Four computer methods of determining frequency response characteristics (magnitude, phase, and delay) of arbitrary linear time-invariant networks are described and compared with respect to computation time, accuracy, and suitability for component deviation studies. The programs, which are written in Fortran IV, are capable of handling networks containing a maximum of40 nodes, 200 passive two-terminal branches, and 50 dependent source elements. [...
An efficient method for computing the frequency response of linear networks is presented. Observing ...
The use of Wiener–Lee transforms to construct one of the frequency characteristics, magnitude or pha...
Advancements in hardware technology have ushered in a digital revolution, with networks of thousands...
Digital signal processing systems play an important role in modern technology. They can be implement...
Includes bibliographical references (pages 115-118)Several techniques for calculating the response o...
Existing implementation of network analyzers for determining frequency response of leased data commu...
An investigation of the characteristics of some commonly occuring frequency response loci is given a...
This thesis presents the development of a software package for the purpose of analyzing digital netw...
A novel technique is presented for analysing linear time-invariant networks. The method described is...
Computer program synthesizes a passive network by minimizing the difference in desired and actual fr...
In this thesis the use of the digital computer in determining the steady-state response of nonlinear...
"March 14, 1950."Bibliography: p. 28.Army Signal Corps Contract No. W36-039 sc-32037 Project No. 102...
Frequency response analysis is critical in understanding the steady and transient state behavior of ...
"September 2, 1953"--Cover. "Reprinted from the Proceedings of the National Electronic Conference, v...
91 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1972.U of I OnlyRestricted to the U...
An efficient method for computing the frequency response of linear networks is presented. Observing ...
The use of Wiener–Lee transforms to construct one of the frequency characteristics, magnitude or pha...
Advancements in hardware technology have ushered in a digital revolution, with networks of thousands...
Digital signal processing systems play an important role in modern technology. They can be implement...
Includes bibliographical references (pages 115-118)Several techniques for calculating the response o...
Existing implementation of network analyzers for determining frequency response of leased data commu...
An investigation of the characteristics of some commonly occuring frequency response loci is given a...
This thesis presents the development of a software package for the purpose of analyzing digital netw...
A novel technique is presented for analysing linear time-invariant networks. The method described is...
Computer program synthesizes a passive network by minimizing the difference in desired and actual fr...
In this thesis the use of the digital computer in determining the steady-state response of nonlinear...
"March 14, 1950."Bibliography: p. 28.Army Signal Corps Contract No. W36-039 sc-32037 Project No. 102...
Frequency response analysis is critical in understanding the steady and transient state behavior of ...
"September 2, 1953"--Cover. "Reprinted from the Proceedings of the National Electronic Conference, v...
91 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1972.U of I OnlyRestricted to the U...
An efficient method for computing the frequency response of linear networks is presented. Observing ...
The use of Wiener–Lee transforms to construct one of the frequency characteristics, magnitude or pha...
Advancements in hardware technology have ushered in a digital revolution, with networks of thousands...