What is your best guess as to why the temp jumps from 380-400 as an example? Like I asked earlier, "does it really heat that fast? And if so, why does it take do long for OF's tests to get back to 400?"
Can I make a request to take temps under the bowl while in use? Just under the 4 holes. Lets try to find out everything we can without actually cracking it open. ie where the temp diode is
Quoting OF again, "they'd be sure to be found out if not by one of us by their competition?"
And that is why I said their development of the temperature aspect of this product was a fail.
I'm sorry, I don't know what " temp jumps from 380-400" you're talking about. I don't recall saying I'd seen any such jump
up in temperature. Yes, some larger fast
drops in temperature but the rate of climb I saw was on the order of less than a degree a second going from 380 to 390, and the last ten degrees takes maybe a full minute? Hardly a jump in my book.
If the question is why does it take so long to recover after a hit, the answer is, I think, for the same reason it takes
much longer to make the same temperature increase when coming up from cold, nasty old Thermodynamics again....heat has to flow from hot to cold at a rate determined by the conditions.
Heat can't transfer through all the insulation (including the bulk of the load itself) to move that temperature up very fast at all. Drops, OTOH, are an entirely different thing. As our brother member points out:
Let's not forget that we are pulling air that is a lot Colder through a heating chamber.
This is, of course, the very reason you can blow out a match or candle. It's very easy to remove heat in such conditions quickly with a blast of cold air (
convection) but the time to replace it by
conduction through such a long and resisting path is much longer.
If you can tell me what "temp jumps from 380-400" you're talking about perhaps I have some possible explanation to suggest, but no guesses there's plenty of that already IMO.
As to the request to measure air temperature outside the bowl (under it) I'll consider it but I can assure you the sensor is not there (it would have to have been fired into the ceramic under the glaze) and I seriously doubt it's a diode used to sense temperature......what makes you think so? Of the available sensor types I know of (have used) it would be my last choice for the temperature range (diodes won't take the heat and need messy individual calibration to give the precision called for). Dollars to doughnuts it's a
thermistor, sometimes called a RTD (like what Solo does in the same application) and for sure it's not located there.
I believe the area just outside the inlet holes sees the same sort of rapid drop as the center of the load as cold air is drawn though the grill past it.
On the last point, I get it you think this is a sham and doesn't work as advertised, I just don't agree with the details. I think (even though I haven't measure it) that changing the temperature setting eventually changes the heat in the load. Raise the setting and the load goes up by about 'the right amount'. To me that makes the variable temperature feature real. It's just not working in the details like you think it should?
You suggested earlier that a software change could be made to give more accurate indications. Prompting me to ask, "How do you propose to sense a hit happening so you know when, how much, and for how long to lower the displayed temperature?". In exchange, could you please answer that? TIA.
While it's certainly conjecture on my part whether Davinci intended to mislead or not, I think we can all agree that quoting heat up times at the element and omitting heat up times at where it actually counts (which are 4x longer) is misleading.
Read what you want into it (but I recommend you be ready to defend such ideas) but again you can make some vapor at that point, right? They're not lying if they say 'can make vapor in XX seconds'? You're confusing
some production with the
maximum production some guys crave I think. IMO an important point. I'm trying to explain why sipping on it works well while honking on it doesn't and think I may be being misquoted?
I disagree on this point, I have found other portable digitally controlled vaporizers do a very good job of this, my lowly Vapir n02 was bang on. I think that the bowl temperature can be approximated using an offsetting temperature algorithm, placing the sensor further away or simply shielding the sensor with a similar lining as the bowl. I am not an engineer but my point is that others with more crude designs have solved this issue a long time ago....
Interesting. I don't know the n02. On what do you base this assertion? How did you measure it? Why is it you know "others with more crude designs have solved this issue a long time ago...."? I think such errors
both ways (let's remember, Solo load temperature goes
up with hitting) exist and folks just are unaware of it because they're not actually measuring what's going on.....could be wrong, of course, but I've shown I think my reasons for thing so?
And I'll ask the same question again, what specifically do you suggest can be used to determine how much offset to show when to show it and for how long if you can't measure the 'heat load' of the unknown hit and it's timing? What is the algorithm and what's it based on? IMO the sensor changes you suggest 'don't feed the bull dog'. Hitting is a
dynamic condition under the control of the user. Both the timing and the levels. Consider the case when you open the bedroom window and let cold air in at night. How does the thermostat in another room know how much cold air comes in and when? IMO it doesn't. And while it may have represented the bedroom temperature well before the window was opened, it no longer does after that happens. After the window is closed, the system recovers and the reading is more accurate again. Same as with Ascent?
I get it that looking for a 'smoking gun' to condemn the Ascent design can be attractive, but I don't think I've shown that. Rather, I think, I've explained the observation that sipping works better. Or, looked at the other way, why hitting it hard and fast doesn't work as well? Simply put the rush of cold air quickly takes parts of the load 'off line' production wise as the temperature drops out of the magic range. It's a rate issue, remove the time factor and there's no 'problem'.
Use a different heating system, like TV's heat core convection vapes, and you get the opposite effect,. The harder you hit it the hotter it gets since the air being drawn into the load is above 400F not under it.
Edit: OK, in response to the request below I just ran that test:
Can I make a request to take temps under the bowl while in use? Just under the 4 holes. Lets try to find out everything we can without actually cracking it open. ie where the temp diode is
As you might expect cooling by the outside air leads to a lower temperature, in the 350 to 360F range when I measured it, depending in part on orientation of the unit.
The same sort of ten second draw runs the temperature down to the 220 to 240F range over several runs.
I'm not sure what that shows in terms of sensors (except to say it's not there apparently), but there's the answer I found.
OF
.
