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      21  17 FinFET Technology for Low-Power Applications 17.1 Introduction 17.2 Exiting Multiple-Gate MOSFET Architectures 17.3 FinFET Design and Analysis 17.4 Low-Power Applications 17.5 Conclusion References

      22  18 An Enhanced Power Quality Single-Source Large Step-Up Switched-Capacitor Based Multi-Level Inverter Configuration with Natural Voltage Balancing of Capacitors 18.1 Introduction 18.2 Suggested Topology 18.3 Cascaded Configuration of Suggested Topology 18.4 Modulation Technique 18.5 Power Loss Analysis 18.6 Design of Capacitors 18.7 Comparative Analysis 18.8 Simulation Results 18.9 Conclusions References

      23  Index

      24  End User License Agreement

      List of Illustrations

      1 Chapter 1Figure 1.1 2D view of AJ-DGMOSFET.Figure 1.2 Id versus Vgs plot of AJ-DGMOSFET.Figure 1.3 Id Versus Vgs plot with different oxide region material.Figure 1.4 Id versus Vgs Plot of different gate contact material.Figure 1.5 JL-DG MOSFET with cavity region.Figure 1.6 Id Versus Vgs of AJ-DG MOSFET with varying dielectric constant (Lcavi...

      2 Chapter 2Figure 2.1 Multiplication of two 8-bit number with Urdhwa-Tiryakbhyam Sutra [28]...Figure 2.2 Block diagram of 8*8 multiplier.Figure 2.3 Compressor 3:2.Figure 2.4 Compressor 4:3.Figure 2.5 Compressor 5:3.Figure 2.6 Compressor 8 to 4.Figure 2.7 Compressor 10 to 4.Figure 2.8 Compressor 12 to 5.Figure 2.9 Compressor 15 to 5.Figure 2.10 Compressor 20 to 5.Figure 2.11 Behavioral simulation of 8x8 VM.Figure 2.12 Instance power usage of 8X8 vedic multiplier.Figure 2.13 Instance power usage of 16X16 VM.Figure 2.14 Net power usage of 8X8 VM.Figure 2.15 Net power usage of 16X16 VM.

      3 Chapter 3Figure 3.1 Architecture of the proposed system.Figure 3.2 Flow diagram of the automated system.Figure 3.3 Gas sensor.Figure 3.4 Raspberry pi.Figure 3.5 Flow diagram of the leakage detection.Figure 3.6 Experimental design.Figure 3.7 Experimental design.

      4 Chapter 4Figure 4.1 Edge computing architecture.Figure 4.2 Some of the applications of edge computing.Figure 4.3 Advantages of edge computing.Figure 4.4 Methodology of Smart Healthcare System.

      5 Chapter 5Figure 5.1 Security components.

      6 Chapter 6Figure 6.1 Pump cross section (Source: Horizontal centrifugal pump, DMPF) 1. Cas...Figure 6.2 Pump impeller diameter characteristic curves (Source: www.enggcyclope...Figure 6.3 Motor with VFD.Figure 6.4 Power and speed relationship.Figure 6.5 Pump curve.Figure 6.6 Retrofitted HT motor with LT motor and VFD.Figure 6.7 Smart Industrial pump concept.Figure 6.8 Basic componets of VCR.Figure 6.9 VAR system.Figure 6.10 WHR scheme.Figure 6.11 Street light control scheme by Wipro.Figure 6.12 Street light control scheme by Tata Communications.Figure 6.13 Sample star rating label.Figure 6.14 Inverter operation.Figure 6.15 IoT-enabled air conditioner.Figure 6.16 Smart air conditioner.Figure 6.17 Fan models.Figure 6.18 USA Star rating label for fan.Figure 6.19 Group control of fans.Figure 6.20 Power flow stages in a motor.Figure 6.21 Energy-efficiency ratings by EU.Figure 6.22 Efficiency graph of transformer.Figure 6.23 Super conducting transformers.

      7 Chapter 7Figure 7.1 Clustered wireless sensor network [32].Figure 7.2 Flow diagram.Figure 7.3 System model [34].Figure 7.4 Network design of WSN in proposed system.Figure 7.5 Network design with cluster head in the proposed system.Figure 7.6 Results comparison of Reference paper [5, 13, 14].Figure 7.7 Results comparison of various performance parameters.Figure 7.8 Shows the residual energy of the system w.r.t. simulation time.Figure 7.9 End-to-end delay vs. simulation time.Figure 7.10 Shows the number of hops is less and requires less number of relay n...

      8 Chapter 8Figure 8.1 Block diagram of PV-based inverter fed drive.Figure 8.2 Electrical model of Solar cell.Figure 8.3 I-V and P-V characteristics of PV array.Figure 8.4 MATLAB Simulink Model of Single-Phase H Bridge Inverter.Figure 8.5 Simulation Output of Single-Phase H Bridge Inverter.Figure 8.6 MATLAB Simulink Model of Diode Clamped Multi-Level Inverter.Figure 8.7 Five Level Line Voltage Waveform.Figure 8.8 Five Level Phase Voltage Waveform.Figure 8.9 Five level voltage w.r.t. to DC terminal.Figure 8.10 MATLAB Simulink Model of PV powered H Bridge Inverter fed Drive.Figure 8.11 Output Waveforms of PV powered H Bridge Inverter fed Drive.Figure 8.12 MATLAB Simulink Model of PV powered DCMLI fed Drive.Figure 8.13 Output Waveforms of PV powered DCMLI fed Drive.Figure

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