Sale!

Electrical Engineers Reference Book 16th Edition by MA Laughton, DF Warne ISBN 0750646373 9780750646376

Original price was: $50.00.Current price is: $35.00.

Electrical Engineers Reference Book 16th Edition M. A. Laughton Digital Instant Download

Author(s): M. A. Laughton, D. F. Warne
ISBN(s): 9780750646376, 0750646373
Edition: 16
File Details: PDF, 30.27 MB
Year: 2002
Language: english
SKU: EB-925488 Category: Tags: ,

Electrical Engineers Reference Book 16th Edition by MA Laughton, DF Warne – Ebook PDF Instant Download/Delivery: 0750646373, 9780750646376
Full download Electrical Engineers Reference Book 16th Edition after payment

Product details:

ISBN 10: 0750646373 
ISBN 13: 9780750646376
Author: MA Laughton, DF Warne

For ease of use, this edition has been divided into the following subject sections: general principles; materials and processes; control, power electronics and drives; environment; power generation; transmission and distribution; power systems; sectors of electricity use.

New chapters and major revisions include: industrial instrumentation; digital control systems; programmable controllers; electronic power conversion; environmental control; hazardous area technology; electromagnetic compatibility; alternative energy sources; alternating current generators; electromagnetic transients; power system planning; reactive power plant and FACTS controllers; electricity economics and trading; power quality.

*An essential source of techniques, data and principles for all practising electrical engineers
*Written by an international team of experts from engineering companies and universities
*Includes a major new section on control systems, PLCs and microprocessors

Electrical Engineers Reference Book 16th Table of contents:

Section A: General Principles
Chapter 1. Units, Mathematics and Physical Quantities
1.1 International unit system
1.2 Mathematics
1.3 Physical quantities
1.4 Physical properties
1.5 Electricity

Chapter 2. Electrotechnology
2.1 Nomenclature
2.2 Thermal effects
2.3 Electrochemical effects
2.4 Magnetic field effects
2.5 Electric field effects
2.6 Electromagnetic field effects
2.7 Electrical discharges

Chapter 3. Network Analysis
3.1 Introduction
3.2 Basic network analysis
3.3 Power-system network analysis

Section B: Materials & Processes
Chapter 4. Fundamental Properties of Materials
4.1 Introduction
4.2 Mechanical properties
4.3 Thermal properties
4.4 Electrically conducting materials
4.5 Magnetic materials
4.6 Dielectric materials
4.7 Optical materials
4.8 The plasma state

Chapter 5. Conductors Superconductors
5.1 Conducting materials
5.2 Superconductors

Chapter 6. Semiconductor, Thick and Thin-Film Microcircuits
6.1 Silicon, silicon dioxide, thick- and thin-film technology
6.2 Thick- and thin-film microcircuits

Chapter 7. Insulation
7.1 Insulating materials
7.2 Properties and testing
7.3 Gaseous dielectrics
7.4 Liquid dielectrics
7.5 Semi-fluid and fusible materials
7.6 Varnishes, enamels, paints and lacquers
7.7 Solid dielectrics
7.8 Composite solid/liquid dielectrics
7.9 Irradiation effects
7.10 Fundamentals of dielectric theory
7.11 Polymeric insulation for high voltage outdoor applications

Chapter 8. Magnetic Materials
8.1 Ferromagnetics
8.2 Electrical steels including silicon steels
8.3 Soft irons and relay steels
8.4 Ferrites
8.5 Nickel–iron alloys
8.6 Iron–cobalt alloys
8.7 Permanent magnet materials

Chapter 9. Electroheat and Materials Processing
9.1 Introduction
9.2 Direct resistance heating
9.3 Indirect resistance heating
9.4 Electric ovens and furnaces
9.5 Induction heating
9.6 Metal melting
9.7 Dielectric heating
9.8 Ultraviolet processes
9.9 Plasma torches
9.10 Semiconductor plasma processing
9.11 Lasers

Chapter 10. Welding and Soldering
10.1 Arc welding
10.2 Resistance welding
10.3 Fuses
10.4 Contacts
10.5 Special alloys
10.6 Solders
10.7 Rare and precious metals
10.8 Temperature-sensitive bimetals
10.9 Nuclear-reactor materials
10.10 Amorphous materials

Section C: Control
Chapter 11. Electrical Measurement
11.1 Introduction
11.2 Terminology
11.3 The role of measurement traceability in product quality
11.4 National and international measurement standards
11.5 Direct-acting analogue measuring instruments
11.6 Integrating (energy) metering
11.7 Electronic instrumentation
11.8 Oscilloscopes
11.9 Potentiometers and bridges
11.10 Measuring and protection transformers
11.11 Magnetic measurements
11.12 Transducers
11.13 Data recording

Chapter 12. Industrial Instrumentation
12.1 Introduction
12.2 Temperature
12.3 Flow
12.4 Pressure
12.5 Level transducers
12.6 Position transducers
12.7 Velocity and acceleration
12.8 Strain gauges, load cells and weighing
12.9 Fieldbus systems
12.10 Installation notes

Chapter 13. Control Systems
13.1 Introduction
13.2 Laplace transforms and the transfer function
13.3 Block diagrams
13.4 Feedback
13.5 Generally desirable and acceptable behaviour
13.6 Stability
13.7 Classification of system and static accuracy
13.8 Transient behaviour
13.9 Root-locus method
13.10 Frequency-response methods
13.11 State-space description
13.12 Sampled-data systems
13.13 Some necessary mathematical preliminaries
13.14 Sampler and zero-order hold
13.15 Block diagrams
13.16 Closed-loop systems
13.17 Stability
13.18 Example
13.19 Dead-beat response
13.20 Simulation
13.21 Multivariable control
13.22 Dealing with non-linear elements
13.23 Disturbances
13.24 Ratio control
13.25 Transit delays
13.26 Stability
13.27 Industrial controllers
13.28 Digital control algorithms
13.29 Auto-tuners
13.30 Practical tuning methods

Chapter 14. Digital Control Systems
14.1 Introduction
14.2 Logic families
14.3 Combinational logic
14.4 Storage
14.5 Timers and monostables
14.6 Arithmetic circuits
14.7 Counters and shift registers
14.8 Sequencing and event driven logic
14.9 Analog interfacing
14.10 Practical considerations
14.11 Data sheet notations

Chapter 15. Microprocessors
15.1 Introduction
15.2 Structured design of programmable logic systems
15.3 Microprogrammable systems
15.4 Programmable systems
15.5 Processor instruction sets
15.6 Program structures
15.7 Reduced instruction set computers (RISC)
15.8 Software design
15.9 Embedded systems

Chapter 16. Programmable Controllers
16.1 Introduction
16.2 The programmable controller
16.3 Programming methods
16.4 Numerics
16.5 Distributed systems and fieldbus
16.6 Graphics
16.7 Software engineering
16.8 Safety

People also search for Electrical Engineers Reference Book 16th:

*]:pointer-events-auto [content-visibility:auto] supports-[content-visibility:auto]:[contain-intrinsic-size:auto_100lvh] scroll-mt-[calc(var(–header-height)+min(200px,max(70px,20svh)))]” dir=”auto” tabindex=”-1″ data-turn-id=”request-WEB:38a018ef-61a0-4128-93a0-cb20512bf89f-32″ data-testid=”conversation-turn-66″ data-scroll-anchor=”true” data-turn=”assistant”>

electrical engineers reference book 16th

electrical engineers reference book pdf

electrical engineering reference books

electrical engineers reference book 16th edition pdf

electrical engineer’s reference book 16th edition pdf

Tags: MA Laughton, DF Warne, Electrical Engineers