{"payload":{"feedbackUrl":"https://github.com/orgs/community/discussions/53140","repo":{"id":809955738,"defaultBranch":"main","name":"Master-Code02-Simulation-of-Electrical-Power-Systems.","ownerLogin":"MarioSGMiND","currentUserCanPush":false,"isFork":false,"isEmpty":false,"createdAt":"2024-06-03T19:15:39.000Z","ownerAvatar":"https://avatars.githubusercontent.com/u/53545026?v=4","public":true,"private":false,"isOrgOwned":false},"refInfo":{"name":"","listCacheKey":"v0:1717442141.0390038","currentOid":""},"activityList":{"items":[{"before":"aa440bb88a7bd2aa4db10e5a6b370b5fffb47734","after":"2f505e65d855cb88aef17e613a876d2bc3fc8694","ref":"refs/heads/main","pushedAt":"2024-07-18T01:37:29.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Create LICENSE","shortMessageHtmlLink":"Create LICENSE"}},{"before":"a238f6808ef7f1034fff0a3a5968dffc34ea6f73","after":"aa440bb88a7bd2aa4db10e5a6b370b5fffb47734","ref":"refs/heads/main","pushedAt":"2024-07-18T01:35:24.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Delete LICENSE","shortMessageHtmlLink":"Delete LICENSE"}},{"before":"9e26c63c1405be0d2a14f6dc9e86909d1855f1ae","after":"a238f6808ef7f1034fff0a3a5968dffc34ea6f73","ref":"refs/heads/main","pushedAt":"2024-06-04T02:41:07.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Case 6 Report.\n\nReport of Results obtained in MATPOWER from the IEEE Power Systems Analysis Std 399-1997 Case Study.","shortMessageHtmlLink":"Case 6 Report."}},{"before":"7181e5aaa268a2bbf410d65d8239ae4d16fc0bea","after":"9e26c63c1405be0d2a14f6dc9e86909d1855f1ae","ref":"refs/heads/main","pushedAt":"2024-06-04T02:37:34.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Cases 2 to 5 Report.\n\nReport of Results obtained in MATPOWER from Cases 2 to 5. These cases have 4, 9, 14 and 30 buses respectively.","shortMessageHtmlLink":"Cases 2 to 5 Report."}},{"before":"92939fd41c89fd513d04e0000bf9702af225dfdb","after":"7181e5aaa268a2bbf410d65d8239ae4d16fc0bea","ref":"refs/heads/main","pushedAt":"2024-06-04T02:33:50.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Case 1 Report.\n\nReport of Results obtained in MATPOWER of Case 1. This system has 4 buses and 6 lines.","shortMessageHtmlLink":"Case 1 Report."}},{"before":"e83e39dd0f8b2e48dfee6367863afa86e4537cbb","after":"92939fd41c89fd513d04e0000bf9702af225dfdb","ref":"refs/heads/main","pushedAt":"2024-06-04T02:28:28.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"IEEE Power Systems Analysis Std 399-1997.\n\nThis Recommended Practice is a reference source for engineers involved in industrial and commercial power systems analysis. It contains a thorough analysis of the power system data required, and the techniques most commonly used in computer-aided analysis, in order to perform specific power system studies of the following: short-circuit, load flow, motor- starting, cable ampacity, stability, harmonic analysis, switching transient, reliability, ground mat, protective coordination, dc auxiliary power system, and power system modeling.","shortMessageHtmlLink":"IEEE Power Systems Analysis Std 399-1997."}},{"before":"68f7152deb28520942f29a6aa816bcfc70e19518","after":"e83e39dd0f8b2e48dfee6367863afa86e4537cbb","ref":"refs/heads/main","pushedAt":"2024-06-04T02:26:25.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Case 6: IEEE Std 399-1997.\n\nCase Study of Power Flows for a Load Center. The reference, IEEE Recommended Practice for Industrial and Commercial, Power Systems Analysis, was used. \r\n\r\nUsing Figure 6-1, Single-Line Diagram of Typical Industrial Power System for Load Flow Study example, comparing the results with those shown in Figure 6-7, Example System Base Case Load Flow Output.","shortMessageHtmlLink":"Case 6: IEEE Std 399-1997."}},{"before":"1007d308fe5c8617a3009a2ecc308c176df4ae4e","after":"68f7152deb28520942f29a6aa816bcfc70e19518","ref":"refs/heads/main","pushedAt":"2024-06-04T02:20:10.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Case 5: Test Case for IEEE 30 Bus Power Flows.\n\nThe IEEE 30-bus test case represents a portion of the US electric power system (located in the US Midwest). In December 1961. The data was provided by Iraj Dabbagchi AEP and entered into the IEEE common format by Rich Christie at the University of Washington in August 1993. The impedance data is referred to a base power of 100 MVA.","shortMessageHtmlLink":"Case 5: Test Case for IEEE 30 Bus Power Flows."}},{"before":"80cec0c52cfad7d1441a194e985212b35250f559","after":"1007d308fe5c8617a3009a2ecc308c176df4ae4e","ref":"refs/heads/main","pushedAt":"2024-06-04T02:17:44.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Case 4: Test Case for IEEE 14 Bus Power Flows.\n\nThe IEEE 14-bus test case represents a portion of the US electrical power system (located in the US Midwest), the information presented here is dated February 1962. A copy of the data was kindly provided. provided by Iraj Dabbagchi of AEP (American Electric Power) and introduced to the IEEE common format by Rich Christie of the University of Washington in 1993. The system is made up of fourteen buses, five generators, five transformers, sixteen lines and eleven loads. The voltage levels on the bars and the power limits on the lines and transformers were taken from the book Simulation of Electrical Systems.","shortMessageHtmlLink":"Case 4: Test Case for IEEE 14 Bus Power Flows."}},{"before":"b05571dc89ed91788ec03a4346a20be4516fbf16","after":"80cec0c52cfad7d1441a194e985212b35250f559","ref":"refs/heads/main","pushedAt":"2024-06-04T02:07:10.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Case 3: 9 Buses.\n\nThis is the case of 9 buses, proposed in Power System Control and Stability by P.M. Anderson and A.A. Fouad.","shortMessageHtmlLink":"Case 3: 9 Buses."}},{"before":"b6bf4593305da98a9da401ece026530881582388","after":"b05571dc89ed91788ec03a4346a20be4516fbf16","ref":"refs/heads/main","pushedAt":"2024-06-04T02:00:35.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Case 2: 4 Buses and 4 Lines.\n\nThis is the Case Study in Electrical Power Systems Analysis by PhD. Stevenson.\r\nThe system has 4 buses and 4 lines.","shortMessageHtmlLink":"Case 2: 4 Buses and 4 Lines."}},{"before":"2340c72780c455fafb94b381fcef2b5891ad3053","after":"b6bf4593305da98a9da401ece026530881582388","ref":"refs/heads/main","pushedAt":"2024-06-04T01:59:59.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Delete case4.m","shortMessageHtmlLink":"Delete case4.m"}},{"before":"3d7e1497abd09be74e82c04b507644c6770e6e03","after":"2340c72780c455fafb94b381fcef2b5891ad3053","ref":"refs/heads/main","pushedAt":"2024-06-04T01:59:16.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Case 4: 4 Buses and 4 Lines.\n\nThis is the Case Study in Electrical Power Systems Analysis by PhD. Stevenson.\r\nThe system has 4 buses and 4 lines.","shortMessageHtmlLink":"Case 4: 4 Buses and 4 Lines."}},{"before":"44f33f24806f617d452500954d2c37caa01c4721","after":"3d7e1497abd09be74e82c04b507644c6770e6e03","ref":"refs/heads/main","pushedAt":"2024-06-03T20:11:18.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"MarioSGMiND","name":"Mario Sánchez Gutiérrez","path":"/MarioSGMiND","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/53545026?s=80&v=4"},"commit":{"message":"Case 1: 4 Buses and 6 Lines.\n\nThis case is a modification of the Case Study in Electrical Power Systems Analysis by PhD. 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