Network Analysis and Feedback Amplifier DesignR. E. Krieger Publishing Company, 1975 - 577 pagina's |
Inhoudsopgave
PHYSICAL REPRESENTATION OF DRIVING POINT IMPEDANCE FUNC | 170 |
TOPICS IN THE DESIGN OF EQUALIZERS | 249 |
GENERAL RESTRICTIONS ON PHYSICAL NETWORK CHARACTERISTICS | 276 |
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admittance analysis assumed asymptotic attenuation characteristic band branch coefficients complete computation condition constant corresponding Curve cut-off determined discussion driving point elements equal equivalent evidently example expression fact feedback amplifier feedback circuit filter formulae function gain characteristic given grid high frequencies imaginary components immittance inductance input and output integral lattice loop loss low-pass low-pass equivalent maximum minimum phase negative resistance neper network theory Nyquist Nyquist plot obtained output circuits parasitic capacity parasitic elements passive network path phase characteristic phase margin phase shift physically realizable plane plate plot positive problem R₁ radians ratio rational function reactance real component real frequency axis reflection coefficient represent result return difference right half-plane shown by Fig shunt slope ẞ circuit stable structure supposed terminals theorem tion transconductance transfer impedance transformer transmission tube two-terminal vacuum tubes voltage Y₁ Z₁ zeros and poles