مرکز منطقه ای اطلاع رساني علوم و فناوري - CMOS Monolithic Metal

Abstract :

This paper presents two mixed-signal monolithic gas sensor microsystems fabricated in standard 0.8- $\\mu\\hbox {m}$ CMOS technology combined with post-CMOS micromachining to form the microhotplates. The on-chip microhotplates provide very high temperatures (between 200 $^\\circ$ C and 400 $^\\circ$ C), which are necessary for the normal operation of metal–oxide sensing layers. The first microsystem has a single-ended architecture comprising a microhotplate (diameter of 300 $\\mu\\hbox {m}$ ) and a digital proportional-integral-derivative (PID) microhotplate temperature controller. The second microsystem has a fully-differential architecture comprising an array of three microhotplates (diameter of 100 $\\mu\\hbox {m}$ ) and three digital PID microhotplate temperature controllers (one controller per microhotplate). The on-chip digital PID temperature controllers can accurately adjust the microhotplate temperatures up to 400 $^\\circ$ C with a resolution of 2 $^\\circ$ C. Further, both microsystems feature on-chip logarithmic converters for the readout of the metal–oxide resistors (which cover a measurement range between 1 $\\hbox {k$\\Omega$ }$ and 10 $\\hbox {M$\\Omega$ }$ ), 10-bit A/D converters, anti-aliasing filters, 10-bit D/A converters, $I ^2 C$ serial interfaces, and bulk-chip temperature sensors. Carbon monoxide (CO) concentrations in the sub-parts-per-million (ppm) range are detectable, and a resolution of 0.2 ppm CO has been achieved.

Keywords :

CMOS-based microsystem; MEMS; PID control; metal–oxide gas sensors; CMOS technology; Digital control; Gas detectors; Micromachining; Pi control; Proportional control; Temperature control; Temperature distribution; Temperature sensors; Three-term control; CMOS-based microsystem; MEMS; PID control; metal–oxide gas sensors;