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Where To Find This Example

AWR Version

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15

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Understanding AWR .emz Files

AWR Version

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14

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Understanding AWR .emz Files

Design Notes

Various Simulations with Modelithics parts

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This collection of example schematics demonstrate different types of tuning, optimization and yield analysis that can be performed using the Modelithics part-value and substrate-scalable global RLC models.   To look at each specific example, you will need to enable the measurements on the graphs for that specficially named example.   

SUBSTRATE TUNING

Example_CAP_HSUB_TUNE_1b illustrates the use of tuning in MWO to examine the frequency response of the CAP_MUR_0805_001 model as a function of substrate thickness.

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Example_CAP_PART_OPT_1 illustrates the use of discrete part value optimization in MWO using the CAP_MUR_0805_001 model.   Discrete optimization requires the creation of a vector array containing discrete part values (the C_val[] vector seen in the schematic) and a suitable optimization algorithm (such as Pointer - Robust Optimization).   The part value arrays are available in the resources folder of the XML library.

Example_IND_PART_OPT_1 illustrates the use of discrete part value optimization in MWO using the IND_TKO_0805_001 model.   Discrete optimization requires the creation of a vector array containing discrete part values (the L_val[] vector seen in the schematic) and a suitable optimization algorithm (such as Pointer - Robust Optimization).   The part value arrays are available in the resources folder of the XML library.

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Example_CAP_PART_OPT_1b illustrates the use of continuous part value optimization in MWO using the CAP_MUR_0805_001 model.   A suitable optimization algorithm is Gradient Optimization.

Example_IND_PART_OPT_1b illustrates the use of continuous part value optimization in MWO using the IND_TKO_0805_001 model.   A suitable optimization algorithm is Gradient Optimization.

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Example_CAP_PART_TUNE_1 illustrates the use of discrete part value tuning in MWO using the CAP_MUR_0805_001 model.   Discrete tuning requires the creation of a vector array containing discrete part values (the C_val[] vector seen in the schematic).   The part value arrays are available in the resources folder of the XML library.

Example_IND_PART_TUNE_1 illustrates the use of discrete part value tuning in MWO using the IND_TKO_0805_001 model.   Discrete tuning requires the creation of a vector array containing discrete part values (the L_val[]vector seen in the schematic).   The part value arrays are available in the resources folder of the XML library.

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Example_IND_PART_YIELD_1 illustrates the use of yield analysis in MWO using the IND_TKO_0805_001 model.   The nominal value of the Tolerance parameter in the model should be specified as 1, with the statistical distribution specified according to the vendor-specified part value tolerance (e.g. 10%).

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