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rfckt.hybridg

Inverse hybrid connected network

Description

Use the hybridg object to represent hybrid connected networks of linear RF objects characterized by the components that make up the network.

Creation

Syntax

h = rfckt.hybridg
h = rfckt.hybridg('Property1',value1,'Property2',value2,...)

Description

example

h = rfckt.hybridg returns an inverse hybrid connected network object whose properties all have their default values.

h = rfckt.hybridg('Property1',value1,'Property2',value2,...) sets properties using one or more name-value pairs. You can specify multiple name-value pairs. Enclose each property name in a quote

Properties

expand all

This property is read-only.

Computed S-parameters, noise figure, OIP3, and group delay values, specified as an rfdata.data object. For more information refer, Algorithms.

Data Types: function_handle

Circuit objects in network, specified as a cell array of object handles. All circuits must be 2-port. By default, this property is empty.

Data Types: char

This property is read-only.

Object name, specified as a 1-by-N character array.

Data Types: char

This property is read-only.

Number of ports, specified as a positive integer. The default value is 2.

Data Types: double

Object Functions

analyzeAnalyze circuit object in frequency domain
calculateCalculate specified parameters for circuit object
circleDraw circles on Smith chart
listformatList valid formats for specified circuit object parameter
listparamList valid parameters for specified circuit object
loglogPlot specified circuit object parameters using log-log scale
plotPlot specified circuit object parameters on X-Y plane
plotyyPlot specified object parameters with y-axes on both left and right sides
polarPlot specified circuit object parameters on polar coordinates
semilogxPlot specified circuit object parameters using log scale for x-axis
semilogyPlot specified circuit object parameters using log scale for y-axis
smithPlot specified circuit object parameters on Smith chart
writeWrite RF data from circuit or data object to file

Examples

expand all

Create inverse hybrid connected networks of linear RF objects with two transmission line objects using rfckt.hybridg.

tx1 = rfckt.txline;
tx2 = rfckt.txline;
invhyb = rfckt.hybridg('Ckts',{tx1,tx2})
invhyb = 

   rfckt.hybridg with properties:

              Ckts: {[1x1 rfckt.txline]  [1x1 rfckt.txline]}
             nPort: 2
    AnalyzedResult: []
              Name: 'Hybrid G Connected Network'

Algorithms

The analyze method computes the S-parameters of the AnalyzedResult property using the data stored in the Ckts property as follows:

  1. The analyze method first calculates the g matrix of the inverse hybrid network. It starts by converting each component network's parameters to a g matrix. The following figure shows an inverse hybrid connected network consisting of two 2-port networks, each represented by its g matrix,

    where

    [g]=[g11g12g21g22][g]=[g11g12g21g22]

  2. The analyze method then calculates the g matrix for the inverse hybrid network by calculating the sum of the g matrices of the individual networks. The following equation illustrates the calculations for two 2-port networks.

    [g]=[g11+g11g12+g12g21+g21g22+g22]

  3. Finally, analyze converts the g matrix of the inverse hybrid network to S-parameters at the frequencies specified in the analyze input argument freq.

References

[1] Davis, A.M., Linear Circuit Analysis, PWS Publishing Company, 1998.

Introduced before R2006a

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