PIC24 ADC Question

[chrislaw79]

Device: PIC24FJ128306
Complier Version: 5.063

I have an issue where I am using ADC channels 0 and 1 (PIN_B0 and PIN_B1) as analog inputs and what would be ADC channels 10, 11, and 15 (PIN_B10, PIN_B11, and PIN_B15) as digital outputs. When I change the state of the digital outputs is seems to have an effect on the analog input reading. Unfortunately I am using my supply voltage for my analog reference and I honestly believe that may be my problem but I am wondering (say praying) if I have a an issue with my adc set up. I have included my ADC code snippet below. My design uses a 32 MHz oscillator connected to OSC1.

[temtronic]

Comments though I don't use that PIC.

1) using VDD as Vref is always a BAD idea. It's not stable, subject to EMI, power surges etc....Doesn't that PIC have an internal Vref available?

2) you appear to be controlling relays. If these are mechanical (not SSR) then they WILL drop the VDD of the PIC. A 'scope' will show this happens.

Sure way to prove all this is to NOT energise the relays. Instead just read the ADC inputs and display on say an LCD or send to PC. IF the readings are rock stable (+-5 bits) then it IS the relays affecting the Vref.

You may also require to add capacitance to them depending on the relay currents. EM relays typically spike 10X their holding current. Without a good 'reservoir' of electrons, VDD again dips, ADC ref dips, ADC rdgs are bad....

Jay

[chrislaw79]

Thanks for your response. I figured it was the relays.

When I disable the relays the readings are a lot more stable. The Relays when energized see to pull Vdd down by up to .003 volts (doesn't seem like a lot but it certainly affects the output).

Lesson learned. If I provide a separate but stable AVdd, I imagine this would clear up my problem.

[temtronic]

Yes, for ANY good ADC response you need a super stable Vref especially for anything over 8 bits !!
You also need the AVDD to be 'decoupled' from DVDD small R, big C(*2 if possible), and thick power traces on PCB.
All this of course is AnalogADC101 which probably isn't taught in schools these days...
You could write a book about proper analog ADC designs...hmm.. yeah, several are out there......

Jay

[PCM programmer]

The variables RX, LX are never initialized to 0 near the start of main.

[chrislaw79]

The RX and LX variables are initialized in the actual program. I must have forgotten to copy those lines over when I cut down the actual program to the snippet shown above.

[Ttelmah]

[chrislaw79]

[newguy]

Best option is a precision voltage reference IC. Feed would be: DVdd -> 1+uF ceramic -> choke rated for ~100mA -> 1+uF ceramic AND 0.1uF ceramic -> precision Vref IC. Output of Vref IC -> 1+uF ceramic -> Vref+ of PIC.

You can sort of get away without a precision Vref IC but you'll need the choke. With a 220uF tantalum cap, you're going to need a choke rated for a higher saturation current otherwise the thing will take forever to charge. Also please add a 0.1uF ceramic in parallel with the tantalum cap, placed close to the PIC.

[Ttelmah]

The point about capacitors is that bigger is not necessarily better. For blocking HF signals, small ceramic and polyester capacitors in particular perform much better than most larger types. This is why you will see supply designs that have an electrolytic capacitor close to the regulator, then multiple small capacitors each close to the legs of the main chips around the board.
Tantalum capacitors have high packing density, and better HF performance than most standard electrolytic types, but 'beware' they also have some of the nastiest failure modes. For use in some types of equipment only special rated tantalum's are allowed, and other capacitor types are generally preferred. Use only with care....
If you look at recommended designs for supplies for the PIC's you will often see something like five ceramic capacitors close to each of the supply legs....