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Introduction to Linear Circuit Analysis and Modelling: From DC to RF Paperback – 1 Mar 2005


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Product details

  • Paperback: 376 pages
  • Publisher: Newnes (1 Mar 2005)
  • Language: English
  • ISBN-10: 0750659327
  • ISBN-13: 978-0750659321
  • Product Dimensions: 17.8 x 2.2 x 24.9 cm
  • Average Customer Review: 5.0 out of 5 stars  See all reviews (1 customer review)
  • Amazon Bestsellers Rank: 1,148,697 in Books (See Top 100 in Books)
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"This text can be very useful. It is easy to read, despite its richness and comprehensiveness. In this one book, you will find what you'd normally find in three: - Linear circuit analysis - Two-ports and amplifiers, and a description of active devices - Good treatment of RF and noise. - Maria Flora Torretta, Electronics World, December 2005

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Analogue electronic circuits deal with signal processing techniques such as amplification and filtering of electrical and electronic1 signals. Read the first page
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Format: Paperback
International Journal of Electrical Engineering Education
ISSN: 0020-7209
Volume 44 Issue 4, October 2007, pp 381-382

L. Moura and I. Darwazeh, Introduction to Linear Circuit Analysis and Modelling from DC to RF, Newnes/Elsevier, 2005, 376pp.

There are several circuit theory books already on the market, some having strong and recognised positions serving well-established undergraduate courses. In addition, the core material has remained relatively static compared to other, faster moving areas of electrical and electronic engineering. Consequently, authors of new texts have the difficult task of finding a new and different position for their book.

Moura and Darwazeh appear to have succeeded very well in addressing the challenge of producing a distinctive book on linear circuit analysis and modelling.

The book starts by introducing circuit theory basics (Kirchoff, Thévenin, Norton, superposition etc.) and follows by detailing basic complex number operations before moving onto the a.c. sinusoidal time response of passive LCR circuits in chapters 1 to 3 respectively. Fourier analysis is also introduced at this stage and the buildup of both material and ideas is methodical and carefully worked through, with very good use of diagrams, which I expect students will readily be able to appreciate.

The buildup of ideas continues through forced and natural responses of passive circuits using the Laplace transform analysis and two-port representation of networks in chapters 4 and 5. Again this is approached systematically by the authors. The remaining three chapters have more of an application focus.
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