WELCOME TO THE WORKBENCH THERMOCOUPLE PAGE AT NHSOUTH ! Below are 2 schematics for constructing a thermocouple type temperature controller.
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This is a minimal thermocouple schematic.
An op amp amplifies the tiny voltage that is created when one of the two thermocouple wire junctions is hotter than the other.
In your actual setup, if your meter keeps trying to go negative, reverse the connections of your thermocouple wire.
The calibration potentiometer (CAL. POT.) helps tweek out any nonlinearities in your circuitry.
The gain resistors (R1 and R2) keep the output voltage from the op amp in a range adequate to drive the meter full scale.
The resistor values you choose will depend primarily on what you find to use as thermocouple wire.
Any combination of two wires made of different alloys will yield a thermocouple effect, such as copper and steel, but commercial thermocouple wire will yield a predictable linear effect.
I was lucky enough to have some Type J (iron-constantin) thermocouple wire in my junkbox.
The zero adjustment (replaced by a thermistor in the next schematic) is used to correct for room temperature.
Your thermocouple is actually trying to measure the difference between room temperature and the hot junction.
Instead of using the ZERO ADJUST to adjust the meter to zero, a more precise actual temperature can be found by ZERO ADJUSTING so that the meter reads room temperature.
The meter itself can be a simple 100µA movement. |
Here is the data for the thermocouple and thermistor I used:
| TEMPERATURE | THERMOCOUPLE | THERMISTOR |
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0° C (0° F) 20° C (68° F) 100° C (212° F) 200° C (392° F) 300° C (572° F) |
0.00 millivolts 1.59 millivolts 5.27 millivolts 10.78 millivolts 16.33 millivolts |
27.28 kilohms 12.09 kilohms 0.9735 kilohms • • |
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This thermocouple schematic is what I designed and built for use in my homemade
thermoplastic injection molding machine. This thermocouple would also be very
useful for controlling the temperature of a vulcanizer. Of course, you can buy an
industrial temperature controller. They can be expensive though, and you will deny
yourself the challenge and satisfaction of making one from scratch. Also, there are
simpler methods - like the method used in the homemade vulcanizer plans. These schematics are intended as a starting point. I have been able to keep temperatures within 20° F on my injection molder by using a beefy old relay to switch the 120 volt AC line on and off, sending current through nichrome wire to heat the plastic. This is not an optimized or tricky design, just one that made use of what I had readily available for electronic components. I used more op amps than I really needed mainly because they were available in the chips I had, and they kept the functions isolated, to make any troubleshooting easy. I have made no calculations for component tolerances, since I was only planning to build one temperature controller, but I have included precise measured values of the components I actually used where I thought they could be significant. |
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