Add to ORKGA coaxial cable of inner radius a and outer radius b has the volume between the (perfect) conductors filled with a dielectric of relative permittivity and unit relative permeability, such that its transmission-line impedance is Z = Z0 ln(b/a
Introduction. The wave parameters of power cables with polymer insulation differ significantly from ...
In this work, the inductance and resistance of different cable configurations are obtained by dividi...
The cable equation is solved in the Laplace transform domain for arbitrary initial and boundary cond...
The attenuation of a coaxial cable can be calculated by means of transmission line theory1, which ex...
A transmission line is used for transmitting electrical power between a transmitter to a receiver, l...
This paper describes a material complex permittivity extraction technique based on four measurements...
This paper presents the analysis of high performance for coaxial cable with transmission line parame...
The cable is formed by two tubular conductors and is connected to a sinusoidal voltage source whose ...
This report is describes the characteristics of two different copper cables, namely the coax cable a...
The properties of the elliptically coaxial line with slotted outer conductor are studied by means of...
In this paper, the analytical solution of the mutual inductance between the centre conductor and the...
The characteristics of all modes in the dielectric-loaded coaxial cable have been given. Reduction i...
The transfer impedance Z/sub t/ of a cable is often assumed to be a characteristic of the shield onl...
The impedances of cables are some of the parameters needed for various studies in cable systems. In...
The transfer of electromagnetic fields through a grid made of conducting strips similar to the braid...
Introduction. The wave parameters of power cables with polymer insulation differ significantly from ...
In this work, the inductance and resistance of different cable configurations are obtained by dividi...
The cable equation is solved in the Laplace transform domain for arbitrary initial and boundary cond...
The attenuation of a coaxial cable can be calculated by means of transmission line theory1, which ex...
A transmission line is used for transmitting electrical power between a transmitter to a receiver, l...
This paper describes a material complex permittivity extraction technique based on four measurements...
This paper presents the analysis of high performance for coaxial cable with transmission line parame...
The cable is formed by two tubular conductors and is connected to a sinusoidal voltage source whose ...
This report is describes the characteristics of two different copper cables, namely the coax cable a...
The properties of the elliptically coaxial line with slotted outer conductor are studied by means of...
In this paper, the analytical solution of the mutual inductance between the centre conductor and the...
The characteristics of all modes in the dielectric-loaded coaxial cable have been given. Reduction i...
The transfer impedance Z/sub t/ of a cable is often assumed to be a characteristic of the shield onl...
The impedances of cables are some of the parameters needed for various studies in cable systems. In...
The transfer of electromagnetic fields through a grid made of conducting strips similar to the braid...
Introduction. The wave parameters of power cables with polymer insulation differ significantly from ...
In this work, the inductance and resistance of different cable configurations are obtained by dividi...
The cable equation is solved in the Laplace transform domain for arbitrary initial and boundary cond...