Fig. 1 shows the one-line diagram of a 5-bus power system with line impedances and voltage levels in per-unit. The circuit of Fig. 1 has the linear graph shown in Fig. 2, with arrows indicating
directions assumed for the branches a to h.

a) Determine branch-to-node incidence matrix A for the circuit with node 0 as reference
b) Find the circuit Ybus using equation Ybus = A^TY_pr A
c) A new branch having impedance j0.5 is added between nodes 3 and 4 in the network in Fig. 1. Modify Y_bus matrix obtained in part b to account for addition of the new branch.

 

 

 

Transcribed Image Text:

The image is a directed graph consisting of six nodes and eight edges. Each node is represented by a circle containing a number, ranging from 0 to 5. The edges are arrows that connect the nodes, indicating the direction. Here is a detailed description of the graph components: **Nodes:** - There are six nodes labeled 0, 1, 2, 3, 4, and 5. **Edges:** - There is an edge from node 1 to node 2 labeled "a." - There is an edge from node 1 to node 3 labeled "b." - There is an edge from node 2 to node 3 labeled "c." - There is an edge from node 2 to node 5 labeled "d." - There is an edge from node 3 to node 4 labeled "e." - There is an edge from node 4 to node 5 labeled "f." - There is an edge from node 5 to node 0 labeled "h." - There is an edge from node 3 to node 0 labeled "g." This graph can be used to represent a variety of structures in computer science and mathematics, such as networks, state machines, or paths in algorithms. The direction of the arrows is significant, indicating the permissible direction of travel from one node to another.

Transcribed Image Text:

The image depicts an electrical circuit with multiple nodes, impedances, and voltage sources. Here's a detailed transcription and explanation: ### Node Descriptions: - **Node 0:** Reference ground node. - **Node 1:** Connected to two impedances and a voltage source. - **Node 2:** Connected to two impedances. - **Node 3:** Connected to an impedance and two other nodes through impedances. - **Node 4:** Intermediate node connecting nodes 0, 3, and 5 through impedances. - **Node 5:** Connected to an impedance and a voltage source. ### Impedances: - **From Node 1 to Node 3:** Impedance of \( j0.5 \) - **From Node 1 to Node 2:** Impedance of \( j0.4 \) - **Between Nodes 2 and 3:** Delta configuration with impedances \( j0.25 \) (horizontal), \( j0.25 \) (vertical), and \( j0.2 \). - **From Node 3 to Node 4:** Impedance of \( j0.125 \) - **From Node 4 to Node 5:** Impedance of \( j0.5 \) - **From Node 5 to Node 0:** Impedance of \( j1.25 \) - **From Node 1 to Node 0:** Impedance of \( j1.0 \) ### Voltage Sources: - **Connected between Node 1 and Node 0:** Voltage source of \( 1.10 \angle 0^\circ \) - **Connected between Node 5 and Node 0:** Voltage source of \( 0.90 \angle -30^\circ \) This circuit can be used to analyze various electrical parameters such as current, voltage, and power distribution in an AC circuit setup. The impedances, represented with imaginary numbers, indicate that this is an analysis likely in the context of alternating current systems where reactance plays a significant role.