Induced voltages on transmission line by plane wave in HFSS
时间:04-04
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How to build a HFSS model to solve the following problem:
there is a two-wire transmission line:
The line incident uniform plane wave has a frequency of 100 MHz and is traveling in the xy plane in the y direction, and is said to be incident ?broadside? to the line. It is required to find the voltages Vs and Vl at the ends of the line induced by an electromagnetic wave.
wires diameter = 15 mils;
line length L = 1 m;
Distance between wires s = 50 mils;
Resistance Rs = 50 Ohm Rl = 150 Ohm;
E = 10 V/m;
f = 100 MHz.
According to analytical calculation (Paul, Clayton R. Introduction to electromagnetic compatibility / Clayton R. Paul.--2nd ed., p.539):
Vs = j6.65 mV,
Vl = -j19,95 mV
My HFSS model:
Resistors are LumpedRLC
I calculate the voltage in the Fields Calculator by integrating the values of the electric field along the lines:
Calculation results: Vl = -2.3 mV; Vs= 1.7 mV
What could be the cause of the error?
there is a two-wire transmission line:
The line incident uniform plane wave has a frequency of 100 MHz and is traveling in the xy plane in the y direction, and is said to be incident ?broadside? to the line. It is required to find the voltages Vs and Vl at the ends of the line induced by an electromagnetic wave.
wires diameter = 15 mils;
line length L = 1 m;
Distance between wires s = 50 mils;
Resistance Rs = 50 Ohm Rl = 150 Ohm;
E = 10 V/m;
f = 100 MHz.
According to analytical calculation (Paul, Clayton R. Introduction to electromagnetic compatibility / Clayton R. Paul.--2nd ed., p.539):
Vs = j6.65 mV,
Vl = -j19,95 mV
My HFSS model:
Resistors are LumpedRLC
I calculate the voltage in the Fields Calculator by integrating the values of the electric field along the lines:
Calculation results: Vl = -2.3 mV; Vs= 1.7 mV
What could be the cause of the error?
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