Mask and Parameters
MASK
Number of phases | Set the number of phases for the NIB. |
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Number of Ports | Set the number of Ports of the block. All phase of a single port connects to a single SSN group. |
Port x type | The Number of Ports parameter sets the number of Port x type (where x= 1 to 16) |
accessible by the user. For each Port x type parameter, 6 different options are possible. | |
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These various options are used to connect different types of SSN groups: | |
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Examples
Example 1: NIB with I-Type and V-Type Interface
Take the following model, ArtemisSSN_simple_switched_case.mdl, which contains a switched inductive source connected to a filter bank.
The model has been separated into 2 SSN groups, with the intersection being defined by the NIB. The NIB interface is I-type in the direction of the capacitor of the filter bank while it is V-type in the direction of the inductive source. The type of interface is displayed on the block. The NIB also defines the 3 node that will used internally in the nodal part of the SSN solution.
Example 2: NIB with X-Type Interface, for SSN External Models
The model below simulates a Frequency Dependent Parameter Transmission Line (FD-line) based on the model originally developed by Marti. This FD-line model is internally coded using the nodal approach and can only produce discrete resistive companion model data like the model discrete admittance and history current sources. The direct inclusion of the line characteristic impedance Zc(ω) into a state-space method would have produced huge ABCD matrices because of the many states that compose Zc(ω).
For this reason, the SSN approach is preferred when the interface of this type of model to the state-space method of
Simscape Electrical Specialized Power Systems (SPS). To make the interface, the NIB block must have the type-X chosen and connected toward the external SSN model, an FD-line model in this case. As previously, the NIB also defines the nodal point of the SSN solution. In this case, 6 nodes will be used in the nodal solution part of SSN.
Inputs and Outputs
PM-type connectors
Characteristics and Limitations
V- and I-type NIB blocks are used to compute the state-space equation of the SSN groups and are internally composed of current or voltage sources. State-space equation causality restrictions apply to these blocks. This is why V-type (internal voltage source) connects to inductive groups and I-type (internal current source) to capacitive type groups.
Direct Feedthrough | N/A |
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Discrete Sample Time | Yes |
RT-LAB XHP Support | Yes |
Work Offline | Yes |