Method for simulating a circuit
First Claim
1. In a method for simulating the response of a circuit to a stimulating signal using a digital computer, said circuit being represented by a plurality of nodes, each said node being connected to one or more devices, each said device corresponding to a computer routine that provides the current sourced by the corresponding device when said nodes are held at a set of potentials provided to said routine, the improvement comprising the step of approximating said stimulating signal, v(t), by ##EQU10## where Vk (t) is a time varying voltage, and K≧
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Accused Products
Abstract
An improved circuit simulator for simulating the response of a circuit to a transient. The stimulating signal is represented by one or more carriers having time varying modulation envelopes. The simulator differs from a harmonic balance simulator in that the currents provided by each of the device subroutines include an additional term at each carrier frequency having the time dependency of the modulation envelope at that frequency. These additional current terms necessitate a time-domain solution of the simulation problem; however, the time steps are now determined by the time variation of the envelope instead of the time variation of the carrier. As a result, the number of time steps needed in the simulation is greatly reduced. The present invention may be implemented by modifying a conventional harmonic balance simulator. The modifications involve adding code to the various device routines to provide the current term corresponding to the modulation envelope. In the preferred embodiment of the present invention, either a charge term or a current term that depends on present and past values of the modulation envelope is provided by each device routine. The sum of the charge terms at each carrier frequency is then differentiated to provide the sum of the envelope current terms.
43 Citations
5 Claims
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1. In a method for simulating the response of a circuit to a stimulating signal using a digital computer, said circuit being represented by a plurality of nodes, each said node being connected to one or more devices, each said device corresponding to a computer routine that provides the current sourced by the corresponding device when said nodes are held at a set of potentials provided to said routine, the improvement comprising the step of approximating said stimulating signal, v(t), by ##EQU10## where Vk (t) is a time varying voltage, and K≧
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- View Dependent Claims (2, 3, 4, 5)
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4. The method of claim 1 wherein each said computer routine provides first and second currents when said method is simulating the operation of said circuit at time T, said first current corresponding to the current sourced by said corresponding device when said circuit is connected to a steady state stimulating signal having an amplitude given by ##EQU12## and wherein said second current has a time dependence that is determined by said Vk (t), for k=0 to K.
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5. The method of claim 1 wherein one of said devices is a linear convolutional device and wherein said method further comprising the step of approximating the response of said linear convolutional device with either a Finite Impulse Response or an Infinite Impulse Response.
Specification