RF Packaging Jason Shin Fall 2007: ECEN 5004 Fundamentals of Microsystems Packaging Graduate Presentation
RF Packaging Introduction Devices Substrates Fabrication Miscellaneous RF Packaging Conclusion
Introduction: Past RF Technology Technology focused on: Analog communication Short Distance Radar < 100 [GHz]
Introduction: Present RF Technology RF technology today is integrated in most electronics spanning all engineering fields. Quazioptical frequencies used
RF Packaging Introduction Devices Substrates Fabrication Miscellaneous RF Packaging Conclusion
Devices – Passives Problems with normal passives Inductors Capacitors Solutions (packaging) Passive uses Matching Filters DC/RF choke/block High Q Cavities (Low ESR)
Devices – Actives Transistors High Power Low Power Various Packages Oscillators Bolometer/Diodes Mixing Power Measurement Rectify RF power
Devices – Active Fabrication RF Transistors vs. typical CMOS transistors Gain Product Bandwidth Lower Capacitances Exotic Processes very small tolerances Different Materials/Structures LDMOS
Devices – Active Packaging Parasitic Impedances limit performance Technologies Used Plastic Package Wire Bond Flip-chip
Devices – Packaging Interface RF Transistor Example
Devices – Packaging Interface
RF Packaging Introduction Devices Substrates Fabrication Miscellaneous RF Packaging Conclusion
Substrates - Introduction What are we looking for? Interconnects Connecting DC Biasing Interconnects between Devices (RF and DC) Microstrip Antennas Matching 50 Ohm Impedance Transforms Materials Flex, Brittle, Flame Retardant, etc.
Substrates – Materials Polytetrafluoroethylene (PTFE) DuPont brand name Teflon Ceramic Woven Glass Thermoset Plastic
Substrates – Materials Criteria commonly used in selecting a material: Military: Materials meet or are tested in accordance to military specifications. Commercial: materials are designed for cost sensitive applications (military grade materials can be used in commercial applications but pricing is higher). Multilayer: mechanical properties are such that allow for reliable multilayer (MLB, other than basic stripline) constructions Hybrid: mechanical properties are such that allow for reliable FR4 hybrid MLB constructions Broad Band: dielectric constant allows for very high frequency and/or high broadband use Temp Cycling: electrical and mechanical properties allow for stable use in temperature varying environments Surface Mount: mechanical properties allow for surface mount technology Miniaturize dielectric constant reduces sizes of circuit elements
Substrates Conductors can be: Rolled Electro-deposited Various characteristics can be designed for Tradeoffs mostly apparent in cost Many different RF software packages used to model on substrates
Substrates – Flex Substrates
RF Packaging Introduction Devices Substrates Fabrication Miscellaneous RF Packaging Conclusion
Fabrication - Introduction All techniques described in semester apply Active Antenna Laboratory Milling Chemical Etching
Fabrication - Milling Two Machines Smallest tool 5 mil
Fabrication – Chemical Etching Process Design on computer Print on Blue Paper Iron/Press on Substrate Peal Pour Acid
RF Packaging Introduction Devices Substrates Fabrication Miscellaneous RF Packaging Conclusion
μCoax Hybrid Coupler 4x4 Butler Matrix Patch Antenna
μCoax
RF Packaging Introduction Devices Substrates Fabrication Miscellaneous RF Packaging Conclusion
RF usable frequencies continue to increase Passive and active devices must control unwanted parasitic effects in order to scale Change in size/package Change in process Substrates and fabrication techniques continue to become less expensive and more robust Interesting progress can be made with these advancements