Generation of sequential symbolic network functions for large-scale networks by circuit reduction to two-port

Pierzchala, Marian; Rodanski, Benedykt

doi:10.1109/81.933334

Cited by 16 publications

(9 citation statements)

References 11 publications

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“…The latter problem was completely avoided by the introduction of an error criterion in the device parameter elimination step of the sifting approach used in the SIFTER tool by Hsu and Sechen [17]. The differences die to omitted elements of the numerator or denominator matrix are multiplied with sensitivities derived from the Laplace determinant expansion rule (6) to obtain a ranking for each difference. All element eliminations are then attempted in order of increasing absolute ranking.…”

Section: B Circuit Simplificationmentioning

confidence: 99%

“…The first is the so-called sequence-of-expressions (SOEs) format, which represents a network function with a nested expression while making reuse of the subexpressions. Several techniques have been developed to generate SOEs [4]- [6], with generation times approximately linear to the number of circuit nodes. However, the SOE format does not give much insight into the circuit behavior, while expanding it to a more interpretable flat format results in very long expressions with many common factors in numerator and denominator.…”

Section: Introductionmentioning

confidence: 99%

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Efficient DDD-based symbolic analysis of linear analog circuits

Verhaegen

Gielen

2002

IEEE Trans. Circuits Syst. II

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The general framework of a symbolic analysis environment for linear time-invariant circuits is presented. Such a framework consists of two major parts: a simplification at circuit level and a simplifying expression-generation. An overview of the known techniques for both circuit simplification and expression generation is given, and in addition a new nonhierarchical expression generation technique based on the concept of determinant decision diagrams (DDDs) is presented. The DDD-based technique is evaluated on a set of benchmark circuits together with a known fast symbolic analysis algorithm, and turns out to be the most efficient. The DDD-based expression generation algorithm is, therefore, the best solution for nonhierarchical linear symbolic expression generation to the authors' knowledge.

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Section: B Circuit Simplificationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Efficient DDD-based symbolic analysis of linear analog circuits

Verhaegen

Gielen

2002

IEEE Trans. Circuits Syst. II

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“…1) are given in s-domain, (1) and (2). The nodal and output equations together are called the system model.…”

Section: Description Of the Methodsmentioning

confidence: 99%

“…A graph-based approach is presented for the generation of exact symbolic network functions in the form of rational polynomials of the complex variable (s) in [1]. A symbolic method for generating a compact sequence of expressions for network functions of large-scale circuits is described in [2]. A unified approach to the approximate symbolic analysis of analog integrated circuits is given in [3].…”

Section: Introductionmentioning

confidence: 99%

Modified Nodal Analysis-Based Determination of Transfer Functions for Multi-Inputs Multi-Outputs Linear Circuits

Yıldız

2010

Automatika

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Original scientific paperA generalized method for determination of transfer functions of circuits with multi-inputs multi-outputs is introduced. The paper proposes a systematic and efficient formulation for generating the transfer matrix containing transfer functions, necessary to model these kinds of circuits. The modified nodal analysis, whose application is simpler than the state-space analysis, is used in obtaining the system equations. The method is a matrix-based approach. It is suitable for both symbolic manipulation and numeric processes. Furthermore, the frequency domain analysis is realized using the system model. Application examples are included to illustrate the method. Key words: Transfer function, Transfer matrix, Modified nodal approach, Frequency analysisModificirana metodačvorova u svrhu odreivanja prijenosne funkcije linearnih sustava s više izlaza i više ulaza. Predstavljena je općenita metoda za odreivanje prijenose funkcije sustava s više ulaza i više izlaza. U ovomečlanku predložena je sistematična i efikasna formulacija za računanje prijenosne matrice koja sadrži prijenosne funkcije, nužne za modeliranje sustava ovakvog tipa. Modificirana metodačvorova,čija je primjena jednostavnija nego analiza u prostoru stanja, koristi se za odreivanje jednadžbi sustava. Predložena metoda temelji se na matričnom računu. Prikladna je za simboličko i numeričko računanje. Nadalje, koristeći model sustava napravljena je i frekvencijska analiza. Takoer, priloženi su i primjeri radi ilustracije primjene metode.

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“…Elsewhere, we can formulate a much reduced system of equations in a nullor network, because it also allows us to apply circuit reduction methods [6,16,21,24].…”

mentioning

confidence: 99%

Symbolic analysis of analog circuits containing voltage mirrors and current mirrors

Tlelo‐Cuautle

Sánchez–López

Martinez-Romero

et al. 2010

Analog Integr Circ Sig Process

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The pathological elements voltage mirror (VM) and current mirror (CM) have shown advantages in analog behavioral modeling and circuit synthesis, where many nullor-mirror equivalences have been explored to design and to transform voltage-mode circuits to current-mode ones and viceversa. However, both the VM and CM have not equivalents to perform automatic symbolic circuit analysis. In this manner, we introduce nullor-equivalents for these pathological elements allowing to include parasitics and to perform only symbolic nodal analysis. The nullor-equivalent of the CM is extended to provide multiple-outpus (MO-CM). Finally, two active filters containing VMs, CMs and MO-CMs are analysed to show the usefulness of the models.

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Generation of sequential symbolic network functions for large-scale networks by circuit reduction to two-port

Cited by 16 publications

References 11 publications

Efficient DDD-based symbolic analysis of linear analog circuits

Efficient DDD-based symbolic analysis of linear analog circuits

Modified Nodal Analysis-Based Determination of Transfer Functions for Multi-Inputs Multi-Outputs Linear Circuits

Symbolic analysis of analog circuits containing voltage mirrors and current mirrors

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