![]() ![]() The method of claim 16, wherein the second microgrid comprises no asset in the form of a grid breaker connecting the second microgrid to a power distribution grid.ģ0. The method of claim 27, wherein the sent address information is sent to, and the received address information is received from, a network controller associated with a second asset in the form of a grid breaker arranged to control a connection of the second microgrid to the power distribution grid.Ģ9. The method of claim 26, further comprising: sending, from the network controller, address information about MGCs in the first microgrid to the second microgrid in response to the determining that the microgrid breaker is closed and before broadcasting in the second group, receiving address information about MGCs in the second microgrid from the second microgrid.Ģ8. The method of claim 16, wherein determining that the microgrid breaker is closed comprises receiving information indicating that the microgrid breaker is closed at a network controller associated with an asset in the form of a grid breaker that is arranged to control a connection of the first microgrid to a power distribution grid.Ģ7. The method of claim 16, wherein the information being broadcasted to the first or the second group comprises any of power, voltage and frequency of the asset with which the MGC is associated.Ģ6. The method of claim 16, wherein the MGC is a DG controller associated with an asset in the form of a distributed generator.Ģ5. The method of claim 16, wherein the MGC is a storage controller associated with an asset in the form of an energy storage.Ģ4. The method of claim 20, broadcasting information from the MGC to MGCs in the second group comprises broadcasting set-points.Ģ3. The method of claim 20, wherein broadcasting information from the MGC to other MGCs in the first group comprises broadcasting set-points.Ģ2. The method of claim 16, wherein the MGC is a network controller associated with an asset in the form of a grid breaker arranged to control a connection of the first microgrid to a power distribution grid.Ģ1. The method of claim 16, wherein the first group comprises some but not all MGCs in the first microgrid, and wherein the second group comprises some but not all MGCs in the first and second microgrids.Ģ0. The method of claim 16, wherein the first group comprises every MGC in the first microgrid, and wherein the second group comprises every MGC in both the first and the second microgrids.ġ9. The method of claim 16, wherein the method comprises operating a decentralized microgrid control system without use of a control central unit.ġ8. A method of operating a microgrid control system to control a microgrid arrangement comprising a first microgrid and a second microgrid separated by a microgrid breaker, the first and second microgrids each comprising a plurality of assets, each asset being associated with a respective microgrid controller (MGC) of the microgrid control system, the method comprising: determining that the microgrid breaker is open based on the determination that the microgrid breaker is open, for at least one MGC of the MGCs in the first microgrid, assigning the MGC to a first group of MGCs in the first microgrid broadcasting information from the MGC to other MGCs in the first group determining that the microgrid breaker is closed based on the determination that the microgrid breaker is closed, assigning the MGC to a second group of MGCs in both the first microgrid and the second microgrid and broadcasting information from the MGC to MGCs in the second group.ġ7. ![]() The company was founded on Januand is headquartered in Zurich, Switzerland.16. The Robotics & Discrete Automation segment delivers its products, solutions and services through two operating Divisions: Robotics and Machine Automation. ![]() The Process Automation segment develops and sells a broad range of industry-specific, integrated automation and electrification and digital systems and solutions, as well as digital solutions, life cycle services, advanced industrial analytics and artificial intelligence applications and suites for the process, marine and hybrid industries. The Motion segment manufactures and sells drives, motors, generators, traction converters and mechanical power transmission products that are driving the low-carbon future for industries, cities, infrastructure and transportation. The Electrification segment manufactures and sells electrical products and solutions which are designed to provide safe, smart and sustainable electrical flow from the substation to the socket. It operates through the following business segments: Electrification, Motion, Process Automation and Robotics & Discrete Automation. is a technology company, which engages in the development and provision of electrification, motion and automation solutions. ![]()
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