INT_RDA causes strange pwm jiggling.

[palyancodr]

Hi,

I am using ccs c ide version v4.110 programming 16f877a.

I generate single pwm signal using timer1 with 500us each interrupt no problem with that.

I added delay to make precise sets to high cycle of pwm, no problem with that either.

I need serial communication between two pics that's why I need an int_rda interrupt. The pic which generates pwm will read a value from the other one when the data is available or presents.

When i add int_rda to code, high cycle of the pwm jiggles and this jiggling effects the servo, I want rock solid pwm signal. Why do you think this jiggle happens?

I added a video link below belonging to virtual oscilloscope reading of that pwm. You can see the high duty jiggle as I zoom in through it.

Here is the link of the video: http://www.youtube.com/watch?v=lO2SNWzSeV8

Here is the code:

[PCM programmer]

The "jiggle" is caused by the random delay injected by the #int_rda
interrupt. The CCS interrupt handler code takes time to execute, and
the user code inside your #int_rda routine also takes time. You can
count up the instruction cycles used to do this, by looking at the .LST
file. You can pretty much see where the jiggle comes from when you
do that.

Using the #priority statement won't fix this problem, because #int_rda
could already be in process when a Timer1 interrupt occurs.

Here is a possible fix:

Your Timer1 interrupt occurs every 500us. Your #int_rda interrupt
can occur every 1042us (at 9600 baud). So, you could remove the
separate #int_rda routine code and move it into the #int_timer1 routine.

You would now poll for the RDA interrupt inside the Timer1 routine and
then handle it there, if it occurs. You're polling it at a rate faster than
the RDA interrupt can occur, so it should work.

Handle the timer stuff first, inside the #int_timer1 routine. Then check for
the RDA interrupt. You will also have to clear the RDA interrupt flag if it's set.

[Ttelmah]

and remember that simply 'if (kbhit())' checks the RDA flag.

[asmboy]

I assume you also understand,
that due to the way you create the "pwm" in PIC "SOFT" code,
making almost ANY change or addition in the structure of your
main() core loop - will also upset the output pattern as well.

If the timing of that "pwm" is critical, i would consider generating
it some other way.

For instance:

Using the PIC to control an 82C54 with a bit of added HCT logic to glue
2/3 of the chips' timers together comes quickly to mind.

Best of all - if using a crystal clock source-
the jitter will be amazingly small - not to mention consistent-
and you can get greater precision
in the duty cycle than coding for the pic by itself,
will ever provide.

[asmallri]

[ckielstra]

[palyancodr]

Removing the int_rda interrupt and instead pulling it inside the timer1 or while loop was logical however tried it with the code below still no fix:S

[asmboy]

IF the code you have now was to become functional JUST as you wish,
would it then be COMPLETE ??

meaning NO MORE code to be added ??

or is this a reduced example of part of some larger project ??

how low does the timing jitter have to be , for it to be considered
working properly ??
what is the allowable jitter time ?? how many usecs?

( i assume the design can already have at least several hundred nsecs - even when working "correctly" )


i can't say it more clearly than this:
the way you generate the ultimate output pulse train
is STRUCTURED too poorly to be trusted for real stability.

using that HUGE delay statement
just makes my head spin.

[PCM programmer]

[palyancodr]

I tried both like this and like at the previous post. There is still jiggle.

[PCM programmer]

[palyancodr]

With your correction at your latest post, i still have jiggle around 10us. Your suggestion must have solved the problem,however; mine is still have jiggle. Do you think that this can occur because of my ccs version 4.110?
_________________
Hardware-Software Developer
Physics Engineer
Ceo airVision Aerial Video and Photography
Ceo Massive Robotics

ccs c ide version: 4.110
Pic: 16F877

[PCM programmer]

I installed vs. 4.110 and I see a little bit of jiggle. Maybe 4us at most.
So I re-installed vs. 5.016 and I am seeing it there too. I think it's
because you update your PWM pin outside of the #int_timer1 routine.

Normally, software PWM will do the pin update inside the interrupt routine.
If I move the code that's inside the for(;;) loop, so it's inside the
#int_timer1 routine, then I don't even see the 4us of jiggle. It's stable.

[palyancodr]

Here is the latest version of code that i am having problem with if some you having the same problem, thanks to PCM programmer, the code is jiggle free. Thanks for helping me out PCM programmer and all of the fellas posting suggestions here.

[Ttelmah]

Your serial check should be after the PWM. Otherwise there will be a few uSec of jiggle (tiny, but still there).
Note PCM_programmers comment:

"Handle the timer stuff first, inside the #int_timer1 routine. Then check for
the RDA interrupt. You will also have to clear the RDA interrupt flag if it's set."

Note the 'then'.

Best Wishes