Electrical Engineering : principles and applications / Allan R.Hambley
Publication details: Boston ; New York : Pearson, c2014Edition: 6th editionDescription: 900 p. : ill.(some col.) ; 26 cmISBN:- 9780273793250
- 22 621.381 HAM
| Item type | Current library | Call number | Copy number | Status | Date due | Barcode |
|---|---|---|---|---|---|---|
Book Closed Access
|
Engineering Library | 621.381 HAM 1 (Browse shelf(Opens below)) | 1 | Available | BUML23080575 | |
|
Book Closed Access
|
Engineering Library | 621.381 HAM 2 (Browse shelf(Opens below)) | 2 | Checked out | 09/24/2024 | BUML23080576 |
CONTENT
1. Introduction
1.1 Overview of electrical engineering
1.2 Circuits, currents, and voltages
1.3 Power and energy
1.4 Kirchhoff's current law
etc.
2. Restive Circuit
2.1 Resistances in series and parallel
2.2 Network analysis by using series and parallel equivalents
2.3 Voltage divider and current divider circuits
2.4 Node voltage analysis
etc.
3. Inductance and Capacitance
3.1 Capacitance
3.2 Capacitances in series and parallel
3.3 Physical characteristics of capacitors
etc.
4. Transients
4.1 First order RC circuits
4.2 DC steady state
4.3 RL circuits
4.4 RC and RL circuits with general sources
etc,
5. Steady- State Sinusoidal Analysis
5.1 Sinusoidal currents and voltages
5.2 Phasors
5.3 Complex impedances
5.4 Current analysis with phasos and complex impedances
etc.
6. Frequency Response, Bode Plots, and Resonance
6.1 Fourier analysis, filters and transfer functions
6.2 First order low-pass filters
6.3 Decibels, the cascade connection, and logarithmic frequency scales
6.4 Bode plots
etc.
7. Circuits
7.1 Basic logic circuit concepts
7.2 Representation of numerical data in binary form
7.3 Combinatorial logic circuits
7.4 Synthesis of logic circuits
etc.
8. Computers and Micro controllers
8.1 Computer organization
8.2 Memory types
8.3 Digital process control
8.4 Programming model for the HCS12/9S12 family
etc.
9. Computers-Base Instrumentation Systems
9.1 Measurement of concepts and sensors
9.2 Signal conditioning
9.3 Analog to digital conversion
9.4 Lab-VIEW
etc.
10. Diodes
10.1 Basic diode concepts
10.2 Load line analysis of diode circuits
10.3 Zener diode voltage regulator circuits
10.4 Ideal diode model
etc.
1. Amplifiers: Specifications and External Characteristics
11.1 Basic amplifier concepts
11.2 Cascaded amplifiers
11.3 Power supplies and efficiency
11.4 Additional amplifier models
etc.
12. Field-Effect Transistors
12.1 NMOS and PMOS transistors
12.2 Load line analysis of a simple NMOS amplifier
12.3 Bias circuits
12.4 Small signal equivalent circuits
etc.
13. Bipolar Junction Transistors
13.1 Current and voltage relationships
13.2 Common emitter characteristics
13.3 Load line anaylsis of a common emitter amplifier
13.4 pnp bipolar junction transistor
etc.
14. Operational Amplifiers
14.1 Ideal operational amplifiers
14.2 Inverting amplifiers
14.3 Non-inverting amplifiers
14.4 Design of simple amplifiers
etc.
15. Magnetic Circuits and Transformers
15.1 Magnetic fields
15.2 Magnetic circuits
15.3 Inductance and mutual inductance
15.4 Magnetic materials
etc.
16. DC Machines
16.1 Overview of motors
16.2 Principles of DC machines
16.3 Rotating DC machines
16.4 Shunt connected and separately excited DC motors
etc.
17. AC Machines
17.1 Three phase induction motors
17.2 Equivalent circuit and performance calculations for induction
17.3 Synchronous machines
etc.
Index : p. 887-900
There are no comments on this title.