Dear Colleagues,
I would like to seek your advice.
We have been working on flexible microwave electronics and created a custom SMA end launch connectors to meet our requirements. However, in order to evaluate devices' performance, we are trying to extract s-parameters of our custom made end launches with follow de-embedding procedure, especially for our temperature-dependent measurements.
We have produced PCB (RO3003 62 mils) with Open, short, and through microstrip and CPW lines, attached our connectors, and measured in the same temperature conditions as our flexible devices.
The most important step is to know expected PCB s-parameters, and here we have a problem. Initially, we started with CST simulation results (Frequency and Time domain); it did not give good de-embedding results. We have tried Feko, but it seems simulation results are a bit strange, I guess, due to weird port constraints.
There is a number of publications stated that the Sonnet software could provide extremely accurate simulation results. We have tried this and partially succeeded. The through microstrip line with a length of 10mm showed expected simulation results from 0.2 to 6GHz and unphysical results from 7 to 15GHz (Our band of interest is 0.2-15GHz). We have assumed that unphysical results (Positive S21 or S21 sin-like behavior) come from box resonances, and we followed recommendations from the user guide. We tried to shrink box as we could, but coupling to the box walls disturb results. Free space lid, absorber layers, vias, and diagonal positioning of mstrip do not help much. Unphysical behavior is either improving a bit or shifting to higher frequencies.
1) What is the most accurate way to extract simulation results from our PCB?
2) If Its Sonnet, then how can we fight with this issue or improve simulation results? Do we miss something?
3) Any recommendations or suggestions in our procedure?