![]() This same Arduino will also connect to our temperature sensor to determine and measure the temperature of the oven. The ovens will be powered by an AC to DC power converter. The temperature system uses the Arduino to connect to a solid-state relay which then connects to the ovens provided by the Shuur Lab. Measurements will be taken with our pressure system to determine the pressure in the vacuums and will be send to the temperature system to carry out the appropriate actions due to that specific pressure. The first board is used to control and connect to the pressure system, and the second is being used to connect to the temperature system. Our project utilizes two different Arduino boards. The pressure sensor will be used to monitor the reaction and determine whether the heating block should be on or off based on its readings. Which is also displayed on the LCD screen. A user input will be needed to set the temperature The values from these sensors will then be displayed on an LCD. The goal is to have an Arduino microconroller to get inputs from the pressure and heating sensorsĪttached to the vacuum chamber where the reaction occurs. The above image is our system architecture for this project. ![]() We have been asked to assist in updating the heaters used in the lab to increase the temperature of a carbon reaction. ![]() Our client, Chris Ebert, is the manager of the Ted Schuur lab working in the sample preparation lab where gas reaction systems operate.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |