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Characterization and Analysis of On-Chip Microwave Passive Components at Cryogenic Temperatures

Bishnu Patra, Mohammadreza Mehrpoo, Andrea Ruffino, Fabio Sebastiano, Edoardo Charbon, Masoud Babaie

2020IEEE Journal of the Electron Devices Society89 citationsDOIOpen Access PDF

Abstract

This paper presents the characterization and modeling of microwave passive components in TSMC 40-nm bulk CMOS, including metal-oxide-metal (MoM) capacitors, transformers, and resonators, at deep cryogenic temperatures (4.2 K). To extract the parameters of the passive components, the pad parasitics were de-embedded from the test structures using an open fixture. The variations in capacitance, inductance and quality factor are explained in relation to the temperature dependence of the physical parameters, and the resulting insights on the modeling of passives at cryogenic temperatures are provided. Modeling the characteristics of on-chip passive components, presented for the first time down to 4.2K, is essential in designing cryogenic CMOS radio-frequency integrated circuits, a promising candidate to build the electronic interface for scalable quantum computers.

Topics & Concepts

Characterization (materials science)MicrowaveMaterials scienceInductanceCryogenicsParasitic extractionOptoelectronicsCMOSElectronic engineeringElectronic componentTemperature measurementCryogenic temperatureScalabilityQ factorKinetic inductanceInductorQuantum capacitanceInterface (matter)CapacitanceCryogenic treatmentSemiconductor device modelingQuality (philosophy)Logic gateCapacitorJitterEquivalent circuitRadio Frequency Integrated Circuit DesignAdvancements in Semiconductor Devices and Circuit DesignMicrowave and Dielectric Measurement Techniques
Characterization and Analysis of On-Chip Microwave Passive Components at Cryogenic Temperatures | Litcius