths. Distinct virtual circuits exist between A and X, B and Y, C and Z. All use the same virtual path. Each cell contains a 12-bit virtual circuit ID and a 16-bit virtual path ID. The ATM switches forward...