NXP高速ADC解决方案


基本特性:

A single USB cable will allow to supply the board and to communicate with the FPGA &the ADC thanks to dedicated software running on a PC. It is then possible to load thedata from the ADC through the FPGA and have an overview of the ADC features and performance, in the frequency range of [0; 30]MHz. By default an on-board oscillator is used to generate the sampling frequency, but it is optionally possible to use an external clock to have more flexibility and a better jitter performance.

方案描述:

The list of equipment needed is as follows:

 A PC
 A USB cable
 A low jitter sine wave generator
 A band-pass filter in case the sine wave is not pure enough
 2 SMA-SMA cables if a filter is used, 1 cable if no filter
 The NXP demo board

In addition, dedicated software is necessary to drive the FPGA & the ADC from the PC.

This software has been developed thanks to LabView, which means that at least the LabView Runtime needs to be installed on the Laptop PC or the LabView environment itself (v8.5).

On this demo board, the sampling frequency is by default defined by an on-board oscillator, which generates FS = 60Mhz. So you can input a sine wave between 0Hz and 30MHz. Although the ADC1x13D080 datasheet mentions 65Mhz as the minimum frequency, we have decided to use a 60Mhz oscillator since the Abracon ASE oscillator has a very good jitter compared to other oscillators but it is unfortunately not easily available for an output frequency higher than 60Mhz. It is then possible to demonstrate good SNR performance (in the range of 72dB) over the [0;30]MHz band.

参考原理图


                         原理图1



                         原理图2

参考PCB图:

                               PCB图1


                             PCB图2

                              PCB图3
 



通知公告
编辑观点
理事会
参考资料
版权声明

凡《网络安全与数据治理》(原《信息技术与网络安全》)录用的文章,如作者没有关于汇编权、翻译权、印刷权及电子版的复制权、信息网络传播权与发行权等版权的特殊声明,即视作该文章署名作者同意将该文章的汇编权、翻译权、印刷权及电子版的复制权、信息网络传播权与发行权授予本刊,本刊有权授权本刊合作数据库、合作媒体等合作伙伴使用。同时,本刊支付的稿酬已包含上述使用的费用,特此声明。

《网络安全与数据治理》(原《信息技术与网络安全》)编辑部