Add to ORKGTraction systems are single-phase, nonlinear loads, which can unbalance and pollute supply voltages. To reduce voltage unbalance, reactances are usually connected in delta configuration with traction systems. This setup is called the Steinmetz circuit. Parallel and series resonances can occur between the Steinmetz capacitor and system inductors, increasing voltage distortion. Thus, it is important to analyze the parallel resonance “observed” from the traction system to avoid harmonic problems due to its injected harmonic currents. This paper studies this resonance analytically and presents simple expressions to locate it. Experimental measurements are also provided to validate the obtained analytical results. These expressions are also used...
The new Italian high-speed railway lines are characterized by a 2 ×25 kV–50 Hz electrification syste...
The new Italian high-speed railway lines are characterized by a 2 x 25 kV-50 Hz electrification syst...
Although the study of harmonics in power systems dates back to the early 1900\u27s, renewed interest...
AC traction systems are 1 × 25 or 2 × 25 kV/50 Hz single-phase, nonlinear, time-varying loads that c...
© 20xx IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
AC traction systems can be 25 kV/50 Hz single-phase, non-linear, time-varying loads of random nature...
AC traction systems are 1 x 25 or 2 x 25 kV 50-Hz single-phase, non-linear, time-varying loads that ...
The main bulk of electric power systems use a three¿phase configuration with an alternating current ...
Abstract: AC traction systems are 1x25 or 2x25 kV 50 Hz single-phase, non-linear, time-varying load...
High-order harmonic resonance is a key issue in the traction power supply systems (TPSS) of electric...
Traction system stability can be affected by the interaction between the traction load and resonance...
With the boom of power electronic devices in electric railway, harmonics in power systems become inc...
Abstract Harmonic resonance in a system with multiple inverters connecting to a single AC bus has be...
A feature of modern power supply systems is the presence of a large number of electrical devises tha...
Abstract:In this paper present the characteristics of the signals and ripple harmonics in the circui...
The new Italian high-speed railway lines are characterized by a 2 ×25 kV–50 Hz electrification syste...
The new Italian high-speed railway lines are characterized by a 2 x 25 kV-50 Hz electrification syst...
Although the study of harmonics in power systems dates back to the early 1900\u27s, renewed interest...
AC traction systems are 1 × 25 or 2 × 25 kV/50 Hz single-phase, nonlinear, time-varying loads that c...
© 20xx IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
AC traction systems can be 25 kV/50 Hz single-phase, non-linear, time-varying loads of random nature...
AC traction systems are 1 x 25 or 2 x 25 kV 50-Hz single-phase, non-linear, time-varying loads that ...
The main bulk of electric power systems use a three¿phase configuration with an alternating current ...
Abstract: AC traction systems are 1x25 or 2x25 kV 50 Hz single-phase, non-linear, time-varying load...
High-order harmonic resonance is a key issue in the traction power supply systems (TPSS) of electric...
Traction system stability can be affected by the interaction between the traction load and resonance...
With the boom of power electronic devices in electric railway, harmonics in power systems become inc...
Abstract Harmonic resonance in a system with multiple inverters connecting to a single AC bus has be...
A feature of modern power supply systems is the presence of a large number of electrical devises tha...
Abstract:In this paper present the characteristics of the signals and ripple harmonics in the circui...
The new Italian high-speed railway lines are characterized by a 2 ×25 kV–50 Hz electrification syste...
The new Italian high-speed railway lines are characterized by a 2 x 25 kV-50 Hz electrification syst...
Although the study of harmonics in power systems dates back to the early 1900\u27s, renewed interest...