Future high energy physics experiments will require the development of a linear collider in the TeV region such as TESLA. Because of physics requirements it will be necessary to make precision vertex measurements. This makes a high-resolution vertex detector an essential part of the detecting system. One of the possibilities is to develop a CMOS monolithic active pixel sensors (MAPS) based detector. A planned prototype chip for the TESLA developments would include an array of identical pixels with their addressing circuits, signal processing within the chip, data sparsification, and analogue to digital conversion. For this purpose we have developed a column-based, low power, fully offset compensated multistage comparator (discriminator) to read out the active pixels. For one of the versions implemented, a resolution better than 1 mV was obtained at operating speeds higher than 10 MHz. The power dissipation is of the order of 200 /spl mu/W. A test chip was designed on a 0.35 /spl mu/m CMOS process from AMI Semiconductor. As the pixel pitch is only 28 /spl mu/m, the dimensions of the comparator are 300 /spl mu/m/spl times/28 /spl mu/m. This design is compatible with the clocking scheme of the pixel array.