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Circuit analysis I [[electronic resource] ] : with MATLAB applications / / Steven T. Karris
Circuit analysis I [[electronic resource] ] : with MATLAB applications / / Steven T. Karris
Autore Karris Steven T
Pubbl/distr/stampa Fremont, Calif., : Orchard Publications, c2003
Descrizione fisica vi, 592 p. : ill
Disciplina 621.319/2
Soggetto topico Electric circuit analysis - Data processing
Soggetto genere / forma Electronic books.
ISBN 1-280-43705-7
9786610437054
0-9744239-3-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover - Front -- Front matter -- Preface -- Table of Contents -- Chapter 1 Concepts and Definitions -- Chapter 2 Analysis of Simple Circuits -- Chapter 3 Nodal and Mesh Equations - Circuit Theorems -- Chapter 4 Introduction to Operational Amplifiers -- Chapter 5 Inductance and Capacitance -- Chapter 6 Sinusoidal Circuit Analysis -- Chapter 7 Phasor Circuit Analysis -- Chapter 8 Average and RMS Values, Complex Power, and Instruments -- Chapter 9 Natural Response -- Chapter 10 Forced and Total Response in RL and RC Circuits -- Appendix A Introduction to MATLAB® -- Appendix B A Review of Complex Numbers -- Appendix C Matrices and Determinants -- Chapter 01 Basic Concepts and Definitions -- 1.14 Answers to Exercises -- 1.13 Exercises -- 1.1 The Coulomb -- 1.2 Electric Current and Ampere -- 1.3 Two Terminal Devices -- 1.4 Voltage (Potential Difference) -- 1.5 Power and Energy -- 1.6 Active and Passive Devices -- 1.7 Circuits and Networks -- 1.8 Active and Passive Networks -- 1.9 Necessary Conditions for Current Flow -- 1.10 International System of Units -- 1.11 Sources of Energy -- 1.12 Summary -- Chapter 02 Analysis of Simple Circuits -- 2.1 Conventions -- 2.2 Ohm's Law -- 2.3 Power Absorbed by a Resistor -- 2.4 Energy Dissipated in a Resistor -- 2.5 Nodes, Branches, Loops and Meshes -- 2.6 Kirchhoff's Current Law (KCL) -- 2.7 Kirchhoff's Voltage Law (KVL) -- 2.8 Single Mesh Circuit Analysis -- 2.9 Single Node-Pair Circuit Analysis -- 2.10 Voltage and Current Source Combinations -- 2.11 Resistance and Conductance Combinations -- 2.12 Voltage Division Expressions -- 2.13 Current Division Expressions -- 2.14 Standards for Electrical and Electronic Devices -- 2.15 Resistor Color Code -- 2.16 Power Rating of Resistors -- 2.17 Temperature Coefficient of Resistance -- 2.18 Ampere Capacity of Wires -- 2.19 Current Ratings for Electronic Equipment.
2.20 Copper Conductor Sizes for Interior Wiring -- 2.21 Summary -- 2.22 Exercises -- 2.23 Answers to Exercises -- Chapter 03 Nodal and Mesh Equationbs - Circuit Theorems -- 3.1 Nodal, Mesh, and Loop Equations -- 3.2 Analysis with Nodal Equations -- 3.3 Analysis with Mesh or Loop Equations -- 3.4 Transformation between Voltage and Current Sources -- 3.5 Thevenin's Theorem -- 3.6 Norton's Theorem -- 3.7 Maximum Power Transfer Theorem -- 3.8 Linearity -- 3.9 Superposition Principle -- 3.10 Circuits with Non-Linear Devices -- 3.11 Efficiency -- 3.12 Regulation -- 3.13 Summary -- 3.14 Exercises -- 3.15 Answers to Exercises -- Chapter 04 Introduction to Operational Amplifiers -- 4.1 Signals -- 4.2 Amplifiers -- 4.3 Decibels -- 4.4 Bandwidth and Frequency Response -- 4.5 The Operational Amplifier -- 4.6 An Overview of the Op Amp -- 4.7 Active Filters -- 4.8 Analysis of Op Amp Circuits -- 4.9 Input and Output Resistance -- 4.10 Summary -- 4.11 Exercises -- 4.12 Answers to Exercises -- Chapter 05 Inductance and Capacitance -- 5.1 Energy Storage Devices -- 5.2 Inductance -- 5.3 Power and Energy in an Inductor -- 5.4 Combinations of Series and Parallel Inductors -- 5.5 Capacitance -- 5.6 Power and Energy in a Capacitor -- 5.7 Capacitance Combinations -- 5.8 Nodal and Mesh Equations in General Terms -- 5.9 Summary -- 5.10 Exercises -- 5.11 Answers to Exercises -- Chapter 06 Sinusoidal Circuit Analysis -- 6.1 Excitation Functions -- 6.2 Circuit Response to Sinusoidal Inputs -- 6.3 The Complex Excitation Function -- 6.4 Phasors in R, L, and C Circuits -- 6.5 Impedance -- 6.6 Admittance -- 6.7 Summary -- 6.8 Exercises -- 6.9 Answers to Exercises -- Chapter 07 Phasor Circuit Analysis -- 7.1 Nodal Analysis -- 7.2 Mesh Analysis -- 7.3 Application of Superposition Principle -- 7.4 Thevenin's and Norton's Theorems -- 7.5 Phasor Analysis in Amplifier Circuits.
7.6 Phasor Diagrams -- 7.7 Electric Filters -- 7.8 Basic Analog Filters -- 7.9 Active Filter Analysis -- 7.10 Summary -- 7.11 Exercises -- 7.12 Answers to Exercises -- Chapter 08 Average and RMS Values, Complex Power, and Instruments -- 8.1 Periodic Time Functions -- 8.2 Average Values -- 8.3 Effective Values -- 8.4 Effective (RMS) Value of Sinusoids -- 8.5 RMS Values of Sinusoids with Different Frequencies -- 8.6 Average Power and Power Factor -- 8.7 Average Power in a Resistive Load -- 8.8 Average Power in Inductive and Capacitive Loads -- 8.9 Average Power in Non-Sinusoidal Waveforms -- 8.10 Lagging and Leading Power Factors -- 8.11 Complex Power - Power Triangle -- 8.12 Power Factor Correction -- 8.13 Instruments -- 8.14 Summary -- 8.15 Exercises -- 8.16 Answers to Exercises -- Chapter 09 Natural Response -- 9.1 The Natural Response of a Series RL circuit -- 9.2 The Natural Response of a Series RC Circuit -- 9.3 Summary -- 9.4 Exercises -- 9.5 Answers to Exercises -- Chapter 10 Forced and Total Response in RL and RC Circuits -- 10.1 The Unit Step Function -- 10.2 The Unit Ramp Function -- 10.3 The Delta Function -- 10.4 The Forced and Total Response in an RL Circuit -- 10.5 The Forced and Total Response in an RC Circuit -- 10.6 Summary -- 10.7 Exercises -- 10.8 Answers to Exercises -- Appendix A Introduction to MATLAB -- A.1 MATLAB® and Simulink® -- A.2 Command Window -- A.3 Roots of Polynomials -- A.4 Polynomial Construction from Known Roots -- A.5 Evaluation of a Polynomial at Specified Values -- A.6 Rational Polynomials -- A.7 Using MATLAB to Make Plots -- A.8 Subplots -- A.9 Multiplication, Division and Exponentiation -- A.10 Script and Function Files -- A.11 Display Formats -- Appendix B A Review of Complex Numbers -- B.1 Definition of a Complex Number -- B.2 Addition and Subtraction of Complex Numbers.
B.3 Multiplication of Complex Numbers -- B.4 Division of Complex Numbers -- B.5 Exponential and Polar Forms of Complex Numbers -- Appendix C Matrices and Determinants -- C.1 Matrix Definition -- C.2 Matrix Operations -- C.3 Special Forms of Matrices -- C.4 Determinants -- C.5 Minors and Cofactors -- C.6 Cramer's Rule -- C.7 Gaussian Elimination Method -- C.8 The Adjoint of a Matrix -- C.9 Singular and Non-Singular Matrices -- C.10 The Inverse of a Matrix -- C.11 Solution of Simultaneous Equations with Matrices -- C.12 Exercises -- Index.
Record Nr. UNINA-9910451044403321
Karris Steven T  
Fremont, Calif., : Orchard Publications, c2003
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Circuit analysis I [[electronic resource] ] : with MATLAB applications / / Steven T. Karris
Circuit analysis I [[electronic resource] ] : with MATLAB applications / / Steven T. Karris
Autore Karris Steven T
Pubbl/distr/stampa Fremont, Calif., : Orchard Publications, c2003
Descrizione fisica vi, 592 p. : ill
Disciplina 621.319/2
Soggetto topico Electric circuit analysis - Data processing
ISBN 1-280-43705-7
9786610437054
0-9744239-3-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover - Front -- Front matter -- Preface -- Table of Contents -- Chapter 1 Concepts and Definitions -- Chapter 2 Analysis of Simple Circuits -- Chapter 3 Nodal and Mesh Equations - Circuit Theorems -- Chapter 4 Introduction to Operational Amplifiers -- Chapter 5 Inductance and Capacitance -- Chapter 6 Sinusoidal Circuit Analysis -- Chapter 7 Phasor Circuit Analysis -- Chapter 8 Average and RMS Values, Complex Power, and Instruments -- Chapter 9 Natural Response -- Chapter 10 Forced and Total Response in RL and RC Circuits -- Appendix A Introduction to MATLAB® -- Appendix B A Review of Complex Numbers -- Appendix C Matrices and Determinants -- Chapter 01 Basic Concepts and Definitions -- 1.14 Answers to Exercises -- 1.13 Exercises -- 1.1 The Coulomb -- 1.2 Electric Current and Ampere -- 1.3 Two Terminal Devices -- 1.4 Voltage (Potential Difference) -- 1.5 Power and Energy -- 1.6 Active and Passive Devices -- 1.7 Circuits and Networks -- 1.8 Active and Passive Networks -- 1.9 Necessary Conditions for Current Flow -- 1.10 International System of Units -- 1.11 Sources of Energy -- 1.12 Summary -- Chapter 02 Analysis of Simple Circuits -- 2.1 Conventions -- 2.2 Ohm's Law -- 2.3 Power Absorbed by a Resistor -- 2.4 Energy Dissipated in a Resistor -- 2.5 Nodes, Branches, Loops and Meshes -- 2.6 Kirchhoff's Current Law (KCL) -- 2.7 Kirchhoff's Voltage Law (KVL) -- 2.8 Single Mesh Circuit Analysis -- 2.9 Single Node-Pair Circuit Analysis -- 2.10 Voltage and Current Source Combinations -- 2.11 Resistance and Conductance Combinations -- 2.12 Voltage Division Expressions -- 2.13 Current Division Expressions -- 2.14 Standards for Electrical and Electronic Devices -- 2.15 Resistor Color Code -- 2.16 Power Rating of Resistors -- 2.17 Temperature Coefficient of Resistance -- 2.18 Ampere Capacity of Wires -- 2.19 Current Ratings for Electronic Equipment.
2.20 Copper Conductor Sizes for Interior Wiring -- 2.21 Summary -- 2.22 Exercises -- 2.23 Answers to Exercises -- Chapter 03 Nodal and Mesh Equationbs - Circuit Theorems -- 3.1 Nodal, Mesh, and Loop Equations -- 3.2 Analysis with Nodal Equations -- 3.3 Analysis with Mesh or Loop Equations -- 3.4 Transformation between Voltage and Current Sources -- 3.5 Thevenin's Theorem -- 3.6 Norton's Theorem -- 3.7 Maximum Power Transfer Theorem -- 3.8 Linearity -- 3.9 Superposition Principle -- 3.10 Circuits with Non-Linear Devices -- 3.11 Efficiency -- 3.12 Regulation -- 3.13 Summary -- 3.14 Exercises -- 3.15 Answers to Exercises -- Chapter 04 Introduction to Operational Amplifiers -- 4.1 Signals -- 4.2 Amplifiers -- 4.3 Decibels -- 4.4 Bandwidth and Frequency Response -- 4.5 The Operational Amplifier -- 4.6 An Overview of the Op Amp -- 4.7 Active Filters -- 4.8 Analysis of Op Amp Circuits -- 4.9 Input and Output Resistance -- 4.10 Summary -- 4.11 Exercises -- 4.12 Answers to Exercises -- Chapter 05 Inductance and Capacitance -- 5.1 Energy Storage Devices -- 5.2 Inductance -- 5.3 Power and Energy in an Inductor -- 5.4 Combinations of Series and Parallel Inductors -- 5.5 Capacitance -- 5.6 Power and Energy in a Capacitor -- 5.7 Capacitance Combinations -- 5.8 Nodal and Mesh Equations in General Terms -- 5.9 Summary -- 5.10 Exercises -- 5.11 Answers to Exercises -- Chapter 06 Sinusoidal Circuit Analysis -- 6.1 Excitation Functions -- 6.2 Circuit Response to Sinusoidal Inputs -- 6.3 The Complex Excitation Function -- 6.4 Phasors in R, L, and C Circuits -- 6.5 Impedance -- 6.6 Admittance -- 6.7 Summary -- 6.8 Exercises -- 6.9 Answers to Exercises -- Chapter 07 Phasor Circuit Analysis -- 7.1 Nodal Analysis -- 7.2 Mesh Analysis -- 7.3 Application of Superposition Principle -- 7.4 Thevenin's and Norton's Theorems -- 7.5 Phasor Analysis in Amplifier Circuits.
7.6 Phasor Diagrams -- 7.7 Electric Filters -- 7.8 Basic Analog Filters -- 7.9 Active Filter Analysis -- 7.10 Summary -- 7.11 Exercises -- 7.12 Answers to Exercises -- Chapter 08 Average and RMS Values, Complex Power, and Instruments -- 8.1 Periodic Time Functions -- 8.2 Average Values -- 8.3 Effective Values -- 8.4 Effective (RMS) Value of Sinusoids -- 8.5 RMS Values of Sinusoids with Different Frequencies -- 8.6 Average Power and Power Factor -- 8.7 Average Power in a Resistive Load -- 8.8 Average Power in Inductive and Capacitive Loads -- 8.9 Average Power in Non-Sinusoidal Waveforms -- 8.10 Lagging and Leading Power Factors -- 8.11 Complex Power - Power Triangle -- 8.12 Power Factor Correction -- 8.13 Instruments -- 8.14 Summary -- 8.15 Exercises -- 8.16 Answers to Exercises -- Chapter 09 Natural Response -- 9.1 The Natural Response of a Series RL circuit -- 9.2 The Natural Response of a Series RC Circuit -- 9.3 Summary -- 9.4 Exercises -- 9.5 Answers to Exercises -- Chapter 10 Forced and Total Response in RL and RC Circuits -- 10.1 The Unit Step Function -- 10.2 The Unit Ramp Function -- 10.3 The Delta Function -- 10.4 The Forced and Total Response in an RL Circuit -- 10.5 The Forced and Total Response in an RC Circuit -- 10.6 Summary -- 10.7 Exercises -- 10.8 Answers to Exercises -- Appendix A Introduction to MATLAB -- A.1 MATLAB® and Simulink® -- A.2 Command Window -- A.3 Roots of Polynomials -- A.4 Polynomial Construction from Known Roots -- A.5 Evaluation of a Polynomial at Specified Values -- A.6 Rational Polynomials -- A.7 Using MATLAB to Make Plots -- A.8 Subplots -- A.9 Multiplication, Division and Exponentiation -- A.10 Script and Function Files -- A.11 Display Formats -- Appendix B A Review of Complex Numbers -- B.1 Definition of a Complex Number -- B.2 Addition and Subtraction of Complex Numbers.
B.3 Multiplication of Complex Numbers -- B.4 Division of Complex Numbers -- B.5 Exponential and Polar Forms of Complex Numbers -- Appendix C Matrices and Determinants -- C.1 Matrix Definition -- C.2 Matrix Operations -- C.3 Special Forms of Matrices -- C.4 Determinants -- C.5 Minors and Cofactors -- C.6 Cramer's Rule -- C.7 Gaussian Elimination Method -- C.8 The Adjoint of a Matrix -- C.9 Singular and Non-Singular Matrices -- C.10 The Inverse of a Matrix -- C.11 Solution of Simultaneous Equations with Matrices -- C.12 Exercises -- Index.
Record Nr. UNINA-9910784211503321
Karris Steven T  
Fremont, Calif., : Orchard Publications, c2003
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Circuit analysis I [[electronic resource] ] : with MATLAB applications / / Steven T. Karris
Circuit analysis I [[electronic resource] ] : with MATLAB applications / / Steven T. Karris
Autore Karris Steven T
Pubbl/distr/stampa Fremont, Calif., : Orchard Publications, c2003
Descrizione fisica vi, 592 p. : ill
Disciplina 621.319/2
Soggetto topico Electric circuit analysis - Data processing
ISBN 1-280-43705-7
9786610437054
0-9744239-3-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover - Front -- Front matter -- Preface -- Table of Contents -- Chapter 1 Concepts and Definitions -- Chapter 2 Analysis of Simple Circuits -- Chapter 3 Nodal and Mesh Equations - Circuit Theorems -- Chapter 4 Introduction to Operational Amplifiers -- Chapter 5 Inductance and Capacitance -- Chapter 6 Sinusoidal Circuit Analysis -- Chapter 7 Phasor Circuit Analysis -- Chapter 8 Average and RMS Values, Complex Power, and Instruments -- Chapter 9 Natural Response -- Chapter 10 Forced and Total Response in RL and RC Circuits -- Appendix A Introduction to MATLAB® -- Appendix B A Review of Complex Numbers -- Appendix C Matrices and Determinants -- Chapter 01 Basic Concepts and Definitions -- 1.14 Answers to Exercises -- 1.13 Exercises -- 1.1 The Coulomb -- 1.2 Electric Current and Ampere -- 1.3 Two Terminal Devices -- 1.4 Voltage (Potential Difference) -- 1.5 Power and Energy -- 1.6 Active and Passive Devices -- 1.7 Circuits and Networks -- 1.8 Active and Passive Networks -- 1.9 Necessary Conditions for Current Flow -- 1.10 International System of Units -- 1.11 Sources of Energy -- 1.12 Summary -- Chapter 02 Analysis of Simple Circuits -- 2.1 Conventions -- 2.2 Ohm's Law -- 2.3 Power Absorbed by a Resistor -- 2.4 Energy Dissipated in a Resistor -- 2.5 Nodes, Branches, Loops and Meshes -- 2.6 Kirchhoff's Current Law (KCL) -- 2.7 Kirchhoff's Voltage Law (KVL) -- 2.8 Single Mesh Circuit Analysis -- 2.9 Single Node-Pair Circuit Analysis -- 2.10 Voltage and Current Source Combinations -- 2.11 Resistance and Conductance Combinations -- 2.12 Voltage Division Expressions -- 2.13 Current Division Expressions -- 2.14 Standards for Electrical and Electronic Devices -- 2.15 Resistor Color Code -- 2.16 Power Rating of Resistors -- 2.17 Temperature Coefficient of Resistance -- 2.18 Ampere Capacity of Wires -- 2.19 Current Ratings for Electronic Equipment.
2.20 Copper Conductor Sizes for Interior Wiring -- 2.21 Summary -- 2.22 Exercises -- 2.23 Answers to Exercises -- Chapter 03 Nodal and Mesh Equationbs - Circuit Theorems -- 3.1 Nodal, Mesh, and Loop Equations -- 3.2 Analysis with Nodal Equations -- 3.3 Analysis with Mesh or Loop Equations -- 3.4 Transformation between Voltage and Current Sources -- 3.5 Thevenin's Theorem -- 3.6 Norton's Theorem -- 3.7 Maximum Power Transfer Theorem -- 3.8 Linearity -- 3.9 Superposition Principle -- 3.10 Circuits with Non-Linear Devices -- 3.11 Efficiency -- 3.12 Regulation -- 3.13 Summary -- 3.14 Exercises -- 3.15 Answers to Exercises -- Chapter 04 Introduction to Operational Amplifiers -- 4.1 Signals -- 4.2 Amplifiers -- 4.3 Decibels -- 4.4 Bandwidth and Frequency Response -- 4.5 The Operational Amplifier -- 4.6 An Overview of the Op Amp -- 4.7 Active Filters -- 4.8 Analysis of Op Amp Circuits -- 4.9 Input and Output Resistance -- 4.10 Summary -- 4.11 Exercises -- 4.12 Answers to Exercises -- Chapter 05 Inductance and Capacitance -- 5.1 Energy Storage Devices -- 5.2 Inductance -- 5.3 Power and Energy in an Inductor -- 5.4 Combinations of Series and Parallel Inductors -- 5.5 Capacitance -- 5.6 Power and Energy in a Capacitor -- 5.7 Capacitance Combinations -- 5.8 Nodal and Mesh Equations in General Terms -- 5.9 Summary -- 5.10 Exercises -- 5.11 Answers to Exercises -- Chapter 06 Sinusoidal Circuit Analysis -- 6.1 Excitation Functions -- 6.2 Circuit Response to Sinusoidal Inputs -- 6.3 The Complex Excitation Function -- 6.4 Phasors in R, L, and C Circuits -- 6.5 Impedance -- 6.6 Admittance -- 6.7 Summary -- 6.8 Exercises -- 6.9 Answers to Exercises -- Chapter 07 Phasor Circuit Analysis -- 7.1 Nodal Analysis -- 7.2 Mesh Analysis -- 7.3 Application of Superposition Principle -- 7.4 Thevenin's and Norton's Theorems -- 7.5 Phasor Analysis in Amplifier Circuits.
7.6 Phasor Diagrams -- 7.7 Electric Filters -- 7.8 Basic Analog Filters -- 7.9 Active Filter Analysis -- 7.10 Summary -- 7.11 Exercises -- 7.12 Answers to Exercises -- Chapter 08 Average and RMS Values, Complex Power, and Instruments -- 8.1 Periodic Time Functions -- 8.2 Average Values -- 8.3 Effective Values -- 8.4 Effective (RMS) Value of Sinusoids -- 8.5 RMS Values of Sinusoids with Different Frequencies -- 8.6 Average Power and Power Factor -- 8.7 Average Power in a Resistive Load -- 8.8 Average Power in Inductive and Capacitive Loads -- 8.9 Average Power in Non-Sinusoidal Waveforms -- 8.10 Lagging and Leading Power Factors -- 8.11 Complex Power - Power Triangle -- 8.12 Power Factor Correction -- 8.13 Instruments -- 8.14 Summary -- 8.15 Exercises -- 8.16 Answers to Exercises -- Chapter 09 Natural Response -- 9.1 The Natural Response of a Series RL circuit -- 9.2 The Natural Response of a Series RC Circuit -- 9.3 Summary -- 9.4 Exercises -- 9.5 Answers to Exercises -- Chapter 10 Forced and Total Response in RL and RC Circuits -- 10.1 The Unit Step Function -- 10.2 The Unit Ramp Function -- 10.3 The Delta Function -- 10.4 The Forced and Total Response in an RL Circuit -- 10.5 The Forced and Total Response in an RC Circuit -- 10.6 Summary -- 10.7 Exercises -- 10.8 Answers to Exercises -- Appendix A Introduction to MATLAB -- A.1 MATLAB® and Simulink® -- A.2 Command Window -- A.3 Roots of Polynomials -- A.4 Polynomial Construction from Known Roots -- A.5 Evaluation of a Polynomial at Specified Values -- A.6 Rational Polynomials -- A.7 Using MATLAB to Make Plots -- A.8 Subplots -- A.9 Multiplication, Division and Exponentiation -- A.10 Script and Function Files -- A.11 Display Formats -- Appendix B A Review of Complex Numbers -- B.1 Definition of a Complex Number -- B.2 Addition and Subtraction of Complex Numbers.
B.3 Multiplication of Complex Numbers -- B.4 Division of Complex Numbers -- B.5 Exponential and Polar Forms of Complex Numbers -- Appendix C Matrices and Determinants -- C.1 Matrix Definition -- C.2 Matrix Operations -- C.3 Special Forms of Matrices -- C.4 Determinants -- C.5 Minors and Cofactors -- C.6 Cramer's Rule -- C.7 Gaussian Elimination Method -- C.8 The Adjoint of a Matrix -- C.9 Singular and Non-Singular Matrices -- C.10 The Inverse of a Matrix -- C.11 Solution of Simultaneous Equations with Matrices -- C.12 Exercises -- Index.
Record Nr. UNINA-9910824861403321
Karris Steven T  
Fremont, Calif., : Orchard Publications, c2003
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Digital circuit analysis and design with simulink modeling [[electronic resource] /] / Steven T. Karris
Digital circuit analysis and design with simulink modeling [[electronic resource] /] / Steven T. Karris
Autore Karris Steven T
Edizione [2nd ed.]
Pubbl/distr/stampa Fremont, CA, : Orchard Publications, c2007
Descrizione fisica 1 online resource (543 p.)
Disciplina 658.5
Soggetto topico Integrated circuits
Electronic circuits
Soggetto genere / forma Electronic books.
ISBN 1-280-75116-9
9786610751167
1-934404-06-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Digital Circuit Analysis & Design Front Cover 2nd Edition.pdf; Digital Circuits SECOND Edition Front Matter.pdf; Digital Circuits SECOND Edition Preface.pdf; Digital Circuits SECOND Edition TOC All Chapters.pdf; Digital Circuits SECOND Edition Chapter 01.pdf; Digital Circuits SECOND Edition Chapter 02.pdf; Digital Circuits SECOND Edition Chapter 03.pdf; Digital Circuits SECOND Edition Chapter 04.pdf; Digital Circuits SECOND Edition Chapter 05.pdf; Digital Circuits SECOND Edition Chapter 06.pdf; Digital Circuits SECOND Edition Chapter 07.pdf; Digital Circuits SECOND Edition Chapter 08.pdf
Digital Circuits SECOND Edition Chapter 09.pdfDigital Circuits SECOND Edition Chapter 10.pdf; Digital Circuits SECOND Edition Chapter 11.pdf; Digital Circuits SECOND Edition Appendix A.pdf; Digital Circuits SECOND Edition Appendix B.pdf; Digital Circuits SECOND Edition Appendix C.pdf; Digital Circuits SECOND Edition Appendix D.pdf; Digital Circuits SECOND Edition Appendix E.pdf; Digital Circuits SECOND Edition Appendi
Record Nr. UNINA-9910451447203321
Karris Steven T  
Fremont, CA, : Orchard Publications, c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Digital circuit analysis and design with simulink modeling [[electronic resource] /] / Steven T. Karris
Digital circuit analysis and design with simulink modeling [[electronic resource] /] / Steven T. Karris
Autore Karris Steven T
Edizione [2nd ed.]
Pubbl/distr/stampa Fremont, CA, : Orchard Publications, c2007
Descrizione fisica 1 online resource (543 p.)
Disciplina 658.5
Soggetto topico Integrated circuits
Electronic circuits
ISBN 1-280-75116-9
9786610751167
1-934404-06-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Digital Circuit Analysis & Design Front Cover 2nd Edition.pdf; Digital Circuits SECOND Edition Front Matter.pdf; Digital Circuits SECOND Edition Preface.pdf; Digital Circuits SECOND Edition TOC All Chapters.pdf; Digital Circuits SECOND Edition Chapter 01.pdf; Digital Circuits SECOND Edition Chapter 02.pdf; Digital Circuits SECOND Edition Chapter 03.pdf; Digital Circuits SECOND Edition Chapter 04.pdf; Digital Circuits SECOND Edition Chapter 05.pdf; Digital Circuits SECOND Edition Chapter 06.pdf; Digital Circuits SECOND Edition Chapter 07.pdf; Digital Circuits SECOND Edition Chapter 08.pdf
Digital Circuits SECOND Edition Chapter 09.pdfDigital Circuits SECOND Edition Chapter 10.pdf; Digital Circuits SECOND Edition Chapter 11.pdf; Digital Circuits SECOND Edition Appendix A.pdf; Digital Circuits SECOND Edition Appendix B.pdf; Digital Circuits SECOND Edition Appendix C.pdf; Digital Circuits SECOND Edition Appendix D.pdf; Digital Circuits SECOND Edition Appendix E.pdf; Digital Circuits SECOND Edition Appendi
Record Nr. UNINA-9910784294603321
Karris Steven T  
Fremont, CA, : Orchard Publications, c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Digital circuit analysis and design with simulink modeling [[electronic resource] /] / Steven T. Karris
Digital circuit analysis and design with simulink modeling [[electronic resource] /] / Steven T. Karris
Autore Karris Steven T
Edizione [2nd ed.]
Pubbl/distr/stampa Fremont, CA, : Orchard Publications, c2007
Descrizione fisica 1 online resource (543 p.)
Disciplina 658.5
Soggetto topico Integrated circuits
Electronic circuits
ISBN 1-280-75116-9
9786610751167
1-934404-06-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Digital Circuit Analysis & Design Front Cover 2nd Edition.pdf; Digital Circuits SECOND Edition Front Matter.pdf; Digital Circuits SECOND Edition Preface.pdf; Digital Circuits SECOND Edition TOC All Chapters.pdf; Digital Circuits SECOND Edition Chapter 01.pdf; Digital Circuits SECOND Edition Chapter 02.pdf; Digital Circuits SECOND Edition Chapter 03.pdf; Digital Circuits SECOND Edition Chapter 04.pdf; Digital Circuits SECOND Edition Chapter 05.pdf; Digital Circuits SECOND Edition Chapter 06.pdf; Digital Circuits SECOND Edition Chapter 07.pdf; Digital Circuits SECOND Edition Chapter 08.pdf
Digital Circuits SECOND Edition Chapter 09.pdfDigital Circuits SECOND Edition Chapter 10.pdf; Digital Circuits SECOND Edition Chapter 11.pdf; Digital Circuits SECOND Edition Appendix A.pdf; Digital Circuits SECOND Edition Appendix B.pdf; Digital Circuits SECOND Edition Appendix C.pdf; Digital Circuits SECOND Edition Appendix D.pdf; Digital Circuits SECOND Edition Appendix E.pdf; Digital Circuits SECOND Edition Appendi
Record Nr. UNINA-9910825802303321
Karris Steven T  
Fremont, CA, : Orchard Publications, c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Electronic devices and amplifier circuits with MATLABʼ / Simulinkʼ / SimElectronics ʼ examples [[electronic resource] /] / Steven T. Karris
Electronic devices and amplifier circuits with MATLABʼ / Simulinkʼ / SimElectronics ʼ examples [[electronic resource] /] / Steven T. Karris
Autore Karris Steven T
Edizione [3rd ed.]
Pubbl/distr/stampa [Fremont, CA], : Orchard Publications, c2012
Descrizione fisica 1 online resource (664 p.)
Disciplina 621.3815
Soggetto topico Electronic apparatus and appliances
Amplifiers (Electronics)
Soggetto genere / forma Electronic books.
ISBN 1-283-55000-8
9786613862457
1-934404-26-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ""Electronic Devices front cover, THIRD""; ""Electronic Devices back cover, THIRD""; ""Front Matter Electronic Devices THIRD Book""; ""Preface Electronic Devices THIRD""; ""TOC Elex THIRD""; ""Table of Contents""; ""Chapter 01 Electronic Devices THIRD""; ""Chapter 02 Electronic Devices THIRD""; ""Chapter 2""; ""2.1 Electrons and Holes""; ""2.2 The Junction Diode""; ""2.3 Graphical Analysis of Circuits with Non-Linear Devices""; ""2.4 Piecewise Linear Approximations""; ""2.5 Low Frequency AC Circuits with Junction Diodes""; ""2.6 Junction Diode Applications in AC Circuits""
""2.7 Peak Rectifier Circuits""""2.8 Clipper Circuits""; ""2.9 DC Restorer Circuits""; ""2.10 Voltage Doubler Circuits""; ""2.11 Diode Applications in Amplitude Modulation (AM) Detection Circuits""; ""2.12 Diode Applications in Frequency Modulation (FM) Detection Circuits""; ""2.13 Zener Diodes""; ""2.14 The Schottky Diode""; ""2.15 Tunnel Diode""; ""2.16 The Varactor""; ""2.17 Optoelectronic Devices""; ""2.18 Summary""; ""2.19 Exercises""; ""2.20 Solutions to End-of-Chapter Exercises""; ""Chapter 03 Electronic Devices THIRD""; ""Chapter 3""; ""3.1 Introduction""
""3.2 NPN Transistor Operation""""3.3 The Bipolar Junction Transistor as an Amplifier""; ""3.3.1 Equivalent Circuit Models - NPN Transistors""; ""3.3.2 Equivalent Circuit Models - PNP Transistors""; ""3.3.3 Effect of Temperature on the - Characteristics""; ""3.3.4 Collector Output Resistance - Early Voltage""; ""3.4 Transistor Amplifier Circuit Biasing""; ""3.5 Fixed Bias""; ""3.6 Self-Bias""; ""3.7 Amplifier Classes and Operation""; ""3.3.1 Class A Amplifier Operation""; ""3.3.2 Class B Amplifier Operation""; ""3.3.3 Class AB Amplifier Operation""; ""3.3.4 Class C Amplifier Operation""
""3.4 Graphical Analysis""""3.5 Power Relations in the Basic Transistor Amplifier""; ""3.6 Piecewise-Linear Analysis of the Transistor Amplifier""; ""3.7 Incremental Linear Models""; ""3.8 Transconductance""; ""3.9 High-Frequency Models for Transistors""; ""3.10 The Darlington Connection""; ""3.11 Transistor Networks""; ""3.3.1 The h-Equivalent Circuit for the Common-Base Transistor""; ""3.3.2 The T-Equivalent Circuit for the Common-Base Transistor""; ""3.3.3 The h-Equivalent Circuit for the Common-Emitter Transistor""; ""3.3.4 The T-Equivalent Circuit for the Common-Emitter Transistor""
""3.3.5 The h-Equivalent Circuit for the Common-Collector Transistor""""3.3.6 The T-Equivalent Circuit for the Common-Collector Transistor Amplifier""; ""3.4 Transistor Cutoff and Saturation Regions""; ""3.3.1 Cutoff Region""; ""3.3.2 Active Region""; ""3.3.3 Saturation Region""; ""3.4 The Ebers-Moll Transistor Model""; ""3.5 Schottky Diode Clamp""; ""3.6 Transistor Specifications""; ""3.7 Summary""; ""3.8 Exercises""; ""3.9 Solutions to End-of-Chapter Exercises""; ""Chapter 04 Electronic Devices THIRD""; ""Chapter 05 Electronic Devices THIRD""; ""Chapter 5""; ""5.1 Operational Amplifier""
""5.2 An Overview of the Op Amp""
Record Nr. UNINA-9910462746903321
Karris Steven T  
[Fremont, CA], : Orchard Publications, c2012
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Electronic devices and amplifier circuits with MATLABʼ / Simulinkʼ / SimElectronics ʼ examples [[electronic resource] /] / Steven T. Karris
Electronic devices and amplifier circuits with MATLABʼ / Simulinkʼ / SimElectronics ʼ examples [[electronic resource] /] / Steven T. Karris
Autore Karris Steven T
Edizione [3rd ed.]
Pubbl/distr/stampa [Fremont, CA], : Orchard Publications, c2012
Descrizione fisica 1 online resource (664 p.)
Disciplina 621.3815
Soggetto topico Electronic apparatus and appliances
Amplifiers (Electronics)
ISBN 1-283-55000-8
9786613862457
1-934404-26-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ""Electronic Devices front cover, THIRD""; ""Electronic Devices back cover, THIRD""; ""Front Matter Electronic Devices THIRD Book""; ""Preface Electronic Devices THIRD""; ""TOC Elex THIRD""; ""Table of Contents""; ""Chapter 01 Electronic Devices THIRD""; ""Chapter 02 Electronic Devices THIRD""; ""Chapter 2""; ""2.1 Electrons and Holes""; ""2.2 The Junction Diode""; ""2.3 Graphical Analysis of Circuits with Non-Linear Devices""; ""2.4 Piecewise Linear Approximations""; ""2.5 Low Frequency AC Circuits with Junction Diodes""; ""2.6 Junction Diode Applications in AC Circuits""
""2.7 Peak Rectifier Circuits""""2.8 Clipper Circuits""; ""2.9 DC Restorer Circuits""; ""2.10 Voltage Doubler Circuits""; ""2.11 Diode Applications in Amplitude Modulation (AM) Detection Circuits""; ""2.12 Diode Applications in Frequency Modulation (FM) Detection Circuits""; ""2.13 Zener Diodes""; ""2.14 The Schottky Diode""; ""2.15 Tunnel Diode""; ""2.16 The Varactor""; ""2.17 Optoelectronic Devices""; ""2.18 Summary""; ""2.19 Exercises""; ""2.20 Solutions to End-of-Chapter Exercises""; ""Chapter 03 Electronic Devices THIRD""; ""Chapter 3""; ""3.1 Introduction""
""3.2 NPN Transistor Operation""""3.3 The Bipolar Junction Transistor as an Amplifier""; ""3.3.1 Equivalent Circuit Models - NPN Transistors""; ""3.3.2 Equivalent Circuit Models - PNP Transistors""; ""3.3.3 Effect of Temperature on the - Characteristics""; ""3.3.4 Collector Output Resistance - Early Voltage""; ""3.4 Transistor Amplifier Circuit Biasing""; ""3.5 Fixed Bias""; ""3.6 Self-Bias""; ""3.7 Amplifier Classes and Operation""; ""3.3.1 Class A Amplifier Operation""; ""3.3.2 Class B Amplifier Operation""; ""3.3.3 Class AB Amplifier Operation""; ""3.3.4 Class C Amplifier Operation""
""3.4 Graphical Analysis""""3.5 Power Relations in the Basic Transistor Amplifier""; ""3.6 Piecewise-Linear Analysis of the Transistor Amplifier""; ""3.7 Incremental Linear Models""; ""3.8 Transconductance""; ""3.9 High-Frequency Models for Transistors""; ""3.10 The Darlington Connection""; ""3.11 Transistor Networks""; ""3.3.1 The h-Equivalent Circuit for the Common-Base Transistor""; ""3.3.2 The T-Equivalent Circuit for the Common-Base Transistor""; ""3.3.3 The h-Equivalent Circuit for the Common-Emitter Transistor""; ""3.3.4 The T-Equivalent Circuit for the Common-Emitter Transistor""
""3.3.5 The h-Equivalent Circuit for the Common-Collector Transistor""""3.3.6 The T-Equivalent Circuit for the Common-Collector Transistor Amplifier""; ""3.4 Transistor Cutoff and Saturation Regions""; ""3.3.1 Cutoff Region""; ""3.3.2 Active Region""; ""3.3.3 Saturation Region""; ""3.4 The Ebers-Moll Transistor Model""; ""3.5 Schottky Diode Clamp""; ""3.6 Transistor Specifications""; ""3.7 Summary""; ""3.8 Exercises""; ""3.9 Solutions to End-of-Chapter Exercises""; ""Chapter 04 Electronic Devices THIRD""; ""Chapter 05 Electronic Devices THIRD""; ""Chapter 5""; ""5.1 Operational Amplifier""
""5.2 An Overview of the Op Amp""
Record Nr. UNINA-9910785518903321
Karris Steven T  
[Fremont, CA], : Orchard Publications, c2012
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Electronic devices and amplifier circuits with MATLABʼ / Simulinkʼ / SimElectronics ʼ examples [[electronic resource] /] / Steven T. Karris
Electronic devices and amplifier circuits with MATLABʼ / Simulinkʼ / SimElectronics ʼ examples [[electronic resource] /] / Steven T. Karris
Autore Karris Steven T
Edizione [3rd ed.]
Pubbl/distr/stampa [Fremont, CA], : Orchard Publications, c2012
Descrizione fisica 1 online resource (664 p.)
Disciplina 621.3815
Soggetto topico Electronic apparatus and appliances
Amplifiers (Electronics)
ISBN 1-283-55000-8
9786613862457
1-934404-26-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ""Electronic Devices front cover, THIRD""; ""Electronic Devices back cover, THIRD""; ""Front Matter Electronic Devices THIRD Book""; ""Preface Electronic Devices THIRD""; ""TOC Elex THIRD""; ""Table of Contents""; ""Chapter 01 Electronic Devices THIRD""; ""Chapter 02 Electronic Devices THIRD""; ""Chapter 2""; ""2.1 Electrons and Holes""; ""2.2 The Junction Diode""; ""2.3 Graphical Analysis of Circuits with Non-Linear Devices""; ""2.4 Piecewise Linear Approximations""; ""2.5 Low Frequency AC Circuits with Junction Diodes""; ""2.6 Junction Diode Applications in AC Circuits""
""2.7 Peak Rectifier Circuits""""2.8 Clipper Circuits""; ""2.9 DC Restorer Circuits""; ""2.10 Voltage Doubler Circuits""; ""2.11 Diode Applications in Amplitude Modulation (AM) Detection Circuits""; ""2.12 Diode Applications in Frequency Modulation (FM) Detection Circuits""; ""2.13 Zener Diodes""; ""2.14 The Schottky Diode""; ""2.15 Tunnel Diode""; ""2.16 The Varactor""; ""2.17 Optoelectronic Devices""; ""2.18 Summary""; ""2.19 Exercises""; ""2.20 Solutions to End-of-Chapter Exercises""; ""Chapter 03 Electronic Devices THIRD""; ""Chapter 3""; ""3.1 Introduction""
""3.2 NPN Transistor Operation""""3.3 The Bipolar Junction Transistor as an Amplifier""; ""3.3.1 Equivalent Circuit Models - NPN Transistors""; ""3.3.2 Equivalent Circuit Models - PNP Transistors""; ""3.3.3 Effect of Temperature on the - Characteristics""; ""3.3.4 Collector Output Resistance - Early Voltage""; ""3.4 Transistor Amplifier Circuit Biasing""; ""3.5 Fixed Bias""; ""3.6 Self-Bias""; ""3.7 Amplifier Classes and Operation""; ""3.3.1 Class A Amplifier Operation""; ""3.3.2 Class B Amplifier Operation""; ""3.3.3 Class AB Amplifier Operation""; ""3.3.4 Class C Amplifier Operation""
""3.4 Graphical Analysis""""3.5 Power Relations in the Basic Transistor Amplifier""; ""3.6 Piecewise-Linear Analysis of the Transistor Amplifier""; ""3.7 Incremental Linear Models""; ""3.8 Transconductance""; ""3.9 High-Frequency Models for Transistors""; ""3.10 The Darlington Connection""; ""3.11 Transistor Networks""; ""3.3.1 The h-Equivalent Circuit for the Common-Base Transistor""; ""3.3.2 The T-Equivalent Circuit for the Common-Base Transistor""; ""3.3.3 The h-Equivalent Circuit for the Common-Emitter Transistor""; ""3.3.4 The T-Equivalent Circuit for the Common-Emitter Transistor""
""3.3.5 The h-Equivalent Circuit for the Common-Collector Transistor""""3.3.6 The T-Equivalent Circuit for the Common-Collector Transistor Amplifier""; ""3.4 Transistor Cutoff and Saturation Regions""; ""3.3.1 Cutoff Region""; ""3.3.2 Active Region""; ""3.3.3 Saturation Region""; ""3.4 The Ebers-Moll Transistor Model""; ""3.5 Schottky Diode Clamp""; ""3.6 Transistor Specifications""; ""3.7 Summary""; ""3.8 Exercises""; ""3.9 Solutions to End-of-Chapter Exercises""; ""Chapter 04 Electronic Devices THIRD""; ""Chapter 05 Electronic Devices THIRD""; ""Chapter 5""; ""5.1 Operational Amplifier""
""5.2 An Overview of the Op Amp""
Record Nr. UNINA-9910814502403321
Karris Steven T  
[Fremont, CA], : Orchard Publications, c2012
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Introduction to Simulink with engineering applications [[electronic resource] /] / Steven T. Karris
Introduction to Simulink with engineering applications [[electronic resource] /] / Steven T. Karris
Autore Karris Steven T
Edizione [3rd ed.]
Pubbl/distr/stampa [Fremont, Calif.], : Orchard Publications, 2011
Descrizione fisica 1 v. (various pagings) : ill. (some col.)
Disciplina 518
Soggetto topico Engineering mathematics - Data processing
Computer simulation - Computer programs
Soggetto genere / forma Electronic books.
ISBN 1-283-25284-8
9786613252845
1-934404-22-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Intro -- Simulink 2011 TOC All Chapters -- Simulink 2011 Ch 01 -- Simulink 2011 Ch 03 -- Chapter 3 -- 3.1 An Application of Newton's Second Law -- 3.2 Ball Thrown Vertically Upward -- 3.3 Barge Pulled by Horse Teams -- 3.4 Rated Speed of an Automobile on a Highway Curve -- 3.5 Train Traveling on a 3 Per Cent Grade -- 3.6 Spring with Upper End Fastened to a Rigid Support -- Simulink 2011 Ch 04 -- Chapter 4 -- 4.1 Rise of a Liquid in a Capillary Tube -- 4.2 An Application of a Simplified Form of the Bernoulli Equation -- 4.3 Takeoff Speed for an Aircraft -- 4.4 An Application of the Bulk Modulus -- 4.5 Calculation of Fluid Flow in an Open Channel -- Simulink 2011 Ch 05 -- Chapter 5 -- 5.1 Chemical Solutions -- 5.2 Heat Flow -- 5.3 Cantilever Beam Deflection -- 5.4 Tractrix Curve -- 5.5 Bessel Differential Equation -- 5.6 Van der Pol Differential Equation -- 5.7 Simple Pendulum -- 5.8 Simple Oscillator -- 5.9 Zero-Order Hold and First-Order Hold as Reconstructors -- 5.10 Direct Form Realizations of a Digital Filter -- 5.11 Series Form Realization of a Digital Filter -- 5.12 Parallel Form Realization of a Digital Filter -- 5.13 3-bit Up / Down Counter -- 5.14 4-bit Ring Counter -- 5.15 Mass-Spring-Dashpot -- 5.16 Cascaded Mass-Spring System -- 5.17 Mechanical Accelerometer -- 5.18 Feedback Control Systems -- 5.19 Electric Circuit in Phasor Form -- 5.20 Application of the Superposition Principle -- 5.21 Discrete Time Integration with Variable Amplitude Input -- 5.22 S-Function Example 1 -- 5.23 S-Function Example 2 -- 5.24 Concluding Remarks -- Simulink 2011 Appendix A -- Appendix A -- A.1 MATLAB® and Simulink® -- A.2 Command Window -- A.3 Roots of Polynomials -- A.4 Polynomial Construction from Known Roots -- A.5 Evaluation of a Polynomial at Specified Values -- A.6 Rational Polynomials -- A.7 Using MATLAB to Make Plots -- A.8 Subplots.
A.9 Multiplication, Division, and Exponentiation -- A.10 Script and Function Files -- A.11 Display Formats -- Simulink 2011 Appendix B -- Appendix B -- Masked Subsystems -- his appendix presents an overview of masked subsystems, and a step-by-step procedure to create custom user interfaces, i.e., masks for Simulink subsystems. -- B.1 Masks Defined -- A mask is a custom user interface for a subsystem. A masked subsystem conceals the subsystem's contents, and it appear to the user as an atomic block with its own icon and parameter dialog box. However, a masked subsystem provides only graphical, not... -- B.2 Advantages Using Masked Subsystems -- A masked subsystem allows us to -- 1. Replace the parameter dialogs of a subsystem and its contents with a single parameter dialog with its own block description, parameter prompts, and help text. -- 2. Replace a subsystem's standard icon with a custom icon that shows its purpose. -- 3. Prevent accidental modification of subsystems by concealing their contents behind a mask. -- 4. Placing a masked subsystem in a library. We can also mask S-Function and Model blocks. -- B.3 Mask Features -- Masks can include any of the following features: -- Mask Icon - The mask icon replaces a subsystem's standard icon, i.e., it appears in a block diagram in place of the standard icon for a subsystem block. Simulink uses MATLAB code that we supply to draw the custom icon. We can use any MATLAB drawing c... -- Mask Parameters - Masked subsystems allow us to define a set of user-specified parameters. Simulink stores the values of these parameters in the mask workspace as the value of a variable whose name you specify. These associated variables allow us to ...
Mask Parameter Dialog Box - The mask parameter dialog box contains controls that enable a user to set the values of the mask's parameters and hence the values of any internal parameters linked to the mask parameters. The mask parameter dialog box rep... -- Mask Initialization Code - The initialization code is MATLAB code that you specify and that Simulink runs to initialize the masked subsystem at critical times, such as model loading and the start of a simulation run (see Initialization Pane). You can... -- Mask Workspace - Simulink associates a workspace with each masked subsystem that you create. Simulink stores the current values of the subsystem's parameters in the workspace as well as any variables created by the block's initialization code and par... -- A block parameter expression can refer only to variables defined in the mask workspaces of the subsystem or nested subsystems that contain the block or in the model's workspace. -- A valid reference to a variable defined on more than one level in the model hierarchy resolves to the most local definition. -- For example, let us suppose that model M contains masked subsystem A, which contains masked subsystem B. Also, let us suppose that B refers to a variable x that exists in both A's and M's workspaces. In this case, the reference resolves to the value ... -- A masked subsystem's initialization code can refer only to variables in its local workspace. -- The mask workspace of a Model block is not visible to the model that it references. Any variables used by the referenced model must resolve to workspaces defined in the referenced model or to the base (i.e., the MATLAB) workspace. -- B.4 Creating a Masked Subsystem -- It is best to illustrate the creation of a masked subsystem with an example. -- Example B.1 -- The Simulink model in Figure B.1 below implements the quadratic equation .
Figure B.1. Simulink model for Example B.1 -- To create a subsystem, we replace the Unknown x block with an Inport block, we encircle all blocks except the Inport and Outport blocks, and from the Edit drop menu we select Create Subsystem. The model now appears as shown in Figure B.2. -- Figure B.2. The model in Figure B.1 shown as a subsystem block -- To see the contents of the Subsystem in Figure B.2, we double-click the Subsystem block and now the model appears as shown in Figure B.3. -- Figure B.3. The contents of the subsystem block -- With the Subsystem block in Figure B.2 selected, from the Edit drop menu we click on the Mask Subsystem and the Mask Editor window appears as shown in Figure B.4. With the Icon tab selected as shown, we position the text cursor in the Icon Drawing co... -- Figure B.4. The Mask Editor window for Example B.1 -- Figure B.5. The masked subsystem with an imported image -- We right-click on the Subsystem block in Figure B.5, and from the drop menu we select Edit Mask. From the Mask Editor window which appears, we select the Parameters tab shown in Figure B.6 below. -- Figure B.6. The Parameters tab for the Mask Editor window -- We select the Add tool and the Mask Editor window now appears as shown in Figure B.7. -- Figure B.7. The Mask Editor window for specifying the attributes of the masked parameters -- The Mask Editor in Figure B.7 is used to specify the attributes of the masked parameters. The Prompt column under Dialog parameters is used as a text label to describe the parameter. For our example we enter Constant a, Constant b, and Constant c. Th... -- Figure B.8. The Masked Editor with the equation constants specified.
We right-click on the masked subsystem block shown in Figure B.5, Page B-5, and in the Function Block Parameters dialog box we enter the values 1, -5, and 6 for the variables a, b, and c respectively, as shown in Figure B.9. -- Figure B.9. The Function Block Parameters window with the values of the constants -- With the variables defined as above, the masked subsystem implements the quadratic equation -- and the roots of this equation are and . Our model is tested for the first root as shown in Figure B.10. -- Figure B.10. -- The Mask Editor also contains the Initialization tab that allows us to enter MATLAB commands that initialize the masked subsystem, and the Documentation tab that lets us define or modify the type description and help text for a masked subsystem. Thes... -- Simulink 2011 Appendix C -- Appendix C -- C.1 Inport, Outport, and Subsystem -- C.2 Ground -- C.3 Terminator -- C.4 Constant and Product -- C.6 Bus Creator and Bus Selector -- C.7 Mux and Demux -- C.8 Switch -- C.9 Sum -- C.11 Relational Operator -- C.14 Integrator -- C.15 Unit Delay -- C.16 Discrete-Time Integrator -- C.17 Data Types and Data Type Conversion -- C.18 Vector Concatenate -- Simulink 2011 Appendix E -- Appendix E -- E.1 Saturation -- E.2 Saturation Dynamic -- E.3 Dead Zone -- E.4 Dead Zone Dynamic -- E.5 Rate Limiter -- E.6 Rate Limiter Dynamic -- E.7 Backlash -- E.8 Relay -- E.9 Quantizer -- E.10 Hit Crossing -- E.11 Coulomb and Viscous Friction -- E.12 Wrap to Zero -- E.13 Nonlinear Systems - Describing Functions -- Appendix F -- F.3 Tapped Delay -- F.4 Discrete-Time Integrator -- F.5 Discrete Transfer Fcn -- F.6 Discrete Filter -- F.7 Discrete Zero-Pole -- F.8 Difference -- F.9 Discrete Derivative -- F.10 Discrete State-Space -- F.11 Transfer Fcn First Order -- F.12 Transfer Fcn Lead or Lag -- F.13 Transfer Fcn Real Zero -- F.14 Discrete FIR Filter.
F.15 Memory.
Record Nr. UNINA-9910461360503321
Karris Steven T  
[Fremont, Calif.], : Orchard Publications, 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
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