Capacitors : theory, types and applications / Alexander L. Schulz, editor.

Format:

Book

Contributor:

Schulz, Alexander L.

Series:

Electrical engineering developments series.

Electrical engineering developments

Language:

English

Subjects (All):

Capacitors.

Physical Description:

1 online resource (131 p.)

Edition:

1st ed.

Place of Publication:

New York : Nova Science Publishers, Inc., c2011.

Language Note:

English

Summary:

A capacitor or condenser is a passive electronic component consisting of a pair of conductors separated by a dielectric (insulator). When a potential difference (voltage) exists across the conductors, an electric field is present in the dielectric. This field stores energy and produces a mechanical force between the conductors. The effect is greatest when there is a narrow separation between large areas of conductors, hence capacitor conductors are often called plates. This book reviews research on the role of capacitors and capacitance within plasma processing; voltage stabilisation using a storage capacitor; disposal of PCB capacitors in Kazakhstan; and how ideal and real capacitors affect the behaviour of energy efficiencies.

Contents:

Intro

CAPACITORS: THEORY, TYPES AND APPLICATIONS

CONTENTS

PREFACE

Chapter 1 THE ROLE OF CAPACITORS AND CAPACITANCE WITHIN PLASMA PROCESSING

Abstract

1. Filter Construction Design Rules

2. The BatLaw Diplexer

3. Instrumentation Chebyshev Filters

3.1. Chebyshev Filter Responses

3.2. Chebyshev Filter Design

4. Capacitive Plasma-Tool Impedance

5. Matching Networks

5.1. L-Type Matching Network (Worked Example)

5.2. Pi-Type Matching Network (Descriptive)

5.3. T-Type Matching Networks (Descriptive)

5.4. Summary

6. Suppression of Noise within an external RF Power Circuits

7. Frequency Pulling

Conclusions

Acknowledgments

References

Chapter 2 VOLTAGE STABILIZATION USING A STORAGE CAPACITOR

Introduction

1. Grounds

2. Analysis of the Functional Circuit

3. Experiment

Conclusion

Chapter 3 IDEAL AND REAL CAPACITORS: HOW THEIR BEHAVIOUR AFFECT ENERGY EFFICIENCIES

DC Circuits

AC Circuits

Appendix A

Chapter4ACBRIDGECIRCUITRYFORTHECAPACITIVEPOSITIONSENSORINSIDETHESUPERCONDUCTINGLINEARMOTORSYSTEM

1.Introduction

2.CapacitivePositionSensor

3.TrialCircuitsfortheCapacitivePositionSensor

3.1.CapacitanceBridgeandLock-inAmplifierforMonitoringtheMotionoftheArmature

3.2.555OscillatorforMonitoringtheMotionoftheArmature

3.3.Q-meterforMonitoringtheMotionoftheArmature

4.TheACBridgeCircuitsforMonitoringtheMotionoftheArmature

4.1.TheACBridgeCircuitrySetup

4.2.CalibrationCurveat4.2KandPerformanceofthePositionSensor

4.3.TestingtheCapacitivePositionSensorintheExperimentalCellatLiquidHeliumTemperature

5.Conclusion

References.

Chapter 5 PHYSICAL AND ELECTROCHEMICAL PROPERTIES OF QUATERNARY AMMONIUM SALTS BASED ON HALOGEN-FREE CHELATOBORATE ANIONS AND THEIR APPLICATION TO ELECTRIC DOUBLE-LAYER CAPACITORS

1. Introduction

2. Experimental

2.1. Reagents

2.2. Apparatus and Measurements

3. Results and Discussion

3.1. Thermal Analysis

3.2. Electrolytic Properties

3.2.1. Temperature Dependence

3.2.2. Concentration Dependence

3.3. Electrochemical Stability

3.4. Cyclic Voltammetry

3.5. Charge and Discharge Characteristics of Three-Electrode Measurement Cells

3.6. Performance of 2025-Type Coin Cells

3.6.1. Charge-Discharge Characteristics

3.6.2. Rate Capability

3.7. Comparison of Gravimetric Capacitances

3.8. Theoretical Treatment of Cell Voltage-Time Behavior Resulting from a Current Step

INDEX.

Notes:

Description based upon print version of record.

Includes bibliographical references and index.

Description based on print version record and CIP data provided by publisher.

ISBN:

1-61728-049-6

OCLC:

923662355