A novel fully differential high speed high resolution low offset CMOS dynamic comparator has been implemented in the SMIC 0.18μm process used for a sample-and-hold amplifier(SHA)-less pipelined analogto-digital converters(ADC). Based on the analysis and optimization between delay time and offset, an enhanced reset architecture with transmission gate was introduced to speed up the comparison and reset procedure. Four inputs with two cross coupled differential pairs, reconstituted bias circuit for tail current transistor and common centroid layouts make the comparator more robust against mismatch and process variations. The simulation results demonstrate that the proposed design achieves 1mV sensitivity at 2.2GHz sampling rate with a power consumption of 510 W, while the mean offset voltage is equal to 10.244 mV. A novel fully differential high speed high resolution low offset CMOS dynamic comparator has been implemented in the SMIC 0.18 μm process used for a sample-and-hold amplifier (SHA) -less pipelined analog to digital converter (ADC). Based on the analysis and optimization between delay time and offset, an enhanced reset architecture with transmission gate was introduced to speed up the comparison and reset procedure. four inputs with two cross coupled differential pairs, reconstituted bias circuit for tail current transistor and common centroid layouts make the comparator more robust The simulation results demonstrate that the proposed design achieves 1 mV sensitivity at 2.2 GHz sampling rate with a power consumption of 510 W while the mean offset voltage is equal to 10.244 mV.