Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am using Beaglebone not Beaglebone Black.

I just tried to output a PWM and I expected potential frequencies of some megaherz on such a fast device.
I found out that 100HZ is the exact maximum I can set through sysfs.
I started digging online for examples and they did not mention a limit but they also did not show an value faster than 100HZ.


root@beaglebone:/sys/class/pwm/ehrpwm.0:0# echo 10000000 >  period_ns 
root@beaglebone:/sys/class/pwm/ehrpwm.0:0# echo 1000000 >  period_ns 
-sh: echo: write error: Invalid argument
root@beaglebone:/sys/class/pwm/ehrpwm.0:0# echo 200 >  period_freq 
-sh: echo: write error: Invalid argument
root@beaglebone:/sys/class/pwm/ehrpwm.0:0# echo 101 >  period_freq 
-sh: echo: write error: Invalid argument
root@beaglebone:/sys/class/pwm/ehrpwm.0:0# echo 100 >  period_freq 

Any 10cent AVR can do a faster PWM than that.
Is there some trick I missed?
Do I really have to create a custom PWM by manuallz toggling GPIO if I want a faster frequency than 100 HZ ?!

share|improve this question

1 Answer 1

up vote 1 down vote accepted

I actually found the solution just shortly after opening my question.
I will post it here as I think this might actually cause more than just me to wonder :)

The PWM frequency is of course not limited like that on a 1GHZ device, the kernel driver is just not working in the same way one would expect.

If you enter a duty_percent value (like 1 percent) then the driver seems to just calculate the duty_ns value out of it and forget about percent afterward.
A normal user would think he is in "percent mode" but actually the percentage file is just bound to a wrapper to help.
The same counts for the frequency!
If you now change the frequency to a higher value then then the kernel checks if the duty_ns cycle period fits into the new total period_ns!
It ignores that you actually set a percentage!

So of course you can not have an on-period which is larger than the whole period, so it fails.

Long text short summary:
Always set duty_cycle to zero BEFORE you set the frequency if the previous value will not fit into the new period, this avoids frustration.

share|improve this answer
For the sake of completeness: I measured the smallest possible pulse step size to be 10 ns. Furthermore, the pulse width timer has a 16 Bit resolution. So be aware of rounding problems. –  Dietrich May 5 at 23:29
Also I think using the PWM for realtime jobs (like flight control) is not a good idea if you have an non RT OS behind it (like standard Linux) I stopped from using the PWM of beaglebone for such a job, it is not reliable enough regarding the timing. A good solution is to add a small AVR through I2C or SPI or similar and use that for the realtime jobs and PWM. –  John May 7 at 14:07
@Dietrich: you mean 65535ns is max you can set ? –  xmen W.K. Aug 30 at 4:28
@xmen W.K: (Took a while to get the BB running again..). The maximum period I could set was 1 second. Since the hardware registers are 16 Bit and they are scaled to the period, it means that the duty cycle resolution is worse than a 65536-th of the period despite of other values in the SysFs interface. –  Dietrich Sep 22 at 16:24
@Dietrich:16 bit sucks. So cant set frequency 5Hz or lower. Do you know anything that can generate PWM at low frequency like 5Hz and duty cycle 1000us ? –  xmen W.K. Sep 23 at 1:37

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.