ADC erratic readings

[murgui]

Hi,

I'm trying to read the voltage of a voltage divider's NTC. I'm sending the read variables with a USB<-->TTL to the PC by RS232. I read 6 values and I can't understand the values received. I use the compiler version 4.114.

The code:

Slave.h

[Ttelmah]

Key thing that will be causing enormous problems is having INT_SSP enabled without a handler.
The result of this could be completely erratic code behaviour.....

The second problem is you are writing out the end of the 'mesura' array.

You start with a=0. then increment it before you use it. The inner loop is executed six times, so you write to index 1, 2, 3, 4, 5, 6. The array maximum index is 5 (0...5 for six elements). So whatever is in memory immediately after this will get corrupted. Garbage....

Simplify. Use an array for the channel numbers.

const int8 channels[] = {2,3,4,5,6,9};

Then just do everything with a count from 0 to 5.

[murgui]

Hi, thank you for your time.

I implemented your suggestions and the code right now is as follows.

Slave.c(slave.h unmodified)

[murgui]

Without the filtering, the results were perfect. Now, I've been running the program for a few time and the values are getting near the real values. It seems the implemented filter has a slow transient. Also, the filter seems to get unstable after some time passed.

[temtronic]

One problem I see , if I read your code correctly, is that you only actually read a sensor twice
one time then multiply value * 7 then one time which you add to the first result.
IF the first reading is bad, it becomes 7 * BAD !
I'd rather you actually read the sensor 8 times. It doesn't really take very long and it reduces the chance of a bad 'raw' reading.
Since you're reading an NTC, I wouldn't think sensor reading time is too critical.
Also whenevr doing 'high level math', it's a good idea to printout actual raw readings, and computed numbers for every operation. That way you can SEE if it's a bad 'raw' reading or some 'funny' math problem( like missing braces).

Jay

[PCM programmer]

Look at your compiler warnings.

[murgui]

Thank you for all the support. You resulted really helpful. The program functions but I haven't managed to make the filter work. The values are unstable, at the beginning they are nonsense, passed 5 minutes they round a right value and finally it gets unstable again. I don't know what may be happening but I guess I will let the filter away.

Thank you for the help.

For anybody interested, the final code with working ADC channels' swap and rs232 communication is the following.

[Ttelmah]

No.

Don't do that. Fix the problem first, or it'll be hidden away beneath the filter, waiting to bite you.

The obvious things to look at are the supply itself (generally, if you are using the PIC's supply to feed the reference to the ADC, you will never do better than perhaps 1%). The PIC generates noise, as does everything else you have attached to the supply. This is 'why' separate a separate Vref input is available. Then the ground between the PIC, and the analog source(s). In particular it's design, and the routing of signals. Remember one count of the ADC, using a 5v supply, is just 5mV....

Then 'look again' at your INT_SSP. Look at the examples. What you are doing is wrong. As it stands, the interrupt says _one_ transaction is taking place. You must not loop inside the interrupt. Doing so, means your main code will be hung, and if then something goes wrong with the I2C transactions, could be hung forever..... Each interrupt should handle just the one transaction.

[temtronic]

OK, Is it just me ? I can't see where the variable 'V' is getting reset to 0, zero, so I'm not sure what the purpose of V is...

Also....

this code
T[i]=(((mesura[i]/1024.0*5-13.971)/-0.0373)-273.15)*100;
f1[i]=T[i]/100;

Can you not get rid of both the *100 in the first line and the /100 in the next line?

It'd save a LOT of PIC processing time so it'd be faster.

Jay

[murgui]

Hi, answering Ttelmah, the unstabilities I talk about are not little variations but really big numbers, even higher to overflow the 10 bit limit of the adc. I dare to discard the error of the power supply. About the interruptions use, I get your point but I think that if the possibility of IIC getting stuck exists, it will also exist in the main program, am I wrong?
Answering Temtronic, the purpose of this is doing that part just one time to have enough information to start. Also, the product and division by 100 helps me separate the integer and decimal part in order to ease the information transmission by IIC.

Thank you very much,

Murgui.

[Ttelmah]

If you handle the I2c properly, the problem won't exist. You are trying to use it incorrectly.

[Ttelmah]

First, forget the adc, put your code in a simple loop, counting from 0 to 1023, and display the results.
Your problem may be nothing to do with erratic results from the ADC, but be from erratic results on the serial, or even the RAM being corrupted by EMI.
The ADC cannot return a value above 1023, so you have something else wrong...

Then it is worth 'thinking' about your maths. It is a simple linear conversion, and can be done in integer, without getting involved in float at all.

[murgui]

Hi, following your advices I made the filter work. now I'm stuck with the communications. The Master appears to receive the information correctly but the information received is just not what it should be receiving. I looked the variables the slave should send and they look fantastic. I don't know if the slave is not sending what it should, the master is not reading as it should or what may be wrong. I tried to comment more explicitly everything, looking to other forum's fellows I realized it is necessary.
The variables sent by serial communication are always the same. Even when the data is supposed to change.

Master.c

[temtronic]

quick look...
In the master, you've got 5 CAN ISRs enabled but only one 'handler', that I can see.
THAT is a huge 'nono'. Never, ever enable an ISR without the handler code for it as ALL sorts of weird, stange, unpredictable things WILL happen.

If your only problem is the CAN code to PC, then use 'dummy, known' data as transmit it to the PC get rid of ALL the other code, focus ONLY on the PIC to PC via CAN routines.

Also, your function names should better describe what they do.
say... write_via_CAN() as opposed to write(), read_via_I2C instead of read(). It makes the code 'self documenting' and 3 days or 3 months from now, you and others will KNOW what's supposed to happen.

Jay

[murgui]

Hi, I will disable now all the unused CAN ISRs.
I probably explained myself wrong: the communication with the PC is simply to check if the received data from I2C is fine, and it isn't. I have still not tried the CAN communication. The PC protocol is RS232 with a USB to TTL adapter.