Abstract :
Summary form only given. In the last decade, active pixel sensors (APS), which are fabricated in a commonly used CMOS process, enabled the design of image sensors with integrated "intelligence". Current state of the art CMOS imagers allow integration of all functions required for timing, exposure control, color processing, image enhancement, image compression and ADC on the same die. Moreover, systems with wide dynamic range, motion detection and non-standard readout can be designed. CMOS imagers also offer significant advantages in terms of low-power, low-voltage and monolithic integration, rivaling traditional charge coupled devices (CCD). This paper covers state of the art CMOS imager systems and design challenges with the advanced CMOS technologies available. Specifically, ways to improve power consumption in such "smart" sensors, required to cope with the current demand for portable systems are reviewed. In addition, pixel optimization is revisited as more advanced processes are used and pixel pitch is reduced.
Keywords :
CMOS image sensors; analogue-digital conversion; data compression; image coding; image colour analysis; image enhancement; intelligent sensors; low-power electronics; motion estimation; power consumption; readout electronics; timing circuits; ADC; APS; CMOS imager design; active pixel sensors; color processing; dynamic range; exposure control; image compression; image enhancement; intelligent image sensors; low-power imagers; low-voltage imagers; monolithic integration; motion detection; nonstandard readout; pixel optimization; pixel pitch; portable systems; power consumption; smart sensors; timing; CMOS image sensors; CMOS process; CMOS technology; Color; Image sensors; Intelligent sensors; Pixel; Process control; Process design; Timing;
Conference_Titel :
Electronics, Circuits and Systems, 2004. ICECS 2004. Proceedings of the 2004 11th IEEE International Conference on
