From: "Finn Lassen finn.lassen@verizon.net" <flyrotary@lancaironline.net>
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Subject: Re: [FlyRotary] Re: Dyno Sheet
To: Rotary motors in aircraft <flyrotary@lancaironline.net>
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Date: Sat, 8 Aug 2020 10:05:05 -0400
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If max from the pressure sensors is 35mV it should work very well 
directly with the EGT inputs. Yes, brilliant. If 1.45psi is 35mV then 
the Skyview should show something like 850C before you change the 
Skyview default EGT setting for an EGT channel. (41uV/C)

Just be aware that the temperature around the Skyview /may/ influence 
the numbers. But if you're only interested in the differences between 
the 5 sensors and not the absolute numbers from flight to flight, it may 
not be a factor.

A temperature probe on the Skyview, logged to one of the channels, 
should let you correct the EGT-Pressure channel values in the 
spreadsheet for zero-offset.

Actually if the difference in Skyview ambient temperature is only 10 to 
20C, it may prove insignificant (0.41 to 0.82mV compared to the 35mV). 
In other words, an 8C difference in ambient temperature should only give 
a 1% offset error in your pressure readings. Don't know if you can even 
calibrate the EGT-Pressure inputs with a manometer that accurately.

Finn

On 8/7/2020 9:50 PM, Stephen Izett stephen.izett@gmail.com wrote:
> So Finn. The fuller story is.
>
> I???m thinking I need to make up a string of 5 amps for my 5 transducers that I have already, to condition the few millivolts to 0-3.3v for a pic micro or the sort.
> Then I???m thinking how do I read and log the data.
> But I???d like it synced with the dynon log data which is brilliant.
> Look at a graph with pressures along side temps and speeds and altitudes???..
>
> And then I think of the abundant excess EGT inputs that are used to that kind of millivolt input all connected and logged and displayable. Just a bit of configuration and basically no circuit and development time required.
>
> Is it to good to be true. Maybe, but indications are its too easy.
>
> Brilliant if it works.
>
> Steve
>
>
>
>
>
>
>> On 8 Aug 2020, at 9:39 am, Stephen Izett stephen.izett@gmail.com <flyrotary@lancaironline.net> wrote:
>>
>> Hi Finn
>> I input a polynomial based on the raw data from the transducer data sheet.
>> Full scale output is 35mV for 1.45psi.
>> Offset at 0 reading is on average 20mV.
>>
>> But I thought I???d create a polynomial based on a new set of data using the water manometer incase the 'junction flux capacitor' was throwing out the readings to far.
>> To far would be pretty far, as I???m simply wanting rough numbers for comparison as I play with the cowl flaps etc.
>>
>> Does that make sense?
>>
>> Steve
>>
>>
>>
>>> On 8 Aug 2020, at 9:14 am, Finn Lassen finn.lassen@verizon.net <flyrotary@lancaironline.net> wrote:
>>>
>>> Oh, I thought you'd already worked out the polynonmial values.
>>>
>>> http://www.mosaic-industries.com/embedded-systems/microcontroller-projects/temperature-measurement/thermocouple/calibration-table#computing-cold-junction-voltages
>>>
>>> probably way overkill.
>>>
>>> Input from a  type K (EGT) thermocouple would expect  a maximum of 55mV (1370C +).
>>>
>>> So you may need a voltage divider, depending on the max expected outputs from the pressure sensors.
>>> Then the trick will be to come up with a formula to counteract the chip's calculation.
>>>
>>> For the MAX6675 used in the EM3, it appears fairly simple:
>>> The MAX6675 includes signal-conditioning hardware to
>>> convert the thermocouple???s signal into a voltage compatible
>>> with the input channels of the ADC. The T+ and T-  inputs
>>> connect to internal circuitry that reduces the introduction
>>> of noise errors from the thermocouple wires.
>>> Before converting the thermoelectric voltages into
>>> equivalent temperature values, it is necessary to compensate
>>> for the difference between the thermocouple
>>> cold-junction side (MAX6675 ambient temperature) and
>>> a 0??C virtual reference. For a type-K thermocouple, the
>>> voltage changes by 41??V/??C, which approximates the
>>> thermocouple characteristic with the following linear
>>> equation:
>>> VOUT = (41??V / ??C) ??? (TR - TAMB)
>>> Where:
>>> VOUT is the thermocouple output voltage (??V).
>>> TR is the temperature of the remote thermocouple junction
>>> (??C).
>>> TAMB is the ambient temperature (??C).
>>>
>>> Fortunately one of the channels in my EM3 is the temp of the PCB where the chip is located (TAMB).
>>>
>>> Don't know what chips are used in the Dynon Skyview.
>>>
>>> Finn
>>>
>>>
>>> On 8/7/2020 7:14 PM, Stephen Izett stephen.izett@gmail.com wrote:
>>>> Hi Finn.
>>>>
>>>> The pressure transducers I have can measure from memory a differential pressure of about 40??? of water.
>>>> They have a millivolt output and in the process of cooking up a set of amps and thinking about the fact that Ive used up all my Engine Monitor inputs I pondered all those unused EGT and CHT inputs with amplifiers for millivolt input.
>>>> I thought about the thermocouple compensation, impedance matching and common mode currents from the egt amps (don't really have a handle on these) and decided I probably wouldn't damage them!
>>>> So I just thought Id try it out.
>>>> I wired one straight to an egt input and the Dynon 5v supplied, and applied some lung pressure and the dynon display showed some life.
>>>> I reworked a new Polynomial and she seems to provide a linear output over my lung burst pressure which from memory is a little over 1 psi.
>>>> I???m not after certifiable numbers but have built a manometer to hopefully roughly calibrate the output by playing with the Polynomial.
>>>> So lots of ignorance as far as what???s happening with the electrons at the interface but the results look promising and could be so much more helpful and easier than rigging a manometer in the cockpit.
>>>>
>>>> Happy to have my party spoilt by someone with knowledge of the compensation circuit used in the EGT amps.
>>>>
>>>> Cheers
>>>>
>>>> Steve
>>>>
>>>>
>>>>
>>>>
>>>>
>>>>
>>>>> On 7 Aug 2020, at 11:01 pm, Finn Lassen finn.lassen@verizon.net <flyrotary@lancaironline.net> wrote:
>>>>>
>>>>> On 8/7/2020 10:00 AM, Stephen Izett stephen.izett@gmail.com wrote:
>>>>>> I worked out that they interface quite nicely without any other circuitry with the Dynon Skyview's surplus EGT inputs via a new Polynomial in the sensor config settings.
>>>>> I'm thinking of using my unused?? EGT inputs for current (Hall) sensors.
>>>>>
>>>>> How did you compensate for the EGT compensation?
>>>>>
>>>>> Finn
>>>>>
>>>>>
>>>>> ---
>>>>> This email has been checked for viruses by Avast antivirus software.
>>>>> https://www.avast.com/antivirus
>>>>>
>>>>>
>>>>> --
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    <div class="moz-cite-prefix">If max from the pressure sensors is
      35mV it should work very well directly with the EGT inputs. Yes,
      brilliant. If 1.45psi is 35mV then the Skyview should show
      something like 850C before you change the Skyview default EGT
      setting for an EGT channel. (41uV/C)<br>
      <br>
      Just be aware that the temperature around the Skyview <i>may</i>
      influence the numbers. But if you're only interested in the
      differences between the 5 sensors and not the absolute numbers
      from flight to flight, it may not be a factor.<br>
      <br>
      A temperature probe on the Skyview, logged to one of the channels,
      should let you correct the EGT-Pressure channel values in the
      spreadsheet for zero-offset.<br>
      <br>
      Actually if the difference in Skyview ambient temperature is only
      10 to 20C, it may prove insignificant (0.41 to 0.82mV compared to
      the 35mV). In other words, an 8C difference in ambient temperature
      should only give a 1% offset error in your pressure readings.
      Don't know if you can even calibrate the EGT-Pressure inputs with
      a manometer that accurately.<br>
      <br>
      Finn<br>
      <br>
      On 8/7/2020 9:50 PM, Stephen Izett <a class="moz-txt-link-abbreviated" href="mailto:stephen.izett@gmail.com">stephen.izett@gmail.com</a> wrote:<br>
    </div>
    <blockquote type="cite" cite="mid:list-617453@logan.com">
      <pre wrap="">So Finn. The fuller story is.

I???m thinking I need to make up a string of 5 amps for my 5 transducers that I have already, to condition the few millivolts to 0-3.3v for a pic micro or the sort.
Then I???m thinking how do I read and log the data.
But I???d like it synced with the dynon log data which is brilliant.
Look at a graph with pressures along side temps and speeds and altitudes???..

And then I think of the abundant excess EGT inputs that are used to that kind of millivolt input all connected and logged and displayable. Just a bit of configuration and basically no circuit and development time required.

Is it to good to be true. Maybe, but indications are its too easy.

Brilliant if it works.

Steve


</pre>
      <blockquote type="cite">
        <pre wrap="">On 8 Aug 2020, at 9:39 am, Stephen Izett <a class="moz-txt-link-abbreviated" href="mailto:stephen.izett@gmail.com">stephen.izett@gmail.com</a> <a class="moz-txt-link-rfc2396E" href="mailto:flyrotary@lancaironline.net">&lt;flyrotary@lancaironline.net&gt;</a> wrote:

Hi Finn
I input a polynomial based on the raw data from the transducer data sheet.
Full scale output is 35mV for 1.45psi.
Offset at 0 reading is on average 20mV.

But I thought I???d create a polynomial based on a new set of data using the water manometer incase the 'junction flux capacitor' was throwing out the readings to far.
To far would be pretty far, as I???m simply wanting rough numbers for comparison as I play with the cowl flaps etc.

Does that make sense?

Steve


</pre>
        <blockquote type="cite">
          <pre wrap="">On 8 Aug 2020, at 9:14 am, Finn Lassen <a class="moz-txt-link-abbreviated" href="mailto:finn.lassen@verizon.net">finn.lassen@verizon.net</a> <a class="moz-txt-link-rfc2396E" href="mailto:flyrotary@lancaironline.net">&lt;flyrotary@lancaironline.net&gt;</a> wrote:

Oh, I thought you'd already worked out the polynonmial values.

<a class="moz-txt-link-freetext" href="http://www.mosaic-industries.com/embedded-systems/microcontroller-projects/temperature-measurement/thermocouple/calibration-table#computing-cold-junction-voltages">http://www.mosaic-industries.com/embedded-systems/microcontroller-projects/temperature-measurement/thermocouple/calibration-table#computing-cold-junction-voltages</a>

probably way overkill.

Input from a  type K (EGT) thermocouple would expect  a maximum of 55mV (1370C +).

So you may need a voltage divider, depending on the max expected outputs from the pressure sensors.
Then the trick will be to come up with a formula to counteract the chip's calculation.

For the MAX6675 used in the EM3, it appears fairly simple:
The MAX6675 includes signal-conditioning hardware to
convert the thermocouple???s signal into a voltage compatible
with the input channels of the ADC. The T+ and T-  inputs
connect to internal circuitry that reduces the introduction
of noise errors from the thermocouple wires.
Before converting the thermoelectric voltages into
equivalent temperature values, it is necessary to compensate
for the difference between the thermocouple
cold-junction side (MAX6675 ambient temperature) and
a 0??C virtual reference. For a type-K thermocouple, the
voltage changes by 41??V/??C, which approximates the
thermocouple characteristic with the following linear
equation:
VOUT = (41??V / ??C) ??? (TR - TAMB)
Where:
VOUT is the thermocouple output voltage (??V).
TR is the temperature of the remote thermocouple junction
(??C).
TAMB is the ambient temperature (??C).

Fortunately one of the channels in my EM3 is the temp of the PCB where the chip is located (TAMB).

Don't know what chips are used in the Dynon Skyview.

Finn


On 8/7/2020 7:14 PM, Stephen Izett <a class="moz-txt-link-abbreviated" href="mailto:stephen.izett@gmail.com">stephen.izett@gmail.com</a> wrote:
</pre>
          <blockquote type="cite">
            <pre wrap="">Hi Finn.

The pressure transducers I have can measure from memory a differential pressure of about 40??? of water.
They have a millivolt output and in the process of cooking up a set of amps and thinking about the fact that Ive used up all my Engine Monitor inputs I pondered all those unused EGT and CHT inputs with amplifiers for millivolt input.
I thought about the thermocouple compensation, impedance matching and common mode currents from the egt amps (don't really have a handle on these) and decided I probably wouldn't damage them!
So I just thought Id try it out.
I wired one straight to an egt input and the Dynon 5v supplied, and applied some lung pressure and the dynon display showed some life.
I reworked a new Polynomial and she seems to provide a linear output over my lung burst pressure which from memory is a little over 1 psi.
I???m not after certifiable numbers but have built a manometer to hopefully roughly calibrate the output by playing with the Polynomial.
So lots of ignorance as far as what???s happening with the electrons at the interface but the results look promising and could be so much more helpful and easier than rigging a manometer in the cockpit.

Happy to have my party spoilt by someone with knowledge of the compensation circuit used in the EGT amps.

Cheers

Steve


</pre>
            <blockquote type="cite">
              <pre wrap="">On 7 Aug 2020, at 11:01 pm, Finn Lassen <a class="moz-txt-link-abbreviated" href="mailto:finn.lassen@verizon.net">finn.lassen@verizon.net</a> <a class="moz-txt-link-rfc2396E" href="mailto:flyrotary@lancaironline.net">&lt;flyrotary@lancaironline.net&gt;</a> wrote:

On 8/7/2020 10:00 AM, Stephen Izett <a class="moz-txt-link-abbreviated" href="mailto:stephen.izett@gmail.com">stephen.izett@gmail.com</a> wrote:
</pre>
              <blockquote type="cite">
                <pre wrap="">I worked out that they interface quite nicely without any other circuitry with the Dynon Skyview's surplus EGT inputs via a new Polynomial in the sensor config settings.
</pre>
              </blockquote>
              <pre wrap="">I'm thinking of using my unused?? EGT inputs for current (Hall) sensors.

How did you compensate for the EGT compensation?

Finn


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