Rob Armstrong scite author profile

Rob Armstrong

5Publications

27Citation Statements Received

21Citation Statements Given

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Affiliations

Eurofins (United Kindgom), University of York

Publications

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A Novel Method for Calculating the Radiated Disturbance From Pantograph Arcing in High-Speed Railway

Wen

Marvin

et al. 2017

IEEE Trans. Veh. Technol.

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Abstract-Pantograph arcing is a key electromagnetic disturbance source to affect train control system in high-speed railway. Since the characteristics of pantograph arcing is related to train speed, it is necessary to investigate effective numerical modeling and measurement method. However, due to the uncontrollable train speed during on-site measurement, it is difficult to study the radiated disturbance from arcing in the corresponding speed and repeat the same measurement. Therefore, a method combined numerical modeling and reverberation chamber measurements for calculating the radiated disturbance from pantograph arcing in a high-speed railway is proposed. Numerical models of train and sensitive equipment are built to calculate the coupling coefficient in CONCEPT II. And a new measurement procedure in reverberation chamber using pulse signal as the reference source is proposed based on a speedcontrollable laboratory replica to measure the total radiated power of pantograph arcing. Then the radiated disturbance from pantograph arcing to the sensitive equipment is achieved with the coupling coefficient and the total radiated power of arcing. The method is verified laboratory experiments. This method can solve the uncontrollable train speed problem during on-site measurement and improve the repeatability of measurement.

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Test of rolling stock electromagnetic compatibility for cross‐domain interoperability

Karadimou

Armstrong

2016

IET Intelligent Transport Systems

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AC railway electrification systems — An EMC perspective

Fei

Konefal

Armstrong

2019

IEEE Electromagn. Compat. Mag.

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Railways are electrified in many different ways. In this article, the main options for electrifying a high speed AC railway are reviewed from an electromagnetic compatibility (EMC) perspective. Firstly, the trend of increasing the usage of electrified trains to replace conventional diesel locomotives is pointed out. On this basis, the significance of considering EMC in the railway environment is explained, with a view to preventing the malfunction of the railway system. Secondly, different electrification options are introduced, namely the rail-return, boostertransformer and auto-transformer systems. The benefits and drawbacks of each electrification option are considered based on the interference level to the trackside railway signalling and telecommunication systems. The discussion of each electrification system is verified using electromagnetic simulations. By comparing the different electrification schemes, it is shown that the auto-transformer system has better EMC performance and delivers higher power to the train.

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Investigation of human exposure to magnetic fields from electrical powertrains: measured exposure levels and simulated impact on human body

Ruddle¹,

Armstrong²,

Dawson³

et al. 2014

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HEMIS Project (Electrical Powertrain HEalth Monitoring for Increased Safety of FEVs): Limitations of Electromagnetic Standards for Vehicles Equipped with Electrical Powertrain

Ruddle

Armstrong

Galarza

2015

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Rob Armstrong

A Novel Method for Calculating the Radiated Disturbance From Pantograph Arcing in High-Speed Railway

Test of rolling stock electromagnetic compatibility for cross‐domain interoperability

AC railway electrification systems — An EMC perspective

Investigation of human exposure to magnetic fields from electrical powertrains: measured exposure levels and simulated impact on human body

HEMIS Project (Electrical Powertrain HEalth Monitoring for Increased Safety of FEVs): Limitations of Electromagnetic Standards for Vehicles Equipped with Electrical Powertrain

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