Title :
A precision curvature-compensated CMOS bandgap reference
Author :
Song, Bang-Sup ; Gray, Paul R.
Abstract :
A precision curvature-compensated switched-capacitor bandgap reference is described which uses a standard digital CMOS process and achieves temperature stability significantly lower than has previously been reported for CMOS circuits. The theoretically achievable temperature coefficient approaches 10 ppm//spl deg/C over the commercial temperature range and uses a straightforward room temperature trim procedure. Experimental data from monolithic prototype samples are presented which are consistent with theoretical predictions. The experimental prototype circuit occupies 3500 mil/SUP 2/ and dissipates 12 mW with /spl plusmn/5 V power supplies. The proposed reference is believed to be suited for use in monolithic data acquisition systems with resolutions of 10 to 12 bits.
Keywords :
Active networks; Compensation; Field effect integrated circuits; Linear integrated circuits; Reference circuits; Switched networks; active networks; compensation; field effect integrated circuits; linear integrated circuits; reference circuits; switched networks; CMOS process; CMOS technology; Circuits; Data acquisition; Low-frequency noise; Operational amplifiers; Photonic band gap; Prototypes; Temperature distribution; Voltage;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.1983.1052013
