Recently updated on July 2nd, 2024 at 02:32 pm<\/p>","protected":false},"excerpt":{"rendered":"
This work presents the optimization process of Real-Time control for a static current-limiting switch device in medium voltage direct current (MVDC). It includes a description of the control strategy and its implementation on a programmable microcontroller board. The system’s performance was analyzed through Real-Time Control Hardware in The Loop (CHIL) simulations. Control was optimized by introducing hardware and software functionalities, such as interrupt routines and low-level programming. Final tests demonstrated a substantial improvement in system performance, including response speed and accuracy in current limitation.<\/p>\n","protected":false},"author":93,"featured_media":0,"comment_status":"open","ping_status":"closed","template":"","meta":{"_acf_changed":false,"footnotes":""},"tags":[1336,1324,1403],"targets":[],"pubblicazioni_tipologie":[778],"class_list":["post-188782","pubblicazioni","type-pubblicazioni","status-publish","hentry","tag-dc-distribution","tag-electricity-network-en","tag-protection-defense-and-restoration","pubblicazioni_tipologie-paper-en"],"acf":{"projects":{"ID":191050,"post_author":"464","post_date":"2024-07-10 16:51:19","post_date_gmt":"2024-07-10 14:51:19","post_content":"","post_title":"Architecture and management models of the electrical system and grids","post_excerpt":"The project aims to develop methodologies, software tools, prototypes and demonstrators to optimise electric transmission and distribution grids, as well as new architecture and system management models and new regulatory schemes that encourage the integration of renewable and non-programmable generation, self-generation, storage systems and aggregators, and that take into account electric penetration.","post_status":"publish","comment_status":"open","ping_status":"closed","post_password":"","post_name":"architecture-and-management-models-of-the-electrical-system-and-grids","to_ping":"","pinged":"","post_modified":"2024-08-21 12:10:45","post_modified_gmt":"2024-08-21 10:10:45","post_content_filtered":"","post_parent":0,"guid":"https:\/\/www.rse-web.it\/progetti\/architecture-and-management-models-of-the-electrical-system-and-grids\/","menu_order":0,"post_type":"progetti","post_mime_type":"","comment_count":"0","filter":"raw"},"order_posts":"","dont_show_search":false,"related_posts":false,"dont_show_hompage":false,"show_on_slider":false,"single_post_data":{"titolo_spot":"","post_content":"
This work evaluated the analysis and subsequently optimized the control algorithm for a solid-state MVDC breaker with fault current limitation function. Real Time Control Hardware in The Loop (CHIL) hardware simulations were conducted and compared with software-only simulations, which served as the reference. Initially, the performance results were unsatisfactory, despite the control state machine being fundamentally correct. To expedite the system’s response, two different optimization approaches were adopted, both in software (SW) and hardware (HW). On the software side, the state machine was fully translated into low-level language (ANSI-C) to achieve maximum speed. On the hardware side, interrupts were set up to enforce the execution of code segments in response to external logic signals. The overall result was a substantial improvement in system performance. The final outcomes were satisfactory in achieving the expected goals in terms of response speed and controllability. Additionally, selected commercial components were chosen to compile a parts list, and approximate calculations demonstrated reasonable equipment efficiency under operating conditions.<\/p>\n","scarica_file":false,"link_estreno":[{"link_text":"Download Memory","link":"https:\/\/ieeexplore.ieee.org\/document\/9160514"}],"button":{"text":"","link":""},"referente_group":false,"data_emissione":"2022-06-12","autori":"A. Clerici, R. Chiumeo, C, Gandolfi (RSE S.p.A.)","destinazione":"2020 IEEE International Conference on Environment and Electrical Engineering and 2020 IEEE Industrial and Commercial Power Systems Europe (EEEIC \/ I&CPS Europe), Madrid, June 9-12, 2020 ","rif_rse":"20002018"},"satellite_post_url":""},"yoast_head":"\n