SPRUJ42 User guide

SPRUJ42E March 2022 – October 2024 AM2631 , AM2631-Q1 , AM2632 , AM2632-Q1 , AM2634 , AM2634-Q1

PRODUCTION DATA

3.7.2.45 EPWM_CMPD Register

7.2.45.1 EPWM_CMPD Register (Offset = E2h) [reset = 0h]

Counter Compare D Register

LINK feature access should always be 16-bit.

Table 3-681 Instance Table

Instance Name	Physical Address
EPWM0_G0	5000 00E2h
EPWM0_G1	5004 00E2h
EPWM0_G2	5008 00E2h
EPWM0_G3	500C 00E2h
EPWM1_G0	5000 10E2h
EPWM1_G1	5004 10E2h
EPWM1_G2	5008 10E2h
EPWM1_G3	500C 10E2h
EPWM2_G0	5000 20E2h
EPWM2_G1	5004 20E2h
EPWM2_G2	5008 20E2h
EPWM2_G3	500C 20E2h
EPWM3_G0	5000 30E2h
EPWM3_G1	5004 30E2h
EPWM3_G2	5008 30E2h
EPWM3_G3	500C 30E2h
EPWM4_G0	5000 40E2h
EPWM4_G1	5004 40E2h
EPWM4_G2	5008 40E2h
EPWM4_G3	500C 40E2h
EPWM5_G0	5000 50E2h
EPWM5_G1	5004 50E2h
EPWM5_G2	5008 50E2h
EPWM5_G3	500C 50E2h
EPWM6_G0	5000 60E2h
EPWM6_G1	5004 60E2h
EPWM6_G2	5008 60E2h
EPWM6_G3	500C 60E2h
EPWM7_G0	5000 70E2h
EPWM7_G1	5004 70E2h
EPWM7_G2	5008 70E2h
EPWM7_G3	500C 70E2h
EPWM8_G0	5000 80E2h
EPWM8_G1	5004 80E2h
EPWM8_G2	5008 80E2h
EPWM8_G3	500C 80E2h
EPWM9_G0	5000 90E2h
EPWM9_G1	5004 90E2h
EPWM9_G2	5008 90E2h
EPWM9_G3	500C 90E2h
EPWM10_G0	5000 A0E2h
EPWM10_G1	5004 A0E2h
EPWM10_G2	5008 A0E2h
EPWM10_G3	500C A0E2h
EPWM11_G0	5000 B0E2h
EPWM11_G1	5004 B0E2h
EPWM11_G2	5008 B0E2h
EPWM11_G3	500C B0E2h
EPWM12_G0	5000 C0E2h
EPWM12_G1	5004 C0E2h
EPWM12_G2	5008 C0E2h
EPWM12_G3	500C C0E2h
EPWM13_G0	5000 D0E2h
EPWM13_G1	5004 D0E2h
EPWM13_G2	5008 D0E2h
EPWM13_G3	500C D0E2h
EPWM14_G0	5000 E0E2h
EPWM14_G1	5004 E0E2h
EPWM14_G2	5008 E0E2h
EPWM14_G3	500C E0E2h
EPWM15_G0	5000 F0E2h
EPWM15_G1	5004 F0E2h
EPWM15_G2	5008 F0E2h
EPWM15_G3	500C F0E2h
EPWM16_G0	5001 00E2h
EPWM16_G1	5005 00E2h
EPWM16_G2	5009 00E2h
EPWM16_G3	500D 00E2h
EPWM17_G0	5001 10E2h
EPWM17_G1	5005 10E2h
EPWM17_G2	5009 10E2h
EPWM17_G3	500D 10E2h
EPWM18_G0	5001 20E2h
EPWM18_G1	5005 20E2h
EPWM18_G2	5009 20E2h
EPWM18_G3	500D 20E2h
EPWM19_G0	5001 30E2h
EPWM19_G1	5005 30E2h
EPWM19_G2	5009 30E2h
EPWM19_G3	500D 30E2h
EPWM20_G0	5001 40E2h
EPWM20_G1	5005 40E2h
EPWM20_G2	5009 40E2h
EPWM20_G3	500D 40E2h
EPWM21_G0	5001 50E2h
EPWM21_G1	5005 50E2h
EPWM21_G2	5009 50E2h
EPWM21_G3	500D 50E2h
EPWM22_G0	5001 60E2h
EPWM22_G1	5005 60E2h
EPWM22_G2	5009 60E2h
EPWM22_G3	500D 60E2h
EPWM23_G0	5001 70E2h
EPWM23_G1	5005 70E2h
EPWM23_G2	5009 70E2h
EPWM23_G3	500D 70E2h
EPWM24_G0	5001 80E2h
EPWM24_G1	5005 80E2h
EPWM24_G2	5009 80E2h
EPWM24_G3	500D 80E2h
EPWM25_G0	5001 90E2h
EPWM25_G1	5005 90E2h
EPWM25_G2	5009 90E2h
EPWM25_G3	500D 90E2h
EPWM26_G0	5001 A0E2h
EPWM26_G1	5005 A0E2h
EPWM26_G2	5009 A0E2h
EPWM26_G3	500D A0E2h
EPWM27_G0	5001 B0E2h
EPWM27_G1	5005 B0E2h
EPWM27_G2	5009 B0E2h
EPWM27_G3	500D B0E2h
EPWM28_G0	5001 C0E2h
EPWM28_G1	5005 C0E2h
EPWM28_G2	5009 C0E2h
EPWM28_G3	500D C0E2h
EPWM29_G0	5001 D0E2h
EPWM29_G1	5005 D0E2h
EPWM29_G2	5009 D0E2h
EPWM29_G3	500D D0E2h
EPWM30_G0	5001 E0E2h
EPWM30_G1	5005 E0E2h
EPWM30_G2	5009 E0E2h
EPWM30_G3	500D E0E2h
EPWM31_G0	5001 F0E2h
EPWM31_G1	5005 F0E2h
EPWM31_G2	5009 F0E2h
EPWM31_G3	500D F0E2h

Figure 3-311 EPWM_CMPD Name Register

15	14	13	12	11	10	9	8
CMPD
R/W
0h
7	6	5	4	3	2	1	0
CMPD
R/W
0h

Table 3-682 EPWM_CMPD Register Field Descriptions

Bit	Field	Type	Reset	Description
15:0	CMPD	R/W	0h	Compare D Register The value in the active CMPD register is continuously compared to the time-base counter [TBCTR]. When the values are equal, the counter-compare module generates a "time-base counter equal to counter compare D" event. Shadowing of this register is enabled and disabled by the CMPCTL2[SHDWDMODE] bit. By default this register is shadowed. - If CMPCTL2[SHDWDMODE] = 0, then the shadow is enabled and any write or read will automatically go to the shadow register. In this case, the CMPCTL2[LOADDMODE] bit field determines which event will load the active register from the shadow register: - If CMPCTL2[SHDWDMODE] = 1, then the shadow register is disabled and any write or read will go directly to the active register that is, the register actively controlling the hardware. - In either mode, the active and shadow registers share the same memory map address.