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Time-Domain Analysis And Measurement Techniques For Distributed Rc Structures. Ii. Impulse Measurement Techniques, Robert C. Peirson, Edward C. Bertnolli
Time-Domain Analysis And Measurement Techniques For Distributed Rc Structures. Ii. Impulse Measurement Techniques, Robert C. Peirson, Edward C. Bertnolli
Electrical and Computer Engineering Faculty Research & Creative Works
Transient analysis for uniform RC structures is considered in this paper. A method is presented for determining the parameters of such structures. The measurements are obtained using impulse excitations in open-circuit and short-circuit configurations. The theoretical results obtained predict fairly the experimental results. © 1969 The American Institute of Physics.
Transients Analysis Of Distributed Systems, T. N. Trick, Jack J. Bourquin
Transients Analysis Of Distributed Systems, T. N. Trick, Jack J. Bourquin
Electrical and Computer Engineering Faculty Research & Creative Works
An isomorphic relation exists between the transient response of systems whose transfer functions are of the form H(s)=B and the transient response of systems whose transfer functions are of the form [formula omitted]. Several interesting conclusions are drawn from this relationship concerning the transient response of distributed systems. Copyright © 1969 by The Insitute of Electrical and Electronics Engineers Inc.
Detection Of Slowly Fading Targets With Frequency Agility, Kenneth L. Horn, Norval D. Wallace
Detection Of Slowly Fading Targets With Frequency Agility, Kenneth L. Horn, Norval D. Wallace
Electrical and Computer Engineering Faculty Research & Creative Works
Detection probabilities for a noncoherent pulsed radar are presented as a function of maximum possible pulse-to-pulse frequency change (transmitter bandwidth) and target depth for frequency agility applied to Swerling's case I target. The transmitted frequency is a uniformly distributed random variable. Copyright © 1969 by The Institute of Electrical and Electronics Engineers, Inc.
Numerical Calculation Of Distributed-Network Transfer Matrices, Robert C. Peirson, Edward C. Bertnolli
Numerical Calculation Of Distributed-Network Transfer Matrices, Robert C. Peirson, Edward C. Bertnolli
Electrical and Computer Engineering Faculty Research & Creative Works
No abstract provided.
Generation Of Design Equations In Asynchronous Sequential Circuits, Gary K. Maki, James H. Tracey, Robert J. Smith
Generation Of Design Equations In Asynchronous Sequential Circuits, Gary K. Maki, James H. Tracey, Robert J. Smith
Electrical and Computer Engineering Faculty Research & Creative Works
One step in the synthesis procedure for realizing an asynchronous sequential switching circuit is the generation of next-state and output state equations from a simplified and coded flow table description of the circuit. The usual approach for determining these equations is to first construct a state table from the coded flow table, and then construct transition and output tables. For large flow tables this can be quite a lengthy procedure. This note describes an algorithm which simplifies the synthesis procedure for normal fundamental-mode circuits by permitting the determination of these equations without explicit construction of the state table, transition table, …