In this paper,detailed models of 14-bit 100 MS/s pipelined analog-to-digital converter( ADC)are presented. In order to help design of ADC system,blocks for pipelined ADC and disturbance sources are carefully analyzed....In this paper,detailed models of 14-bit 100 MS/s pipelined analog-to-digital converter( ADC)are presented. In order to help design of ADC system,blocks for pipelined ADC and disturbance sources are carefully analyzed. Critical parameters,such as capacitor mismatch,clock jitter are proposed and simulated. The pipelined ADC system is divided into five parts,clock generator,sample and hold( S/H) circuit,multiplying digital-to-analog converters( MDAC),backend,and digital correction. These blocks introduce several interferences,which attenuate performance of pipelined ADC severely. Modeling and simulations of these disturbance sources are presented particularly. A new model of S/H is introduced. Results derived from simulations can supervise design and optimization of the ADC system.展开更多
基金Supported by the National Basic Research Program of China(No.2010CB327404)
文摘In this paper,detailed models of 14-bit 100 MS/s pipelined analog-to-digital converter( ADC)are presented. In order to help design of ADC system,blocks for pipelined ADC and disturbance sources are carefully analyzed. Critical parameters,such as capacitor mismatch,clock jitter are proposed and simulated. The pipelined ADC system is divided into five parts,clock generator,sample and hold( S/H) circuit,multiplying digital-to-analog converters( MDAC),backend,and digital correction. These blocks introduce several interferences,which attenuate performance of pipelined ADC severely. Modeling and simulations of these disturbance sources are presented particularly. A new model of S/H is introduced. Results derived from simulations can supervise design and optimization of the ADC system.
