The analysis and the synthesis of the electromagnetic compatibility of the traction power supply system and infrastructure in the districts with the high-speed traffic

Authors

  • М. П. Бадер Moscow State University of Transport Communications, Russian Federation

DOI:

https://doi.org/10.15802/etr.v0i7.42309

Keywords:

traction power supply system, high-speed, electromagnetic compatibility, loss of electricity, elements of infrastructure, lines of longitudinal power supply, induced voltage, communication of connection, circuits of automatics

Abstract

The article defines the requirements and discusses the methodology justification electromagnetic compatibility of multiconductor lines of traction power supply and infrastructure in areas with high-speed. The methodology allows determining the currents and voltages at any point multiconductor lines traction network. Analyzed and the possibility of modeling of electromagnetic waves along the multi-lane line traction power supply that allows a high degree of accuracy, we justify the EMC traction network and power supply with longitudinal lines of communication links and chains of railway automatics.

Author Biography

М. П. Бадер, Moscow State University of Transport Communications

Department of Energy supply of electric railways

References

Бадер М. П. Электромагнитная совместимость. Учебник для вузов / М. П. Бадер. М.: Транспорт, 2002. – 640 с.

Бадер М. П. О повышении энергетической эффективности преобразовательного оборудования тяговых подстанций / М. П. Бадер, Ю. М. Иньков // Электричество, 2008, № 2. – С. 60-65.

REFERENCES

Bader M. P. Elektromagnitnaja sovmestimost' [Electromagnetic compatibility]. Moscow, Transport Publ., 2002. P. 640.

Bader M. P., In'kov Ju. M. O povyshenii jener-geticheskoj jeffektivnosti preobrazovatel'nogo oborudo-vanija tjagovyh podstancij [On increasing the energy efficiency of the converter traction substations]. Jel-ektrichestvo – Electricity, 2008, № 2, pp. 60-65.

Published

2015-05-07

Issue

Section

Electromagnetic Compatibility