General Model for the Deployment of Time-Delay Elements in Transistorized Electronic Circuits

2006 ◽  
Author(s):  
Luis Nero Alves ◽  
Luis Barbosa ◽  
Rui L. Aguiar
Keyword(s):  
Time Delay ◽  
General Model ◽  
Electronic Circuits ◽  
Delay Elements

scholarly journals Study of gasless compositions used in time-delay elements

2019 ◽  
Vol 139 (6) ◽  
pp. 3473-3479
Author(s):  
M. M. Gerlich ◽  
A. T. Wojewódka
Keyword(s):  
Time Delay ◽  
Delay Elements

BIDIRECTIONAL SYNCHONIZATION OF COUPLED TIME-DELAY ELECTRONIC CIRCUITS

2011 ◽  
Author(s):  
Gilson Junior ◽  
Manoel Brasileiro ◽  
Itamar Vidal ◽  
Orlando Di Lorenzo ◽  
Marcos Oriá ◽  
...  
Keyword(s):  
Time Delay ◽  
Electronic Circuits

Design of delay elements in a binary optical true-time-delay device that uses a White cell

2003 ◽  
Vol 42 (35) ◽  
pp. 6984 ◽  
Author(s):  
S. Kunathikom ◽  
B. L. Anderson ◽  
S. A. Collins
Keyword(s):  
Time Delay ◽  
White Cell ◽  
True Time Delay ◽  
True Time ◽  
Delay Elements

scholarly journals Termite pyrotechnic compositions of iron and alkaline earth metals peroxides

2020 ◽  
pp. 55-72
Author(s):  
Andrzej Wojewódka ◽  
Marcin Gerlich
Keyword(s):  
Time Delay ◽  
Solid State ◽  
Alkaline Earth ◽  
Front Propagation ◽  
Xrd Analysis ◽  
Propagation Rate ◽  
Alkaline Earth Metals ◽  
Pyrotechnic Compositions ◽  
Iron Based ◽  
Delay Elements

The fallowing article presents the combustion studies of Fe/alkaline earth metals peroxides composition. It contains a literature review and the results of own research, which aim is to determine the possibility of using iron-based thermite compositions in time delay elements. The article focuses on the investigation of combustion front propagation rate as a function of a pressing load, the iron content and the purity of used oxidants. The DSC, TG and XRD analysis confirmed that reactions in this system occurs mainly in the solid state.

scholarly journals Dynamics of eye movements under time varying stimuli

2018 ◽  
Vol 11 (1) ◽  
Author(s):  
Verica Radisavljevic-Gajic
Keyword(s):  
Mathematical Model ◽  
Eye Movements ◽  
Time Delay ◽  
Angular Velocity ◽  
Second Order ◽  
Time Varying ◽  
First Order ◽  
Linear Dynamic ◽  
Delay Elements ◽  
Range Of Values

In this paper we study the pure-slow and pure-fast dynamics of the disparity convergence of the eye movements second-order linear dynamic mathematical model under time varying stimuli. Performing simulation of the isolated pure-slow and pure-fast dynamics, it has been observed that the pure-fast component corresponding to the eye angular velocity displays abrupt and very fast changes in a very broad range of values. The result obtained is specific for the considered second-order mathematical model that does not include any saturation elements nor time-delay elements. The importance of presented results is in their mathematical simplicity and exactness. More complex mathematical models can be built starting with the presented pure-slow and pure-fast first-order models by appropriately adding saturation and time-delay elements independently to the identified isolated pure-slow and pure-fast first-order models.

Switched time-delay elements based on AlGaAs/GaAs optical waveguide technology at 1.32 μm for optically controlled phased-array antennas

1992 ◽  
Author(s):  
Charles T. Sullivan ◽  
Sayan D. Mukherjee ◽  
Mary K. Hibbs-Brenner ◽  
Anand Gopinath ◽  
Edith Kalweit ◽  
...  
Keyword(s):  
Time Delay ◽  
Optical Waveguide ◽  
Phased Array ◽  
Phased Array Antennas ◽  
Array Antennas ◽  
Delay Elements

Hydraulic System Simulation Using Time-Delay Elements

1967 ◽  
Vol 89 (2) ◽  
pp. 315-320
Author(s):  
R. E. Blodgett ◽  
R. E. King
Keyword(s):  
Distributed Systems ◽  
Time Delay ◽  
Boundary Conditions ◽  
Hydraulic System ◽  
System Simulation ◽  
Digital Computation ◽  
Space Discretization ◽  
Delay Elements ◽  
Distributed Elements ◽  
Hydraulic System Simulation

A method of simulating a class of hyperbolic distributed systems without using space discretization is presented. Complex distributed systems are realized by means of subsystems of basic distributed elements. The time-delay operation forms the basis of the technique which is ideally suited to hybrid or digital computation. Using this method the system is simulated independently of its boundary conditions which may be dynamic in nature. An example of a simple hydraulic system is presented.

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