|
|
|
![]() |
|
|||||||
|
||||||||
![]() |
|
|
Thread Tools | Rate Thread | Display Modes |
|
|
|
#1
|
|||
|
|||
|
"Chop rate"?
The term "chop rate" has been brought up a few times in the thread about the new speed controllers, but I'm not quite sure what it means. A few quick searches yielded little information; can anyone please explain? Thanks!
|
|
#2
|
|||
|
|||
|
Re: "Chop rate"?
To simplify, a motor controller has a few key variables:
Duty Cycle - What percent of the time is it "on"? Chop Rate - How often do you switch? Update Rate - How often do you change your duty cycle? If you want to learn more, I'd suggest looking at Class D (audio) amplifiers, and compare them to the other options. |
|
#3
|
||||
|
||||
|
Re: "Chop rate"?
A little bit of background on how motor controllers work. Ideally we would vary the voltage going to the motors to control them. We don't do this because the circuitry to do so would be overly complex. Instead we do something called PWM(Pulse Width Modulation). In pwm the controller can only switch the motors to full supply voltage or 0 volts. We acheive the effect of 'part throttle' by switching the motors on and off very rapidly. The percentage of the time that they are on is called the duty cycle and is usually measured in percent. The number of times we switch them on and off per second is the pwm frequency or as you referred to it 'chop rate'. The motor has a high inductance so it smooths out the signal.
The wave forms look something like this if you plot time on the x axis and voltage on the Y. In the graphs shown below the duty cycle varies but the pwm frequency is constant. Code:
0% duty cycle |____________ 25% duty cycle |-___-___-___ 50% duty cycle |--__--__--__ 75% duty cycle |---_---_---_ 100% duty cycle |------------ More importantly PWM frequency effects heating. If your PWM frequency is too high, you will unnecessarily waste power heating up your motor controller as it switches on and off. If the frequency is too low, you can heat up the motor. If you went to an extremely low frequency your system would start jerking, becoming nonlinear and generally behaving strangely. Last edited by Rickertsen2 : 06-08-2008 at 23:52. |
|
#4
|
||||
|
||||
|
Re: "Chop rate"?
Quote:
|
|
#5
|
|||
|
|||
|
Re: "Chop rate"?
Thank you, especially Rickertsen2, very much for your replies. Not only do I have "chop rate" cleared up now, but I'm much clearer on the functioning of the motor controllers in general, now.
|
![]() |
| Thread Tools | |
| Display Modes | Rate This Thread |
|
|
Similar Threads
|
||||
| Thread | Thread Starter | Forum | Replies | Last Post |
| Championship Event - Where the "Random" Match Sorting Really "Shines" | Travis Hoffman | Championship Event | 57 | 19-04-2007 08:06 |
| New NEMO White Papers! "Creating a Killer Packet" and "25 Ways to Sponsor" | Jessica Boucher | Team Organization | 0 | 10-08-2005 10:55 |
| "Thunderbirds" Vs. "Team America" Which one will rule the box office? | Elgin Clock | Chit-Chat | 3 | 07-09-2004 19:53 |
| Conflict between "Initialize_Tracker()" and "pwm13 & pwm15"? Kevin? | gnormhurst | Programming | 3 | 22-02-2004 02:55 |
| how tall is the ramp when in "up" and "balanced" position??? | archiver | 2001 | 1 | 24-06-2002 00:54 |