Partial element equivalent circuit method (PEEC) is partial inductance calculation used for interconnect problems from early 1970s which is used for numerical modeling of electromagnetic (EM) properties. The transition from a design tool to the full-wave method involves the capacitance representation, the inclusion of time retardation and the dielectric formulation. Using the PEEC method, the problem will be transferred from the electromagnetic domain to the circuit domain where conventional SPICE-like circuit solvers can be employed to analyze the equivalent circuit. By having the PEEC model one can easily include any electrical component e.g. passive components, sources, non-linear elements, ground, etc. to the model. Moreover, using the PEEC circuit, it is easy to exclude capacitive, in
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| - Partial-Element-Equivalent-Circuit-Methode (de)
- Partial element equivalent circuit (en)
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| - Die Partial-Element-Equivalent-Circuit-Methode (PEEC) ist ein Verfahren zur Berechnung elektromagnetischer Felder vor allem in der Nähe leitender Strukturen. Der Grundgedanke besteht darin, Feldprobleme durch ein elektrisches Ersatzschaltbild zu modellieren und dieses dann mit Verfahren der Netzwerkanalyse im Zeitbereich oder im Frequenzbereich zu lösen. Die Stärke des Verfahrens liegt darin, dass die elektrische Netzwerkrepräsentation des Feldproblems sich einfach mit der Simulation echter Netzwerke koppeln lässt, z. B. um den Einfluss einer Einkopplung von Feldern in eine elektronische Schaltung zu untersuchen. Eine Anwendung auf andere physikalische Domänen ist grundsätzlich vorstellbar. (de)
- Partial element equivalent circuit method (PEEC) is partial inductance calculation used for interconnect problems from early 1970s which is used for numerical modeling of electromagnetic (EM) properties. The transition from a design tool to the full-wave method involves the capacitance representation, the inclusion of time retardation and the dielectric formulation. Using the PEEC method, the problem will be transferred from the electromagnetic domain to the circuit domain where conventional SPICE-like circuit solvers can be employed to analyze the equivalent circuit. By having the PEEC model one can easily include any electrical component e.g. passive components, sources, non-linear elements, ground, etc. to the model. Moreover, using the PEEC circuit, it is easy to exclude capacitive, in (en)
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| - Die Partial-Element-Equivalent-Circuit-Methode (PEEC) ist ein Verfahren zur Berechnung elektromagnetischer Felder vor allem in der Nähe leitender Strukturen. Der Grundgedanke besteht darin, Feldprobleme durch ein elektrisches Ersatzschaltbild zu modellieren und dieses dann mit Verfahren der Netzwerkanalyse im Zeitbereich oder im Frequenzbereich zu lösen. Die Stärke des Verfahrens liegt darin, dass die elektrische Netzwerkrepräsentation des Feldproblems sich einfach mit der Simulation echter Netzwerke koppeln lässt, z. B. um den Einfluss einer Einkopplung von Feldern in eine elektronische Schaltung zu untersuchen. Eine Anwendung auf andere physikalische Domänen ist grundsätzlich vorstellbar. Als Begründer der Methode gilt Albert E. Ruehli. (de)
- Partial element equivalent circuit method (PEEC) is partial inductance calculation used for interconnect problems from early 1970s which is used for numerical modeling of electromagnetic (EM) properties. The transition from a design tool to the full-wave method involves the capacitance representation, the inclusion of time retardation and the dielectric formulation. Using the PEEC method, the problem will be transferred from the electromagnetic domain to the circuit domain where conventional SPICE-like circuit solvers can be employed to analyze the equivalent circuit. By having the PEEC model one can easily include any electrical component e.g. passive components, sources, non-linear elements, ground, etc. to the model. Moreover, using the PEEC circuit, it is easy to exclude capacitive, inductive or resistive effects from the model when it is possible, in order to make the model smaller. As an example, in many applications within power electronics, the magnetic field is a dominating factor over the electric field due to the high current in the systems. Therefore, the model can be simplified by just neglecting capacitive couplings in the model which can simply be done by excluding the capacitors from the PEEC model. Numerical modeling of electromagnetic properties are used by, for example, the electronics industry to:
* Ensure functionality of electric systems
* Ensure compliance with electromagnetic compatibility (EMC) (en)
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