Achieving enhanced robustness of Current References (CRs) against Process-Voltage-Temperature (PVT) variations still represents a demanding task for integrated circuit designers. Specifically, while Beta-Multiplier (BM) implementations may ensure small process spread, temperature dependency is particularly challenging to minimize. In this respect, we hereby present a solution based on modified BM-CR cores featuring a high-order segmented curvature correction scheme. Electrical simulations of a 0.18-mu m CMOS design with 469-nA output current show a Temperature Coefficient (TC) of 76.1 ppm/degrees C (average value across Monte Carlo runs), reaching a x4.5 reduction with respect to the same BM-CR without curvature compensation. The relative standard deviation of the output current and the line sensitivity are equal to 0.80% and 3.27%/V, respectively. These results suggest the proposed approach as a useful option for PVT-robust CR implementations.
All-MOSFETs Current Reference Featuring High-Order Segmented Curvature Compensation
Gagliardi F.
Primo
;Scognamiglio M.Secondo
;Ria A.;Piotto M.Penultimo
;Bruschi P.Ultimo
2024-01-01
Abstract
Achieving enhanced robustness of Current References (CRs) against Process-Voltage-Temperature (PVT) variations still represents a demanding task for integrated circuit designers. Specifically, while Beta-Multiplier (BM) implementations may ensure small process spread, temperature dependency is particularly challenging to minimize. In this respect, we hereby present a solution based on modified BM-CR cores featuring a high-order segmented curvature correction scheme. Electrical simulations of a 0.18-mu m CMOS design with 469-nA output current show a Temperature Coefficient (TC) of 76.1 ppm/degrees C (average value across Monte Carlo runs), reaching a x4.5 reduction with respect to the same BM-CR without curvature compensation. The relative standard deviation of the output current and the line sensitivity are equal to 0.80% and 3.27%/V, respectively. These results suggest the proposed approach as a useful option for PVT-robust CR implementations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
