A High-Order Compensated Op-amp-less Bandgap Reference with 39 ppm/ C over -260~125 C Temperature Range and -50 dB PSRR
Abstract
This brief presents a technique for compensating the temperature coefficient (TC) of a bandgap reference (BGR) using temperature characteristics of transistor's current gain eta. As a comparison, three BGR circuits built with Si BJTs and SiGe HBTs are implemented to demonstrate the proposed TC curvature compensation technique. Measured average TC of the HBT proposed BGR is 23ppm/ C and 39 ppm/ C over the commercial (0~70 C) and space (-260~125 C) temperature ranges, respectively. With the proposed PSRR improvement technique, the BGR reaches PSRR of -50dB at 1MHz, and -38dB at 1GHz, respectively.
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