Motor soft limits not behaving

rovtech · Joined: 24 Sep 2006 Posts: 262

I have two routines that stop an underwater robotic arm at up or down limits and back it off slightly. The up limit works perfectly but the down limit stutters before stopping even though the two routines are identical.
The positioning of the motor is by a 10k pot mechanically coupled to the motor. The problem has nothing to do with backlash or noise.
The 16F1509 controls two motors and both do exactly the same thing. Proper PCBs and permanent construction are used. i.e. this is not a breadboard system.
The relevant routines are below and are in an endless polling loop. The arm movement is controlled by joysticks containing switches. DOWN movement of the motor causes the voltage and position value to increase, UP decreases the value, sorry for the confusion. I am using the adc value raw.
I have added ‘&&!at_arm_limit’ to the ‘if’ statements for troubleshooting to only allow the routine to be used once. It will reset if I let go of the joystick in which case the routine finishes backing off the limits (a second try). The top routine works 100% but the bottom one usually stops without backing up. Without this addition the arm gets there with some stuttering which told me it was getting stopped and not completing in the while loop. HOW CAN IT NOT COMPLETE THE WHILE LOOP? Perhaps I’m using the while incorrectly? A delay after the 'read_adc();' does not help.

newguy · Joined: 24 Jun 2004 Posts: 1907

PCM programmer · Joined: 06 Sep 2003 Posts: 21708

It stutters. You have a routine that stops the arm if there is over-current.
That could be the source of the stuttering.

Ttelmah · Joined: 11 Mar 2010 Posts: 19513

What happens if you reverse the order of the tests?. Shouldn't matter, but does mean there is slightly more delay reaching the 'down'. If it changes things then you have a pointer to the problem.

My guess would actually be that you are meeting a difference in the mechanical behaviour of the system. When you stop going down, it tends because of it's weight to overshoot, so has to move back further than it might appear, hence a jerk....

rovtech · Joined: 24 Sep 2006 Posts: 262

Thanks 'newguy'. The top one works the bottom one does not. This is why I put in extra brackets to see if this was the problem, but it is not.

Thanks 'PCM Programmer' yes I commented out the stop in the overcurrent stuff, and disabled anything else that may be to blame, no help. I put in delays here and there including after the 'read_adc(); which changed things but did not fix the problem. This led me to believe that the 'while' loop was not completing. I don't have an extra pin. The extra condition in the 'if' statement tells me that the 'while' statement is not completing and is exiting with the motor at the limit, not backed off. If I release the joystick it resets 'at_arm_limit' and the next time thru the motor backs off. Moving and holding the joystick 'down' causes the motor to move to the limit again but it does not back off, most of the time. It does work 1/3 of the time.

Thanks Ttelmah. Two motor, two position pots, same identical problem always on the down. Both motors are on the bench with nothing on the shafts but the belt to the position pot. I tried pressing on the belt to remove any backlash (not much) but it has no effect. If I change the backoff to 20 (while (arm_posn>(down_limit-20)) it does not help. I tried adding 'short motor out' and a delay in the stop function, no help. I just swapped the position of the two routines and the problem stays with the down limit. I agree it seems like a mechanical problem but on two systems? I wish I could post a picture and the flowchart.
How can the 'while' loop not complete, and why on the down limit only?
I was thinking of making the backoff a function and doing away with the 'while' function, but then I would not ever know what the problem is.
Is it OK to keep reading the adc in the while loop? A delay after it does not help and, besides, it works OK on the up limit.
I tried adding a stop and delay to reduce the current surge of sudden reverse. See below, it does not help.

Ttelmah · Joined: 11 Mar 2010 Posts: 19513

I think the mechanical issue is inherent in the weight involved. Measure the current drawn when moving 'up' versus what it draws when going 'down'. Try attaching a microswitch, and having this disconnect the drive, then run it up to this, then down to this. I bet you are going to find it goes a very significant distance further from the switch point in the down direction, versus the up.

This is why servo systems don't just stop motors, but ramp the speed up and down.

rovtech · Joined: 24 Sep 2006 Posts: 262

Adding a 50ms delay after starting the motor in the opposite direction seems to fix the problem. 10ms does not and 100ms might be safer.
When the motor stops at the limits it is with a clunk that is louder than when this fix changes direction, or at the other limit. When the while loop did complete without this delay there was also no clunk. Gearhead motor driven by L298 H-bridge from 12v and drawing <100mA.
I don't know why this works, or why the while loop does not complete without it.
I will 'scope the power supplies for spikes that may be causing problems but don't think I will find anything. Why would a delay make any difference?

PCM programmer · Joined: 06 Sep 2003 Posts: 21708

Here's a similar comment from a revision description in an old
project that I did around the year 2000:

Ttelmah · Joined: 11 Mar 2010 Posts: 19513

Obviously because it allows the motor time to actually stop.

When you stop in the down direction, it is almost certainly taking longer to stop.

rovtech · Joined: 24 Sep 2006 Posts: 262

Thanks Ttelmah, 270mA going up, 290mA going down, about 500mA (on DVM) when the direction changes but I will have to 'scope it with DSO to see what it really is. I did not think it was that high. The motor and L298 are powered from a 12v battery. The 5v for the PIC runs off the battery but does not handle the motor current. No load and no arm to lift at present but things will get worse when it is installed, especially in air.

Thanks PCM Programmer, it looks like this is where I'm heading. Time for the DSO.

Ttelmah · Joined: 11 Mar 2010 Posts: 19513

I was just going to add, that whatever you are seeing, you have to realise it may well get worse when the masses increase, but I see you have realised this. Very Happy

Question. How are you stopping the motor?. Do you just remove the drive, or do you brake the motor?. Turn on both the high side drives or both the low side drives. This will make the arm stop better, but more violently....

rovtech · Joined: 24 Sep 2006 Posts: 262

Doing this has a funny effect; the motor goes to the limit then sits in the while loop for about 40 seconds going tac-tac-tac... until it reaches the backoff point. It does not matter if the motor coasts a long way and the start current has to be less than the reverse current. It's getting stopped in the while loop.
I'm getting my 'scope.

Ttelmah · Joined: 11 Mar 2010 Posts: 19513

You need to realise that when it is coasting, it is acting as a generator. You have two voltage sources when you remove the drive. The first is the inductor in the motor coils, and the second it acting as a dynamo. The energy from both these has to go somewhere. The inductor can generate huge voltages for a moment (if not actually trapped, it'll rise till something breaks..). Now the voltages for these should be trapped by the diodes on the driver IC, but this can involve much higher instantaneous current than the normal drive.
Braking the motor is a better way to go for a servo type motion, but really needs something to limit the current. This is why normally you would ramp down at a defined rate, to a stop, then apply the brake.
With a 'non limited' brake, the motor is effectively 'bouncing'. The motor is stopping so fast that it is generating elastic behaviour in the attached mechanism...

rovtech · Joined: 24 Sep 2006 Posts: 262

The 5v looks clean but there are 2 volt pulses on the 12v power supply by the time it gets to the board. It has very long (4ft) #28 wire and a 470uF capacitor at the PCB. I think the L298 H Bridge is getting stopped by the pulses. It should not be because the PIC is still driving the pins. However it has internal logic...
This also does not explain why the 50ms delay fix worked. Perhaps the L298 cannot take such fast commands as the while loop is giving, especially when the up direction is being made. I will read the specs.
The final version will have much shorter wires but I should think of using something heavier.
Darn, there goes my idea of feeding the wires up Polyflo tubing to make them waterproof and flexible. Anything bigger won't fit.
I can make the capacitor bigger as well.
I will do some mods to shorten the wires and re-test to see if this is really the problem.

Yes that fixed it! Time to think.
Thank you all for the help.

Note added:
I just checked the spec sheets and the current sense to the L298 is maximum -1v to +2.3v. I have been exceeding both limits and going to 2.5v. I think this is what has been tripping the motor off. The clunk is probably the L298 stopping the motor to protect itself. I need to do more tests. The motor current according to the sense resistor is 140mA going up, 180 mA going down, and just over an amp when reversing.

PCM programmer · Joined: 06 Sep 2003 Posts: 21708

You're saying the wire is 28 AWG ?