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I have an .snp file with 816 ports and a size of 16GB. When running HB and HBSP simulations in SpectreRF, the simulation time is excessively long—especially during frequency sweeps and input power variations. Moreover, this .snp file represents only the last stage of a PA circuit; simulating an...
Thanks, I'm just wondering whether native NMOS can be used in RF PA design. Based on your explanation, it seems that native NMOS is a very suitable choice for the final stage of a high-frequency power amplifier implemented in bulk CMOS—say, using a 40nm CMOS process targeting D-band frequencies...
Native NMOS devices have a near-zero threshold voltage, which makes them very suitable for power amplifier design. However, I rarely see any articles that use this device to design an RF power amplifier. Why is that?
Thanks, I have already completed these steps, and for EMX Simulation, it works. However, for EMX Designer, I need a specific TSMC PDK so that I can synthesize RF components using it. My question is: how can I create such a PDK and link it to EMX Designer?
It seems that the EMX Designer can only synthesize RF components when using the GPDK provided by Cadence for rapid adoption. My question is: how can I use the EMX Designer to synthesize RF components with other PDKs, such as TSMC's PDK?
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