| Preface to First Edition |
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| Preface to Second Edition |
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ix | |
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1 Characterizations of Networks |
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1 | (71) |
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1.1 Linearity and Nonlinearity |
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2 | (5) |
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1.2 Time Invariance and Time Variance |
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7 | (2) |
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1.3 Passivity and Activity |
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9 | (6) |
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1.4 Causality and Noncausality |
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15 | (7) |
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1.5 Matrix Characterizations of n-Port Networks |
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22 | (6) |
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1.6 Equivalent Frequency-Domain Conditions of Passivity |
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28 | (11) |
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1.7 Discrete-Frequency Concepts of Passivity and Activity |
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39 | (22) |
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61 | (11) |
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62 | (8) |
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70 | (2) |
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2 The Indefinite-Admittance Matrix |
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72 | (75) |
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2.1 The Indefinite-Admittance Matrix |
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72 | (5) |
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2.2 Rules for Writing Down the Primitive Indefinite-Admittance Matrix |
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77 | (7) |
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2.3 Terminal Contraction and Suppression |
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84 | (7) |
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2.4 Interrelationships of Transistor Models |
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91 | (11) |
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2.5 The First- and Second-Order Cofactors |
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102 | (3) |
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2.6 Computation of Network Functions |
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105 | (10) |
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2.7 Analysis of Constrained Active Networks |
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115 | (16) |
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2.8 Generalized Norton's Theorem |
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131 | (5) |
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136 | (11) |
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137 | (8) |
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145 | (2) |
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3 Active Two-Port Networks |
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147 | (72) |
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147 | (4) |
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151 | (2) |
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153 | (4) |
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3.4 Passivity and Activity |
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157 | (5) |
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162 | (17) |
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3.6 Potential Instability and Absolute Stability |
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179 | (14) |
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3.7 Optimum Terminations for Absolutely Stable Two-Port Networks |
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193 | (13) |
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206 | (13) |
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207 | (9) |
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216 | (3) |
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4 Theory of Feedback Amplifiers I |
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219 | (81) |
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220 | (2) |
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4.2 Feedback Amplifier Configurations |
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222 | (41) |
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4.3 General Feedback Theory |
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263 | (19) |
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4.4 The Network Functions and Feedback |
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282 | (9) |
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291 | (9) |
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292 | (6) |
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298 | (2) |
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5 Theory of Feedback Amplifiers II |
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300 | (82) |
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5.1 Sensitivity Function and Feedback |
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301 | (10) |
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5.2 The Return Difference and Two-Port Functions |
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311 | (8) |
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5.3 Return Difference and Null Return Difference with Respect to Two Elements |
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319 | (2) |
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5.4 Extensions to Feedback Concepts |
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321 | (6) |
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5.5 The Network Functions and General Return Difference and General Null Return Difference |
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327 | (9) |
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5.6 The Relative Sensitivity Function and Feedback |
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336 | (5) |
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5.7 Signal-Flow Graph Formulation of Feedback Amplifier Theory |
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341 | (6) |
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5.8 Measurement of Return Difference |
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347 | (11) |
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5.9 Considerations on the Invariance of Return Difference |
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358 | (14) |
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372 | (10) |
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374 | (6) |
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380 | (2) |
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6 Stability of Feedback Amplifiers |
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382 | (80) |
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6.1 The Single-Loop Feedback Amplifiers |
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383 | (1) |
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6.2 The Routh Criterion, the Hurwitz Criterion, and the Lienard-Chipart Criterion |
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384 | (8) |
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6.3 The Nyquist Criterion |
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392 | (5) |
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6.4 Applications of the Nyquist Criterion to Single-Loop Feedback Amplifiers |
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397 | (7) |
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6.5 The Root-Locus Method |
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404 | (19) |
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423 | (6) |
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429 | (13) |
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442 | (10) |
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452 | (10) |
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454 | (6) |
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460 | (2) |
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7 Multiple--Loop Feedback Amplifiers |
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462 | (97) |
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7.1 Matrix Signal-Flow Graphs |
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463 | (7) |
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7.2 The Multiple-Loop Feedback Amplifier Theory |
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470 | (35) |
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7.3 Extensions to Feedback Matrices |
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505 | (14) |
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7.4 The Hybrid-Matrix Formulation of Multiple-Loop Feedback Theory |
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519 | (10) |
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7.5 The Sensitivity Matrix and Multiparameter Sensitivity |
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529 | (9) |
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7.6 Computation of Feedback Matrices |
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538 | (9) |
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547 | (12) |
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549 | (7) |
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556 | (3) |
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8 State-Space Analysis and Feedback Theory |
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559 | (98) |
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8.1 State Equations in Normal Form |
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560 | (5) |
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8.2 Graph Matrices and Kirchhoff's Equations |
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565 | (9) |
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8.3 Trees and Fundamental Cutsets and Circuits |
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574 | (10) |
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8.4 Systematic Procedure in Writing State Equations |
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584 | (17) |
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8.5 State Equations for Degenerate Networks |
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601 | (8) |
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8.6 State-Space Formulation of Feedback Theory |
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609 | (23) |
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8.7 State-Space Formulation of Multiple-Loop Feedback Networks |
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632 | (17) |
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649 | (8) |
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651 | (4) |
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655 | (2) |
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9 Topological Analysis of Active Networks |
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657 | (81) |
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658 | (5) |
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9.2 Digraph Associated with an Active Network |
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663 | (8) |
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671 | (10) |
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681 | (16) |
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9.5 Topology and the Summation of Return Differences |
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697 | (22) |
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9.6 Topological Analysis of Active Networks |
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719 | (13) |
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732 | (6) |
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734 | (1) |
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735 | (3) |
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10 Generalized Network Matrices and Their Cofactors |
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738 | (62) |
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10.1 Network Determinants |
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739 | (18) |
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10.2 Generalized Cofactors of the Generalized Network Matrix Determinants |
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757 | (8) |
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10.3 The General Null Return Differences |
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765 | (6) |
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10.4 Relations Between the Loop and Cutset Formulations |
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771 | (3) |
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10.5 The Primary Systems of Equations |
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774 | (1) |
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10.6 Invariance and Incidence Functions |
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775 | (4) |
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10.7 Simple Derivations of Topological Formulas |
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779 | (2) |
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10.8 Topological Evaluation of Feedback Matrices in Multiple-Loop Feedback Amplifiers |
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781 | (15) |
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796 | (4) |
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798 | (2) |
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11 The Indefinite-Impedance Matrix Formulation of Feedback Amplifier Theory |
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800 | (51) |
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11.1 The Indefinite-Impedance Matrix |
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801 | (15) |
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11.2 Extension to Nonplanar Networks |
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816 | (4) |
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11.3 Extension of a Dual Theorem on the Summation of Return Differences |
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820 | (6) |
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11.4 Dual Topological Theorems of Linear Active Networks |
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826 | (7) |
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11.5 Loop-Impedance Matrix Formulation |
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833 | (14) |
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847 | (4) |
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848 | (3) |
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851 | (8) |
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851 | (4) |
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II Conversion Chart for Two-Port Parameters |
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855 | (1) |
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III Outline of a Derivation of Eq. (7.224) |
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856 | (3) |
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| Symbol Index |
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859 | (3) |
| Subject Index |
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862 | |
