基于智能传感器网络的高精度ADC芯片低成本测试方案的开发与实现

J. Sensors Pub Date : 2022-08-09 DOI:10.1155/2022/3453468
Xiangjun Liu, Jinkun Sun
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摘要

模数转换器(adc)正朝着低成本测试的高速度和高分辨率方向发展。基于智能传感器网络理论,设计了一种低成本的高精度ADC芯片测试方案,解决了信号完整性问题。主要包括:设计合适的电路连接方案,规划合适的PCB堆叠结构,制定详细的布局和布线约束等,搭建高速ADC测试平台,获得静态和动态性能;在实验室现有仪器的基础上,研究了不同信号源、不同输入功率以及有无滤波器对高速adc动态性能的影响。在仿真过程中,利用HyperLynx仿真平台对高速采集板的信号完整性进行了设计和仿真。结合高速数字电路信号完整性的相关理论知识,分别对ADC模块电路和DDR3高速存储电路进行了信号完整性分析与仿真。结果表明,以直方图法为参考,选择最优的30个窗口时,所提方法的积分非线性误差为0.12 LSB,最高采样频率可达5GSps,需要61440个采样点。与激励误差识别与去除(SEIR)方法相比,时间缩短了约30%,有效提高了ADC芯片的低成本测试效果。
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Development and Implementation of a Low-Cost Test Solution for High-Precision ADC Chips Based on Intelligent Sensor Networks
Analog-to-digital converters (ADCs) are moving toward high speed and high resolution for low-cost testing. Based on the theory of intelligent sensor network, this paper designs a low-cost test solution for high-precision ADC chips, which solves the problems related to signal integrity. It mainly includes the following: designing an appropriate circuit connection scheme, planning an appropriate PCB stack-up structure, formulating detailed layout and wiring constraints, etc., and building a high-speed ADC test platform to obtain static and dynamic performance; based on the existing instruments in the laboratory, the effects of different signal sources, different input powers, and the presence or absence of filters on the dynamic performance of high-speed ADCs are studied. In the simulation process, the HyperLynx simulation platform is used to design and simulate the signal integrity of the high-speed acquisition board. Combined with the relevant theoretical knowledge of the signal integrity of high-speed digital circuits, the signal integrity analysis and simulation of the ADC module circuit and the DDR3 high-speed memory circuit are carried out, respectively. The results show that, taking the histogram method as a reference, when the optimal 30 windows are selected, the integral nonlinearity (INL) error of the proposed method is 0.12 LSB, the highest sampling frequency is up to 5GSps, and 61440 sampling points are required. The time is reduced by about 30% compared with the excitation error identification and removal (SEIR) method, which effectively improves the low-cost test effect of the ADC chip.
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