Talk:Star-mesh transform

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Impedance formula

Latest comment: 9 years ago2 comments2 people in discussion

It looks like the the formula for impedance given in the article is based off of an equation for conductance in "Planarization by Transformation" (van Lier and Otten, 1973). In a DC circuit, however, conductance is equivalent to admittance - the reciprocal of impedance. I've swapped each impedance value with its reciprocal. This new equation matches the equations for impedance given in Y-Δ_transform#Equations_for_the_transformation_from_Y-load_to_.CE.94-load_3-phase_circuit for the case where the star vertex is degree 3.

Please let me know if my edit was in error, or if a better formatting for the equation would be preferred.

Morganfshirley (talk) 21:01, 30 January 2015 (UTC)Reply

I've changed the equation to be clearer by inverting the denominator. The equation originally appeared as I have it now. Whoever changed it before you did apparently didn't know that: ${\displaystyle {\sum {1 \over z}}\neq {1 \over {\sum z}}}$ . Or they were trying to do the reverse transform. — Preceding unsigned comment added by 134.193.200.217 (talk) 23:54, 10 February 2015 (UTC)Reply

Solver Tool

Latest comment: 7 years ago1 comment1 person in discussion

Here is an online tool that simplifies a network by repeatedly applying the star-mesh transform: http://kirr.homeunix.org/electronics/resistor-network-solver/ . It also explains the process step by step. Should it be mentioned in the article? — Preceding unsigned comment added by 121.102.46.79 (talk) 15:46, 12 August 2016 (UTC)Reply

Incomplete article

Latest comment: 5 years ago1 comment1 person in discussion

This article is woefully incomplete in that it shows us a single example but makes no attempt to say how the transform works in general. Is it applied ONLY to "stars"? If so, the article should say so. And the specifics of the application of the Schur complement could also be included. Michael Hardy (talk) 18:01, 15 November 2018 (UTC)Reply