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I am brushing up on microcontrollers, using the STM32 series. (Specifically using the STM32F072BDISCOVERY board).

I am having some trouble understanding the use of timers and their various modes. Specifically, there are a lot of options for "Output Compare" (OC) modes, and other options for "PWM" modes. The RM0091 Reference manual is written as if they are two distinct, alternate modes of operation. I am working with the new HAL drivers as well, and there are different APIs to use OC vs PWM.

However, it looks to me like PWM is basically a subset/use case of the Output Compare capability, where the timer channel is configured to directly drive a hardware output.

Is there a firm distinction between OC and PWM modes that I am missing? In what way is PWM waveform generation not an Output Compare function?

  • OC is used to measure duty cycle, period, frequency, etc and PWM is used to produce a square wave with a particular duty cycle, period, frequency, etc. In other words, OC is input and PWM is output. – Fiddling Bits Sep 2 '14 at 20:28
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    @FiddlingBits, what you describe is Input Capture, another function of the timers. I haven't investigated too deeply since I don't intend to use it, but as I understand it an input trigger will cause the value of the counter to be stored in a register. Output Compare makes things happen when the timer value reaches a value set in a register. – mbmcavoy Sep 2 '14 at 20:45
  • You're right about OC. I was thinking about IC. – Fiddling Bits Sep 3 '14 at 14:16
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    Indeed PWM is just one possible mode to be used with output compare. If the documentation is not clear enough on it, then shame on the documentation. – swineone Sep 4 '14 at 23:51
  • Thanks @swineone. Add that as an answer, and I will accept it! I suspect that PWM is probably the most commonly used mode, so perhaps they wanted to make it clear how to do it, and the API seems a little simpler. – mbmcavoy Sep 5 '14 at 16:38
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The question is old but I was wondering the same and started digging into the topic.

In an STM32 micro, not all timers implement every function. My post is based on the STM32F030 Timer 1, which is I believe the most feature packed 4 channel implementation (or at least it was a few years ago).

The timer basically acts as a counter, with various options to where the counter clock comes from, what resets it, what the period is and the counter direction. This is the base for all extra features it implements, the HAL driver refers to it as Time Base. By itself, the counter function is not related to the timer channels.

There are 1-6 channels implemented in STM32 timers. These channels can be configured either independently, or in some case, in pairs (for functions like quadrature encoder mode). A channel can be configured as either input capture, or output compare. The input capture "listens to" some event and saves the counter of the time base in the CCRx registers. The output compare compares the counter register to a set value, given in the CCRx registers.

All the simple IC/OC modes and the extra functions, like PWM input, output, Hall effect sensor interfacing, are built on top of these two modes, their respective option bits act on the various input/output multiplexers and, regarding to OC mode basically tell the hardware what action to take based on the comparator outputs (CNT = CCRx, CNT > CCRx). In this case, PWM mode lets the output mode controller return to the CNT <= CCRx state when the counter register resets (more specifically, the update event), where as in the other OC modes the output mode controller ignores this signal and can be reset by hand, or by an external signal. The output signal is the OCxREF signal which then passes through some more hardware before it gets to the output pins. If it gets output at all, because you are allowed to not connect the timer to the output pins.

The STM32 timers are complicated. They have many logical blocks and a ton of configuration registers/bits so I may have missed something or completely misread something. Please feel free to correct me.

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output compare can only make 50% duty cycles (if in toggle mode) PWM can make different duty cycles as it is a combination with a timer interrupt and output compare

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PWM is a function of the Output Compare function.

In an AVR microcontroller the distinction can be inferred from the description of the Modes of Operation for each of the Timer/Counters:

The mode of operation, that is, the behavior of the Timer/Counter and the Output Compare pins, is defined by the combination of the Waveform Generation mode (WGMn3:0) and Compare Output mode (COMnx1:0) bits.

The Compare Output mode bits do not affect the counting sequence, while the Waveform Generation mode bits do. The COMnx1:0 bits control whether the PWM output generated should be inverted or not (inverted or non-inverted PWM). For non-PWM modes the COMnx1:0 bits control whether the output should be set, cleared or toggle at a compare match

Earlier in the description of the Output Compare units:

The comparator continuously compares TCNTn with the Output Compare Register (OCRnx). If TCNT equals OCRnx the comparator signals a match. A match will set the Output Compare Flag (OCFnx) at the next timer clock cycle. ... The Waveform Generator uses the match signal to generate an output according to operating mode set by the Waveform Generation mode (WGMn3:0) bits and Compare Output mode (COMnx1:0) bits.

Here is another difference noted in the same section:

The OCRnx Register is double buffered when using any of the twelve Pulse Width Modulation (PWM) modes. For the Normal, and Clear Timer on Compare (CTC) modes of operation, the double buffering is disabled. The double buffering synchronizes the update of the OCRnx Compare Register [which] prevents the occurrence of odd-length, non-symmetrical PWM pulses, thereby making the output glitch-free.

  • One can not assume that the definitions are used consistently across microcontroller families, let alone different manufacturers. In this case it may be useful to gain some intuition but STM32 micros are nowhere related to AVRs, and any similarity in their function can be assumed as coincidental. – Buga Dániel Apr 17 '18 at 7:24

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