Ordinary Discount TU-1F03 thermal wax actuator for industrial adjustable temperature switch control for Vietnam Factory

About the Speaker: Charlie Catlett is a Senior Computer Scientist at Argonne National Laboratory, a Senior Fellow at the Argonne/University of Chicago Computation Institute, and a Senior Fellow at the Harris School of Public Policy at the University of Chicago.
Charlie founded the Urban Center for Computation and Data (UrbanCCD), an interdisciplinary center focused on developing methods and platforms for understanding cities. He leads the NSF-funded Array of Things project, establishing a network of 500 intelligent sensor units in Chicago.
Government Technology magazine named Charlie one of 25 “Doers, Dreamers & Drivers” of 2016 and in 2014 Crain’s Chicago Business recognized him as one of Chicago’s “Tech 50” technology leaders. Charlie is a Computer Engineering graduate of the University of Illinois at Urbana-Champaign.

Abstract: Urbanization is one of the great challenges and opportunities of this century, inextricably tied to global challenges ranging from climate change to sustainable use of energy and natural resources, and from personal health and safety to accelerating innovation and education. There is a growing science community—spanning nearly every discipline—pursuing research related to these challenges.
The availability of urban data has increased over the past few years, in particular through open data initiatives, creating new opportunities for collaboration between academia and local government in areas ranging from scalable data infrastructure to tools for data analytics, along with challenges such as replicability of solutions between cities, integrating and validating data for scientific investigation, and protecting privacy.
For many urban questions, however, new data sources will be required with greater spatial and/or temporal resolution, driving innovation in the use of sensors in mobile devices as well as embedding intelligent sensing infrastructure in the built environment. Collectively these data sources also hold promise to begin to integrate computational models associated with individual urban sectors such as transportation, building energy use, or climate.
Catlett will discuss the work that Argonne National Laboratory and the University of Chicago are doing in partnership with the City of Chicago and other cities through the Urban Center for Computation and Data, focusing in particular on new opportunities related to embedded systems and integrated data platforms.

This project allows for manual and automatic temperature control of an aluminum block using a thermoelectric (TE) device. A high-side switch IC is used to turn on and off the device, while the direction of the current through the TE unit is controlled by a 12 V DPDT relay in an H-bridge configuration. This results in an ON/OFF temperature controller with the ability to switch between heating and cooling mode. Two LM35 temperature sensors monitor the ambient room temperature and aluminum block temperature.

The LabVIEW program has both a manual and automatic mode. In manual mode, the current through the TE device is controlled with the “TE Current ON/OFF” and “Heat/Cool” buttons on the program’s front panel. In automatic mode, the program tries to maintain the temperature set point entered by the user. It accomplishes this by first determining whether it needs to heat or cool the block based on the difference between the set point and ambient room temperature. Once the program sets the correct current direction, it simply turns on and off the TE device via the high-side switch when it reaches the desired temperature.

This video shows manual mode operation of the unit after 10 minutes in the “Cool” setting. You can see the ice on the aluminum block melt shortly after the program is set to “Heat”. In automatic mode, this setup is capable of achieving temperature control of ±0.5°C from set point.