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TY  - BOOK
ID  - 14295916
TI  - Numerical analysis
AU  - Watson, G. A.
AU  - Dundee biennial conference on numerical analysis (8th : 1979)
PY  - 1980
SN  - 1281791857 9786611791858 0387097406 3540097406 9783540097402
PB  - Berlin: Springer,
DB  - UniCat
KW  - Electric circuit analysis.
KW  - Electric circuits, Linear
KW  - Design and construction.
KW  - Mathematics.
KW  - Linear electric circuits
KW  - Circuit analysis, Electric
KW  - Electric circuits
KW  - Electric network analysis
KW  - Numerical analysis
KW  - Congresses.
KW  - Systems engineering.
KW  - Electronics.
KW  - Circuits and Systems.
KW  - Electronics and Microelectronics, Instrumentation.
KW  - Engineering systems
KW  - System engineering
KW  - Engineering
KW  - Industrial engineering
KW  - System analysis
KW  - Electrical engineering
KW  - Physical sciences
KW  - Design and construction
KW  - Electronic circuits.
KW  - Microelectronics.
KW  - Microminiature electronic equipment
KW  - Microminiaturization (Electronics)
KW  - Electronics
KW  - Microtechnology
KW  - Semiconductors
KW  - Miniature electronic equipment
KW  - Electron-tube circuits
KW  - Electron tubes
KW  - Iterative methods (Mathematics)
KW  - Analyse numérique.
KW  - Équations aux dérivées partielles
KW  - Itération (mathématiques)
KW  - 681.3 <063>
KW  - 51
KW  - 681.3*G1
KW  - 681.3*G1 Numerical analysis
KW  - Computerwetenschap--Congressen
KW  - Design.
KW  - Analyse numérique.
KW  - Équations aux dérivées partielles
KW  - Itération (mathématiques)
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:14295916
AB  - Classical Circuit Theory provides readers with the fundamental, analytic properties of linear circuits that are important to the design of conventional and non-conventional circuits in modern communication systems. These properties include the relations between phase and gain, between the real and imaginary parts, and between phase and group delay. They also include the fundamental limitations on gain and bandwidth, which are important in broadband matching in amplifier design. The idea that an impedance function is a positive real function and that a transfer function is bounded-real, forms the basis for analytic design of all conventional filters. At the same time, mathematical programming tools are now widely available so that design of non-conventional circuits by optimization is but a few mouse clicks away. Every new concept within the material is illustrated with one or more examples. There are exercises and problems at the end of the chapters. Some may be suitable for term projects. The design techniques presented are also illustrated step by step with easy-to-follow examples.
ER  -