A wafer-level interposer based microwave circuit and system integration technology

A wafer-scale microwave system and circuit integration method has been developed that allows the embedding of multiple semiconductor dice having varied function and material into a compact chip-scale module. This circuit integration technology includes low loss planar transmission line interconnects...

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Published in	2010 IEEE MTT-S International Microwave Symposium pp. 1300 - 1303
Main Authors	Hillman, Chris, Hacker, Jonathan B, Wonill Ha, Stupar, Phil
Format	Conference Proceeding
Language	English
Published	IEEE 01.05.2010
Subjects	Circuits and systems high density interconnect Integrated circuit technology Microwave circuits Microwave technology Microwave theory and techniques MMIC packaging Planar transmission lines Power amplifiers Propagation losses Semiconductor materials system-in-package system-on-chip Thin film inductors wafer level packaging wafer scale packaging
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Abstract	A wafer-scale microwave system and circuit integration method has been developed that allows the embedding of multiple semiconductor dice having varied function and material into a compact chip-scale module. This circuit integration technology includes low loss planar transmission line interconnects and integrated precision thin film resistors, capacitors and inductors; all of these structures are embedded in a micromachined silicon interposer. To demonstrate this interposer-based monolithic microwave integrated circuit (iMMIC) technology a Class-A Ku-band power amplifier has been designed and fabricated utilizing a discrete Triquint 1.2 mm × 0.35 μm pHEMT. A compact single stage amplifier produced 1 Watt of saturated output power at 14 GHz with a drain efficiency of 42.9 %, and 7.1 dB power gain. Wafer-scale micro-lithographic processing as well as selection of known-good-die for integration, will improve yield and reduced cost compared to current state-of-the-art hybrid technology. In this paper, we discuss architecture, design methodology, and the results of our demonstrated power amplifier in this new technology.
AbstractList	A wafer-scale microwave system and circuit integration method has been developed that allows the embedding of multiple semiconductor dice having varied function and material into a compact chip-scale module. This circuit integration technology includes low loss planar transmission line interconnects and integrated precision thin film resistors, capacitors and inductors; all of these structures are embedded in a micromachined silicon interposer. To demonstrate this interposer-based monolithic microwave integrated circuit (iMMIC) technology a Class-A Ku-band power amplifier has been designed and fabricated utilizing a discrete Triquint 1.2 mm × 0.35 μm pHEMT. A compact single stage amplifier produced 1 Watt of saturated output power at 14 GHz with a drain efficiency of 42.9 %, and 7.1 dB power gain. Wafer-scale micro-lithographic processing as well as selection of known-good-die for integration, will improve yield and reduced cost compared to current state-of-the-art hybrid technology. In this paper, we discuss architecture, design methodology, and the results of our demonstrated power amplifier in this new technology.
Author	Hillman, Chris Hacker, Jonathan B Wonill Ha Stupar, Phil
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Snippet	A wafer-scale microwave system and circuit integration method has been developed that allows the embedding of multiple semiconductor dice having varied...
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SubjectTerms	Circuits and systems high density interconnect Integrated circuit technology Microwave circuits Microwave technology Microwave theory and techniques MMIC packaging Planar transmission lines Power amplifiers Propagation losses Semiconductor materials system-in-package system-on-chip Thin film inductors wafer level packaging wafer scale packaging
Title	A wafer-level interposer based microwave circuit and system integration technology
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