Journal
CIRCUITS SYSTEMS AND SIGNAL PROCESSING
Volume -, Issue -, Pages -Publisher
SPRINGER BIRKHAUSER
DOI: 10.1007/s00034-023-02431-1
Keywords
Resistor-less; High-order curvature compensation; Piecewise-linear curvature compensation; Bandgap reference; Temperature coefficient
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This paper presents a resistor-less high-order curvature compensation bandgap voltage reference. A high-order curvature compensation is based on generating successive V-GS voltages with different temperature characteristics, which are used to cancel thermal nonlinearity the first- and higher-order terms of the transistor voltage V-EB. The proposed bandgap reference achieves the best temperature coefficient of 2.37 ppm/°C with a supply voltage of 5 V.
This paper presents a resistor-less high-order curvature compensation bandgap voltage reference. A high-order curvature compensation is based on generating successive V-GS voltages with different temperature characteristics, which are used to cancel thermal nonlinearity the first- and higher-order terms of the transistor voltage V-EB. At the same time, a piecewise-linear curvature compensation circuit is used to broaden the temperature range of the whole circuit and achieve low-temperature coefficient. The proposed bandgap reference was designed using standard CSMC 0.18-& mu;m CMOS technology. Simulation results indicate that the proposed bandgap reference achieves the best temperature coefficient of 2.37 ppm/& DEG;C from - 40 to 125 & DEG;C with a supply voltage of 5 V. The BGR output is about 1.1881 V and a - 60.7-dB PSRR at 10 kHz while only consuming 200 & mu;W.
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