| 1 Introduction |
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1 | (28) |
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1.1 Typical Structure and Equivalent Circuits of Power Supply Systems. Features of Circuits with Variable Operating Regime Parameters |
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1 | (2) |
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1.2 Disadvantages of the Well-Known Calculation Methods of Regime Parameters in the Relative Form for Active Two-Poles |
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3 | (8) |
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1.2.1 Volt—Ampere Characteristics of an Active Two-Pole |
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3 | (1) |
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1.2.2 Regime Parameters in the Relative Form |
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4 | (3) |
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1.2.3 Regime Change in the Relative Form |
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7 | (2) |
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1.2.4 Active Two-Port with Changeable Resistance |
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9 | (1) |
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1.2.5 Scales of Regime Parameters for Cascaded Two-Ports |
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9 | (2) |
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1.3 Analysis of the Traditional Approach to Normalizing of Regime Parameters for the Voltage Linear Stabilization |
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11 | (3) |
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14 | (3) |
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1.4.1 Volt Characteristics of an Active Two-Port |
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14 | (1) |
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1.4.2 Traditional Recalculation of the Load Currents |
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14 | (3) |
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1.5 Nonlinear Characteristics |
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17 | (4) |
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1.5.1 Efficiency of Two-Ports with Different Losses |
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17 | (3) |
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1.5.2 Characteristic Regimes of Solar Cells |
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20 | (1) |
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1.5.3 Quasi-resonant Voltage Converter |
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20 | (1) |
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1.5.4 Power-Source and Power-Load Elements |
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21 | (1) |
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1.6 Regulated Voltage Converters |
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21 | (4) |
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1.6.1 Voltage Regulator with a Limited Capacity Voltage Source |
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21 | (2) |
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23 | (1) |
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24 | (1) |
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25 | (4) |
| Part I Electrical Circuits with one Load. Projective Coordinates of a Straight Line Point |
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2 Operating Regimes of an Active Two-Pole. Display of Projective Geometry |
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29 | (26) |
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2.1 Volt—Ampere Characteristics of an Active Two-Pole. Affine and Projective Transformations of Regime Parameters |
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29 | (13) |
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2.1.1 Affine Transformations |
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29 | (8) |
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2.1.2 Projective Transformations |
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37 | (5) |
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2.2 Volt—Ampere Characteristics of an Active Two-Pole with a Variable Element |
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42 | (5) |
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2.2.1 Thevenin Equivalent Circuit with the Variable Internal Resistance |
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42 | (2) |
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2.2.2 Norton Equivalent Circuit with the Variable Internal Conductivity |
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44 | (3) |
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2.3 Regime Symmetry for a Load-Power |
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47 | (7) |
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2.3.1 Symmetry of Consumption and Return of Power |
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48 | (2) |
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2.3.2 Symmetry Relatively to the Maximum Power Point |
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50 | (2) |
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2.3.3 Two Systems of Characteristic Points |
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52 | (2) |
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54 | (1) |
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3 Generalized Equivalent Circuit of an Active Two-Pole with a Variable Element |
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55 | (42) |
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55 | (1) |
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3.2 Circuit with a Series Variable Resistance |
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56 | (14) |
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3.2.1 Disadvantage of the Known Equivalent Circuit |
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56 | (1) |
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3.2.2 Generalized Equivalent Circuit |
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57 | (3) |
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3.2.3 Relative Operative Regimes. Recalculation of the Load Current |
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60 | (5) |
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65 | (5) |
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3.3 Circuit with a Shunt Variable Conductivity |
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70 | (12) |
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3.3.1 Disadvantage of the Known Equivalent Circuit |
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70 | (1) |
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3.3.2 Generalized Equivalent Circuit |
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71 | (3) |
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3.3.3 Relative Operative Regimes. Recalculation of the Load Current |
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74 | (4) |
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78 | (4) |
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3.4 General Case of an Active Two-Pole with a Variable Conductivity |
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82 | (9) |
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3.4.1 Known Equivalent Generator |
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83 | (1) |
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3.4.2 Generalized Equivalent Circuit |
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84 | (3) |
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3.4.3 Example of a Circuit. Recalculation of the Load Current |
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87 | (4) |
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3.5 Stabilization of the Load Current |
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91 | (3) |
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94 | (3) |
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97 | (44) |
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4.1 Input-Output Conformity of Two-Ports as Affine Transformations |
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97 | (5) |
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4.1.1 Conformity of a Two-Port |
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97 | (2) |
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4.1.2 Conformity of Cascaded Two-Ports |
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99 | (3) |
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4.2 Input-Output Conformity of Two-Ports as Projective Transformations |
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102 | (14) |
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4.2.1 Conformity of a Two-Port |
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102 | (4) |
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4.2.2 Versions of Conformities, Invariants, and Cross Ratios |
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106 | (3) |
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4.2.3 Conformity of Cascaded Two-Ports |
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109 | (7) |
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4.3 Use of Invariant Properties for the Transfer of Measuring Signals |
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116 | (4) |
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4.3.1 Transfer of Signals over an Unstable Two-Port |
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116 | (3) |
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4.3.2 Conductivity Measurement by an Unstable Two-Port |
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119 | (1) |
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4.4 Deviation from the Maximum Efficiency of a Two-Port |
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120 | (6) |
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4.4.1 Regime Symmetry for the Input Terminals |
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121 | (2) |
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4.4.2 Regime Symmetry for the Output or Load |
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123 | (3) |
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4.5 Effectiveness of Modular Connections |
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126 | (5) |
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4.5.1 Complementary Knowledge About a Two-Port |
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126 | (1) |
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4.5.2 Parallel Connection of Two Converters |
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127 | (3) |
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4.5.3 Connection of Two-Ports with the Interaction |
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130 | (1) |
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4.6 Effectiveness Indices of a Two-Port with Variable Losses |
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131 | (7) |
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4.6.1 Problems of Energy Indices |
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131 | (1) |
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4.6.2 Influence of Losses on the Load Power |
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131 | (4) |
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4.6.3 Influence of Losses on the Efficiency |
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135 | (3) |
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138 | (3) |
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5 Paralleling of Limited Capacity Voltage Sources |
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141 | (26) |
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141 | (1) |
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5.2 Initial Relationships |
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141 | (2) |
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5.3 Influence of the Load Value on the Current Distribution |
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143 | (10) |
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5.3.1 Analysis of Paralleling Voltage Sources |
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143 | (2) |
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5.3.2 Introduction of Two Concepts |
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145 | (3) |
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5.3.3 Comparison of a Loading Regime of Different Circuits |
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148 | (5) |
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5.4 Influence of the Equalizing Resistance on the Current Distribution |
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153 | (9) |
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5.4.1 Analysis of Paralleling Voltage Sources |
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153 | (1) |
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5.4.2 Introduction of Two Concepts |
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154 | (3) |
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5.4.3 Comparison of a Loading Regime of Different Circuits |
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157 | (5) |
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162 | (5) |
| Part II Multi-port Circuits. Projective Coordinates of a Point on the Plane and Space |
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6 Operating Regimes of an Active Multi-port |
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167 | (40) |
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6.1 Active Two-Port. Affine and Projective Coordinates on the Plane |
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167 | (16) |
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167 | (6) |
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6.1.2 Particular Case of a Two-Port. Introduction of the Projective Plane |
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173 | (2) |
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6.1.3 General Case of a Two-Port. Projective Coordinates |
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175 | (8) |
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6.2 Projective Coordinates in Space |
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183 | (15) |
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6.2.1 Particular Case of a Multi-port |
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183 | (7) |
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6.2.2 General Case of a Multi-port. The Balanced Networks |
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190 | (8) |
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6.3 Projective Coordinates of an Active Two-Port with Stabilization of Load Voltages |
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198 | (7) |
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205 | (2) |
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7 Recalculation of Load Currents of Active Multi-ports |
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207 | (30) |
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7.1 Recalculation of Currents for the Case of Load Changes |
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207 | (6) |
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207 | (3) |
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210 | (3) |
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7.2 Recalculation of Currents for the Case of Changes of Circuit Parameters |
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213 | (11) |
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7.2.1 Change of Lateral Conductivity |
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213 | (6) |
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7.2.2 Change of Longitudinal Conductivity |
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219 | (5) |
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7.3 Comparison of Regimes and Parameters of Active Two-Ports |
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224 | (4) |
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7.4 Comparison of Regime of Active Two-Ports with Linear Stabilizations of Load Voltages |
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228 | (7) |
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235 | (2) |
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8 Passive Multi-port Circuits |
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237 | (38) |
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8.1 Input-Output Conformity of Four-Ports as an Affine Transformation |
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237 | (7) |
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8.2 Input-Output Conformity of Four-Ports as a Projective Transformation |
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244 | (16) |
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8.2.1 Output of a Four-Port |
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244 | (2) |
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8.2.2 Input of a Four-Port |
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246 | (5) |
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8.2.3 Recalculation of Currents at Load Changes |
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251 | (1) |
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8.2.4 Two Cascaded Four-Port Networks |
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252 | (2) |
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8.2.5 Examples of Calculation |
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254 | (6) |
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8.3 Transmission of Two Signals Over Three-Wire Line |
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260 | (3) |
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8.3.1 Transmission by Using of Cross-Ratio |
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260 | (2) |
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8.3.2 Transmission by Using of Affine Ratio |
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262 | (1) |
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8.4 Input-Output Conformity of a Balanced Six-Port |
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263 | (10) |
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273 | (2) |
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9 Generalized Equivalent Circuit of a Multi-port |
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275 | (14) |
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9.1 Generalized Equivalent of an Active Two-Port |
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275 | (7) |
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9.1.1 Disadvantages of Known Equivalent |
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275 | (1) |
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9.1.2 Introduction of the Formal Variant of a Generalized Equivalent |
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276 | (3) |
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9.1.3 Introduction of the Principal Variant of a Generalized Equivalent Circuit |
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279 | (3) |
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9.2 Generalized Equivalent of an Active Three-Port |
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282 | (4) |
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286 | (3) |
| Part III Circuits with Non-Linear Regulation Curves |
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10 Regulation of Load Voltages |
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289 | (24) |
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10.1 Base Model. Display of Conformal Geometry |
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289 | (6) |
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10.2 Using of Hyperbolic Geometry Model |
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295 | (10) |
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296 | (3) |
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299 | (6) |
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305 | (7) |
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306 | (2) |
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308 | (4) |
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312 | (1) |
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11 Stabilization of Load Voltages |
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313 | (24) |
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11.1 Analysis of Load Voltage Stabilization Regimes |
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313 | (11) |
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313 | (2) |
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11.1.2 Use of Hyperbolic Geometry |
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315 | (7) |
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322 | (2) |
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11.2 Given Voltage for the First Variable Load and Voltage Regulation of the Second Given Load |
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324 | (10) |
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11.2.1 Use of Hyperbolic Geometry |
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328 | (2) |
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11.2.2 Regime Change for the First Given Load Resistance |
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330 | (3) |
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333 | (1) |
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334 | (3) |
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12 Pulse-Width Modulation Regulators |
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337 | (24) |
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337 | (1) |
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12.2 Regulation Characteristic of Boost Converter |
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337 | (11) |
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12.3 Regulation Characteristic of Buck—Boost Converter |
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348 | (9) |
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12.3.1 Buck—Boost Converter with an Idealized Choke |
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348 | (6) |
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12.3.2 Buck—Boost Converter with Losses of Choke |
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354 | (3) |
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357 | (4) |
| Part IV Circuits with Non-Linear Load Characteristics |
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13 Power-Source and Power-Load Elements |
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361 | (28) |
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361 | (1) |
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13.2 Two-Valued Regime of a Regulated Converter. The Concept of a Power-Source and Power-Load Element |
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361 | (2) |
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13.3 Influence of Voltage Source Parameters and Power-Load Element onto a Power Supply Regime |
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363 | (11) |
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13.3.1 Ideal Voltage Source |
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363 | (1) |
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13.3.2 Voltage of a Power Supply with Limited Capacity |
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364 | (6) |
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13.3.3 Internal Resistance of a Voltage Source |
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370 | (2) |
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13.3.4 Power of a Power-Load Element |
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372 | (2) |
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13.4 Power-Load Element with Losses |
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374 | (7) |
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13.4.1 Series Loss Resistance |
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374 | (1) |
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13.4.2 Two-Port Loss Circuit |
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375 | (6) |
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13.5 Power Supply Line with Losses |
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381 | (7) |
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388 | (1) |
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14 Quasi-resonant Voltage Converter with Self-limitation of Load Current. Similarity of Load Characteristics of Some Electronic Devices |
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389 | (24) |
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14.1 Load Curve of an Active Two-Pole with Self-limitation of the Current |
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389 | (3) |
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14.2 Equivalent Generator of an Active Two-Pole with Self-limitation of Current |
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392 | (4) |
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14.3 Deviation from the Maximum Load Power Point |
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396 | (4) |
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14.4 Symmetrical Load Characteristic for the Full Area of the Load Voltage Variation |
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400 | (1) |
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14.5 Asymmetrical Load Characteristics |
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401 | (4) |
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14.6 Linearly Hyperbolic Approximation of a Solar Cell Characteristic |
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405 | (5) |
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14.6.1 Approximation Problem |
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405 | (1) |
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14.6.2 Formal Linearly Hyperbolic Approximation |
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405 | (5) |
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410 | (3) |
| Conclusions |
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413 | (2) |
| Index |
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415 | |
