Technical Webinar — Stability Modelling and Analysis of Converter-Driven Power Systems

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The División de Estudios de Posgrado of the Instituto Tecnológico de La Laguna, in collaboration with its IEEE Student Branch, is pleased to invite you to a technical webinar (simultaneous translated into spanish) featuring a leading global authority on the modelling and analysis of modern electrical power systems. We kindly ask for your support in disseminating this information among your student branch and professional members.

Please join us to the webinar:

 

Stability Modelling and Analysis of Converter-Driven Power Systems

 

Speaker: Professor Bikash Pal,

PhD, FIEEE, FREng Imperial College London, UK

Profile: https://profiles.imperial.ac.uk/b.pal

Worldwide Candidate, IEEE PES President-Elect

 

Date and time: September 25, 2025, at 10:00 am – 12:00 pm (Mexico City local time)

Registration: Deadline: September 24, 2025 Form: https://forms.gle/njmdxFk1BC4X7Pdv6

 

Streaming:

Note: Attendees joining via Microsoft Teams will receive a certificate granting 1 hour of professional development.

On-site venue: Sala de Usos Múltiples, Instituto Tecnológico de La Laguna

We would be delighted to count on your participation. Early registration is recommended to secure your place.

For more information about the conference, please visit our website for further details.

https://edu.ieee.org/mx-itlaguna/


  Date and Time

  Location

  Hosts

  Registration


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  • Blvd. Revolución y Av. Instituto Tecnológico de La Laguna, Torreón, Coahuila, C.P. 27000
  • Torreón, Coahuila
  • Mexico 27000
  • Contact Event Hosts

  Speakers

Professor Bikash Pal

Topic:

Stability Modelling and Analysis of Converter-Driven Power Systems

Abstract: The number of power electronics converters connected to electrical networks has been growing exponentially as they are part of all new generation connected to the grid. While the rapid control and fast electronic switching available with this technology offer flexibility in network operation, the dynamic interactions between several of them threaten the operational stability of the transmission grid is a concern. It is required to develop a methodology for identifying the risks associated with the stability and control interaction before a new power electronic device (e.g. Windfarm, interconnector, STATCOM) is introduced to the network. The talk will focus on an analytical framework in impedance domain to quantify the interaction between the new plant and the rest of the network for setting additional grid connection study specifications which will include detail technical study to check and mitigate the risks associated with new power electronics interfaced generation. The framework developed is to support MMC technology, control delay, system strength and FRT capability of dynamic voltage support devices and windfarm through technical case study conducted at the research group of Bikash Pal at Imperial College London. Future research challenges and opportunities will be highlighted.

Address:Mexico