P. Wagenaars scite author profile

In power cables fast transient signals arise because of partial discharges. These signals propagate to the cable ends where they can be detected for diagnostic purposes. To enable optimal detection sensitivity and to judge their severity the propagation parameters Z c (characteristic impedance) and g (propagation coefficient) need to be known. A three-core power cable with a single metallic earth screen around the assembly of the cores has multiple, coupled propagation modes with corresponding characteristic impedances and propagation coefficients. This paper presents a practical method to measure and analyse the cable parameters. The propagation modes are decoupled into a modal solution. The modal solution is interpreted in terms of convenient propagation modes: a shield-to-phase (SP) propagation mode between conductors and earth screen and two identical phase-to-phase (PP) modes between conductors. The measurement method, based on a pulse response measurement, to determine all transmission line parameters of the SP and PP modes is proposed and tested on a cable sample. The model is validated by predicting the time, shape and amplitude of multiple reflections in all modes resulting from an injected pulse.

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Approximation of transmission line parameters of single-core and three-core XLPE cables

Wagenaars

Wouters

Wielen

et al. 2010

IEEE Trans. Dielect. Electr. Insul.

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Influence of Ring Main Units and Substations on Online Partial-Discharge Detection and Location in Medium-Voltage Cable Networks

Wagenaars

Wouters

Wielen

et al. 2011

IEEE Trans. Power Delivery

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Estimation of transmission line parameters for single-core XLPE cables

Wagenaars

Wouters

Wielen

et al. 2008

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Estimation of transmission line parameters single-core XLPE cables considering semiconducting layer

Wouters

Wagenaars

et al. 2012

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Effect of Cable Load Impedance on Coupling Schemes for MV Power Line Communication

Wouters

Wielen

Veen

et al. 2005

IEEE Trans. Power Delivery

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Abstract-Coupling of carrier wave frequencies up to 95 kHz (within the European CENELEC A-band) for online diagnostic data transfer in medium voltage cables is studied. Inductive and capacitive signal coupling is considered not only on basis of technical performance, but also on basis of practical aspects. The effectiveness of coupling schemes depends on the impedances of substation equipment at the cable terminals. The frequency response of a 10-kV, 400-kVA three-phase cast resin distribution transformer is investigated. In the frequency range of interest, the behavior is well described by a capacitance of typically 1 nF. The signal transfer over a 4-km paper cable, terminated by various load impedances to mimic real equipment is studied. From the results it is concluded that for inductive coupling performance within the CENELEC A-band may be sufficient, except for substations at the end of a grid. Transferring signals containing frequencies up to several megahertz, which is already required for synchronization of partial discharge detection and location equipment, is feasible under all conditions. Measurements on life substations indicate that up to these frequencies substation components can still be accurately modeled as lumped circuit impedances.

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P. Wagenaars

Accurate estimation of the time-of-arrival of partial discharge pulses in cable systems in service

Guarding MV cables on-line: With travelling wave based temperature monitoring, fault location, PD location and PD related remaining life aspects

Measurement of transmission line parameters of three-core power cables with common earth screen

Approximation of transmission line parameters of single-core and three-core XLPE cables

Influence of Ring Main Units and Substations on Online Partial-Discharge Detection and Location in Medium-Voltage Cable Networks

Estimation of transmission line parameters for single-core XLPE cables

Estimation of transmission line parameters single-core XLPE cables considering semiconducting layer

Effect of Cable Load Impedance on Coupling Schemes for MV Power Line Communication

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