At the end of the previous blog about the pressostat and PID working together, I mentioned that I would like to clean up the xmas tree of wires and have as few cables and probes as possible to visually disturb the classic design of the La Pavoni.
Getting rid of the probe that was fastened with copper tape to the top of the brew group was a priority. I wanted to hide a new probe in the cooling fin as close as possible to the brew group.
This morning I asked Tije if he could do that. He would need to drill a straight hole of 3mm diameter in the 4mm inner ring of the cooling fin that sits as a tight clamp around the brew group.
Always the optimist, Tije set to work:
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First, Tije made a piece of aluminum to fit the inside of the ring. Drilling a thin hole straight through the curved aluminum, if possible tangentially going through the inside of the ring to touch the brew head directly, you need the support of the temporary inside piece.
At home, I first measured the temperature from the probe inside the ring when the probe on top of the group was at the designed 86ºC. That turned out to be 78ºC. Then I removed the top probe and had only the new 'hidden' probe to work with.
From the back of the cooling fin, just one probe cable goes to the controller.
The La Pavoni machine has been expanded and enhanced in stability, but it is not turned into a jukebox with lots of extra lights and dials. Just the little wire going from the back of the cooling ring down to the cable that connects to the external control box. The La Pavoni could even work with just the internal pressostat but for best extraction stability connecting the controller is a welcome extra feature.
Below, you can see the graph of the group temperature probe as the PXG4 is doing its auto-tune to determine the best settings of the internal P, I and D variables. Switching on the heating element for a full minute, the PID traces the delay and proportion of the results, repeats this once more 10 minutes later and then, after another 15 minutes of calculations, it has decided what's the best strategy to keep the group stable as measured from the new vantage point.
During testing with both probes active, I noticed that changes in the room, like a big window opened wide, or me blowing air past the group, change the group temperature, up to a few degrees and if this is a new situation that lasts longer than a few moments, the PID reacts and compensates. I think this is an advantage over PIDs that merely keep the boiler at a specific temperature, especially for a machine with a relatively small brew group as the La Pavoni. I expect that bigger professional brew groups with their much heavier weight keep themselves stable more easily.
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I pulled two espresso's. The brew group probe showed a minor blip of two degrees Celsius and the PID guided it back to idle temperature.
Idling, the group temp as seen by the probe is between 77.8ºC and 78.2ºC
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I think this La Pavoni PID & P-stat project is finished.
Thanks Wa'il, Tije, Marko and the Fuji team France for your help and suggestions!!
Related posts:
http://kostverlorenvaart.blogspot.nl/2015/01/la-pavoni-fuji-pxg4-pid-and-pressostat.html
http://kostverlorenvaart.blogspot.nl/2015/01/la-pavoni-brew-group-temp-control.html
http://kostverlorenvaart.blogspot.nl/2015/01/plotting-pavoni-pulse.html
http://kostverlorenvaart.blogspot.nl/2015/01/time-to-pid-pavoni.html
http://kostverlorenvaart.blogspot.nl/2015/01/wiring-la-pavoni-for-fuji-pxg-4.html
Getting rid of the probe that was fastened with copper tape to the top of the brew group was a priority. I wanted to hide a new probe in the cooling fin as close as possible to the brew group.
This morning I asked Tije if he could do that. He would need to drill a straight hole of 3mm diameter in the 4mm inner ring of the cooling fin that sits as a tight clamp around the brew group.
Always the optimist, Tije set to work:
First, Tije made a piece of aluminum to fit the inside of the ring. Drilling a thin hole straight through the curved aluminum, if possible tangentially going through the inside of the ring to touch the brew head directly, you need the support of the temporary inside piece.
 |
| Aligning the 3mm drill |
 |
| Tije at work |
 |
| Finished! Perfect. |
 |
| You have to look to find the 'hidden' probe |
 |
| Much cleaner sight, just the La Pavoni and the external controller |
Below, you can see the graph of the group temperature probe as the PXG4 is doing its auto-tune to determine the best settings of the internal P, I and D variables. Switching on the heating element for a full minute, the PID traces the delay and proportion of the results, repeats this once more 10 minutes later and then, after another 15 minutes of calculations, it has decided what's the best strategy to keep the group stable as measured from the new vantage point.
During testing with both probes active, I noticed that changes in the room, like a big window opened wide, or me blowing air past the group, change the group temperature, up to a few degrees and if this is a new situation that lasts longer than a few moments, the PID reacts and compensates. I think this is an advantage over PIDs that merely keep the boiler at a specific temperature, especially for a machine with a relatively small brew group as the La Pavoni. I expect that bigger professional brew groups with their much heavier weight keep themselves stable more easily.
I pulled two espresso's. The brew group probe showed a minor blip of two degrees Celsius and the PID guided it back to idle temperature.
Idling, the group temp as seen by the probe is between 77.8ºC and 78.2ºC
I think this La Pavoni PID & P-stat project is finished.
Thanks Wa'il, Tije, Marko and the Fuji team France for your help and suggestions!!
Related posts:
http://kostverlorenvaart.blogspot.nl/2015/01/la-pavoni-fuji-pxg4-pid-and-pressostat.html
http://kostverlorenvaart.blogspot.nl/2015/01/la-pavoni-brew-group-temp-control.html
http://kostverlorenvaart.blogspot.nl/2015/01/plotting-pavoni-pulse.html
http://kostverlorenvaart.blogspot.nl/2015/01/time-to-pid-pavoni.html
http://kostverlorenvaart.blogspot.nl/2015/01/wiring-la-pavoni-for-fuji-pxg-4.html