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I'm working on a project to read a load cell. I've fed the load cell sig+/- through the INA125 with an offset to output 0.454V-5V to an analog pin of a PSoC1 CY8C28433.
I've tried using the DelSigPlus and ADCINC with 14bit of resolutions. If my math is right, I should be able to read 5/(2^14) = 0.3mV/div
The resolution I care is more in the region of 2.44mV/div
However, I've run into a problem somewhere. The hardware portion seems to working correctly. Every 1 lb change on the load cell translates to about 2.44mV change at the INA125 output. The PSoC however is not detecting this change at all. To make sure the code was "working" I applied a very large weight (~135lbs) and saw the ADC output a change of 551 counts (difference). The math doesn't seem to match though. Is there a limitation that I am missing? Perhaps I can't sample with 0.3mV/div of resolution?
Thank you for your help.
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To clarify a bit, I've tried using DelSigPlus once and ADCINC the other time, both had the same symptoms. I've also tried 12bit with similar results.
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Post an archive of your project so we can see all settings -
“File” Designer
“Archive Project”
Regards, Dana.
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The first thing I see are you have read modify writes to ports with
mixed I/O. You need to use shadow registers, see ap note for discussion.
http://www.cypress.com/?rID=2900 AN2094 - PSoC® 1 - Getting Started with GPIO
Keep in mind this constraint, from PGA datasheet -
The input and output voltage ranges of the amplifier do not extend to the power supplies (i.e., they are not "rail-to-rail" opamps). The allowed input range is a combination of input limit, output limit, power supply voltage, analog ground value, and selected gain. This is illustrated in the DC and AC Electrical Characteristics section.
You can eliminate the PGA and its CM problems, as well as its offsets, drift,
by connecting + ADCinc input directly to a pin. P2_1 in this case. Otherwise
set OpAmp bias in global properties to high power.
You have the column clock for ADCinc set at 1 Mhz, but optimal from datasheet
is 2 Mhz.
Your CPU clk is set for Sysclk/8, unless you are trying to save power consider
setting it to Sysclk/1.
If the INA125 is running off split supplies keep in mind the CM input range for
PSOC 1 is analog ground / Vss, you cannot input - signals into PSOC. So you
have to offset the INA125 output.
Regards, Dana.
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Thanks Dana!
I just tried the opamp high power option and the clock changes recommendations. The sensitivity is better, but still not enough. I'm going to try switching out the PGA and give the other option you suggested a try.
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Hello Dana,
I changed to read P2_1 and got rid of PGA. Unfortunaly same results. I added weights until the ADC reported a +1 division change and that was a difference of 69mV. For lack of better describing terms, the resolution I got from this simple incomplete test is that I'm getting 69mV/div instead of the calculated .3mV/div for the 14bit ADC.
I think there's still some setting I'm getting wrong...
Thank you for your continued help.
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Your reference is Vdd, a divider off that. Point is are you averaging readings
to take out noise ? A good measure is to use your DSO on infinite persistence
and look at Vdd rail. You will probably see at least a couple hundred mV which
you need to reduce.
http://www.cypress.com/?rID=2843 AN2096
http://www.cypress.com/?rID=2641 AN2239
Best bulk caps for this purpose is Polymer Tantalum, their ESR curves and order
of magnitude better than traditional Tanatalums, And of course a ceramic disk in
parallel. 01 uF or better.
Do you have a link for the load cell datasheet ?
Regards, Dana.
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I will look to improve VCC noise.
I haven't been averaging or doing any filtering. I'm actually hoping to see the noise in the ADC reading, but do not see any. The readings are consistently one value until I try to apply at least 69mV worth of weight, in which case it goes up, but once I remove the weight, the ADC goes back to the initial value. Can't see any noise in the ADC readings.
Load Cell: SBO-2K (https://www.transducertechniques.com/sbo-load-cell.aspx)
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I improved the VCC a bit, but maybe is not there yet. I have the VCC ripple down to 60mV peak to peak. I'll look into getting a quieter supply.
Another bit of information about what I just observed. This is rough estimates and not precisely measured at all.
Placing 30lbs on the LC, the ADC reports a +1 change, placing 31lbs has a +2 change, 32lbs, gives +3 change...
Thank you for your help.
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First a lkittle troublshooting -
1) Connect ADCinc input to a pot connected to VDD. Using a voltmeter
set the pot to different positions and compare what you read on voltmeter to
what PSOC is producing.
Remember ADCINC_iClearFlagGetData() returns a signed integer, Vdd/2 input =
0x0000.
Regards, Dana.
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Would it still return a signed integer when the setting has been changed to unsigned in the configuration GUI?
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Looking at .lst file the ASM does not appear to test for global
flag/setting, however I am not an ASM program capable person
on this processor. The pot test should quickly answer that question.
Regards, Dana.
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I put a 10k pot and checked the ranges and they seem to behave like they should. Changing the pot to yield 18mV change gave the ADC a change of 2 division. The math doesn't seem to be correct, but this might be because the signed /unsigned setting is not correct.
ADC count of 0x1243 for 583mV reading on the oscope. Mathematically 0x1243 should yield 4675*(5/(2^14))= 1.426V but that might be something else I can deal with after calibration and filtering.
The symptoms seems very strange though, with the pot the ADC values seem to change linearly with change in voltages, however with the INA125 output it does not seem to be that way.
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Mathematically 0x1243 should yield 4675*(5/(2^14))= 1.426V
If its signed then it would be 4675*(2.5/2^13) + 2.5 = 3.93 V
Don't forget to pay attention to the Common Mode Range limitations
of the IA125, from datasheet -
INPUT COMMON-MODE RANGE
The input common-mode range of the INA125 is shown in
the typical performance curves. The common-mode range is
limited on the negative side by the output voltage swing of
A2, an internal circuit node that cannot be measured on an
external pin. The output voltage of A2 can be expressed as:
V02 = 1.3VIN – (VIN – VIN) (10kΩ/RG)
(voltages referred to IAREF terminal, pin 5)
The internal op amp A2 is identical to A1. Its output swing
is limited to approximately 0.8V from the positive supply
and 0.25V from the negative supply. When the input com
mon-mode range is exceeded (A2’s output is saturated), A1
can still be in linear operation, responding to changes in the
non-inverting input voltage. The output voltage, however,
will be invalid.
Regards, Dana.
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The application of the IA125 looks right, offset circuit straighforward, I knew
Widlar, inventor of the LM10, worked a few desks away from him. Took him
into an account here in Boston many years ago. Super creative guy who
wrestled unsuccessfully with alcoholism. Very sad.
So we have PSOC operating correctly, the IA operating correctly according to
your measurements, globlins and ghosts in between. You got me for the moment.
Good solid grounds between the IA, Loadcell, and PSOC ? No cold solder joints......
Regards, Dana.
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The answer to the signed property selection of the ADC from tech support -
The Global parameter "DataFormat" determines the data format of the return result of the
API ADCINC_iClearFlagGetData(). The APIs: ADCINC_1_iClearFlagGetData and
ADCINC_1_wClearFlagGetData are the same.
For clarification, you may refer to the line 288 in ADCINC.asm and line 135 in ADCINC_INT.asm.
Regards, Dana.
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Thanks for the clarifications Dana!
I've checked soldering joints and have a good ground. I'll go back and check around one more time and see if anything is wrong.
I appreciate your continued help.
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You are always welcome!
Dana.
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Quick update. I changed the offset to 2.5V and am now getting inital readings that seem to be correct, I can detect 1lbs increments and decrements. Will continue development and see if problem arises at higher ranges.