摘要
设计了一款5-bit 4 GS/s的电阻插值型模数转换器(ADC),由预放大器阵列、高速比较器和编码器模块组成。定量分析了预放大器阵列的带宽和增益对ADC性能的影响,选取了最优的预放大器阵列结构,采样保持电路则选择了分布式采样,并采用电流逻辑模(CML)的比较器和编码电路。基于TSMC 65 nm工艺下进行仿真:在4 GHz的采样频率下,输入信号为200 MHz时,有效位数(ENOB)为4.85,SNDR为30.97,系统功耗为85 m W。
A 5-bit 4 GS/s interpolation ADC was designed in the paper, which was composed of a pre-amplifier array, a high-speed comparator and an encoder module. The paper mathematically analyzed the impact of pre-amplifiers' bandwidth and gain on ADC performance and chose the optimum architecture of pre-amps array. Distributed S/H circuit, current-mode logic (CML) comparator banks and CML encoder were implemented. Based on TSMC 65 nm CMOS technology, this ADC was realized and simulated, reaching an ENOB of 4.85 bit, an SNDR of 30.97 and a power consumption of 85 mW at sampling rate of 4 GS/s and input signal of 200 MHz.
出处
《电子与封装》
2015年第6期28-31,共4页
Electronics & Packaging
关键词
高速ADC
电阻插值
失调电压
high-speed ADC
resistor interpolation
offset voltage
