Ultra-Low-Power Sub-1 V 29 ppm/°C Voltage Reference and Shared-Resistive Current Reference

This paper presents a curvature-compensated sub-1V voltage reference (VR) and a shared-resistive nanoampere current reference (CR) in a 130nm CMOS process. The CR is used to generate a bipolar junction transistor complementary-to-absolute-temperature voltage, which is summed up with a proportional-to-absolute-temperature voltage generated using a summing network of PMOS gate-coupled pairs. The measured output voltage and current references from 10 chips ( V_{\mathrm {REF}} and I_{\mathrm {REF}} ) at room temperature are 469mV and 1.86nA, respectively. The measured average temperature coefficient of V_{\mathrm {REF}} and I_{\mathrm {REF}} are 29ppm /^{\circ} \text{C} and 822ppm /^{\circ} \text{C} over a temperature range from - 40^{\circ} \text{C} to 120^{\circ} \text{C} . The minimum supply voltage of the voltage-current reference is 0.95V, and the total power consumption is 30nW.