Spot Defect Diagnosis in Analog Nonlinear Circuits with Possible Multiple Operating Points

Tadeusiewicz, M.; Kuczyński, A.; Hałgas, Stanisław

doi:10.1007/s10836-015-5547-z

Cited by 11 publications

(9 citation statements)

References 23 publications

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“…The 100 patterns for the CUT discrete elements parameters dispersed randomly in their tolerance regions δ DEV = ± 5% (set I) and for eight Table 4 CUT performance parameters estimation errors and their standard deviations assumed special cases with the one selected element value shifted from the nominal point and randomly determined other ones (set II) were tested during this experiment. The filter circuit performance parameters were calculated basing on the regression models found evolutionarily (22)(23)(24)(25)(26)(27)(28)(29)(30)(31). Finally, identically as in [31], the CUT pattern is classified into the good ones if all the tested performance parameters do not exceed the allowed tolerance absolute deviation ± | p i | from the nominal level specified and to the faulty ones otherwise ( Table 5).…”

Section: Examples Of Low-pass Filters Testingmentioning

confidence: 99%

“…The parametric local and global faults of transistors of CMOS structure based on homotopy idea and the simplicial algorithm were proposed in [28]. Catastrophic fault detection method dedicated to nonlinear circuits was described in [29]; however, work [30] presents the technique dedicated to the diagnosis of spot defects. In works [24,26,27], the approaches based on sensitivity analysis for faulty element identification, test measurements ambiguity sets determination and optimal frequency of testing signal selection, respectively, may be found.…”

Section: Introductionmentioning

confidence: 99%

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Analog Circuit Specification Testing by Means of Walsh–Hadamard Transform and Multiple Regression Supported by Evolutionary Computations

Golonek

Machniewski

2017

Circuits Syst Signal Process

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This paper describes an approach for an analog electronic circuit specification quick verification that is based on a simple mathematical model determined during the before-test stage statistical analysis. Generally, the observed performance parameters (e.g., cutoff frequency, phase shift at the assumed frequency point) are calculated from the Walsh-Hadamard transform components of circuit under test step time response. The optimal estimating formulas for relationship between the tested specifications and the selected components of the spectra are defined in the system based on a linear multiple regression procedure supported by genetic programming. The evolutionary computations significantly improve the approximation effectiveness by selecting the most representative points of the sequences domain and by defining the optimal set of linearizing functions. Finally, at the test stage, only a simple step stimulus and time-effective calculations are required to the tested performance parameters (specifications) of analog circuit identification and it predisposes the approach to quick production testing procedure realization or to embedding it in the mixed-signal systems. The automated built-in self-testing procedure using this concept may be easily implemented to low-cost microcontroller equipped with AD converter used for the testing response samples acquiring.

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Section: Examples Of Low-pass Filters Testingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Analog Circuit Specification Testing by Means of Walsh–Hadamard Transform and Multiple Regression Supported by Evolutionary Computations

Golonek

Machniewski

2017

Circuits Syst Signal Process

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“…If a faulty parameter drifts from its tolerance range, but does not lead to some topological changes, the fault is said to be the soft or parametric one. Most physical failures (80-90)% in integrated circuits are opens and shorts [9][10]21]. In both CMOS and BJT circuits (70-80)% of failures are shorts and (10-20)% opens.…”

Section: Introductionmentioning

confidence: 99%

“…In consequence, the circuit parameters vary. In the reference [21] a method of spot defect diagnosing analogue circuits based on parametric characteristic tracing is proposed. The approach enables to test the circuits with multiple operating points but fails to consider the thermal effects.…”

Section: Introductionmentioning

confidence: 99%

Diagnosis of Soft Spot Short Defects in Analog Circuits Considering the Thermal Behaviour of the Chip

Tadeusiewicz

Hałgas

2016

Metrology and Measurement Systems

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The paper deals with fault diagnosis of nonlinear analogue integrated circuits. Soft spot short defects are analysed taking into account variations of the circuit parameters due to physical imperfections as well as self-heating of the chip. A method enabling to detect, locate and estimate the value of a spot defect has been developed. For this purpose an appropriate objective function was minimized using an optimization procedure based on the Fibonacci method. The proposed approach exploits DC measurements in the test phase, performed at a limited number of accessible points. For illustration three numerical examples are given.

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“…If a fault is open circuit or short circuit, it is called hard or catastrophic. In integrated circuits physical imperfections, such as near-opens or near-shorts may occur as spot defects [7,10,21,22]. The methods dedicated to soft fault diagnosis usually exploit the simulation after test approach, where circuit simulations take place after any testing.…”

Section: Introductionmentioning

confidence: 99%

Multiple soft fault diagnosis of DC analog CMOS circuits designed in nanometer technology

Tadeusiewicz

Hałgas

2016

Analog Integr Circ Sig Process

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This paper is devoted to local multiple soft fault diagnosis of nonlinear DC analog CMOS circuits designed in nanometer technology. An algorithm is developed that allows estimating the values of a set of potentially faulty process parameters. It exploits two tests with the input nodes accessible for excitation and the output node accessible for measurement. One of the tests is used to find the parameter values. It leads to a system of nonlinear algebraic type equations that are not given in explicit analytical form and may be satisfied by several sets of the parameter values. To solve the system of the equations the Nelder-Mead optimization method is applied with the objective function properly modified during the computation process. Next the obtained solution, being a set of the parameter values, is validated using the other test. If the solution passes this test it is considered as the actual one. Otherwise, another solution is calculated and verified using the same approach. The developed diagnostic procedure has been implemented in DELPHI, whereas the required by the algorithm circuit analyses are performed using IsSPICE 4 and both environments have been joined together. For illustration three numerical examples are given.

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Spot Defect Diagnosis in Analog Nonlinear Circuits with Possible Multiple Operating Points

Cited by 11 publications

References 23 publications

Analog Circuit Specification Testing by Means of Walsh–Hadamard Transform and Multiple Regression Supported by Evolutionary Computations

Analog Circuit Specification Testing by Means of Walsh–Hadamard Transform and Multiple Regression Supported by Evolutionary Computations

Diagnosis of Soft Spot Short Defects in Analog Circuits Considering the Thermal Behaviour of the Chip

Multiple soft fault diagnosis of DC analog CMOS circuits designed in nanometer technology

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