Abstract

A high-order curvature-compensated CMOS bandgap reference, which utilizes a temperature-dependent resistor ratio generated by a high-resistive poly resistor and a diffusion resistor, is presented in this paper. Implemented in a standard 0.6-/spl mu/m CMOS technology with V/sub thn//spl ap/|V/sub thp/|/spl ap/0.9 V at 0/spl deg/C, the proposed voltage reference can operate down to a 2-V supply and consumes a maximum supply current of 23 /spl mu/A. A temperature coefficient of 5.3 ppm//spl deg/C at a 2-V supply and a line regulation of /spl plusmn/1.43 mV/V at 27/spl deg/C are achieved. Experimental results show that the temperature drift is reduced by approximately five times when compared with a conventional bandgap reference in the same technology.

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