| 1. |
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Basic Circuit Elements and Waveforms |
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1.1 |
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Circuit Components |
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1.2 |
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Definitions of Electrical Circuits |
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1.3 |
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Conservation of Energy |
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1.4 |
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Source of Electrical Energy |
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1.5 |
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Standard Input Signals |
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1.6 |
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Sinusoidal Signal |
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| 2. |
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Mesh and Node Analysis |
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2.1 |
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Kirchhoff's Laws |
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2.2 |
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Source Transformation |
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2.3 |
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Mesh and Node Analysis |
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2.4 |
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Network Equations for RLC Network |
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2.5 |
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Magnetic Coupling |
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| 3. |
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Graph Theory and Network Equation |
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3.1 |
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Incidence Matrix |
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3.2 |
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Cut-Set Matrix |
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3.3 |
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Tie-Set Matrix and Loop Currents |
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3.4 |
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Trees of a Graph |
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3.5 |
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Analysis of Networks |
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3.6 |
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Network Equilibrium Equation |
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3.7 |
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Duality |
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3.8 |
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General Network Transformations |
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| 4. |
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Fourier Series |
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4.1 |
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Trigonometric Fourier Series |
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4.2 |
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Evaluation of Fourier Coefficients |
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4.3 |
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Waveform Symmetry |
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4.4 |
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Fourier Series in Optimal Sense |
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4.5 |
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Exponential Form of Fourier Series |
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4.6 |
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Fourier Transform |
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| 5. |
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The Laplace Transform |
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5.1 |
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Laplace Transformation |
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5.2 |
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Some Basic Theorems |
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5.3 |
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Gate Function |
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5.4 |
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Impulse Function |
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5.5 |
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Laplace Transform of Periodic Functions |
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| 6. |
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Application Laplace Transform |
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6.1 |
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Solution of Linear Differential Equation |
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6.2 |
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Heaviside's Partial Fraction Expansion |
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6.3 |
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Kirchhoff's Laws |
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6.4 |
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Solution of Network Problems |
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| 7. |
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Network Theorems |
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7.1 |
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Superposition Theorem |
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7.2 |
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Reciprocity Theorem |
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7.3 |
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Thevenin's Theorem |
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7.4 |
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Norton's Theorem |
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7.5 |
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Millman's Theorem |
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7.6 |
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Maximum Power Transfer Theorem |
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7.7 |
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Substitution Theorem |
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7.8 |
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Compensation Theorem |
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7.9 |
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Tellegen's Theorem |
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| 8. |
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Resonance |
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8.1 |
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Series Resonance |
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8.2 |
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Parallel Resonance |
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| 9. |
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Analogous System |
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9.1 |
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Mechanical Elements |
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9.2 |
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D'Alembert's Principle |
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9.3 |
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Force-Voltage Analogy |
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9.4 |
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Force-Current Analogy |
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9.5 |
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Mechanical Couplings |
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9.6 |
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Electro-Mechanical System |
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9.7 |
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Liquid-Level System |
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| 10. |
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Two-Port Network |
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10.1 |
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Characterization of Linear Time-Invariant Two-Port Networks |
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10.2 |
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Open-Circuit Impedance Parameters |
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10.3 |
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Short-Circuit Admittance Parameters |
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10.4 |
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Transmission Parameters |
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10.5 |
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Inverse Transmission Parameters |
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10.6 |
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Hybrid Parameters |
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10.7 |
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Inverse Hybrid Parameters |
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10.8 |
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Interrelationships between the Parameters |
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10.9 |
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Interconnection of Two-Port Networks |
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10.10 |
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Two-Port Symmetry |
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10.11 |
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Input Impedance in terms of Two-Port Parameters |
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10.12 |
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Output Impedance |
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10.13 |
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Image Impedance |
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10.14 |
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Transistors as Two-Port Active Network |
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10.15 |
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Network Components |
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| 11. |
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Attenuators |
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11.1 |
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Nepers, Decibels |
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11.2 |
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Lattice Attenuator |
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11.3 |
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T-Type Attenuator |
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11.4 |
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π-Type Attenuator |
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11.5 |
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L-Type |ittenuator |
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11.6 |
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Ladder type Attenuator |
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11.7 |
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Balanced Attenuators |
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11.8 |
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Insertion Loss |
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| 12. |
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Conventional Filters |
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12.1 |
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Image Impedance |
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12.2 |
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Hyperbolic Trigonometry |
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12.3 |
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Propagation Constant |
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12.4 |
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Properties of Symmetrical Network |
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12.5 |
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Filter Fundamentals |
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| 13. |
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Convolution Integral |
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13.1 |
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Graphical Convolution |
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| 14. |
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State Variable Analysis |
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14.1 |
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Transfer Function |
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14.2 |
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State Transition Matrix |
| 15. |
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Network Functions |
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15.1 |
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Poles and Zeros |
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15.2 |
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Transient Responses |
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| 16. |
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Passive Network Synthesis |
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16.1 |
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Driving Point and Transfer Impedence Function |
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16.2 |
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LC Network |
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16.3 |
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Two Terminal R-L and R-C Network |
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| 17. |
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Feedback System |
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17.1 |
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Block Diagram Representation |
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17.2 |
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Signal Flow Graph |
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17.3 |
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Routh-Hurwitz Stability Criterion |
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