St. Francis Institute
of Technology - Engineering College
NEW ADDITION LIST - Book
NEW ADDITION LIST - Book
530.4 PHYSICS
1 ] FEYNMAN LECTURES ON
PHYSICS, THE: MAINLY ELECTROMAGNETISM AND MATTER
NOIDA : DORLING KINDERSLEY (PEARSON) , 2013
R
530.4 FEY/LEI
26934
1. Electromagnetism
2. Differential Calculus of Vector Fields
3. Vector Integral Calculus
4. Electrostatics
5. Application of Gauss' Law
6. The Electric Field in Various Circumstances
7. The Electric Field in Various Circumstances (Continued)
8. Electrostatic Energy
9. Electricity in the Atmosphere
10. Dielectrics
11. Inside Dielectrics
12. Electrostatic Analogs
13. Magnetostatics
14. The Magnetic Field in Various Situations
15. The Vector Potential
16. Induced Currents
17. The Laws of Induction
18. The Maxwell Equations
19. The Principle of Least Action
20. Solutions of Maxwell's Equations in Free Space
21. Solutions of Maxwell's Equations with Currents and Charges
22. AC Circuits
23. Cavity Resonators
24. Waveguides
25. Electrodynamics in Relativistic Notation
26. Lorentz Transformations of the Momentum
27. Field Energy and Field Momentum
28. Electromagnetic Mass
29. The Motion of Charges in Electric and magnetic Field
30. The Internal Geometry of Crystals
31. Tensors
32. Refractive Index of Dense Materials
33. Reflection from Surfaces
34. The Magnetism of Matter
35. Paramagnetism and Magnetic Resonance
36. Ferromagnetism
37. Magnetic Materials
38. Elasticity
39. Elastic Materials
40. The Flow of Dry Water
41. The Flow of Wet Water
42. Curved Space
NOIDA : DORLING KINDERSLEY (PEARSON) , 2013
R
530.4 FEY/LEI
26934
1. Electromagnetism
2. Differential Calculus of Vector Fields
3. Vector Integral Calculus
4. Electrostatics
5. Application of Gauss' Law
6. The Electric Field in Various Circumstances
7. The Electric Field in Various Circumstances (Continued)
8. Electrostatic Energy
9. Electricity in the Atmosphere
10. Dielectrics
11. Inside Dielectrics
12. Electrostatic Analogs
13. Magnetostatics
14. The Magnetic Field in Various Situations
15. The Vector Potential
16. Induced Currents
17. The Laws of Induction
18. The Maxwell Equations
19. The Principle of Least Action
20. Solutions of Maxwell's Equations in Free Space
21. Solutions of Maxwell's Equations with Currents and Charges
22. AC Circuits
23. Cavity Resonators
24. Waveguides
25. Electrodynamics in Relativistic Notation
26. Lorentz Transformations of the Momentum
27. Field Energy and Field Momentum
28. Electromagnetic Mass
29. The Motion of Charges in Electric and magnetic Field
30. The Internal Geometry of Crystals
31. Tensors
32. Refractive Index of Dense Materials
33. Reflection from Surfaces
34. The Magnetism of Matter
35. Paramagnetism and Magnetic Resonance
36. Ferromagnetism
37. Magnetic Materials
38. Elasticity
39. Elastic Materials
40. The Flow of Dry Water
41. The Flow of Wet Water
42. Curved Space
537 ELECTRONICS
2 ] DESIGN WITH OPERATIONAL
AMPLIFIERS AND ANALOG INTEGRATED CIRCUITS
NEW DELHI : McGRAW-HILL EDUCATION , 2015
621.3815 FRA
26947
Operational Amplifier Fundamentals
Circuits with Resistive Feedback
Active Filters: Part 1
Active Filters: Part 2
Static Op Amp Limitations
Noise
Stability
Non-Linear Circuits
Signal Generators
Voltage References and Regulators
D-A and A-D Converters
Non-Linear Amplifiers and Phase-Locked Loops
NEW DELHI : McGRAW-HILL EDUCATION , 2015
621.3815 FRA
26947
Operational Amplifier Fundamentals
Circuits with Resistive Feedback
Active Filters: Part 1
Active Filters: Part 2
Static Op Amp Limitations
Noise
Stability
Non-Linear Circuits
Signal Generators
Voltage References and Regulators
D-A and A-D Converters
Non-Linear Amplifiers and Phase-Locked Loops
543.087 ELECTROMAGNETICS
3 ] ELECTROMAGNETIC FIELD
THEORY AND TRANSMISSION LINES
NOIDA : DORLING KINDERSLEY (PEARSON) , 2006
621.3 RAJ
26936
Introduction
Chapter 1. Mathematical Preliminaries
Chapter 2. Electrostatic Fields
Chapter 3. Steady Magnetic Fields
Chapter 4. Maxwells Equations
Chapter 5. Electromagnetic Fields and Waves
Chapter 6. Guided Waves
Chapter 7. Transmission Lines
Chapter 8. Radiation and Antennas
Chapter 9. Advanced Topics
4 ] ELECTROMAGNETIC FIELD THEORY AND TRANSMISSION LINES
NOIDA : DORLING KINDERSLEY (PEARSON) , 2006
R
621.3 RAJ
26935
Introduction
Chapter 1. Mathematical Preliminaries
Chapter 2. Electrostatic Fields
Chapter 3. Steady Magnetic Fields
Chapter 4. Maxwells Equations
Chapter 5. Electromagnetic Fields and Waves
Chapter 6. Guided Waves
Chapter 7. Transmission Lines
Chapter 8. Radiation and Antennas
Chapter 9. Advanced Topics
5 ] ELEMENTS OF ENGINEERING ELECTROMAGNETICS
ILLINOIS ACE SERIES
NOIDA : PEARSON EDUCATION , 2006
R
621.3 RAO
26937
Part 1: Essential elements for electrical and computer engineering
Vectors and Fields
Maxwell's equations in integral form
Maxwell's equations in differential form and uniform plane waves in fre space
Fields and waves in material media
Electromagnetic potentials and topics for circuits and systems
Transmission line essentials for digital electronics
Part 2: Essential / Elective Elements
Transmission lines for communications
Guided wave principles for electronics and optoelectronics
Several topics for electronics and photonics
Principles of radiation and antennas
Several solution techniques
6 ] ELEMENTS OF ENGINEERING ELECTROMAGNETICS
ILLINOIS ACE SERIES
NOIDA : PEARSON EDUCATION , 2006
621.3 RAO
26938
Part 1: Essential elements for electrical and computer engineering
Vectors and Fields
Maxwell's equations in integral form
Maxwell's equations in differential form and uniform plane waves in fre space
Fields and waves in material media
Electromagnetic potentials and topics for circuits and systems
Transmission line essentials for digital electronics
Part 2: Essential / Elective Elements
Transmission lines for communications
Guided wave principles for electronics and optoelectronics
Several topics for electronics and photonics
Principles of radiation and antennas
Several solution techniques
7 ] FIELD AND WAVE ELECTROMAGNETICS
NOIDA : DORLING KINDERSLEY (PEARSON) , 2015
R
621.3 CHE
26941
The electromagnetic model
Vector analysis
Static electric fields
Solution of electrostatic problems
Steady electric currents
Static magnetic fieds
Time varying fields and Maxwell's equations
Plane electromagnetic waves
Theory and applications of transmission lines
Waveguides and cavity resonators
Antennas and radiating systems
NOIDA : DORLING KINDERSLEY (PEARSON) , 2006
621.3 RAJ
26936
Introduction
Chapter 1. Mathematical Preliminaries
Chapter 2. Electrostatic Fields
Chapter 3. Steady Magnetic Fields
Chapter 4. Maxwells Equations
Chapter 5. Electromagnetic Fields and Waves
Chapter 6. Guided Waves
Chapter 7. Transmission Lines
Chapter 8. Radiation and Antennas
Chapter 9. Advanced Topics
4 ] ELECTROMAGNETIC FIELD THEORY AND TRANSMISSION LINES
NOIDA : DORLING KINDERSLEY (PEARSON) , 2006
R
621.3 RAJ
26935
Introduction
Chapter 1. Mathematical Preliminaries
Chapter 2. Electrostatic Fields
Chapter 3. Steady Magnetic Fields
Chapter 4. Maxwells Equations
Chapter 5. Electromagnetic Fields and Waves
Chapter 6. Guided Waves
Chapter 7. Transmission Lines
Chapter 8. Radiation and Antennas
Chapter 9. Advanced Topics
5 ] ELEMENTS OF ENGINEERING ELECTROMAGNETICS
ILLINOIS ACE SERIES
NOIDA : PEARSON EDUCATION , 2006
R
621.3 RAO
26937
Part 1: Essential elements for electrical and computer engineering
Vectors and Fields
Maxwell's equations in integral form
Maxwell's equations in differential form and uniform plane waves in fre space
Fields and waves in material media
Electromagnetic potentials and topics for circuits and systems
Transmission line essentials for digital electronics
Part 2: Essential / Elective Elements
Transmission lines for communications
Guided wave principles for electronics and optoelectronics
Several topics for electronics and photonics
Principles of radiation and antennas
Several solution techniques
6 ] ELEMENTS OF ENGINEERING ELECTROMAGNETICS
ILLINOIS ACE SERIES
NOIDA : PEARSON EDUCATION , 2006
621.3 RAO
26938
Part 1: Essential elements for electrical and computer engineering
Vectors and Fields
Maxwell's equations in integral form
Maxwell's equations in differential form and uniform plane waves in fre space
Fields and waves in material media
Electromagnetic potentials and topics for circuits and systems
Transmission line essentials for digital electronics
Part 2: Essential / Elective Elements
Transmission lines for communications
Guided wave principles for electronics and optoelectronics
Several topics for electronics and photonics
Principles of radiation and antennas
Several solution techniques
7 ] FIELD AND WAVE ELECTROMAGNETICS
NOIDA : DORLING KINDERSLEY (PEARSON) , 2015
R
621.3 CHE
26941
The electromagnetic model
Vector analysis
Static electric fields
Solution of electrostatic problems
Steady electric currents
Static magnetic fieds
Time varying fields and Maxwell's equations
Plane electromagnetic waves
Theory and applications of transmission lines
Waveguides and cavity resonators
Antennas and radiating systems
621.3192 ELECTRICAL
NETWORKS
8 ] ENGINEERING CIRCUIT
ANALYSIS
NEW DELHI : TATA McGRAW-HILL , 2002
621.3192 HAY/KEM
26939
Basic components and electric cirucuits
Voltage and current laws
Basic nodal and mesh analysis
Network topology
Network theorems and useful circuit analysis techniques
Capacitors and inductors
Basic RL and RC circuits
RLC Circuit
Sinusoidal Steady-State analysis
AC power circuit analysis
Polyphase circuits
Magnetically coupled circuits
Complex frequency and the laplace transform
Circuit analysis in the s-Domain
Frequency response
Two-Port Networks
Fourier circuit analysis
9 ] ENGINEERING CIRCUIT ANALYSIS
NEW DELHI : TATA McGRAW-HILL , 2002
621.3192 HAY/KEM
26940
Basic components and electric cirucuits
Voltage and current laws
Basic nodal and mesh analysis
Network topology
Network theorems and useful circuit analysis techniques
Capacitors and inductors
Basic RL and RC circuits
RLC Circuit
Sinusoidal Steady-State analysis
AC power circuit analysis
Polyphase circuits
Magnetically coupled circuits
Complex frequency and the laplace transform
Circuit analysis in the s-Domain
Frequency response
Two-Port Networks
Fourier circuit analysis
NEW DELHI : TATA McGRAW-HILL , 2002
621.3192 HAY/KEM
26939
Basic components and electric cirucuits
Voltage and current laws
Basic nodal and mesh analysis
Network topology
Network theorems and useful circuit analysis techniques
Capacitors and inductors
Basic RL and RC circuits
RLC Circuit
Sinusoidal Steady-State analysis
AC power circuit analysis
Polyphase circuits
Magnetically coupled circuits
Complex frequency and the laplace transform
Circuit analysis in the s-Domain
Frequency response
Two-Port Networks
Fourier circuit analysis
9 ] ENGINEERING CIRCUIT ANALYSIS
NEW DELHI : TATA McGRAW-HILL , 2002
621.3192 HAY/KEM
26940
Basic components and electric cirucuits
Voltage and current laws
Basic nodal and mesh analysis
Network topology
Network theorems and useful circuit analysis techniques
Capacitors and inductors
Basic RL and RC circuits
RLC Circuit
Sinusoidal Steady-State analysis
AC power circuit analysis
Polyphase circuits
Magnetically coupled circuits
Complex frequency and the laplace transform
Circuit analysis in the s-Domain
Frequency response
Two-Port Networks
Fourier circuit analysis
DIGITAL
LOGIC DESIGN
10 ] DIGITAL PRINCIPLES AND
APPLICATIONS
CHENNAI : McGRAW-HILL EDUCATION , 2015
621.395 LEA/MAL
26949
1. Digital Principles 2. Digital Logic 3. Combinational Logic Circuits 4. Data-Processing Circuits 5. Number Systems and Codes 6. Arithmetic Circuits 7. Clocks and Timing Circuits 8. Flip-Flops 9. Registers 10. Counters 11. Design of Synchronous and Asynchronous Sequential Circuits 12. D/A Coversion and A/D Conversion 13. Memory 14. Digital Integrated Circuits 15. Applications 16. A Simple Computer Design
11 ] DIGITAL PRINCIPLES AND APPLICATIONS
CHENNAI : McGRAW-HILL EDUCATION , 2015
621.395 LEA/MAL
26950
1. Digital Principles 2. Digital Logic 3. Combinational Logic Circuits 4. Data-Processing Circuits 5. Number Systems and Codes 6. Arithmetic Circuits 7. Clocks and Timing Circuits 8. Flip-Flops 9. Registers 10. Counters 11. Design of Synchronous and Asynchronous Sequential Circuits 12. D/A Coversion and A/D Conversion 13. Memory 14. Digital Integrated Circuits 15. Applications 16. A Simple Computer Design
12 ] DIGITAL PRINCIPLES AND APPLICATIONS
CHENNAI : McGRAW-HILL EDUCATION , 2015
621.395 LEA/MAL
26948
1. Digital Principles 2. Digital Logic 3. Combinational Logic Circuits 4. Data-Processing Circuits 5. Number Systems and Codes 6. Arithmetic Circuits 7. Clocks and Timing Circuits 8. Flip-Flops 9. Registers 10. Counters 11. Design of Synchronous and Asynchronous Sequential Circuits 12. D/A Coversion and A/D Conversion 13. Memory 14. Digital Integrated Circuits 15. Applications 16. A Simple Computer Design
CHENNAI : McGRAW-HILL EDUCATION , 2015
621.395 LEA/MAL
26949
1. Digital Principles 2. Digital Logic 3. Combinational Logic Circuits 4. Data-Processing Circuits 5. Number Systems and Codes 6. Arithmetic Circuits 7. Clocks and Timing Circuits 8. Flip-Flops 9. Registers 10. Counters 11. Design of Synchronous and Asynchronous Sequential Circuits 12. D/A Coversion and A/D Conversion 13. Memory 14. Digital Integrated Circuits 15. Applications 16. A Simple Computer Design
11 ] DIGITAL PRINCIPLES AND APPLICATIONS
CHENNAI : McGRAW-HILL EDUCATION , 2015
621.395 LEA/MAL
26950
1. Digital Principles 2. Digital Logic 3. Combinational Logic Circuits 4. Data-Processing Circuits 5. Number Systems and Codes 6. Arithmetic Circuits 7. Clocks and Timing Circuits 8. Flip-Flops 9. Registers 10. Counters 11. Design of Synchronous and Asynchronous Sequential Circuits 12. D/A Coversion and A/D Conversion 13. Memory 14. Digital Integrated Circuits 15. Applications 16. A Simple Computer Design
12 ] DIGITAL PRINCIPLES AND APPLICATIONS
CHENNAI : McGRAW-HILL EDUCATION , 2015
621.395 LEA/MAL
26948
1. Digital Principles 2. Digital Logic 3. Combinational Logic Circuits 4. Data-Processing Circuits 5. Number Systems and Codes 6. Arithmetic Circuits 7. Clocks and Timing Circuits 8. Flip-Flops 9. Registers 10. Counters 11. Design of Synchronous and Asynchronous Sequential Circuits 12. D/A Coversion and A/D Conversion 13. Memory 14. Digital Integrated Circuits 15. Applications 16. A Simple Computer Design
ELECTRIC
MACHINERY
13 ] ELECTRIC MACHINERY
CHENNAI : McGRAW-HILL EDUCATION , 2003
621.3104 FIT/KIN
26951
Chapter 1 Magnetic Circuits and Magnetic Materials
Chapter 2 Transformers
Chapter 3 Electromechanical Energy Conversion Principles
Chapter 4 Introduction to Rotating Machines
Chapter 5 Synchronous Machines
Chapter 6 Polyphase Induction Machines
Chapter 7 DC Machines
Chapter 8 Variable-Reluctance Machines and Stepping Motors
Chapter 9 Single- and Two-Phase Motors
Chapter 10 Introduction to Power Electronics
Chapter 11 Speed and Torque Control
Appendix A Three-Phase Circuits
Appendix B Voltages, Magnetic Fields, and Inductances of Distributed AC Windings
Appendix C The dq0 Transformation
Appendix D Engineering Aspects of Practical Electric Machine Performance and Operation
Appendix E Table of Constants and Conversion Factors for SI Units
14 ] GENERALIZED THEORY OF ELECTRIC MACHINES
NEW DELHI : KHANNA , 2017
621.31042 BIM
26955
Elements of Generalized Theory
Linear Transformations in Machines
D.C. Machines
Polyphase Synchronous Machines
Polyphase Induction Machines
Single Phase Motors
A.C. Commutator Machines
Transformers
Special Machines
15 ] GENERALIZED THEORY OF ELECTRIC MACHINES
NEW DELHI : KHANNA , 2017
621.31042 BIM
26954
Elements of Generalized Theory
Linear Transformations in Machines
D.C. Machines
Polyphase Synchronous Machines
Polyphase Induction Machines
Single Phase Motors
A.C. Commutator Machines
Transformers
Special Machines
16 ] GENERALIZED THEORY OF ELECTRIC MACHINES
NEW DELHI : KHANNA , 2017
621.31042 BIM
26956
Elements of Generalized Theory
Linear Transformations in Machines
D.C. Machines
Polyphase Synchronous Machines
Polyphase Induction Machines
Single Phase Motors
A.C. Commutator Machines
Transformers
Special Machines
CHENNAI : McGRAW-HILL EDUCATION , 2003
621.3104 FIT/KIN
26951
Chapter 1 Magnetic Circuits and Magnetic Materials
Chapter 2 Transformers
Chapter 3 Electromechanical Energy Conversion Principles
Chapter 4 Introduction to Rotating Machines
Chapter 5 Synchronous Machines
Chapter 6 Polyphase Induction Machines
Chapter 7 DC Machines
Chapter 8 Variable-Reluctance Machines and Stepping Motors
Chapter 9 Single- and Two-Phase Motors
Chapter 10 Introduction to Power Electronics
Chapter 11 Speed and Torque Control
Appendix A Three-Phase Circuits
Appendix B Voltages, Magnetic Fields, and Inductances of Distributed AC Windings
Appendix C The dq0 Transformation
Appendix D Engineering Aspects of Practical Electric Machine Performance and Operation
Appendix E Table of Constants and Conversion Factors for SI Units
14 ] GENERALIZED THEORY OF ELECTRIC MACHINES
NEW DELHI : KHANNA , 2017
621.31042 BIM
26955
Elements of Generalized Theory
Linear Transformations in Machines
D.C. Machines
Polyphase Synchronous Machines
Polyphase Induction Machines
Single Phase Motors
A.C. Commutator Machines
Transformers
Special Machines
15 ] GENERALIZED THEORY OF ELECTRIC MACHINES
NEW DELHI : KHANNA , 2017
621.31042 BIM
26954
Elements of Generalized Theory
Linear Transformations in Machines
D.C. Machines
Polyphase Synchronous Machines
Polyphase Induction Machines
Single Phase Motors
A.C. Commutator Machines
Transformers
Special Machines
16 ] GENERALIZED THEORY OF ELECTRIC MACHINES
NEW DELHI : KHANNA , 2017
621.31042 BIM
26956
Elements of Generalized Theory
Linear Transformations in Machines
D.C. Machines
Polyphase Synchronous Machines
Polyphase Induction Machines
Single Phase Motors
A.C. Commutator Machines
Transformers
Special Machines
POWER
STATION DESIGN
17 ] MODERN POWER SYSTEM
ANALYSIS
CHENNAI : McGRAW-HILL EDUCATION , 2011
621.3191 KOT/NAG
26953
*Introduction
*Inductance and Resistane of Transmission Lines
*Capacitance of Transmission Lines
*Representation of Power System Components
*Characteristics and Performance of Power Transmission Lines
*Load Flow Studies
*Optimal System Operation
*Automatic Generation and Voltage Control
*Symmetrical Fault Analysis
*Symmetrical Components
*UnSymmetrical Fault Analysis
*Power System Stability
*Power system transients
*High voltage DC (HVDC) transmission
*Power system security
*Voltage stability
*An introduction to state estimation of pwer systems
*Compensation in power systems
*Load forecasting technique
18 ] MODERN POWER SYSTEM ANALYSIS
CHENNAI : McGRAW-HILL EDUCATION , 2011
R
621.3191 KOT/NAG
26952
*Introduction
*Inductance and Resistane of Transmission Lines
*Capacitance of Transmission Lines
*Representation of Power System Components
*Characteristics and Performance of Power Transmission Lines
*Load Flow Studies
*Optimal System Operation
*Automatic Generation and Voltage Control
*Symmetrical Fault Analysis
*Symmetrical Components
*UnSymmetrical Fault Analysis
*Power System Stability
*Power system transients
*High voltage DC (HVDC) transmission
*Power system security
*Voltage stability
*An introduction to state estimation of pwer systems
*Compensation in power systems
*Load forecasting technique
CHENNAI : McGRAW-HILL EDUCATION , 2011
621.3191 KOT/NAG
26953
*Introduction
*Inductance and Resistane of Transmission Lines
*Capacitance of Transmission Lines
*Representation of Power System Components
*Characteristics and Performance of Power Transmission Lines
*Load Flow Studies
*Optimal System Operation
*Automatic Generation and Voltage Control
*Symmetrical Fault Analysis
*Symmetrical Components
*UnSymmetrical Fault Analysis
*Power System Stability
*Power system transients
*High voltage DC (HVDC) transmission
*Power system security
*Voltage stability
*An introduction to state estimation of pwer systems
*Compensation in power systems
*Load forecasting technique
18 ] MODERN POWER SYSTEM ANALYSIS
CHENNAI : McGRAW-HILL EDUCATION , 2011
R
621.3191 KOT/NAG
26952
*Introduction
*Inductance and Resistane of Transmission Lines
*Capacitance of Transmission Lines
*Representation of Power System Components
*Characteristics and Performance of Power Transmission Lines
*Load Flow Studies
*Optimal System Operation
*Automatic Generation and Voltage Control
*Symmetrical Fault Analysis
*Symmetrical Components
*UnSymmetrical Fault Analysis
*Power System Stability
*Power system transients
*High voltage DC (HVDC) transmission
*Power system security
*Voltage stability
*An introduction to state estimation of pwer systems
*Compensation in power systems
*Load forecasting technique
LINEAR
INTEGRATED CIRCUITS
19 ] OP-AMPS AND LINEAR
INTEGRATED CIRCUITS
CHENNAI : PEARSON , 2015
621.3815 GAY
26946
1. Introduction to Operational Amplifiers.
2. Interpretation of Data Sheets and Characteristics of an Op-Amp.
3. An Op-Amp with Negative Feedback.
4. The Practical Op-Amp.
5. Frequency Response of an Op-Amp.
6. General Linear Applications.
7. Active Filters and Oscillators.
8. Comparators and Converters.
9. Specialized IC Applications.
10. Selected IC System Projects.
20 ] OP-AMPS AND LINEAR INTEGRATED CIRCUITS
CHENNAI : PEARSON , 2015
621.3815 GAY
26944
1. Introduction to Operational Amplifiers.
2. Interpretation of Data Sheets and Characteristics of an Op-Amp.
3. An Op-Amp with Negative Feedback.
4. The Practical Op-Amp.
5. Frequency Response of an Op-Amp.
6. General Linear Applications.
7. Active Filters and Oscillators.
8. Comparators and Converters.
9. Specialized IC Applications.
10. Selected IC System Projects.
21 ] OP-AMPS AND LINEAR INTEGRATED CIRCUITS
CHENNAI : PEARSON , 2015
621.3815 GAY
26943
1. Introduction to Operational Amplifiers.
2. Interpretation of Data Sheets and Characteristics of an Op-Amp.
3. An Op-Amp with Negative Feedback.
4. The Practical Op-Amp.
5. Frequency Response of an Op-Amp.
6. General Linear Applications.
7. Active Filters and Oscillators.
8. Comparators and Converters.
9. Specialized IC Applications.
10. Selected IC System Projects.
22 ] OP-AMPS AND LINEAR INTEGRATED CIRCUITS
CHENNAI : PEARSON , 2015
621.3815 GAY
26942
1. Introduction to Operational Amplifiers.
2. Interpretation of Data Sheets and Characteristics of an Op-Amp.
3. An Op-Amp with Negative Feedback.
4. The Practical Op-Amp.
5. Frequency Response of an Op-Amp.
6. General Linear Applications.
7. Active Filters and Oscillators.
8. Comparators and Converters.
9. Specialized IC Applications.
10. Selected IC System Projects.
23 ] OP-AMPS AND LINEAR INTEGRATED CIRCUITS
CHENNAI : PEARSON , 2015
621.3815 GAY
26945
1. Introduction to Operational Amplifiers.
2. Interpretation of Data Sheets and Characteristics of an Op-Amp.
3. An Op-Amp with Negative Feedback.
4. The Practical Op-Amp.
5. Frequency Response of an Op-Amp.
6. General Linear Applications.
7. Active Filters and Oscillators.
8. Comparators and Converters.
9. Specialized IC Applications.
10. Selected IC System Projects.
CHENNAI : PEARSON , 2015
621.3815 GAY
26946
1. Introduction to Operational Amplifiers.
2. Interpretation of Data Sheets and Characteristics of an Op-Amp.
3. An Op-Amp with Negative Feedback.
4. The Practical Op-Amp.
5. Frequency Response of an Op-Amp.
6. General Linear Applications.
7. Active Filters and Oscillators.
8. Comparators and Converters.
9. Specialized IC Applications.
10. Selected IC System Projects.
20 ] OP-AMPS AND LINEAR INTEGRATED CIRCUITS
CHENNAI : PEARSON , 2015
621.3815 GAY
26944
1. Introduction to Operational Amplifiers.
2. Interpretation of Data Sheets and Characteristics of an Op-Amp.
3. An Op-Amp with Negative Feedback.
4. The Practical Op-Amp.
5. Frequency Response of an Op-Amp.
6. General Linear Applications.
7. Active Filters and Oscillators.
8. Comparators and Converters.
9. Specialized IC Applications.
10. Selected IC System Projects.
21 ] OP-AMPS AND LINEAR INTEGRATED CIRCUITS
CHENNAI : PEARSON , 2015
621.3815 GAY
26943
1. Introduction to Operational Amplifiers.
2. Interpretation of Data Sheets and Characteristics of an Op-Amp.
3. An Op-Amp with Negative Feedback.
4. The Practical Op-Amp.
5. Frequency Response of an Op-Amp.
6. General Linear Applications.
7. Active Filters and Oscillators.
8. Comparators and Converters.
9. Specialized IC Applications.
10. Selected IC System Projects.
22 ] OP-AMPS AND LINEAR INTEGRATED CIRCUITS
CHENNAI : PEARSON , 2015
621.3815 GAY
26942
1. Introduction to Operational Amplifiers.
2. Interpretation of Data Sheets and Characteristics of an Op-Amp.
3. An Op-Amp with Negative Feedback.
4. The Practical Op-Amp.
5. Frequency Response of an Op-Amp.
6. General Linear Applications.
7. Active Filters and Oscillators.
8. Comparators and Converters.
9. Specialized IC Applications.
10. Selected IC System Projects.
23 ] OP-AMPS AND LINEAR INTEGRATED CIRCUITS
CHENNAI : PEARSON , 2015
621.3815 GAY
26945
1. Introduction to Operational Amplifiers.
2. Interpretation of Data Sheets and Characteristics of an Op-Amp.
3. An Op-Amp with Negative Feedback.
4. The Practical Op-Amp.
5. Frequency Response of an Op-Amp.
6. General Linear Applications.
7. Active Filters and Oscillators.
8. Comparators and Converters.
9. Specialized IC Applications.
10. Selected IC System Projects.
METALLURGY
24 ] STRUCTURE AND PROPERTIES
OF ENGINEERING ALLOYS
NEW DELHI : MCGRAW HILL EDUCATION , 1993
R
669.9 SMI
26933
Iron carbon alloys 1
Iron carbon alloys 2
Carbon steels
Alloy steels
Aluminium alloys
Coppers and copper alloys
Cast irons
Tool steels
Titanium and its alloys
Nickel and cobalt alloys
Magnesium and zinc alloys
Refractory metals and alloys and structural intermetallics
Surfce hardening and surface modification of metals
NEW DELHI : MCGRAW HILL EDUCATION , 1993
R
669.9 SMI
26933
Iron carbon alloys 1
Iron carbon alloys 2
Carbon steels
Alloy steels
Aluminium alloys
Coppers and copper alloys
Cast irons
Tool steels
Titanium and its alloys
Nickel and cobalt alloys
Magnesium and zinc alloys
Refractory metals and alloys and structural intermetallics
Surfce hardening and surface modification of metals
POWER
STATION DESIGN
25 ] TEXTBOOK
ON POWER SYSTEM ENGINEERING, A
BHATNAGAR, U.S.
DELHI : DHANPAT RAI , 2010
R
621.3191 CHA/SON
26957
Introductory
Thermal Stations
Hydro electric stations
Nuclear power stations
Diesel electric stations
Gas turbine plants
Tariffs and economic aspects in power generation
Introductory
Constants of overhead transmission lines
Steady state characteristics and performance of transmission lines
Overhead line insulators
Mechanical design of overhead lines
Interference of power lines with neighbouring communication circuits
Underground cables
Corona
Load flow study using computer techniques
Power system stability
Load frequency control and load sharing of power generating sources
High voltage AC and DC power transmission
Wave propagation on transmission lines
Lightning and protection against overvoltages due to lightning
Insulation co-ordination
Power system grounding
Electric power supply systems
Power distribution systems
Sub-stations
Symmetrical short circuit capacity calculations
Fault limiting reactors
Symmetrical components' analysis
Unsymmetrical faults in power systems
Fuses
Circuit breaker
Protective relays
Protection of alternators and AC motors
Protection of transformers
Protection of transmission line, shunt inductors and capacitors
Protection of busbars and feeders
Static relays
Industrial applications of electric motors
Heating and welding
Electrolyte and electro-metallurgical processes
Illumination
Electric traction speed time curves and mechanics of train movement
Motors for electric traction
Control of motors
Braking
Electric traction systems and power supply
Tramways, trolley buses and diesel electric traction
26 ] TEXTBOOK ON POWER SYSTEM ENGINEERING, A
BHATNAGAR, U.S.
DELHI : DHANPAT RAI , 2010
621.3191 CHA/SON
26958
Introductory
Thermal Stations
Hydro electric stations
Nuclear power stations
Diesel electric stations
Gas turbine plants
Tariffs and economic aspects in power generation
Introductory
Constants of overhead transmission lines
Steady state characteristics and performance of transmission lines
Overhead line insulators
Mechanical design of overhead lines
Interference of power lines with neighbouring communication circuits
Underground cables
Corona
Load flow study using computer techniques
Power system stability
Load frequency control and load sharing of power generating sources
High voltage AC and DC power transmission
Wave propagation on transmission lines
Lightning and protection against overvoltages due to lightning
Insulation co-ordination
Power system grounding
Electric power supply systems
Power distribution systems
Sub-stations
Symmetrical short circuit capacity calculations
Fault limiting reactors
Symmetrical components' analysis
Unsymmetrical faults in power systems
Fuses
Circuit breaker
Protective relays
Protection of alternators and AC motors
Protection of transformers
Protection of transmission line, shunt inductors and capacitors
Protection of busbars and feeders
Static relays
Industrial applications of electric motors
Heating and welding
Electrolyte and electro-metallurgical processes
Illumination
Electric traction speed time curves and mechanics of train movement
Motors for electric traction
Control of motors
Braking
Electric traction systems and power supply
Tramways, trolley buses and diesel electric traction
BHATNAGAR, U.S.
DELHI : DHANPAT RAI , 2010
R
621.3191 CHA/SON
26957
Introductory
Thermal Stations
Hydro electric stations
Nuclear power stations
Diesel electric stations
Gas turbine plants
Tariffs and economic aspects in power generation
Introductory
Constants of overhead transmission lines
Steady state characteristics and performance of transmission lines
Overhead line insulators
Mechanical design of overhead lines
Interference of power lines with neighbouring communication circuits
Underground cables
Corona
Load flow study using computer techniques
Power system stability
Load frequency control and load sharing of power generating sources
High voltage AC and DC power transmission
Wave propagation on transmission lines
Lightning and protection against overvoltages due to lightning
Insulation co-ordination
Power system grounding
Electric power supply systems
Power distribution systems
Sub-stations
Symmetrical short circuit capacity calculations
Fault limiting reactors
Symmetrical components' analysis
Unsymmetrical faults in power systems
Fuses
Circuit breaker
Protective relays
Protection of alternators and AC motors
Protection of transformers
Protection of transmission line, shunt inductors and capacitors
Protection of busbars and feeders
Static relays
Industrial applications of electric motors
Heating and welding
Electrolyte and electro-metallurgical processes
Illumination
Electric traction speed time curves and mechanics of train movement
Motors for electric traction
Control of motors
Braking
Electric traction systems and power supply
Tramways, trolley buses and diesel electric traction
26 ] TEXTBOOK ON POWER SYSTEM ENGINEERING, A
BHATNAGAR, U.S.
DELHI : DHANPAT RAI , 2010
621.3191 CHA/SON
26958
Introductory
Thermal Stations
Hydro electric stations
Nuclear power stations
Diesel electric stations
Gas turbine plants
Tariffs and economic aspects in power generation
Introductory
Constants of overhead transmission lines
Steady state characteristics and performance of transmission lines
Overhead line insulators
Mechanical design of overhead lines
Interference of power lines with neighbouring communication circuits
Underground cables
Corona
Load flow study using computer techniques
Power system stability
Load frequency control and load sharing of power generating sources
High voltage AC and DC power transmission
Wave propagation on transmission lines
Lightning and protection against overvoltages due to lightning
Insulation co-ordination
Power system grounding
Electric power supply systems
Power distribution systems
Sub-stations
Symmetrical short circuit capacity calculations
Fault limiting reactors
Symmetrical components' analysis
Unsymmetrical faults in power systems
Fuses
Circuit breaker
Protective relays
Protection of alternators and AC motors
Protection of transformers
Protection of transmission line, shunt inductors and capacitors
Protection of busbars and feeders
Static relays
Industrial applications of electric motors
Heating and welding
Electrolyte and electro-metallurgical processes
Illumination
Electric traction speed time curves and mechanics of train movement
Motors for electric traction
Control of motors
Braking
Electric traction systems and power supply
Tramways, trolley buses and diesel electric traction
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