Tolerance Analysis of Electron Circuits Using MathCAD
Written for the practicing electronics professional, Tolerance Analysis of Electronic Circuits Using MATHCADä offers a comprehensive, step-by-step treatment of methods used to perform analyses essential to the design process of circuit cards and systems of cards, including:\ \ worst-case analysis,\ \ limits for production testing,\ \ component stress analysis,\ \ determining if a design meets specification limits, and\ \ manufacturing yield analysis Using a practical approach that allows...
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Written for the practicing electronics professional, Tolerance Analysis of Electronic Circuits Using MATHCADä offers a comprehensive, step-by-step treatment of methods used to perform analyses essential to the design process of circuit cards and systems of cards, including:worst-case analysis,limits for production testing,component stress analysis,determining if a design meets specification limits, andmanufacturing yield analysis Using a practical approach that allows engineers and technicians to put the techniques directly into practice, the author presents the mathematical procedures used to determine performance limits. The topics and techniques discussed include extreme value and root-sum-square analysis using symmetric and asymmetric tolerance, Monte Carlo analysis using normal and uniform distributions, sensitivity formulas, tolerance analyses of opamp offsets, and anomalies of high-Q ac circuits. Booknews Written for the electronics professional, this compact reference describes step-by-step methods used to perform analyses essential to the design process of circuit cards and systems, including worst-case analysis, limits for production testing, component stress analysis, determining if a design meets specification limits, and manufacturing analysis. Using a practical approach that allows for direct application, Boyd (former technical instructor in the U.S. Air Force) discusses extreme value and root-sum-square analysis using symmetric and asymmetric tolerance, Monte Carlo analysis using normal and uniform distributions, sensitivity formulas, tolerance analyses of opamp offsets, and anomalies of high-Q ac circuits. Annotation c. Book News, Inc., Portland, OR (booknews.com)
IntroductionPt. 1Root-Sum-Square and Extreme Value Analysis1Mathcad Derivatives1Approximate Derivatives3Extreme Value Analysis (EVA)6EVA Summary8Root-Sum-Square (RSS) Analysis9Mathcad Built-in Normal Distribution Functions12DC Differential Amplifier20Asymmetric Tolerances22General RSS/EVA Equation Sequence27Comparing Mathcad EVA with Spice. WCASE Analysis28Comparing Circuit Analysis Methods33More Complicated Circuits34RTD A Matrix36Mathcad EVA/RSS Analysis of an RTD Circuit38Tolerance Analysis of AC Circuits41Mathcad AC Analysis Method42Tolerance Analysis of a Bandpass Filter44Spice Analysis51Bandpass Filter with Asymmetric Tolerances55Low-Pass Filter57Pt. 2Monte Carlo Analysis63Random Number Generator64Mathcad's Random Number Generator65Gaussian Random Number Generator (RNG)66Converting to Random Tolerances67Monte Carlo Analysis-DC Differential Amplifier70MCA of RTD Circuit75MCA Bandpass Filter (BPF)79Fast Monte Carlo Analysis (FMCA)87FMCA-Bandpass Filter88MCA of BPF90Component Slopes92Sallen and Key BPF97Sallen and Key BPF-FMCA and EVA103MCA-Sallen and Key BPF105Why MCA Spikes Occur106Estimating Manufacturing Yield (MY)108BPF Manufacturing Yield Analysis110Pt. 3Advanced Topics115Differential Amplifier, Vo = 0115EVA/RSS of Opamp Offsets117MCA of Opamp Offsets119Comparing Normal and Uniform Distributions121MCA of Opamp Offsets (Cont')123Tolerance Analysis of LM158 Opamp Stability/Phase Margin124Tolerance Analysis of an A-to-D Circuit130Decimal to 8-Bit Binary Conversion131NS MF10 Switched Capacitor Filter-Mode 3 BPF136400-Hz Full-Wave Rectifier Circuit139Confidence Intervals for 3[sigma] RSS144Confidence Intervals for the Mean146Large Circuit147Comparator Circuit152100-Hz Clock Generator158Complementary Feedback Amplifier161Iterative Transient Analysis163Half-Wave Rectifier Transient Analysis166Second Order Transient Analysis168Transient MCA of Bridged-T Circuit173Pulse Transformer-Frequency Response175Pulse Transformer-Transient Response177Spice Listing184Appendix185References201
\ BooknewsWritten for the electronics professional, this compact reference describes step-by-step methods used to perform analyses essential to the design process of circuit cards and systems, including worst-case analysis, limits for production testing, component stress analysis, determining if a design meets specification limits, and manufacturing analysis. Using a practical approach that allows for direct application, Boyd (former technical instructor in the U.S. Air Force) discusses extreme value and root-sum-square analysis using symmetric and asymmetric tolerance, Monte Carlo analysis using normal and uniform distributions, sensitivity formulas, tolerance analyses of opamp offsets, and anomalies of high-Q ac circuits. Annotation c. Book News, Inc., Portland, OR (booknews.com)\ \
