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REALIZATION OF ACTIVE ALLPASS NETWORK WITH
CONTROL NETWORK DESIGN
EFFECTS OF TRANSIENTS
1 other sections not shown
2irf 2K taps 390-ohm Resistor A Y(s active all-pass network Admittance Multiplier all-pass characteristic approximation assumed axis capacitor charge time constant circuit complete control network considered control voltages Cornell University cross-correlation delay line element values energy Equation 13 equivalent erase exponential extremal values FD-200 Silicon Diodes Figure 13 Figure 15c filter frequency gated beam pentode Gaussian Curve Gaussian noise sources grid Ideal Voltage-controlled Voltage impedance impulse response inductor input capacitance input signal kc/s lattice left-half s-plane limit maintain the all-pass Mc/s Miller effect Monte Carlo National Science Foundation nepers per second network function network parameters noise is passed output peak pole positions Pole-Zero polynomial prefilter pulse width RANDOMLY VARIABLE ALL-PASS reactive elements RX(T Sample and Storage sample rate sampler seen in Figure series with Y(s statistical independence Storage Network techniques uncorrelated vacuum tube variable all-pass network variation varicap voltage-controlled voltage source Zener diodes zero