Knowledge in ELECTRICAL ENGINEERING
BASIC ELECTRICAL MACHINES
In electrical engineering, the electric machine is a general term for machines using electromagnetic forces, such as electric motors, electric generators, and others
Arya Sunil
BASIC ELECTRICAL MACHINES-PPT
In electrical engineering, the electric machine is a general term for machines using electromagnetic forces, such as electric motors, electric generators, and others
Three phase induction motor
An induction motor or 3 phase induction motor is an AC electric motor in which the electric current in the rotor needed to produce torque is obtained by electromagnetic induction from the magnetic field of the stator winding. An induction motor can, therefore, be made without electrical connections to the rotor.
TRANSFORMERS MATERIAL
Insulation materials used in transformers: Other than active materials, for example, copper and grain-oriented silicon steel, a large number of ferrous, non-ferrous and insulating materials are used in power transformers.
THREE PHASE AC CIRCUITS
Three-phase electric power is a common method of alternating current electric power generation, transmission, and distribution. It is a type of polyphase system and is the most common method used by electrical grids worldwide to transfer power.
ELECTRICAL ENGINEERING -UPSC previous year papers
A COLLECTION OF UPSC IES EXAMINATION PREVIOUS YEAR PAPERS FOR ELECTICAL ENGINEERS
Aditya Chaubey
Two lamps controlled by two switch
This module gives detailed information about two lamps controlled by two switch.The material will be useful for both students and for general knowledge.
Aravind Roy
One lamp controlled by one switch
This clip provide details about One lamp controlled by one switch.The material will be useful for both students and for general knowledge.
One lamp controlled by two switch
This material tells us about how to execute One lamp controlled by two switch.The material will be useful for both students and for general knowledge.
Measurement and instrumentation for ELECTRICAL ENGINEERS
notes of measurement and instrumentation for college's semester examination and other examinations
Akhand Shahi
Electrical measurement
A well written notes of electrical measurement from the department of electrical engineering
ENGINEERING CIRCUIT ANALYSIS EIGHTH EDITION William H. Hayt, Jr. Jack E. Kemmerly ,Steven M. Durbin
About the authors: WILLIAM H. HAYT, Jr., received his B.S. and M.S. at Purdue University and his Ph.D. from the University of Illinois. After spending four years in industry, Professor Hayt joined the faculty of Purdue University, where he served as Professor and Head of the School of Electrical Engineering, and as Professor Emeritus after retiring in 1986. Besides Engineering Circuit Analysis, Professor Hayt authored three other texts, including Engineering Electromagnetics, now in its eighth edition with McGraw-Hill. Professor Hayt’s professional society memberships included Eta Kappa Nu, Tau Beta Pi, Sigma Xi, Sigma Delta Chi, Fellow of IEEE, ASEE, and NAEB. While at Purdue, he received numerous teaching awards, including the univer- sity’s Best Teacher Award. He is also listed in Purdue’s Book of Great Teachers, a permanent wall display in the Purdue Memorial Union, dedi- cated on April 23, 1999. The book bears the names of the inaugural group of 225 faculty members, past and present, who have devoted their lives to excellence in teaching and scholarship. They were chosen by their students and their peers as Purdue’s finest educators. JACK E. KEMMERLY received his B.S. magna cum laude from The Catholic University of America, M.S. from University of Denver, and Ph.D. from Purdue University. Professor Kemmerly first taught at Purdue University and later worked as principal engineer at the Aeronutronic Division of Ford Motor Company. He then joined California State University, Fullerton, where he served as Professor, Chairman of the Faculty of Electrical Engi- neering, Chairman of the Engineering Division, and Professor Emeritus. Professor Kemmerly’s professional society memberships included Eta Kappa Nu, Tau Beta Pi, Sigma Xi, ASEE, and IEEE (Senior Member). His pursuits outside of academe included being an officer in the Little League and a scoutmaster in the Boy Scouts. STEVEN M. DURBIN received the B.S., M.S. and Ph.D. degrees in Electrical Engineering from Purdue University,West Lafayette, Indiana. Subsequently, he was with the Department of Electrical Engineering at Florida State University and FloridaA&M University before joining the University of Canterbury, New Zealand,in2000.SinceAugust2010,hehasbeenwiththeUniversityatBuffalo, The State University of NewYork, where he holds a joint appointment between the Departments of Electrical Engineering and Physics. His teaching interests include circuits, electronics, electromagnetics, solid-state electronics and nanotechnology. His research interests are primarily concerned with the development of new semiconductor materials—in particular those based on ox- ide and nitride compounds—as well as novel optoelectronic device structures. HeisafoundingprincipalinvestigatoroftheMacDiarmidInstituteforAdvanced Materials and Nanotechnology, a New Zealand National Centre of Research Excellence,andcoauthorofover100technicalpublications.Heisaseniormem- ber of the IEEE, and a member of Eta Kappa Nu, the Electron Devices Society, the Materials Research Society, the AVS (formerly the American Vacuum Society),theAmericanPhysicalSociety,andtheRoyalSocietyofNewZealand. Contents: PREFACE xv 1 ● INTRODUCTION 1 2 ● BASIC COMPONENTS AND ELECTRIC CIRCUITS 9 3 ● VOLTAGE AND CURRENT LAWS 39 4 ● BASIC NODAL AND MESH ANALYSIS 79 5 ● HANDY CIRCUIT ANALYSIS TECHNIQUES 123 6 ● THE OPERATIONAL AMPLIFIER 175 7 ● CAPACITORS AND INDUCTORS 217 8 ● BASIC RL AND RC CIRCUITS 261 9 ● THE RLC CIRCUIT 321 10 ● SINUSOIDAL STEADY-STATE ANALYSIS 371 11 ● AC CIRCUIT POWER ANALYSIS 421 12 ● POLYPHASE CIRCUITS 457 13 ● MAGNETICALLY COUPLED CIRCUITS 493 14 ● COMPLEX FREQUENCY AND THE LAPLACE TRANSFORM 533 15 ● CIRCUIT ANALYSIS IN THE s-DOMAIN 571 16 ● FREQUENCY RESPONSE 619 17 ● TWO-PORT NETWORKS 687 18 ● FOURIER CIRCUIT ANALYSIS 733
Ishu Verma