Universal Dual-Port Grid-Forming Control: Bridging the Gap Between Grid-Forming and Grid-Following Control
We analyze a dual-port grid-forming (GFM) control for power systems containing ac and dc transmission, converter-interfaced generation and energy storage, and legacy generation. To operate such a system and provide standard services, state-of-the-art control architectures i) require assigning grid-f...
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| Veröffentlicht in: | IEEE transactions on power systems 2024-11, Vol.39 (6), p.6861-6875 |
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| container_title | IEEE transactions on power systems |
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| creator | Subotic, Irina Gros, Dominic |
| description | We analyze a dual-port grid-forming (GFM) control for power systems containing ac and dc transmission, converter-interfaced generation and energy storage, and legacy generation. To operate such a system and provide standard services, state-of-the-art control architectures i) require assigning grid-following (GFL) and GFM controls to different converters, and ii) result in highly complex system dynamics. In contrast, dual-port GFM control (i) subsumes common functions of GFM and GFL controls in a simple controller, ii) can be applied to a wide range of emerging technologies independently of the network configuration, and iii) significantly reduces system complexity. In this work, we provide i) an end-to-end modeling framework that allows to model complex topologies through composition of reduced-order device models, ii) an in-depth discussion of universal dual-port GFM control for emerging power systems, and iii) end-to-end stability conditions that cover a wide range of network topologies, emerging technologies, and legacy technologies. Finally, we validate our findings in detailed case studies. |
| doi_str_mv | 10.1109/TPWRS.2024.3381003 |
| format | Article |
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To operate such a system and provide standard services, state-of-the-art control architectures i) require assigning grid-following (GFL) and GFM controls to different converters, and ii) result in highly complex system dynamics. In contrast, dual-port GFM control (i) subsumes common functions of GFM and GFL controls in a simple controller, ii) can be applied to a wide range of emerging technologies independently of the network configuration, and iii) significantly reduces system complexity. In this work, we provide i) an end-to-end modeling framework that allows to model complex topologies through composition of reduced-order device models, ii) an in-depth discussion of universal dual-port GFM control for emerging power systems, and iii) end-to-end stability conditions that cover a wide range of network topologies, emerging technologies, and legacy technologies. Finally, we validate our findings in detailed case studies.</description><subject>Complex systems</subject><subject>Complexity</subject><subject>Control systems</subject><subject>Converters</subject><subject>Frequency control</subject><subject>Frequency stability</subject><subject>grid-forming control (GFM)</subject><subject>HVDC transmission</subject><subject>hybrid AC/DC systems</subject><subject>Network topologies</subject><subject>New technology</subject><subject>power converter control</subject><subject>Power system stability</subject><subject>Reduced order models</subject><subject>Renewable energy sources</subject><subject>Steady-state</subject><subject>System dynamics</subject><subject>Voltage control</subject><issn>0885-8950</issn><issn>1558-0679</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNpVkF1LwzAUhoMoOKd_QLwoeN2Z5KRJ6p3b3BQGDt3wMqTt6ezompl2Dv-9nZswrw685_2Ah5BrRnuM0fhuNn1_fetxykUPQDNK4YR0WBTpkEoVn5IO1ToKdRzRc3JR10tKqWwfHbKcV8UX-tqWwXBjy3DqfBOMfZGFI-dXRbUIBq5qvCvvg36rLnZK84HB2K6DPjZbxOq_3VbZn1CWbnvUcEnOclvWeHW4XTIfPc4GT-HkZfw8eJiEKReqCbkUiUZQDFXCkhSyTCiOuc1TxROFqEXCJEqhIGM6Rm4tAItziDBLAeIUuuR237v27nODdWOWbuOrdtIA41RGAmLeuvjelXpX1x5zs_bFyvpvw6jZMTW_TM2OqTkwbUM3-1CBiEcBoTSTAn4AO4tzpg</recordid><startdate>20241101</startdate><enddate>20241101</enddate><creator>Subotic, Irina</creator><creator>Gros, Dominic</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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To operate such a system and provide standard services, state-of-the-art control architectures i) require assigning grid-following (GFL) and GFM controls to different converters, and ii) result in highly complex system dynamics. In contrast, dual-port GFM control (i) subsumes common functions of GFM and GFL controls in a simple controller, ii) can be applied to a wide range of emerging technologies independently of the network configuration, and iii) significantly reduces system complexity. In this work, we provide i) an end-to-end modeling framework that allows to model complex topologies through composition of reduced-order device models, ii) an in-depth discussion of universal dual-port GFM control for emerging power systems, and iii) end-to-end stability conditions that cover a wide range of network topologies, emerging technologies, and legacy technologies. 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| identifier | ISSN: 0885-8950 |
| ispartof | IEEE transactions on power systems, 2024-11, Vol.39 (6), p.6861-6875 |
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| language | eng |
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| source | IEEE Electronic Library (IEL) |
| subjects | Complex systems Complexity Control systems Converters Frequency control Frequency stability grid-forming control (GFM) HVDC transmission hybrid AC/DC systems Network topologies New technology power converter control Power system stability Reduced order models Renewable energy sources Steady-state System dynamics Voltage control |
| title | Universal Dual-Port Grid-Forming Control: Bridging the Gap Between Grid-Forming and Grid-Following Control |
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