DGIST Scholar: A 46-nF/10-M omega Range 114-aF/0.37-omega Resolution Parasitic- and Temperature-Insensitive Reconfigurable RC-to-Digital Converter in 0.18-mu m CMOS

Cited time in webofscience

Cited time in scopus

A 46-nF/10-M omega Range 114-aF/0.37-omega Resolution Parasitic- and Temperature-Insensitive Reconfigurable RC-to-Digital Converter in 0.18-mu m CMOS

Title: A 46-nF/10-M omega Range 114-aF/0.37-omega Resolution Parasitic- and Temperature-Insensitive Reconfigurable RC-to-Digital Converter in 0.18-mu m CMOS

Author(s): George, Arup Kocheethra ; Shim, Wooyoon ; Kung, Jaeha ; Kim, Ji-Hoon ; Je, Minkyu ; Lee, Junghyup

Citation: IEEE Transactions on Circuits and Systems I: Regular Papers, v.69, no.3, pp.1171 - 1184

Author Keywords: parasitic ; temperature ; CMOS ; Temperature sensors ; Capacitive sensors ; Sensor interface ; reconfigurable ; capacitance ; resistance ; Sensors ; Oscillators ; Jitter ; Inverters ; Capacitance ; digital conversion

Keywords: DIFFERENTIAL RELAXATION-OSCILLATOR ; READ-OUT CIRCUIT ; LOW-POWER ; SENSOR INTERFACE ; CAPACITIVE SENSORS ; HUMIDITY SENSOR ; DUAL-SLOPE ; PRESSURE ; WIRELESS ; NOISE

Abstract: This paper presents a 46 nF/10 MΩ-range, digital-intensive, reconfigurable RC-to-digital converter (R²CDC) that can readout multiple C and R sensors in a time-interleaved fashion. Ratio-metric conversion using swing-boosted period-modulation (SB-PM) front-end by the R²CDC results in 114 aFrms/0.37 Ωrms resolutions and a worst-case temperature-drift of 64.2 ppm/°C over -40 to 125 °C. Femto-farad capacitances can be sensed with a relative code-deviation less than 0.16 % even when parasitics vary 30 times the baseline. Implemented in a 0.18 μm standard CMOS process, the R²CDC consumes 140 μA from a 1 V supply, occupying an active area of 0.175 μm². IEEE