A low‐power NPN‐based band‐gap voltage reference in an ultra‐wide temperature range.

A low‐power negative‐positive‐negative (NPN)‐based bandgap voltage reference (BGR) over an ultra‐wide temperature range is presented. The conventional NPN‐based BGRs cannot maintain a low‐temperature coefficient (TC) with low power consumption in an ultra‐wide temperature range due to its inherent reverse junction saturation current of NPN bipolar junction transistors (BJT) in the high‐temperature range. This work introduces a new NPN‐based BGR unaffected by such saturation current. Based on Vanguard International Semiconductor Corporation (VIS) 0.18 μm/0.15 μm complementary metal oxide semiconductor (CMOS) Bipolar‐CMOS‐DMOS (BCD) process, the BGR receives the best 1.25‐mV deviation over the temperature range of −40°C to 150°C, much less than 38.5 mV from Brokaw‐type BGR. Meanwhile, the proposed BGR with the stacked NPNs for higher output voltage was fabricated. It consumes about 2 uA from a 5‐V power supply, and its average temperature coefficient is 14.89 ppm/°C. Also, the average line sensitivity is 0.039%/V. [ABSTRACT FROM AUTHOR]