ePWM Submodules
680
SPRUH22I – April 2012 – Revised November 2019
Copyright © 2012–2019, Texas Instruments Incorporated
C28 Enhanced Pulse Width Modulator (ePWM) Module
Table 7-15. Classical Dead-Band Operating Modes (continued)
Mode
Mode Description
DBCTL[POLSEL]
DBCTL[OUT_MODE]
S3
S2
S1
S0
6
EPWMxA Out = EPWMxA In (No Delay)
0 or 1
0 or 1
0
1
EPWMxB Out = EPWMxA In with Falling Edge Delay
7
EPWMxA Out = EPWMxA In with Rising Edge Delay
0 or 1
0 or 1
1
0
EPWMxB Out = EPWMxB In with No Delay
(1)
When this bit is set to 1, user should always either set OUT_MODE bits such that Apath = InA
or
OUTSWAP bits such that
EPWMxA=Bpath. Otherwise, EPWMxA will be invalid.
Table 7-16. Additional Dead-Band Operating Modes
Mode Description
DBCTL[DEDB-
MODE]
DBCTL[OUTSWAP]
S8
S6
S7
EPWMxA and EPWMxB signals are as defined by OUT-MODE bits.
0
0
0
EPWMxA = A-path as defined by OUT-MODE bits.
0
0
1
EPWMxB = A-path as defined by OUT-MODE bits (rising edge delay or delay-
bypassed A-signal path)
EPWMxA = B-path as defined by OUT-MODE bits (falling edge delay or delay-
bypassed B-signal path)
0
1
0
EPWMxB = B-path as defined by OUT-MODE bits
EPWMxA = B-path as defined by OUT-MODE bits (falling edge delay or delay-
bypassed B-signal path)
0
1
1
EPWMxB = A-path as defined by OUT-MODE bits (rising edge delay or delay-
bypassed A-signal path)
Rising edge delay applied to EPWMxA / EPWMxB as selected by S4 switch (IN-
MODE bits) on A signal path only.
0
X
X
Falling edge delay applied to EPWMxA / EPWMxB as selected by S5 switch (IN-
MODE bits) on B signal path only.
Rising edge delay and falling edge delay applied to source selected by S4 switch
(IN-MODE bits) and output to B signal path only.
(1)
1
X
X
