Understanding Electric Power Systems: Minus Signs in the Admittance Matrix

AI Thread Summary
The discussion addresses the origin of minus signs in the admittance matrix, which arise from the definitions of current and voltage directions at the ports, where port currents are considered to flow into the terminal. A participant seeks clarification on resistor values, specifically questioning the discrepancy between R3 being stated as 1/3 and later as 1. The response indicates a potential error in the document, suggesting that the author neglected to account for a factor of 1/3 in the matrix calculations. Overall, the conversation focuses on understanding the mathematical representation and the implications of the admittance matrix in electric power systems. The clarification provided helps to resolve confusion regarding resistor values in the context of the problem.
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http://ocw.mit.edu/courses/electrical-engineering-and-computer-science/6-061-introduction-to-electric-power-systems-spring-2007/assignments/ps1ans.pdf
Problem #3

Where do the minus signs come from in the admittance matrix?

also, there is this statement
"Thus it is clear that R3 = 1/3 and"
and later the statement
"R12 = R3 =1"



Homework Equations





The Attempt at a Solution



From what I think it would be that the T circiut would be 1ohm for all three resistors, but that isn't what the solution is.
Can someone help me please understand?
thank you for your time and have a good day
 
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The negative values in the admittance matrix are there because of the definitions of the current and voltage directions that define the ports. Port currents are always taken to be INTO the port terminal (and out of the return path for the given port).

attachment.php?attachmentid=37523&stc=1&d=1311640759.gif


Regarding the "R3 = 1 or R3 = 1/3" question, it would appear that there is a mistake in the question document; the author took the value from the matrix as written, but failed to multiply by the constant 1/3 that was factored out of the matrix.
 

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thank you for your help
 

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