Achieve first-time-success designing RF and microwave amplifiers
and oscillators using the iterative synthesis techniques provided
in this practical resource. The book introduces new approaches to
help you estimate the 1dB compression point of class A and class B
linear circuits, initialize the fundamental component voltages and
currents in a harmonic balance simulator, and more easily generate
load-pull contours for class A and class B transistors.
Considered as a generalization of the Cripps approach, this
independently developed method can be applied easily to control or
predict the output power in single- or multi-stage amplifiers.
Changes in the transistor's configuration, as well as feedback and
loading can also be handled smoothly.
This book helps you:
gain greater insight into the characteristics of single-layer
parallel plate capacitors and provide accurate models for
them
obtain a clear picture of the stability of each stage in the
amplifier and control the output power and oscillation frequency of
an oscillator based on linear principles
design class A high dynamic range amplifiers, multistage power
amplifiers, amplifiers with an optimum noise match and a low input
VSWR, and wideband impedance-matching networks
The book also includes all of the design principles, theory, and
background from the well-received first edition. It is an excellent
resource for amplifier and oscillator designers, RF and microwave
engineers, and university students.
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