An IF-sampling S/H is presented,which adopts a flip-around structure,bottom-plate sampling technique and improved input bootstrapped switches.To achieve high sampling linearity over a wide input frequency range,the fl...An IF-sampling S/H is presented,which adopts a flip-around structure,bottom-plate sampling technique and improved input bootstrapped switches.To achieve high sampling linearity over a wide input frequency range,the floating well technique is utilized to optimize the input switches.Besides,techniques of transistor load linearization and layout improvement are proposed to further reduce and linearize the parasitic capacitance.The S/H circuit has been fabricated in 0.18-μm CMOS process as the front-end of a 14 bit,250 MS/s pipeline ADC.For30 MHz input,the measured SFDR/SNDR of the ADC is 94.7 dB/68.5dB,which can remain over 84.3 dB/65.4dB for input frequency up to 400 MHz.The ADC presents excellent dynamic performance at high input frequency,which is mainly attributed to the parasitics optimized S/H circuit.展开更多
基金supported by the Shenzhen Project(No.JSGG20150512162029307)
文摘An IF-sampling S/H is presented,which adopts a flip-around structure,bottom-plate sampling technique and improved input bootstrapped switches.To achieve high sampling linearity over a wide input frequency range,the floating well technique is utilized to optimize the input switches.Besides,techniques of transistor load linearization and layout improvement are proposed to further reduce and linearize the parasitic capacitance.The S/H circuit has been fabricated in 0.18-μm CMOS process as the front-end of a 14 bit,250 MS/s pipeline ADC.For30 MHz input,the measured SFDR/SNDR of the ADC is 94.7 dB/68.5dB,which can remain over 84.3 dB/65.4dB for input frequency up to 400 MHz.The ADC presents excellent dynamic performance at high input frequency,which is mainly attributed to the parasitics optimized S/H circuit.
