Reduction of sampling rate in a time-interleaved photonic ADC for RF direct sampling

Xingwei Ye, Shen Dong, Jiquan Zhai, Yuhao Yang
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Abstract

Photonic RF direct sampling with multiple electronic analog-to-digital converters (ADCs) for time-interleaved quantization is an effective technique for digitally receiving RF signals. Since band-pass sampling is inevitable for RF direct sampling, the required total sampling rate of a photonic ADC system could be remarkably higher than the low-pass Nyquist sampling rate given by twice the bandwidth of input signal. In order to reduce the sampling rate and thus boost the efficiency of the photonic ADC hardware, we propose a method of introducing time errors between time-interleaved channels with post correcting algorithm in frequency domain. Simulation is performed based on a photonic ADC consisting of multiple 2-GSa/s sub-ADCs. A wideband signal covering the frequency band from ~4 GHz to ~9 GHz is employed as the input RF signal for direct sampling in the simulation. Reduction of the total sampling rate from the band-pass Nyquist rate of 18 GSa/s to the low-pass Nyquist rate of 10 GSa/s is achieved, through which the advantage of the proposed method is verified.
降低用于射频直接采样的时间交错光子 ADC 的采样率
利用多个电子模数转换器(ADC)进行时间交错量化的光子射频直接采样是一种有效的数字接收射频信号的技术。由于射频直接采样不可避免地要进行带通采样,因此光子模数转换器系统所需的总采样率可能明显高于输入信号带宽两倍的低通奈奎斯特采样率。为了降低采样率,从而提高光子 ADC 硬件的效率,我们提出了一种在时间交错通道之间引入时间误差的方法,并在频域中采用了后校正算法。仿真基于由多个 2-GSa/s 子 ADC 组成的光子 ADC 进行。模拟中采用了覆盖 ~4 GHz 至 ~9 GHz 频段的宽带信号作为直接采样的输入射频信号。总采样率从 18 GSa/s 的带通奈奎斯特采样率降低到 10 GSa/s 的低通奈奎斯特采样率,从而验证了拟议方法的优势。
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