Research on Mine Water Quality Monitoring System Based on SOPC

Rui Wang; Kai Yuan Zhang; Le Zhang

doi:10.4028/www.scientific.net/AMM.716-717.911

Paper Titles

Development of Defect Detection Algorithm in Cellular Denitration Catalyst
p.892

Design of the Embedded RLC Measurement Module
p.898

A Simple and Sensitive Method of Monitoring Crack and Load in Three-Point Bending Fracture Mechanics Specimens Using Strain Gages
p.902

Remote Rainfall Monitoring System Based on GPRS
p.907

Research on Mine Water Quality Monitoring System Based on SOPC
p.911

The Design and Implementation of the Rice Lesion Identification System
p.915

Passive Automotive Electronic Identity Pavement Covered Blind Area Problem Analysis
p.919

Fault Signal Detection System of Large Scale Integrated Circuit Based on Single Chip Microcomputer
p.924

Parallel Measurement Based on Laue Effect
p.928

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 716-717Research on Mine Water Quality Monitoring System...

Research on Mine Water Quality Monitoring System Based on SOPC

Abstract:

As for the severe situation of mine water hazard in our country, it is extremely urgent to find ways of preventing and managing mine water hazard. This paper proposes a design of system which adopts fluorescence detecting technology and uses SOPC as the core control module, it can quickly detect the changes of mine water hazard source.This system collects signal of fluorescence produced in laser irradiation of water, and turns it into electric signal which is later be collected by ADC and then sends the digital data into FPGA for storing and managing. SOPC is designed in QuartusIIsoftware, and program code is designed in NiosIIsoftware, which will finally be downloaded into FPGA. A test of data collecting, handling and storing is carried out in the lab to verify the feasibility of the system. The results show that the system can efficiently detect the changes of mine water hazard source.