基于 DAC 阵列的光交叉芯片控制驱动系统

吉林大学学报(信息科学版) ›› 2024, Vol. 42 ›› Issue (2): 232-241.

基于 DAC 阵列的光交叉芯片控制驱动系统

欧阳傲奇¹ , 吕昕雨¹ , 许馨如¹ , 曾国宴¹ , 尹悦鑫¹ , 李丰军² , 张大明¹ , 郜峰利^1,2

1. 吉林大学电子科学与工程学院, 长春 130012; 2. 新疆医科大学医学工程技术学院, 乌鲁木齐 830054

收稿日期:2023-03-07 出版日期:2024-04-10 发布日期:2024-04-12
通讯作者: 李丰军(1976— ), 男, 山东泰安人, 新疆医科大学讲师, 主要从事计算机软件系统开发及生物医学应用研究, (Tel)86-18139656309(E-mail) zwhlfj@ xjmu. edu. cn; 郜峰利(1977— ), 男, 河南焦作人, 吉林大学教授, 博士生导师, 主要从事电子技术与嵌入式系统开发研究, (Tel)86-15043009766(E-mail) gaofl@ jlu. edu. cn E-mail:gaofl@ jlu. edu. cn
作者简介:欧阳傲奇(1999— ), 男, 湖南岳阳人, 吉林大学硕士研究生, 主要从事硬件电路设计与嵌入式系统应用研究, (Tel)86- 17390940601(E-mail)1712807433@ qq. com
基金资助:
吉林省长春市重大科技专项课题基金资助项目(20210301014GX)

Control Drive System of Optical Crossbar Chip Based on DAC Array

OUYANG Aoqi ¹ , Lv Xinyu ¹ , XU Xinru ¹ , ZENG Guoyan ¹ , YIN Yuexin ¹ , LI Fengjun ² , ZHANG Daming ¹ , GAO Fengli ^1,2

1. College of Electronic Science and Engineering, Jilin University, Changchun 130012, China; 2. College of Medical Engineering and Technology, Xinjiang Medical University, Urumqi 830054, China

Received:2023-03-07 Online:2024-04-10 Published:2024-04-12

摘要/Abstract

摘要： 为标定光交叉芯片驱动电压, 控制光交叉芯片实现光路由功能, 提出并搭建了基于多通道 DAC(Digital to Analog Converter)阵列的控制驱动电路系统。系统主要由控制系统模块、多路驱动电路模块及上位机控制模块构成。控制电路和驱动电路具有调校简单、可双极性输出、输出路数多、加电精确度较高的特点, 解决了当前驱动电路工作繁琐、加电极性单一、加电路数少、精度差的问题。上位机控制模块除了可控制驱动电路施加控制电压外, 还可接收来自数据采集装置采集到的光功率信号作为控制驱动系统的反馈信号。通过分析控制电压与光功率之间的关系, 可得到最佳的光交叉芯片控制驱动电压。系统测试实验结果表明, 该系统能提供高精确度的双极性驱动电压, 有效地对光交叉芯片进行驱动。可在较短的时间内标定出光开关的控制电压, 完全可以满足有源光交叉芯片控制中对驱动电压的需求。该系统在光交叉芯片控制方面具有一定的应用价值。

关键词: 光交叉芯片, DAC 阵列, 双极性电压, 电路系统, 反馈控制

Abstract:

The optical crossbar chip is the core device used to realize optical routing in the field of optical communication. A control and driver system is designed based on a multi-channel DAC ( Digital to Analog Converter) array to achieve optical routing through the optical crossbar chip. The system consists of a control system module, a multi-channel drive circuit module, and a host computer control module. This system has several advantages, including simple adjustment, bipolar output, more output channels, and higher power accuracy. It solves the problems of the current driving circuit, such as complex operation, single power polarity, fewer output channels, and poor accuracy. The host computer control module can control the driving circuit to apply the control voltage and receive the optical power signal collected from the data acquisition device as the feedback signal of the control driving system. By analyzing the relationship between the control voltage and the received optical power, the best control driving voltage of the optical crossbar chip can be obtained. The system test results show that the system can provide high-precision bipolar driving voltage to effectively drive the optical crossbar chip and can calibrate the control voltage of the optical switch in a short time, fully meeting the requirements of the driving voltage in the active optical crossbar chip control. We believe that this system could be useful for optical crossbar chip control.

Key words: optical crossbar chip, digital to analog converter (DAC) array, bipolar voltage, circuit system; feedback contro

中图分类号:

TN914

欧阳傲奇, 吕昕雨, 许馨如, 曾国宴, 尹悦鑫, 李丰军, 张大明, 郜峰利. 基于 DAC 阵列的光交叉芯片控制驱动系统[J]. 吉林大学学报(信息科学版), 2024, 42(2): 232-241.

OUYANG Aoqi , Lv Xinyu , XU Xinru , ZENG Guoyan , YIN Yuexin , LI Fengjun , ZHANG Daming , GAO Fengli . Control Drive System of Optical Crossbar Chip Based on DAC Array[J]. Journal of Jilin University (Information Science Edition), 2024, 42(2): 232-241.

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