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    <subfield code="a">Wang, Gaolin.</subfield>
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    <subfield code="a">Reduced DC-Link Capacitance AC Motor Drives.</subfield>
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    <subfield code="a">1st ed.</subfield>
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    <subfield code="a">Singapore :</subfield>
    <subfield code="b">Springer,</subfield>
    <subfield code="c">2020.</subfield>
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    <subfield code="c">&#xFFFD;2021.</subfield>
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    <subfield code="a">Energy Series</subfield>
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    <subfield code="a">Intro -- Preface -- Contents -- Nomenclature -- 1 Basic Knowdge of&amp;#xA0;AC Motor Drives -- 1.1 Structure and&amp;#xA0;Mathematical Model -- 1.1.1 PMSM Applications -- 1.1.2 PMSM Structure -- 1.1.3 PMSM Mathematical Model in&amp;#xA0;Three-Phase Coordinate Frame -- 1.2 Space Vector and&amp;#xA0;Coordinate Transformation -- 1.2.1 Introduction of&amp;#xA0;PMSM Space Vector -- 1.2.2 Coordinate Transformation -- 1.2.3 PMSM Mathematical Model in&amp;#xA0;Different Coordinate Frames -- 1.3 Space Vector Pulse Width Modulation (SVPWM) -- 1.3.1 Principle and&amp;#xA0;Realization of&amp;#xA0;SVPWM -- 1.3.2 Evaluation of&amp;#xA0;Maximum Voltage Vector in&amp;#xA0;SVPWM -- 1.4 Vector Control -- 1.4.1 Basic Structure of&amp;#xA0;Vector Control System -- 1.4.2 Principle of&amp;#xA0;Field Orientation Control -- 1.5 Model Based Sensorless Control -- 1.5.1 Concept of&amp;#xA0;Extended Electromotive Force -- 1.5.2 Sliding-Mode Observer Construction -- 1.5.3 Full-Order Sliding-Mode Observer -- 1.5.4 Stability Analysis of&amp;#xA0;Sliding-Mode Observer -- 1.6 Summary -- References -- 2 High Power Factor Control of&amp;#xA0;Grid Input Current -- 2.1 Power Characteristic Analysis of&amp;#xA0;Drive System -- 2.1.1 Topology of&amp;#xA0;Single-Phase Reduced DC-Link Capacitance Motor Drives -- 2.1.2 Grid Input Power -- 2.1.3 Inverter Output Power -- 2.2 Inverter Power Control -- 2.2.1 Principle of&amp;#xA0;Inverter Power Control -- 2.2.2 Inverter Power Control Scheme -- 2.2.3 Inverter Power Control Loop -- 2.3 Parameter Determination of&amp;#xA0;Inverter Power Controller -- 2.3.1 Mathematical Model of&amp;#xA0;Inverter Power Control Loop -- 2.3.2 Parameters Design of&amp;#xA0;PR Controller -- 2.3.3 Parameters Determination -- 2.4 Inverter Power Compensation Based on&amp;#xA0;DC-Link Voltage Control -- 2.4.1 Performance Evaluation of&amp;#xA0;Inverter Power Control -- 2.4.2 Closed Loop Control of&amp;#xA0;DC-Link Voltage Control -- 2.4.3 DC-Link Voltage Reference Generation -- 2.4.4 DC-Link Voltage Control Realization -- 2.4.5 Analysis of&amp;#xA0;Maximum Motor Speed.</subfield>
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    <subfield code="a">2.5 Experimental Results -- 2.6 Summary -- References -- 3 Resonance Suppression Between Line Inductor and&amp;#xA0;DC-Link Capacitor -- 3.1 Analysis of&amp;#xA0;LC Resonance -- 3.1.1 Drive System Model Construction -- 3.1.2 Stability Analysis of&amp;#xA0;Drive System -- 3.1.3 Influence of&amp;#xA0;DC-Link Capacitance on&amp;#xA0;Drive System -- 3.2 DC-Link Voltage Feedback Based Active Damping Control Method -- 3.2.1 Principle of&amp;#xA0;Active Damping Control -- 3.2.2 Direct Damping Current to&amp;#xA0;Stabilize Drive System -- 3.2.3 Stability Analysis Using Routh-Hurwitz Criterion -- 3.2.4 Realization of&amp;#xA0;Direct Damping Current -- 3.2.5 Parameters Determination of&amp;#xA0;Direct Damping Current Generator -- 3.2.6 Experimental Results -- 3.3 Virtual Resistor Based Active Damping Control -- 3.3.1 Different Configurations of&amp;#xA0;Virtual Damping Resistor -- 3.3.2 Stability Analysis of&amp;#xA0;Virtual Resistor Based Active Damping Control -- 3.4 Inductor Current Feedback Based Active Damping Control Method -- 3.4.1 Realization of&amp;#xA0;Inductor Current Feedback Control -- 3.4.2 Compensation of&amp;#xA0;Distorted Grid Voltage -- 3.4.3 Experimental Results -- 3.5 Summary -- References -- 4 Impedance Model Based Stability Control -- 4.1 Impedance Modeling of&amp;#xA0;PMSM -- 4.2 System Performance Evaluation -- 4.2.1 System Stability Analysis -- 4.2.2 Analysis of&amp;#xA0;Grid Current Harmonics -- 4.3 DC-Link Voltage Feedback Stability Control Method -- 4.3.1 DC-Link Voltage Feedback Based Stability Control Method -- 4.3.2 System Stability Analysis -- 4.3.3 Analysis of&amp;#xA0;Grid Current Harmonics -- 4.4 Grid Current Feedback Based Stabilization Control Method -- 4.4.1 Principle of&amp;#xA0;the&amp;#xA0;Grid Current Feedback Based Stabilization Control Method -- 4.4.2 System Stability Analysis -- 4.4.3 Analysis of&amp;#xA0;Grid Current Harmonics -- 4.4.4 Experimental Results -- 4.5 Summary -- References -- 5 Analysis and&amp;#xA0;Suppression of&amp;#xA0;Beat Phenomenon.</subfield>
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    <subfield code="a">5.1 Beat Phenomenon Simply Caused by&amp;#xA0;DC-Link Voltage -- 5.2 Beat Phenomenon of&amp;#xA0;Reduced DC-Link Capacitance IPMSM Drives -- 5.2.1 Effect of&amp;#xA0;Fluctuated DC-Link Voltage on&amp;#xA0;Motor Current -- 5.2.2 Interaction Between DC-Link Voltage Fluctuation and&amp;#xA0;Load Torque Fluctuation -- 5.3 Drive System Performance Analysis Influenced by&amp;#xA0;Beat Phenomenon -- 5.3.1 Effect of&amp;#xA0;Beat Phenomenon on&amp;#xA0;Grid Current -- 5.3.2 Effect of&amp;#xA0;Beat Phenomenon on&amp;#xA0;Motor Speed -- 5.4 Beat Phenomenon Suppression Method -- 5.4.1 Principle of&amp;#xA0;Beat Phenomenon Suppression Method -- 5.4.2 Beat Phenomenon Suppression of&amp;#xA0;Grid Current -- 5.4.3 Beat Phenomenon Suppression of&amp;#xA0;Motor Speed -- 5.4.4 Experimental Results -- 5.5 Summary -- References -- 6 Flux-Weakening Control Method -- 6.1 Conventional Flux-Weakening Control -- 6.2 Torque Ripple Analysis Caused by&amp;#xA0;DC-Link Voltage Fluctuation -- 6.2.1 Introduction of&amp;#xA0;Three-Phase Reduced DC-Link Capacitance PMSM Drives -- 6.2.2 Analysis of&amp;#xA0;Influence on&amp;#xA0;Stator Voltage -- 6.2.3 Analysis of&amp;#xA0;Torque Ripple -- 6.3 Adjustable Maximum Voltage Based Flux-Weakening Control -- 6.3.1 Principle of&amp;#xA0;the&amp;#xA0;Control Method -- 6.3.2 Realization of&amp;#xA0;the&amp;#xA0;Control Method -- 6.3.3 Analysis of&amp;#xA0;Stator Current Vector Trajectory -- 6.4 Power Loss Analysis of&amp;#xA0;Flux-Weakening Control -- 6.5 Experimental Results -- 6.6 Summary -- References -- 7 Motor Loss Based Anti-Overvoltage Control -- 7.1 Braking Performance Analysis Under Reduced DC-Link Capacitance -- 7.1.1 Electrical Power Analysis Under Breaking Process -- 7.1.2 DC-Link Voltage Analysis Under Breaking Process -- 7.2 Motor Loss Based Braking Method -- 7.3 Stator Current Vector Orientation Based Anti-Overvoltage Control -- 7.3.1 Principle Analysis -- 7.3.2 Current Trajectory Planning in&amp;#xA0;Braking Process -- 7.3.3 Anti-Overvoltage Realization Using Stator Current Vector Orientation -- 7.3.4 Parameters Determination of&amp;#xA0;Voltage Controller.</subfield>
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    <subfield code="a">7.3.5 Experimental Results -- 7.4 Energy Control Error Analysis of&amp;#xA0;Braking Scheme -- 7.5 Dual Anti-Overvoltage Control Method -- 7.5.1 Principle Analysis -- 7.5.2 Realization of&amp;#xA0;Dual Anti-Overvoltage Control Method -- 7.5.3 Analysis of&amp;#xA0;Energy Control Error -- 7.5.4 Voltage Controller Coefficient Autoregulation -- 7.5.5 Experimental Results -- 7.6 Summary -- References -- 8 Optimized Overmodulation Strategy -- 8.1 Overmodulation Method of&amp;#xA0;SVPWM -- 8.1.1 Conventional Overmodulation of&amp;#xA0;SVPWM -- 8.1.2 Analysis of&amp;#xA0;the&amp;#xA0;Overmodulation in&amp;#xA0;Reduced DC-Link Capacitance PMSM Drives -- 8.2 Voltage Distortion Caused by&amp;#xA0;Convensional Dual-Mode Overmodulation -- 8.3 Transition Analysis of&amp;#xA0;Uncontrollable Modulation Region -- 8.4 Voltage Bundary Based Overmodulation Scheme -- 8.4.1 Optimized Voltage Boundary Based Overmodulation Strategy -- 8.4.2 Experimental Results of&amp;#xA0;Optimized Voltage Boundary Based Overmodulation Strategy -- 8.5 Summary -- References.</subfield>
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    <subfield code="a">This book focuses on the advanced control of reduced dc-link capacitance AC motor drives.Compared with the conventional AC motor drives, the reduced DC-link capacitance motor drives could reduce the cost, enhance the reliability and improve the power density.</subfield>
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    <subfield code="a">Description based on publisher supplied metadata and other sources.</subfield>
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    <subfield code="a">Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2026. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries. </subfield>
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    <subfield code="a">Zhao, Nannan.</subfield>
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    <subfield code="a">Zhang, Guoqiang.</subfield>
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    <subfield code="a">Xu, Dianguo.</subfield>
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    <subfield code="i">Print version:</subfield>
    <subfield code="a">Wang, Gaolin</subfield>
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    <subfield code="d">Singapore : Springer,c2020</subfield>
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