Defining options, Defining Options and Their Valuation
Conjugate Conjugate Most data files contain measured data; for example, transistor S-parameters or antenna impedance. However, simultaneous conjugate match reflection coefficients GM1 and GM2 measurements in ADS circuit test library or optimum noise reflection coefficients N2PAR measurement specify the loads that must be presented to the device, or conjugate terminations for the matching networks.
E-Syn can read and defining options as network terminations either 1- or 2-port data files that contain Z- Y- or S-parameters. To avoid conflicting units between data files and current E-Syn units, you should include the file format header line in the data files.
Setting Design Units You can use the Units command on the Options menu to set the units for the network you are about to synthesize.
If at any time while defining units you want to restore the default units, click Defaults at the bottom of the dialog box. Setting Synthesis Options All the options related to synthesis are described below. Specifies an insertion loss slope that is linear when plotted on a linear or logarithmic frequency scale. The insertion loss equals the average of the two bandedge loss values at the arithmetic mean of the bandedge frequencies for the LIN setting, and at the geometric mean for the LOG setting.
Positive numeric values result in maximum insertion loss at the highest frequency, and negative values result in maximum loss at the lower cut-off frequency. For impedance-matching networks only.
- Defining Options
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Specifies which type of loss the program may change when defining options insertion loss for a matching network. Specifies the maximum number of components used in automatic mode when computing parameters for an impedance-matching network.
The default value for this parameter is 6; a greater number of components decreases loss only slightly. Specifies the maximum loss used in automatic mode when computing parameters for an impedance-matching network.
Defining options for the Service Catalog
For transformer networks only. Specifies the maximum loss used in automatic mode when computing synthesis parameters.
- Defining Options with Advanced Expressions You can manage options choices for the components in a structure, by creating options statements based on AND and OR expressions for a component.
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Specifies the maximum number of components to be used in the automatic mode when computing synthesis parameters. The default is 8 components.
This is useful for reducing the defining options number of synthesized networks and improving the numerical accuracy of filters with a large number of resonators. Specifies the placement of reflection coefficient zeros in the complex S-plane.
The roots of the denominator polynomial of the input reflection coefficient are known as the poles. E-Syn automatically selects the poles so that the synthesized network always has realizable components. Numerator roots. The roots of the numerator polynomial are defining options as the zeros.
E-Syn allows you to select the S-plane location of zeros. Creation of trading robots training allows E-Syn to select the location for the zeros and is most useful when designing impedance-matching networks.
This feature can help you adjust the output termination closer to your goal value.
Positioning zeros. The following statements apply to the positioning of the zeros: The location of the S-plane zeros in the left- or right-half plane does not affect the electrical performance, but does affect the component values and output termination.
E-Syn does not display zeros which fall on the imaginary axis because there is no choice for the location. Twice the number of roots are actually displayed-only defining options are used to form the input reflection coefficient.
Zeros for a filter with defining options dB MIL are located on the imaginary axis and cannot be moved. Reserved for future use. Specifies the minimum and maximum inductance limits in current units used during synthesis and optimization.
Defining a Base Plus Options Standard Work Format
Specifies the minimum and maximum capacitance limits in current units used during synthesis and optimization. Specifies the transmission line limits during synthesis. Specifies the transmission line short circuit limits during synthesis. Specifies the transmission line open circuit limits during synthesis. Converts lumped components to equivalent distributed components.
Defining Options with Advanced Expressions
Converts distributed components to equivalent lumped components. Specifies whether the analysis frequency range is automatically set from the synthesis parameters and type of response. Specifies whether the optimization targets should be automatically set based on the synthesis parameters.
Specifies whether the trace s should be continuously updated during optimization.