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Construction of the Full-Scale Tagger Microscope (view source)
Revision as of 16:28, 18 December 2012
, 16:28, 18 December 2012→Temperature Measurements
file:Circuit_ex.PNG| I feel that this is a place to start if I am to accurately read a thermocouple. Included in the circuit diagram is cold junction compensation and signal amplification; two things that are a requisite to accurate measurements.
file:Circuit_ex.PNG| I feel that this is a place to start if I am to accurately read a thermocouple. Included in the circuit diagram is cold junction compensation and signal amplification; two things that are a requisite to accurate measurements.
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After reading the material above, I feel that there are two (cheap) ways to read a thermocouple accurately:
1. Create something in the software that compensates for the room temperature factor at the cold junction. If we end up using the thermistor to read the temperature at the cold junction then we will be introducing the error from one temperature measurement to another. Although the thermistor will read the water temperature within acceptable error, adding more error into the calculation seems unnecessary to me.
2. Follow the diagram above and create a hardware approach to cold junction compensation. After determining the voltage output of a type J thermocouple at zero degrees Celsius, I can introduce that voltage at the cold junction site. By following the circuit above, I would probably be able to construct a circuit that would have cold junction compensation and amplification for the signal. My concerns for this approach involve time constraints and the intricacies of this setup.
==Completed Work==
==Completed Work==