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The model for coupled lines is used to simulate a double-circuit line or two lines with the same right of way.

Coupled Lines Icons and Diagrams

In the model palette, two icons and two diagrams used to represent coupled lines.

Coupled Line Icon and Diagram

Parameter Description

The parameters for coupled transmission lines are the same as for uncoupled lines. The only difference is that the modal transformation matrix of coupled transmission lines is a 6x6 matrix because each bundle of conductors is considered as a separate phase.

List of Available Signals

At acquisition, the following signals are made available by the sensors:

Line Signals

V(a, b, c)_line label_bus labelVoltage of each phase on “bus label” bus (volt);
I(a, b, c,n)_line label_bus labelCurrents of each phase and ground on “bus label” bus (ampere). When 2 are connected to the same bus, the inductors of phase d, e and f are used to differentiate the signals. Also, the n1 and n2 neutral indicators will appear.
P_line label_bus labelActive power on “bus label” bus (watt)
Q_line label_bus labelReactive power on “bus label” bus (var)


Coupled Lines Control Panels

This section shows how to enter data in the control panels of Coupled Lines.

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An EMTP file that contains the physical parameters of the lines (Fig 7 - 2 and 7 - 3) or the resolve matrix by the external software of EMTP can be loaded automatically in the parameter form.

Calculation of Electrical Parameters and Corresponding Control Panel

Calculation of Electrical Parameters

The calculation of electrical parameters of frequency constant parameter lines with their geometric parameters is done by using Hyperline the Line Generator or the Line Data module in Hyperview component from the library. Figure 7 - 9 shows the relevant part of the Hyperline geometrical parameters.

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geometrical

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Transfer Electrical Parameters to HYPERSIM® Lines
The transfer of electrical parameters to HYPERSIM® is very simple.

  • In HYPERSIM® GUI, edition mode, draw a network with lines.
  • Go to simulation mode.
  • Go to the Line Data GUI, you will see all the names of the lines in you network at the bottom of the page.
  • To transfer electrical parameters, choose the name of the line and them apply parameters.
  • See the parameters in the forms of the line.


Example:
Example of a 500-kV three-phase, double-cicruit circuit line.
6 bundles of 3 ACSR 1355 MCM conductors, 2 steel ground wire.
The Phase numbering is set to obtain the (6x6) RLC matrices and sequence parameters of the two individual circuits.


Geometric Layout of Two Coupled Lines

Details of a Conductor Bundle for Lines in Figure 7-15Image RemovedDetails of a Conductor Bundle for Lines in Figure 7-15Image Added

Line Height





Control Panel of an Untransposed Double Circuit Line with the Geometric Data Shown in Figures 7-15 to 7-17Image Modified


Background Color
color#D3D3D3


Note: In the control panel, the modes are not presented in the same order as that of an EMTP input file. For HYPERSIM®, this order is 2G, 2IL, 2L, 2L, 2L, 2L.


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