10 research outputs found
Matching the termination of radiating non-uniform transmission-lines
In this contribution a concept of matching the termination of radiating non-uniform transmission-lines is proposed. Using Transmission-Line Super Theory, position and frequency dependent line parameters can be obtained. Therefore, a characteristic impedance can be determined which is also position and frequency dependent. For a single wire transmission-line it could be shown that the maximum value of that characteristic impedance is an optimal termination in the sense of minimizing the variation of the current on the line. This indicates that matching is not a local effect at the position of the concentrated load but a cooperative process including the whole non-uniform transmission-line. In addition this choice of termination minimizes the variation of the radiated power over frequency
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Constrained pre-equalization accounting for multi-path fading emulated using large RC networks: applications to wireless and photonics communications
Multi-path propagation is modelled assuming a multi-layer RC network with randomly allocated resistors and capacitors to represent the transmission medium. Due to frequency-selective attenuation, the waveforms associated with each propagation path incur path-dependent distortion. A pre-equalization procedure that takes into account the capabilities of the transmission source as well as the transmission properties of the medium is developed. The problem is cast within a Mixed Integer Linear Programming optimization framework that uses the developed nominal RC network model, with the excitation waveform customized to optimize signal fidelity from the transmitter to the receiver. The objective is to match a Gaussian pulse input accounting for frequency regions where there would be pronounced fading. Simulations are carried out with different network realizations in order to evaluate the sensitivity of the solution with respect to changes in the transmission medium mimicking the multi-path propagation. The proposed approach is of relevance where equalization techniques are difficult to implement. Applications are discussed within the context of emergent communication modalities across the EM spectrum such as light percolation as well as emergent indoor communications assuming various modulation protocols or UWB schemes as well as within the context of space division multiplexing
A novel solution algorithm for nonlinearly loaded transmission lines inside resonating enclosures
Nonlinearly loaded lossless transmission lines inside a rectangular cavity
are studied using the left- and right-hand Green's functions of the problem
in time domain. These Green's functions are developed for a transmission line
with quasi-matched loads. This ensures Green's functions of a short duration.
Therefore, the amount of frequency data necessary to obtain time-domain
Green's functions is quite limited. The time-domain Green's functions are
finally convolved with the left- and right-hand line voltages. With this
technique it is possible to treat arbitrarily loaded transmission lines in
resonators. An example is presented to demonstrate the applicability of this
technique to a transmission line with a simple diode as nonlinear load
Analysis of the effect of different absorber materials and loading on the shielding effectiveness of a metallic enclosure
Metallic rooms as part of a complex system, like a ship, are necessarily
connected electromagnetically via apertures and cables to the outside.
Therefore, their electromagnetic shielding effectiveness (SE) is limited by
ventilation openings, cable feed-throughs and door gaps. Thus, electronic
equipment inside these rooms is susceptible to outer electromagnetic threats
like IEM (Intentional Electromagnetic Interference). Dielectric or
magnetic absorber inside such a screened room can be used in order to prevent
the SE from collapsing at the resonant frequencies. In this contribution, the
effect of different available absorber materials is compared, as well as
other properties like weight and workability. Furthermore, parameter
variations of the absorber as well as the effect of loading in form of
metallic and dielectric structures on the SE are analyzed
Application of transmission-line super theory to classical transmission lines with risers
By applying the Transmission-Line Super Theory (TLST) to a practical
transmission-line configuration (two risers and a horizontal part of the line
parallel to the ground plane) it is elaborated under which physical and
geometrical conditions the horizontal part of the transmission-line can be
represented by a classical telegrapher equation with a sufficiently accurate
description of the physical properties of the line. The risers together with
the part of the horizontal line close to them are treated as separate lines
using the TLST. Novel frequency and local dependent reflection coefficients
are introduced to take into account the action of the bends and their
radiation. They can be derived from the matrizant elements of the TLST
solution. It is shown that the solution of the resulting network and the TLST
solution of the entire line agree for certain line configurations. The
physical and geometrical parameters for these corresponding configurations
are determined in this paper
On the level of mechanical loss in metallic glasses
Metallic glass samples with compositions Zr 65 Al 7.5 Cu 27.5 and Pd 77 Cu 6Si 17 , for which loss factors of up to 10 -2 have been reported, are reinvestigated with an electrostatic vibrating cantilever technique that detects dissipation factors tan δ as low as 10 -4 . It is found that tan δ ≈ 4×10 -4 is a typical value for these alloys well below T g , suggesting that previous results were limited by instrumental resolution. While aging the glasses increases their elastic moduli considerably, the measured loss factor is affected only marginally by thermal history. Copyright EDP Sciences, SIF, Springer-Verlag Berlin Heidelberg 2011