# RFICS Presentation Structure ## Organizational stuff - Duration: 10 minutes slides + 15 minutes questions - Bring own laptop or send slides ## Content - Background and Introduction - Standard way of doing things ("Old technique") - Explanation of issue the ideas in the paper are aimed at - Proposed Ideas - Discussion of semiconductor technology; Comparison with IHP technology (if sufficient details are provided) - Circuit schematics - Explanation of which topology is used and why - Is there anything unconventional about the design? - Explanation of measurement results in paper - Simulation Results - Explanation of design steps (e.g., approach proposed in lecture: worry about bias in the end) - How transistors were chosen - Choice of operating point - Rest of schematic details - Simulation of circuit in paper (with explanation - I guess intuitive explanation of why things look the way they do?) - If the design in the paper is different to the standard approach: Comparison of pros and cons with standard topology, with simulations - Discussion - Own observations and opinions about the ideas in the paper - (Bonus) Further simulations with ideas from the lecture - Conclusion ## Things not to include - Layout issues and optimization are out of scope, in case they exist in the paper ## TODO - Compare technologies (B11HFC, SG13G2) - What are the benefits of SiGe? (e.g., RF on same chip as digital stuff) - How does the proposed topology work? - Why do transmission-line based differential L-type matching networks have a high bandwidth? - How can we just remove the bottom transistors? - Intuitive explanations of paper simulation results - Why do single-ended chip interfaces enable a dense chip-to-package transition? - Stuff from background slide: - Relevant theoretical background on mixers - What is special about zero-IF mixers? - ~What is special about broadband mixers/devices?~ Take a look ad broadband IC notes - What is special about down-conversion mixers? - What is special about BiCMOS technology? - ~What is D-Band?~ - Simulation ## Other notes - LSSP: Normal S-Parameters are determined for linearized systems. For this reason, they are only tools of small-signal analysis. Large-Signal S-Parameters are defined similarly (ratios of power going in/out) but are computed considering non-linearities.