EEVblog Electronics Community Forum

EEVblog => EEVblog Specific => Topic started by: necessaryevil on May 18, 2015, 05:55:28 pm

Title: Why does this thermocouple measurement work so well? (EEVblog #512)
Post by: necessaryevil on May 18, 2015, 05:55:28 pm

Why does this thermocouple measurement in EEvblog #512 at 14:35 work so well? The sensor is just touching the regulator, so most of the sensor is exposed to the ambient.

Title: Re: Why does this thermocouple measurement work so well? (EEVblog #512)
Post by: electr_peter on May 18, 2015, 08:33:52 pm

Video is cut. Thermocouple heated up "in the backstage".

Title: Re: Why does this thermocouple measurement work so well? (EEVblog #512)
Post by: necessaryevil on May 19, 2015, 07:45:32 am

Yes, but most of the thermocouple is exposed to the ambient air, so I would expect a much lower temperature.

Title: Re: Why does this thermocouple measurement work so well? (EEVblog #512)
Post by: electr_peter on May 19, 2015, 05:36:54 pm

Thermal resistance of thermocouple <-> heatsink - very low.
Thermal resistance of thermocouple <-> air - very high. Air flow is also very low.
Comparatively high thermal resistance to air has almost no effect on heat transfer from heatsink to thermocouple. It is like connecting 1Ohm and 1000Ohm resistors in parallel - circuit would not see any significant difference between [1Ohm] and [1Ohm | 1000Ohm] load.

Also, thermal mass of thermocouple is very low, so it would heat up very quickly to almost the same temperature as the metal heatsink.

Title: Re: Why does this thermocouple measurement work so well? (EEVblog #512)
Post by: necessaryevil on May 20, 2015, 08:29:52 am

Hmmm... Thanks! I figured out that the small thermal mass would help, but I didn't think about the thermal resistance difference.

Good explanation with the parallel resistance analogy.