- #1
SMOF
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Hello,
I am hoping someone can break down an equation for me. I am used to Kirchhoff's law in the form of i1 + i2 + i3 = 0 etc. But recently in a High Frequency class, we were told ...'Let us apply the Kirchhoff's law to the equivalent circuit of a transmission line segment of length [itex]\delta[/itex]z. Using the voltage law, we get
V(z,t) = R[itex]\delta[/itex]z * I(z,t) + L[itex]\delta[/itex]z * ([itex]\delta[/itex]I(z,t)[itex]/[/itex][itex]\delta[/itex]t) + V(z + [itex]\delta[/itex]z,t)'.
If anyone could help me break this down, or explain who it relates to the general form of the equation, that would be amazing.
Many thanks in advance.
Seán
I am hoping someone can break down an equation for me. I am used to Kirchhoff's law in the form of i1 + i2 + i3 = 0 etc. But recently in a High Frequency class, we were told ...'Let us apply the Kirchhoff's law to the equivalent circuit of a transmission line segment of length [itex]\delta[/itex]z. Using the voltage law, we get
V(z,t) = R[itex]\delta[/itex]z * I(z,t) + L[itex]\delta[/itex]z * ([itex]\delta[/itex]I(z,t)[itex]/[/itex][itex]\delta[/itex]t) + V(z + [itex]\delta[/itex]z,t)'.
If anyone could help me break this down, or explain who it relates to the general form of the equation, that would be amazing.
Many thanks in advance.
Seán