State-of-the-art time-domain models of power cables account for the frequency dependency of physical parameters to enable accurate transient simulations of high-voltage transmission schemes. Owing to their formulation, these models cannot be directly converted into a state-space form as required for small-signal eigenvalue analysis. Thus, dc cables are commonly represented in high-voltage direct current (HVDC) power system stability studies by cascaded pi-section equivalents that neglect the frequency-dependent effects. This study demonstrates how the conventional cascaded pi-section model is unable to accurately represent the damping characteristic of the cable and how this can lead to incorrect stability assessments. Furthermore, an alter...
In this paper, a two-terminal VSC-HVDC system embedded in a weak grid ac environment is considered, ...
Understanding harmonic propagation in high voltage transmission lines and cables is important for th...
This thesis focuses on small signal stability analysis of VSC-HVDC systems, emphasizing the system s...
State-of-the-art time-domain models of power cables account for the frequency dependency of physical...
State-of-the-art time-domain models of power cables account for the frequency dependency of physical...
Eigenvalue-based analysis of small-signal dynamics in High Voltage Direct Current (HVDC) transmissio...
Accurate eigenvalue analysis of High Voltage Direct Current (HVDC) transmission systems depends on s...
This paper introduces an approach for frequency-dependent pi-section (FD- $\pi$ ) modelling of ac ca...
This paper introduces an approach for frequency-dependent pi-section (FD- π) modelling of ac cables ...
In this paper, the system stability of a VSC-HVDC link is assessed at the DC side of the converter b...
Voltage source converter based high voltage direct current (VSC-HVDC) transmission systems have now ...
The knowledge about the behavior of cables is substantial in cases of transients or in cases of faul...
The aim this project is to study the behaviour of HVDC cables and to obtain a small-signal model cap...
The calculation of frequency-dependent cable parameters is essential for simulations of transient ph...
The knowledge about the behavior of cables is substantial in cases of transients or in cases of faul...
In this paper, a two-terminal VSC-HVDC system embedded in a weak grid ac environment is considered, ...
Understanding harmonic propagation in high voltage transmission lines and cables is important for th...
This thesis focuses on small signal stability analysis of VSC-HVDC systems, emphasizing the system s...
State-of-the-art time-domain models of power cables account for the frequency dependency of physical...
State-of-the-art time-domain models of power cables account for the frequency dependency of physical...
Eigenvalue-based analysis of small-signal dynamics in High Voltage Direct Current (HVDC) transmissio...
Accurate eigenvalue analysis of High Voltage Direct Current (HVDC) transmission systems depends on s...
This paper introduces an approach for frequency-dependent pi-section (FD- $\pi$ ) modelling of ac ca...
This paper introduces an approach for frequency-dependent pi-section (FD- π) modelling of ac cables ...
In this paper, the system stability of a VSC-HVDC link is assessed at the DC side of the converter b...
Voltage source converter based high voltage direct current (VSC-HVDC) transmission systems have now ...
The knowledge about the behavior of cables is substantial in cases of transients or in cases of faul...
The aim this project is to study the behaviour of HVDC cables and to obtain a small-signal model cap...
The calculation of frequency-dependent cable parameters is essential for simulations of transient ph...
The knowledge about the behavior of cables is substantial in cases of transients or in cases of faul...
In this paper, a two-terminal VSC-HVDC system embedded in a weak grid ac environment is considered, ...
Understanding harmonic propagation in high voltage transmission lines and cables is important for th...
This thesis focuses on small signal stability analysis of VSC-HVDC systems, emphasizing the system s...