SPRUIW9C October 2021 – March 2024 TMS320F280033 , TMS320F280034 , TMS320F280034-Q1 , TMS320F280036-Q1 , TMS320F280036C-Q1 , TMS320F280037 , TMS320F280037-Q1 , TMS320F280037C , TMS320F280037C-Q1 , TMS320F280038-Q1 , TMS320F280038C-Q1 , TMS320F280039 , TMS320F280039-Q1 , TMS320F280039C , TMS320F280039C-Q1
Blank Control Logic: The DCAEVT1/2 and DCBEVT1/2 events can be filtered using event filtering logic to remove noise by optionally blanking events for a certain period of time. This is useful for cases where the analog comparator outputs can be selected to trigger DCAEVT1/2 and DCBEVT1/2 events, and the blank control logic is used to filter out potential noise on the signal prior to tripping the PWM outputs or generating an interrupt or ADC start-of-conversion. Blank control logic is used to define a blanking window, which ignores all event occurrences on the signal while the window is active. The blanking window is configured in the DCFCTL, DCFOFFSET, and DCFWINDOW registers. The DCFCTL register enables the blanking window and aligns the blanking window to either a CTR = PRD pulse or a CTR = 0 pulse or both CTR = PRD and CTR = 0 as specified by DCFCTL[PULSESEL]. DCFCTL[SRCSEL] selects the DCxEVTy event source for the DCEVTFILT signal. An offset value in TBCLK counts is programmed into the DCFOFFSET register, which determines at what point after the CTR = PRD or CTR = 0 pulse the blanking window starts. The duration of the blanking window, in number of TBCLK counts after the offset counter expires, is written to the DCFWINDOW register by the application. Before and after the blanking window ends, events can generate soc, sync, interrupt, and force signals as before. Figure 20-54 shows the details of the event filtering logic.
Capture Control Logic: The event filtering can also capture the TBCTR value of the selected DCxEVTy event as configured in the DCCAPCTL register. When capture control logic is enabled, the selected DCxEVTy event triggers capture of the TBCTR to the active register. The CPU reads directly from the active register unless shadow mode is enabled by DCCAPCTL[SHDWMODE]. When shadow mode is enabled, the active register information is copied to shadow register on the event specified by DCFCCTL[PULSESEL], and the CPU reads from the shadow register. After the selected DCxEVTy event, no further capture events occur until the event specified by DCCAPCTL[CAPMODE]. The CAPMODE can be configured two ways: (1) no further capture events occur until the event defined by DCFCTL[PULSESEL] or (2) no further capture events occur until the compare-event flag at DCCAPCTL[CAPSTS] is cleared by DCCAPCTL[CAPCLR].
You must configure the ePWM blanking window appropriately so that the Trip Input stays valid for at least 3 ePWM cycles after the blanking window has expired.
Figure 20-55 illustrates several timing conditions for the offset and blanking window within an ePWM period. Notice that if the blanking window crosses the CTR = 0 or CTR = PRD boundary, the next window still starts at the same offset value after the CTR = 0 or CTR = PRD pulse.
BLANKPULSEMIX Signals
The DCFCTL MUX (available for Blank Control Logic and Capture Control Logic) has new options that allows the mux to select the BLANKPULSEMIX signal. The BLANKPULSEMIX signal is used, if the signal is selected by DCFCTL[PULSESEL]