EE.UTD.Events
SDDF2011_Team5_g
Title: Ozone Detector and Auto Ventilation System
Abstract: The purpose of this project is to design and produce a reliable, easy to install and affordable ozone detector similar to the commercially available carbon monoxide and gas detectors for the home and office. An additional ventilation controller system within our design automatically turns on when ozone levels in the monitored facility exceed acceptable levels, which provides convenience while also allowing users to customize system sensitivity to save energy and money. Our design is composed of a MQ131 Ozone Gas Detection Sensor integrated in a feedback control system that is controlled by an MSP430 microcontroller manufactured by Texas Instruments. An Xbee wireless transmitter is connected to the detector while Xbee wireless receivers are installed on a ventilation system and computer to control the ventilation system and allow users to directly ozone levels and system sensitivity, respectively. Key results from our project include the Labview monitoring program and a preliminary system design.
SDDF2011_Team5_g
Title: Ozone Detector and Auto Ventilation System
Abstract: The purpose of this project is to design and produce a reliable, easy to install and affordable ozone detector similar to the commercially available carbon monoxide and gas detectors for the home and office. An additional ventilation controller system within our design automatically turns on when ozone levels in the monitored facility exceed acceptable levels, which provides convenience while also allowing users to customize system sensitivity to save energy and money. Our design is composed of a MQ131 Ozone Gas Detection Sensor integrated in a feedback control system that is controlled by an MSP430 microcontroller manufactured by Texas Instruments. An Xbee wireless transmitter is connected to the detector while Xbee wireless receivers are installed on a ventilation system and computer to control the ventilation system and allow users to directly ozone levels and system sensitivity, respectively. Key results from our project include the Labview monitoring program and a preliminary system design.