Electromagnetics for Engineers: With Applications to Digital Systems and Electromagnetic InterferenceWiley, 2004 - 403 páginas This book covers the basic electromagnetic principles and laws from the standpoint of engineering applications, focusing on time-varying fields. Numerous applications of the principles and law are given for engineering applications that are primarily drawn from digital system design and electromagnetic interference (Electromagnetic Compatibility or EMC). Clock speeds of digital systems are increasingly in the GHz range as are frequencies used in modern analog communication systems. This increasing frequency content demands that more electrical engineers understand these fundamental electromagnetic principles and laws in order to design high speed and high frequency systems that will successfully operate. |
Conteúdo
CHAPTER | 1 |
CHAPTER | 5 |
1 Transmission Lines | 12 |
Direitos autorais | |
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Electromagnetics for Engineers: With Applications to Digital Systems and ... Clayton R. Paul Prévia não disponível - 2004 |
Termos e frases comuns
Ampere's law angle antenna average power boundary C/m² capacitance capacitor Chapter characteristic impedance charge distribution circuit closed surface components compute constant contour cos(wt cross product cylinder cylindrical coordinate system Determine the electric dielectric differential direction distance dot product electric field intensity electric flux density electromagnetic electronic equations example Faraday's law field intensity vector field lines field vectors Figure flux density vector free space frequency Gauss Hence Hertzian dipole incident inductance input impedance length line charge line integral loop lossless lossy magnetic field intensity magnetic flux density magnitude materials medium obtain path per-unit-length perpendicular phasor point charge power density problem pulse QUICK REVIEW EXERCISE radiated radius rectangular coordinate system reflection coefficient result shield shown in Fig SOLUTION spherical coordinate system SPICE transmission line uniform plane wave velocity of propagation wavelength wire zero